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Overview
Comment:Merge all recent trunk enhancements.
Downloads: Tarball | ZIP archive | SQL archive
Timelines: family | ancestors | descendants | both | lsm-vtab
Files: files | file ages | folders
SHA3-256:1d23294d88b1a80fe1f5403ea4fd75e61bb4932d5b714ea450d1b4b84f0896ab
User & Date: drh 2017-06-02 23:44:38
Context
2017-06-06
16:14
Fix a threading problem in lsm test code. check-in: 501238b9 user: dan tags: lsm-vtab
2017-06-02
23:44
Merge all recent trunk enhancements. check-in: 1d23294d user: drh tags: lsm-vtab
23:32
Add the --fsync flag to kvtest, and document the --nosync flag. check-in: 7fdc78a6 user: drh tags: trunk
2017-06-01
16:13
Add test code for LSM to the ext/lsm1/lsm-test directory. check-in: bb7436e8 user: dan tags: lsm-vtab
Changes
Hide Diffs Unified Diffs Ignore Whitespace Patch

Changes to Makefile.in.

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# will run on the target platform.  (BCC and TCC are usually the
# same unless your are cross-compiling.)  Separate CC and CFLAGS macros
# are provide so that these aspects of the build process can be changed
# on the "make" command-line.  Ex:  "make CC=clang CFLAGS=-fsanitize=undefined"
#
CC = @CC@
CFLAGS = @CPPFLAGS@ @CFLAGS@
TCC = $(CC) $(CFLAGS) -I. -I${TOP}/src -I${TOP}/ext/rtree -I${TOP}/ext/fts3


# Define this for the autoconf-based build, so that the code knows it can
# include the generated config.h
# 
TCC += -D_HAVE_SQLITE_CONFIG_H -DBUILD_sqlite

# Define -DNDEBUG to compile without debugging (i.e., for production usage)
................................................................................
         expr.lo fault.lo fkey.lo \
         fts3.lo fts3_aux.lo fts3_expr.lo fts3_hash.lo fts3_icu.lo \
         fts3_porter.lo fts3_snippet.lo fts3_tokenizer.lo fts3_tokenizer1.lo \
         fts3_tokenize_vtab.lo \
         fts3_unicode.lo fts3_unicode2.lo fts3_write.lo \
	 fts5.lo \
         func.lo global.lo hash.lo \
         icu.lo insert.lo journal.lo json1.lo legacy.lo loadext.lo \
         main.lo malloc.lo mem0.lo mem1.lo mem2.lo mem3.lo mem5.lo \
         memjournal.lo \
         mutex.lo mutex_noop.lo mutex_unix.lo mutex_w32.lo \
         notify.lo opcodes.lo os.lo os_unix.lo os_win.lo \
         pager.lo parse.lo pcache.lo pcache1.lo pragma.lo prepare.lo printf.lo \
         random.lo resolve.lo rowset.lo rtree.lo select.lo sqlite3rbu.lo status.lo \

         table.lo threads.lo tokenize.lo treeview.lo trigger.lo \
         update.lo util.lo vacuum.lo \
         vdbe.lo vdbeapi.lo vdbeaux.lo vdbeblob.lo vdbemem.lo vdbesort.lo \
         vdbetrace.lo wal.lo walker.lo where.lo wherecode.lo whereexpr.lo \
         utf.lo vtab.lo

# Object files for the amalgamation.
................................................................................
  $(TOP)/src/fkey.c \
  $(TOP)/src/func.c \
  $(TOP)/src/global.c \
  $(TOP)/src/hash.c \
  $(TOP)/src/hash.h \
  $(TOP)/src/hwtime.h \
  $(TOP)/src/insert.c \
  $(TOP)/src/journal.c \
  $(TOP)/src/legacy.c \
  $(TOP)/src/loadext.c \
  $(TOP)/src/main.c \
  $(TOP)/src/malloc.c \
  $(TOP)/src/mem0.c \
  $(TOP)/src/mem1.c \
  $(TOP)/src/mem2.c \
................................................................................
SRC += \
  $(TOP)/ext/icu/sqliteicu.h \
  $(TOP)/ext/icu/icu.c
SRC += \
  $(TOP)/ext/rtree/rtree.h \
  $(TOP)/ext/rtree/rtree.c
SRC += \



  $(TOP)/ext/rbu/sqlite3rbu.h \
  $(TOP)/ext/rbu/sqlite3rbu.c
SRC += \
  $(TOP)/ext/misc/json1.c



# Generated source code files
#
SRC += \
  keywordhash.h \
  opcodes.c \
  opcodes.h \
................................................................................
  $(TOP)/src/test6.c \
  $(TOP)/src/test7.c \
  $(TOP)/src/test8.c \
  $(TOP)/src/test9.c \
  $(TOP)/src/test_autoext.c \
  $(TOP)/src/test_async.c \
  $(TOP)/src/test_backup.c \

  $(TOP)/src/test_blob.c \
  $(TOP)/src/test_btree.c \
  $(TOP)/src/test_config.c \

  $(TOP)/src/test_demovfs.c \
  $(TOP)/src/test_devsym.c \
  $(TOP)/src/test_fs.c \
  $(TOP)/src/test_func.c \
  $(TOP)/src/test_hexio.c \
  $(TOP)/src/test_init.c \
  $(TOP)/src/test_intarray.c \
................................................................................
  $(TOP)/src/test_syscall.c \
  $(TOP)/src/test_tclvar.c \
  $(TOP)/src/test_thread.c \
  $(TOP)/src/test_vfs.c \
  $(TOP)/src/test_windirent.c \
  $(TOP)/src/test_wsd.c       \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_test.c \

  $(TOP)/ext/rbu/test_rbu.c 

# Statically linked extensions
#
TESTSRC += \
  $(TOP)/ext/misc/amatch.c \

  $(TOP)/ext/misc/closure.c \

  $(TOP)/ext/misc/eval.c \
  $(TOP)/ext/misc/fileio.c \
  $(TOP)/ext/misc/fuzzer.c \
  $(TOP)/ext/fts5/fts5_tcl.c \
  $(TOP)/ext/fts5/fts5_test_mi.c \
  $(TOP)/ext/fts5/fts5_test_tok.c \
  $(TOP)/ext/misc/ieee754.c \
  $(TOP)/ext/misc/nextchar.c \
  $(TOP)/ext/misc/percentile.c \
  $(TOP)/ext/misc/regexp.c \

  $(TOP)/ext/misc/series.c \
  $(TOP)/ext/misc/spellfix.c \
  $(TOP)/ext/misc/totype.c \
  $(TOP)/ext/misc/wholenumber.c

# Source code to the library files needed by the test fixture
#
................................................................................
  parse.c \
  $(TOP)/ext/fts3/fts3.c \
  $(TOP)/ext/fts3/fts3_aux.c \
  $(TOP)/ext/fts3/fts3_expr.c \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_tokenizer.c \
  $(TOP)/ext/fts3/fts3_write.c \
  $(TOP)/ext/async/sqlite3async.c


# Header files used by all library source files.
#
HDR = \
   $(TOP)/src/btree.h \
   $(TOP)/src/btreeInt.h \
   $(TOP)/src/hash.h \
................................................................................

# executables needed for testing
#
TESTPROGS = \
  testfixture$(TEXE) \
  sqlite3$(TEXE) \
  sqlite3_analyzer$(TEXE) \
  sqldiff$(TEXE)


# Databases containing fuzzer test cases
#
FUZZDATA = \
  $(TOP)/test/fuzzdata1.db \
  $(TOP)/test/fuzzdata2.db \
  $(TOP)/test/fuzzdata3.db \
  $(TOP)/test/fuzzdata4.db


# Standard options to testfixture
#
TESTOPTS = --verbose=file --output=test-out.txt

# Extra compiler options for various shell tools
#
SHELL_OPT = -DSQLITE_ENABLE_JSON1 -DSQLITE_ENABLE_FTS4

SHELL_OPT += -DSQLITE_ENABLE_EXPLAIN_COMMENTS

FUZZERSHELL_OPT = -DSQLITE_ENABLE_JSON1
FUZZCHECK_OPT = -DSQLITE_ENABLE_JSON1 -DSQLITE_ENABLE_MEMSYS5




# This is the default Makefile target.  The objects listed here
# are what get build when you type just "make" with no arguments.
#
all:	sqlite3.h libsqlite3.la sqlite3$(TEXE) $(HAVE_TCL:1=libtclsqlite3.la)

Makefile: $(TOP)/Makefile.in
................................................................................
		-avoid-version

sqlite3$(TEXE):	$(TOP)/src/shell.c sqlite3.c
	$(LTLINK) $(READLINE_FLAGS) $(SHELL_OPT) -o $@ \
		$(TOP)/src/shell.c sqlite3.c \
		$(LIBREADLINE) $(TLIBS) -rpath "$(libdir)"

sqldiff$(TEXE):	$(TOP)/tool/sqldiff.c sqlite3.c sqlite3.h
	$(LTLINK) -o $@ $(TOP)/tool/sqldiff.c sqlite3.c $(TLIBS)








srcck1$(BEXE):	$(TOP)/tool/srcck1.c
	$(BCC) -o srcck1$(BEXE) $(TOP)/tool/srcck1.c

sourcetest:	srcck1$(BEXE) sqlite3.c
	./srcck1 sqlite3.c

fuzzershell$(TEXE):	$(TOP)/tool/fuzzershell.c sqlite3.c sqlite3.h
	$(LTLINK) -o $@ $(FUZZERSHELL_OPT) \
	  $(TOP)/tool/fuzzershell.c sqlite3.c $(TLIBS)

fuzzcheck$(TEXE):	$(TOP)/test/fuzzcheck.c sqlite3.c sqlite3.h



	$(LTLINK) -o $@ $(FUZZCHECK_OPT) $(TOP)/test/fuzzcheck.c sqlite3.c $(TLIBS)





mptester$(TEXE):	sqlite3.c $(TOP)/mptest/mptest.c
	$(LTLINK) -o $@ -I. $(TOP)/mptest/mptest.c sqlite3.c \
		$(TLIBS) -rpath "$(libdir)"

MPTEST1=./mptester$(TEXE) mptest.db $(TOP)/mptest/crash01.test --repeat 20
MPTEST2=./mptester$(TEXE) mptest.db $(TOP)/mptest/multiwrite01.test --repeat 20
mptest:	mptester$(TEXE)
	rm -f mptest.db
	$(MPTEST1) --journalmode DELETE
................................................................................
	mv vdbe.new tsrc/vdbe.c
	cp fts5.c fts5.h tsrc
	touch .target_source

sqlite3.c:	.target_source $(TOP)/tool/mksqlite3c.tcl
	$(TCLSH_CMD) $(TOP)/tool/mksqlite3c.tcl
	cp tsrc/shell.c tsrc/sqlite3ext.h .


sqlite3ext.h:	.target_source
	cp tsrc/sqlite3ext.h .

tclsqlite3.c:	sqlite3.c
	echo '#ifndef USE_SYSTEM_SQLITE' >tclsqlite3.c
	cat sqlite3.c >>tclsqlite3.c
................................................................................

hash.lo:	$(TOP)/src/hash.c $(HDR)
	$(LTCOMPILE) $(TEMP_STORE) -c $(TOP)/src/hash.c

insert.lo:	$(TOP)/src/insert.c $(HDR)
	$(LTCOMPILE) $(TEMP_STORE) -c $(TOP)/src/insert.c

journal.lo:	$(TOP)/src/journal.c $(HDR)
	$(LTCOMPILE) $(TEMP_STORE) -c $(TOP)/src/journal.c

legacy.lo:	$(TOP)/src/legacy.c $(HDR)
	$(LTCOMPILE) $(TEMP_STORE) -c $(TOP)/src/legacy.c

loadext.lo:	$(TOP)/src/loadext.c $(HDR)
	$(LTCOMPILE) $(TEMP_STORE) -c $(TOP)/src/loadext.c

main.lo:	$(TOP)/src/main.c $(HDR)
................................................................................

fts3_write.lo:	$(TOP)/ext/fts3/fts3_write.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/fts3/fts3_write.c

rtree.lo:	$(TOP)/ext/rtree/rtree.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/rtree/rtree.c




json1.lo:	$(TOP)/ext/misc/json1.c
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/misc/json1.c

# FTS5 things
#
FTS5_SRC = \
   $(TOP)/ext/fts5/fts5.h \
................................................................................
   $(TOP)/ext/fts5/fts5_unicode2.c \
   $(TOP)/ext/fts5/fts5_varint.c \
   $(TOP)/ext/fts5/fts5_vocab.c  \

fts5parse.c:	$(TOP)/ext/fts5/fts5parse.y lemon 
	cp $(TOP)/ext/fts5/fts5parse.y .
	rm -f fts5parse.h
	./lemon $(OPTS) fts5parse.y

fts5parse.h: fts5parse.c

fts5.c: $(FTS5_SRC)
	$(TCLSH_CMD) $(TOP)/ext/fts5/tool/mkfts5c.tcl
	cp $(TOP)/ext/fts5/fts5.h .

................................................................................
# fixture.  Otherwise link against libsqlite3.la.  (This distinction is
# necessary because the test fixture requires non-API symbols which are
# hidden when the library is built via the amalgamation).
#
TESTFIXTURE_FLAGS  = -DTCLSH=1 -DSQLITE_TEST=1 -DSQLITE_CRASH_TEST=1
TESTFIXTURE_FLAGS += -DSQLITE_SERVER=1 -DSQLITE_PRIVATE="" -DSQLITE_CORE 
TESTFIXTURE_FLAGS += -DBUILD_sqlite



TESTFIXTURE_SRC0 = $(TESTSRC2) libsqlite3.la
TESTFIXTURE_SRC1 = sqlite3.c
TESTFIXTURE_SRC = $(TESTSRC) $(TOP)/src/tclsqlite.c
TESTFIXTURE_SRC += $(TESTFIXTURE_SRC$(USE_AMALGAMATION))

testfixture$(TEXE):	$(TESTFIXTURE_SRC)
................................................................................

fastfuzztest:	fuzzcheck$(TEXE) $(FUZZDATA)
	./fuzzcheck$(TEXE) --limit-mem 100M $(FUZZDATA)

valgrindfuzz:	fuzzcheck$(TEXT) $(FUZZDATA)
	valgrind ./fuzzcheck$(TEXE) --cell-size-check --limit-mem 10M --timeout 600 $(FUZZDATA)






# Minimal testing that runs in less than 3 minutes
#
quicktest:	./testfixture$(TEXE)
	./testfixture$(TEXE) $(TOP)/test/extraquick.test $(TESTOPTS)

# This is the common case.  Run many tests that do not take too long,
# including fuzzcheck, sqlite3_analyzer, and sqldiff tests.
#
test:	$(TESTPROGS) sourcetest fastfuzztest
	./testfixture$(TEXE) $(TOP)/test/veryquick.test $(TESTOPTS)

# Run a test using valgrind.  This can take a really long time
# because valgrind is so much slower than a native machine.
#
valgrindtest:	$(TESTPROGS) valgrindfuzz
	OMIT_MISUSE=1 valgrind -v ./testfixture$(TEXE) $(TOP)/test/permutations.test valgrind $(TESTOPTS)

................................................................................
	echo "static const char *zMainloop = " >> $@
	$(TCLSH_CMD) $(TOP)/tool/tostr.tcl $(TOP)/tool/spaceanal.tcl >> $@
	echo "; return zMainloop; }" >> $@

sqlite3_analyzer$(TEXE): sqlite3_analyzer.c
	$(LTLINK) sqlite3_analyzer.c -o $@ $(LIBTCL) $(TLIBS)





showdb$(TEXE):	$(TOP)/tool/showdb.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showdb.c sqlite3.lo $(TLIBS)

showstat4$(TEXE):	$(TOP)/tool/showstat4.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showstat4.c sqlite3.lo $(TLIBS)

showjournal$(TEXE):	$(TOP)/tool/showjournal.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showjournal.c sqlite3.lo $(TLIBS)

showwal$(TEXE):	$(TOP)/tool/showwal.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showwal.c sqlite3.lo $(TLIBS)




rollback-test$(TEXE):	$(TOP)/tool/rollback-test.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/rollback-test.c sqlite3.lo $(TLIBS)

LogEst$(TEXE):	$(TOP)/tool/logest.c sqlite3.h
	$(LTLINK) -I. -o $@ $(TOP)/tool/logest.c

wordcount$(TEXE):	$(TOP)/test/wordcount.c sqlite3.c
	$(LTLINK) -o $@ $(TOP)/test/wordcount.c sqlite3.c $(TLIBS)

speedtest1$(TEXE):	$(TOP)/test/speedtest1.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/test/speedtest1.c sqlite3.lo $(TLIBS)






rbu$(EXE): $(TOP)/ext/rbu/rbu.c $(TOP)/ext/rbu/sqlite3rbu.c sqlite3.lo 
	$(LTLINK) -I. -o $@ $(TOP)/ext/rbu/rbu.c sqlite3.lo $(TLIBS)

loadfts$(EXE): $(TOP)/tool/loadfts.c libsqlite3.la
	$(LTLINK) $(TOP)/tool/loadfts.c libsqlite3.la -o $@ $(TLIBS)

# This target will fail if the SQLite amalgamation contains any exported
# symbols that do not begin with "sqlite3_". It is run as part of the
# releasetest.tcl script.
#

checksymbols: sqlite3.lo
	nm -g --defined-only sqlite3.o | grep -v " sqlite3_" ; test $$? -ne 0
	echo '0 errors out of 1 tests'

# Build the amalgamation-autoconf package.  The amalamgation-tarball target builds
# a tarball named for the version number.  Ex:  sqlite-autoconf-3110000.tar.gz.
# The snapshot-tarball target builds a tarball named by the SHA1 hash
#
amalgamation-tarball: sqlite3.c
................................................................................
clean:	
	rm -f *.lo *.la *.o sqlite3$(TEXE) libsqlite3.la
	rm -f sqlite3.h opcodes.*
	rm -rf .libs .deps
	rm -f lemon$(BEXE) lempar.c parse.* sqlite*.tar.gz
	rm -f mkkeywordhash$(BEXE) keywordhash.h
	rm -f *.da *.bb *.bbg gmon.out
	rm -rf quota2a quota2b quota2c
	rm -rf tsrc .target_source
	rm -f tclsqlite3$(TEXE)
	rm -f testfixture$(TEXE) test.db
	rm -f LogEst$(TEXE) fts3view$(TEXE) rollback-test$(TEXE) showdb$(TEXE)
	rm -f showjournal$(TEXE) showstat4$(TEXE) showwal$(TEXE) speedtest1$(TEXE)
	rm -f wordcount$(TEXE)
	rm -f sqlite3.dll sqlite3.lib sqlite3.exp sqlite3.def
	rm -f sqlite3.c
	rm -f sqlite3rc.h
	rm -f shell.c sqlite3ext.h
	rm -f sqlite3_analyzer$(TEXE) sqlite3_analyzer.c
	rm -f sqlite-*-output.vsix
	rm -f mptester mptester.exe
	rm -f rbu rbu.exe
	rm -f srcck1 srcck1.exe
	rm -f fuzzershell fuzzershell.exe
	rm -f fuzzcheck fuzzcheck.exe
	rm -f sqldiff sqldiff.exe

	rm -f fts5.* fts5parse.*

distclean:	clean
	rm -f config.h config.log config.status libtool Makefile sqlite3.pc

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# will run on the target platform.  (BCC and TCC are usually the
# same unless your are cross-compiling.)  Separate CC and CFLAGS macros
# are provide so that these aspects of the build process can be changed
# on the "make" command-line.  Ex:  "make CC=clang CFLAGS=-fsanitize=undefined"
#
CC = @CC@
CFLAGS = @CPPFLAGS@ @CFLAGS@
TCC = ${CC} ${CFLAGS} -I. -I${TOP}/src -I${TOP}/ext/rtree -I${TOP}/ext/icu
TCC += -I${TOP}/ext/fts3 -I${TOP}/ext/async -I${TOP}/ext/session

# Define this for the autoconf-based build, so that the code knows it can
# include the generated config.h
# 
TCC += -D_HAVE_SQLITE_CONFIG_H -DBUILD_sqlite

# Define -DNDEBUG to compile without debugging (i.e., for production usage)
................................................................................
         expr.lo fault.lo fkey.lo \
         fts3.lo fts3_aux.lo fts3_expr.lo fts3_hash.lo fts3_icu.lo \
         fts3_porter.lo fts3_snippet.lo fts3_tokenizer.lo fts3_tokenizer1.lo \
         fts3_tokenize_vtab.lo \
         fts3_unicode.lo fts3_unicode2.lo fts3_write.lo \
	 fts5.lo \
         func.lo global.lo hash.lo \
         icu.lo insert.lo json1.lo legacy.lo loadext.lo \
         main.lo malloc.lo mem0.lo mem1.lo mem2.lo mem3.lo mem5.lo \
         memjournal.lo \
         mutex.lo mutex_noop.lo mutex_unix.lo mutex_w32.lo \
         notify.lo opcodes.lo os.lo os_unix.lo os_win.lo \
         pager.lo parse.lo pcache.lo pcache1.lo pragma.lo prepare.lo printf.lo \
         random.lo resolve.lo rowset.lo rtree.lo \
         sqlite3session.lo select.lo sqlite3rbu.lo status.lo \
         table.lo threads.lo tokenize.lo treeview.lo trigger.lo \
         update.lo util.lo vacuum.lo \
         vdbe.lo vdbeapi.lo vdbeaux.lo vdbeblob.lo vdbemem.lo vdbesort.lo \
         vdbetrace.lo wal.lo walker.lo where.lo wherecode.lo whereexpr.lo \
         utf.lo vtab.lo

# Object files for the amalgamation.
................................................................................
  $(TOP)/src/fkey.c \
  $(TOP)/src/func.c \
  $(TOP)/src/global.c \
  $(TOP)/src/hash.c \
  $(TOP)/src/hash.h \
  $(TOP)/src/hwtime.h \
  $(TOP)/src/insert.c \

  $(TOP)/src/legacy.c \
  $(TOP)/src/loadext.c \
  $(TOP)/src/main.c \
  $(TOP)/src/malloc.c \
  $(TOP)/src/mem0.c \
  $(TOP)/src/mem1.c \
  $(TOP)/src/mem2.c \
................................................................................
SRC += \
  $(TOP)/ext/icu/sqliteicu.h \
  $(TOP)/ext/icu/icu.c
SRC += \
  $(TOP)/ext/rtree/rtree.h \
  $(TOP)/ext/rtree/rtree.c
SRC += \
  $(TOP)/ext/session/sqlite3session.c \
  $(TOP)/ext/session/sqlite3session.h
SRC += \
  $(TOP)/ext/rbu/sqlite3rbu.h \
  $(TOP)/ext/rbu/sqlite3rbu.c
SRC += \
  $(TOP)/ext/misc/json1.c



# Generated source code files
#
SRC += \
  keywordhash.h \
  opcodes.c \
  opcodes.h \
................................................................................
  $(TOP)/src/test6.c \
  $(TOP)/src/test7.c \
  $(TOP)/src/test8.c \
  $(TOP)/src/test9.c \
  $(TOP)/src/test_autoext.c \
  $(TOP)/src/test_async.c \
  $(TOP)/src/test_backup.c \
  $(TOP)/src/test_bestindex.c \
  $(TOP)/src/test_blob.c \
  $(TOP)/src/test_btree.c \
  $(TOP)/src/test_config.c \
  $(TOP)/src/test_delete.c \
  $(TOP)/src/test_demovfs.c \
  $(TOP)/src/test_devsym.c \
  $(TOP)/src/test_fs.c \
  $(TOP)/src/test_func.c \
  $(TOP)/src/test_hexio.c \
  $(TOP)/src/test_init.c \
  $(TOP)/src/test_intarray.c \
................................................................................
  $(TOP)/src/test_syscall.c \
  $(TOP)/src/test_tclvar.c \
  $(TOP)/src/test_thread.c \
  $(TOP)/src/test_vfs.c \
  $(TOP)/src/test_windirent.c \
  $(TOP)/src/test_wsd.c       \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_test.c  \
  $(TOP)/ext/session/test_session.c \
  $(TOP)/ext/rbu/test_rbu.c 

# Statically linked extensions
#
TESTSRC += \
  $(TOP)/ext/misc/amatch.c \
  $(TOP)/ext/misc/carray.c \
  $(TOP)/ext/misc/closure.c \
  $(TOP)/ext/misc/csv.c \
  $(TOP)/ext/misc/eval.c \
  $(TOP)/ext/misc/fileio.c \
  $(TOP)/ext/misc/fuzzer.c \
  $(TOP)/ext/fts5/fts5_tcl.c \
  $(TOP)/ext/fts5/fts5_test_mi.c \
  $(TOP)/ext/fts5/fts5_test_tok.c \
  $(TOP)/ext/misc/ieee754.c \
  $(TOP)/ext/misc/nextchar.c \
  $(TOP)/ext/misc/percentile.c \
  $(TOP)/ext/misc/regexp.c \
  $(TOP)/ext/misc/remember.c \
  $(TOP)/ext/misc/series.c \
  $(TOP)/ext/misc/spellfix.c \
  $(TOP)/ext/misc/totype.c \
  $(TOP)/ext/misc/wholenumber.c

# Source code to the library files needed by the test fixture
#
................................................................................
  parse.c \
  $(TOP)/ext/fts3/fts3.c \
  $(TOP)/ext/fts3/fts3_aux.c \
  $(TOP)/ext/fts3/fts3_expr.c \
  $(TOP)/ext/fts3/fts3_term.c \
  $(TOP)/ext/fts3/fts3_tokenizer.c \
  $(TOP)/ext/fts3/fts3_write.c \
  $(TOP)/ext/async/sqlite3async.c \
  $(TOP)/ext/session/sqlite3session.c 

# Header files used by all library source files.
#
HDR = \
   $(TOP)/src/btree.h \
   $(TOP)/src/btreeInt.h \
   $(TOP)/src/hash.h \
................................................................................

# executables needed for testing
#
TESTPROGS = \
  testfixture$(TEXE) \
  sqlite3$(TEXE) \
  sqlite3_analyzer$(TEXE) \
  sqldiff$(TEXE) \
  dbhash$(TEXE)

# Databases containing fuzzer test cases
#
FUZZDATA = \
  $(TOP)/test/fuzzdata1.db \
  $(TOP)/test/fuzzdata2.db \
  $(TOP)/test/fuzzdata3.db \
  $(TOP)/test/fuzzdata4.db \
  $(TOP)/test/fuzzdata5.db

# Standard options to testfixture
#
TESTOPTS = --verbose=file --output=test-out.txt

# Extra compiler options for various shell tools
#
SHELL_OPT = -DSQLITE_ENABLE_JSON1 -DSQLITE_ENABLE_FTS4
# SHELL_OPT += -DSQLITE_ENABLE_FTS5
SHELL_OPT += -DSQLITE_ENABLE_EXPLAIN_COMMENTS
SHELL_OPT += -DSQLITE_ENABLE_UNKNOWN_SQL_FUNCTION
FUZZERSHELL_OPT = -DSQLITE_ENABLE_JSON1
FUZZCHECK_OPT = -DSQLITE_ENABLE_JSON1 -DSQLITE_ENABLE_MEMSYS5 -DSQLITE_OSS_FUZZ
FUZZCHECK_OPT += -DSQLITE_MAX_MEMORY=50000000
FUZZCHECK_SRC = $(TOP)/test/fuzzcheck.c $(TOP)/test/ossfuzz.c
DBFUZZ_OPT = 

# This is the default Makefile target.  The objects listed here
# are what get build when you type just "make" with no arguments.
#
all:	sqlite3.h libsqlite3.la sqlite3$(TEXE) $(HAVE_TCL:1=libtclsqlite3.la)

Makefile: $(TOP)/Makefile.in
................................................................................
		-avoid-version

sqlite3$(TEXE):	$(TOP)/src/shell.c sqlite3.c
	$(LTLINK) $(READLINE_FLAGS) $(SHELL_OPT) -o $@ \
		$(TOP)/src/shell.c sqlite3.c \
		$(LIBREADLINE) $(TLIBS) -rpath "$(libdir)"

sqldiff$(TEXE):	$(TOP)/tool/sqldiff.c sqlite3.lo sqlite3.h
	$(LTLINK) -o $@ $(TOP)/tool/sqldiff.c sqlite3.lo $(TLIBS)

dbhash$(TEXE):	$(TOP)/tool/dbhash.c sqlite3.lo sqlite3.h
	$(LTLINK) -o $@ $(TOP)/tool/dbhash.c sqlite3.lo $(TLIBS)

scrub$(TEXE):	$(TOP)/ext/misc/scrub.c sqlite3.lo
	$(LTLINK) -o $@ -I. -DSCRUB_STANDALONE \
		$(TOP)/ext/misc/scrub.c sqlite3.lo $(TLIBS)

srcck1$(BEXE):	$(TOP)/tool/srcck1.c
	$(BCC) -o srcck1$(BEXE) $(TOP)/tool/srcck1.c

sourcetest:	srcck1$(BEXE) sqlite3.c
	./srcck1 sqlite3.c

fuzzershell$(TEXE):	$(TOP)/tool/fuzzershell.c sqlite3.c sqlite3.h
	$(LTLINK) -o $@ $(FUZZERSHELL_OPT) \
	  $(TOP)/tool/fuzzershell.c sqlite3.c $(TLIBS)

fuzzcheck$(TEXE):	$(FUZZCHECK_SRC) sqlite3.c sqlite3.h
	$(LTLINK) -o $@ $(FUZZCHECK_OPT) $(FUZZCHECK_SRC) sqlite3.c $(TLIBS)

ossshell$(TEXE):	$(TOP)/test/ossfuzz.c $(TOP)/test/ossshell.c sqlite3.c sqlite3.h
	$(LTLINK) -o $@ $(FUZZCHECK_OPT) $(TOP)/test/ossshell.c \
             $(TOP)/test/ossfuzz.c sqlite3.c $(TLIBS)

dbfuzz$(TEXE):	$(TOP)/test/dbfuzz.c sqlite3.c sqlite3.h
	$(LTLINK) -o $@ $(DBFUZZ_OPT) $(TOP)/test/dbfuzz.c sqlite3.c $(TLIBS)

mptester$(TEXE):	sqlite3.lo $(TOP)/mptest/mptest.c
	$(LTLINK) -o $@ -I. $(TOP)/mptest/mptest.c sqlite3.lo \
		$(TLIBS) -rpath "$(libdir)"

MPTEST1=./mptester$(TEXE) mptest.db $(TOP)/mptest/crash01.test --repeat 20
MPTEST2=./mptester$(TEXE) mptest.db $(TOP)/mptest/multiwrite01.test --repeat 20
mptest:	mptester$(TEXE)
	rm -f mptest.db
	$(MPTEST1) --journalmode DELETE
................................................................................
	mv vdbe.new tsrc/vdbe.c
	cp fts5.c fts5.h tsrc
	touch .target_source

sqlite3.c:	.target_source $(TOP)/tool/mksqlite3c.tcl
	$(TCLSH_CMD) $(TOP)/tool/mksqlite3c.tcl
	cp tsrc/shell.c tsrc/sqlite3ext.h .
	cp $(TOP)/ext/session/sqlite3session.h .

sqlite3ext.h:	.target_source
	cp tsrc/sqlite3ext.h .

tclsqlite3.c:	sqlite3.c
	echo '#ifndef USE_SYSTEM_SQLITE' >tclsqlite3.c
	cat sqlite3.c >>tclsqlite3.c
................................................................................

hash.lo:	$(TOP)/src/hash.c $(HDR)
	$(LTCOMPILE) $(TEMP_STORE) -c $(TOP)/src/hash.c

insert.lo:	$(TOP)/src/insert.c $(HDR)
	$(LTCOMPILE) $(TEMP_STORE) -c $(TOP)/src/insert.c




legacy.lo:	$(TOP)/src/legacy.c $(HDR)
	$(LTCOMPILE) $(TEMP_STORE) -c $(TOP)/src/legacy.c

loadext.lo:	$(TOP)/src/loadext.c $(HDR)
	$(LTCOMPILE) $(TEMP_STORE) -c $(TOP)/src/loadext.c

main.lo:	$(TOP)/src/main.c $(HDR)
................................................................................

fts3_write.lo:	$(TOP)/ext/fts3/fts3_write.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/fts3/fts3_write.c

rtree.lo:	$(TOP)/ext/rtree/rtree.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/rtree/rtree.c

sqlite3session.lo:	$(TOP)/ext/session/sqlite3session.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/session/sqlite3session.c

json1.lo:	$(TOP)/ext/misc/json1.c
	$(LTCOMPILE) -DSQLITE_CORE -c $(TOP)/ext/misc/json1.c

# FTS5 things
#
FTS5_SRC = \
   $(TOP)/ext/fts5/fts5.h \
................................................................................
   $(TOP)/ext/fts5/fts5_unicode2.c \
   $(TOP)/ext/fts5/fts5_varint.c \
   $(TOP)/ext/fts5/fts5_vocab.c  \

fts5parse.c:	$(TOP)/ext/fts5/fts5parse.y lemon 
	cp $(TOP)/ext/fts5/fts5parse.y .
	rm -f fts5parse.h
	./lemon$(BEXE) $(OPTS) fts5parse.y

fts5parse.h: fts5parse.c

fts5.c: $(FTS5_SRC)
	$(TCLSH_CMD) $(TOP)/ext/fts5/tool/mkfts5c.tcl
	cp $(TOP)/ext/fts5/fts5.h .

................................................................................
# fixture.  Otherwise link against libsqlite3.la.  (This distinction is
# necessary because the test fixture requires non-API symbols which are
# hidden when the library is built via the amalgamation).
#
TESTFIXTURE_FLAGS  = -DTCLSH=1 -DSQLITE_TEST=1 -DSQLITE_CRASH_TEST=1
TESTFIXTURE_FLAGS += -DSQLITE_SERVER=1 -DSQLITE_PRIVATE="" -DSQLITE_CORE 
TESTFIXTURE_FLAGS += -DBUILD_sqlite
TESTFIXTURE_FLAGS += -DSQLITE_SERIES_CONSTRAINT_VERIFY=1
TESTFIXTURE_FLAGS += -DSQLITE_DEFAULT_PAGE_SIZE=1024

TESTFIXTURE_SRC0 = $(TESTSRC2) libsqlite3.la
TESTFIXTURE_SRC1 = sqlite3.c
TESTFIXTURE_SRC = $(TESTSRC) $(TOP)/src/tclsqlite.c
TESTFIXTURE_SRC += $(TESTFIXTURE_SRC$(USE_AMALGAMATION))

testfixture$(TEXE):	$(TESTFIXTURE_SRC)
................................................................................

fastfuzztest:	fuzzcheck$(TEXE) $(FUZZDATA)
	./fuzzcheck$(TEXE) --limit-mem 100M $(FUZZDATA)

valgrindfuzz:	fuzzcheck$(TEXT) $(FUZZDATA)
	valgrind ./fuzzcheck$(TEXE) --cell-size-check --limit-mem 10M --timeout 600 $(FUZZDATA)

# The veryquick.test TCL tests.
#
tcltest:	./testfixture$(TEXE)
	./testfixture$(TEXE) $(TOP)/test/veryquick.test $(TESTOPTS)

# Minimal testing that runs in less than 3 minutes
#
quicktest:	./testfixture$(TEXE)
	./testfixture$(TEXE) $(TOP)/test/extraquick.test $(TESTOPTS)

# This is the common case.  Run many tests that do not take too long,
# including fuzzcheck, sqlite3_analyzer, and sqldiff tests.
#
test:	fastfuzztest sourcetest $(TESTPROGS) tcltest


# Run a test using valgrind.  This can take a really long time
# because valgrind is so much slower than a native machine.
#
valgrindtest:	$(TESTPROGS) valgrindfuzz
	OMIT_MISUSE=1 valgrind -v ./testfixture$(TEXE) $(TOP)/test/permutations.test valgrind $(TESTOPTS)

................................................................................
	echo "static const char *zMainloop = " >> $@
	$(TCLSH_CMD) $(TOP)/tool/tostr.tcl $(TOP)/tool/spaceanal.tcl >> $@
	echo "; return zMainloop; }" >> $@

sqlite3_analyzer$(TEXE): sqlite3_analyzer.c
	$(LTLINK) sqlite3_analyzer.c -o $@ $(LIBTCL) $(TLIBS)

dbdump$(TEXE): $(TOP)/ext/misc/dbdump.c sqlite3.lo
	$(LTLINK) -DDBDUMP_STANDALONE -o $@ \
           $(TOP)/ext/misc/dbdump.c sqlite3.lo $(TLIBS)

showdb$(TEXE):	$(TOP)/tool/showdb.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showdb.c sqlite3.lo $(TLIBS)

showstat4$(TEXE):	$(TOP)/tool/showstat4.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showstat4.c sqlite3.lo $(TLIBS)

showjournal$(TEXE):	$(TOP)/tool/showjournal.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showjournal.c sqlite3.lo $(TLIBS)

showwal$(TEXE):	$(TOP)/tool/showwal.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/showwal.c sqlite3.lo $(TLIBS)

changeset$(TEXE):	$(TOP)/ext/session/changeset.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/ext/session/changeset.c sqlite3.lo $(TLIBS)

rollback-test$(TEXE):	$(TOP)/tool/rollback-test.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/tool/rollback-test.c sqlite3.lo $(TLIBS)

LogEst$(TEXE):	$(TOP)/tool/logest.c sqlite3.h
	$(LTLINK) -I. -o $@ $(TOP)/tool/logest.c

wordcount$(TEXE):	$(TOP)/test/wordcount.c sqlite3.lo
	$(LTLINK) -o $@ $(TOP)/test/wordcount.c sqlite3.lo $(TLIBS)

speedtest1$(TEXE):	$(TOP)/test/speedtest1.c sqlite3.c
	$(LTLINK) $(ST_OPT) -o $@ $(TOP)/test/speedtest1.c sqlite3.c $(TLIBS)

KV_OPT += -DSQLITE_DIRECT_OVERFLOW_READ

kvtest$(TEXE):	$(TOP)/test/kvtest.c sqlite3.c
	$(LTLINK) $(KV_OPT) -o $@ $(TOP)/test/kvtest.c sqlite3.c $(TLIBS)

rbu$(EXE): $(TOP)/ext/rbu/rbu.c $(TOP)/ext/rbu/sqlite3rbu.c sqlite3.lo 
	$(LTLINK) -I. -o $@ $(TOP)/ext/rbu/rbu.c sqlite3.lo $(TLIBS)

loadfts$(EXE): $(TOP)/tool/loadfts.c libsqlite3.la
	$(LTLINK) $(TOP)/tool/loadfts.c libsqlite3.la -o $@ $(TLIBS)

# This target will fail if the SQLite amalgamation contains any exported
# symbols that do not begin with "sqlite3_". It is run as part of the
# releasetest.tcl script.
#
VALIDIDS=' sqlite3(changeset|changegroup|session)?_'
checksymbols: sqlite3.lo
	nm -g --defined-only sqlite3.lo | egrep -v $(VALIDIDS); test $$? -ne 0
	echo '0 errors out of 1 tests'

# Build the amalgamation-autoconf package.  The amalamgation-tarball target builds
# a tarball named for the version number.  Ex:  sqlite-autoconf-3110000.tar.gz.
# The snapshot-tarball target builds a tarball named by the SHA1 hash
#
amalgamation-tarball: sqlite3.c
................................................................................
clean:	
	rm -f *.lo *.la *.o sqlite3$(TEXE) libsqlite3.la
	rm -f sqlite3.h opcodes.*
	rm -rf .libs .deps
	rm -f lemon$(BEXE) lempar.c parse.* sqlite*.tar.gz
	rm -f mkkeywordhash$(BEXE) keywordhash.h
	rm -f *.da *.bb *.bbg gmon.out

	rm -rf tsrc .target_source
	rm -f tclsqlite3$(TEXE)
	rm -f testfixture$(TEXE) test.db
	rm -f LogEst$(TEXE) fts3view$(TEXE) rollback-test$(TEXE) showdb$(TEXE)
	rm -f showjournal$(TEXE) showstat4$(TEXE) showwal$(TEXE) speedtest1$(TEXE)
	rm -f wordcount$(TEXE) changeset$(TEXE)
	rm -f sqlite3.dll sqlite3.lib sqlite3.exp sqlite3.def
	rm -f sqlite3.c
	rm -f sqlite3rc.h
	rm -f shell.c sqlite3ext.h
	rm -f sqlite3_analyzer$(TEXE) sqlite3_analyzer.c
	rm -f sqlite-*-output.vsix
	rm -f mptester mptester.exe
	rm -f rbu rbu.exe
	rm -f srcck1 srcck1.exe
	rm -f fuzzershell fuzzershell.exe
	rm -f fuzzcheck fuzzcheck.exe
	rm -f sqldiff sqldiff.exe
	rm -f dbhash dbhash.exe
	rm -f fts5.* fts5parse.*

distclean:	clean
	rm -f config.h config.log config.status libtool Makefile sqlite3.pc

#
# Windows section

Changes to Makefile.msc.

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USE_AMALGAMATION = 1
!ENDIF
# <</mark>>

# Set this non-0 to enable full warnings (-W4, etc) when compiling.
#
!IFNDEF USE_FULLWARN
USE_FULLWARN = 0





















!ENDIF

# Set this non-0 to use "stdcall" calling convention for the core library
# and shell executable.
#
!IFNDEF USE_STDCALL
USE_STDCALL = 0
................................................................................
# Enable use of available compiler optimizations?  Normally, this should be
# non-zero.  Setting this to zero, thus disabling all compiler optimizations,
# can be useful for testing.
#
!IFNDEF OPTIMIZATIONS
OPTIMIZATIONS = 2
!ENDIF







# Set the source code file to be used by executables and libraries when
# they need the amalgamation.
#
!IFNDEF SQLITE3C
!IF $(SPLIT_AMALGAMATION)!=0
SQLITE3C = sqlite3-all.c
................................................................................
!IF $(FOR_WIN10)!=0
SQLITE3EXEPDB =
!ELSE
SQLITE3EXEPDB = /pdb:sqlite3sh.pdb
!ENDIF
!ENDIF


























# These are the "standard" SQLite compilation options used when compiling for
# the Windows platform.
#
!IFNDEF OPT_FEATURE_FLAGS

OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS3=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_RTREE=1

OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_COLUMN_METADATA=1
!ENDIF









# These are the "extended" SQLite compilation options used when compiling for
# the Windows 10 platform.
#
!IFNDEF EXT_FEATURE_FLAGS
!IF $(FOR_WIN10)!=0
EXT_FEATURE_FLAGS = $(EXT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS4=1
................................................................................
# Check for the predefined command macro CC.  This should point to the compiler
# binary for the target platform.  If it is not defined, simply define it to
# the legacy default value 'cl.exe'.
#
!IFNDEF CC
CC = cl.exe
!ENDIF









# Check for the command macro LD.  This should point to the linker binary for
# the target platform.  If it is not defined, simply define it to the legacy
# default value 'link.exe'.
#
!IFNDEF LD
LD = link.exe
................................................................................
# same unless your are cross-compiling.)
#
!IF $(USE_FULLWARN)!=0
TCC = $(CC) -nologo -W4 -DINCLUDE_MSVC_H=1 $(CCOPTS) $(TCCOPTS)
!ELSE
TCC = $(CC) -nologo -W3 $(CCOPTS) $(TCCOPTS)
!ENDIF







TCC = $(TCC) -DSQLITE_OS_WIN=1 -I. -I$(TOP) -I$(TOP)\src -fp:precise
RCC = $(RC) -DSQLITE_OS_WIN=1 -I. -I$(TOP) -I$(TOP)\src $(RCOPTS) $(RCCOPTS)

# Check if we want to use the "stdcall" calling convention when compiling.
# This is not supported by the compilers for non-x86 platforms.  It should
# also be noted here that building any target with these "stdcall" options
# will most likely fail if the Tcl library is also required.  This is due
# to how the Tcl library functions are declared and exported (i.e. without
# an explicit calling convention, which results in "cdecl").
#
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
!IF "$(PLATFORM)"=="x86"
CORE_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_STDCALL=__stdcall
SHELL_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_STDCALL=__stdcall



!ELSE
!IFNDEF PLATFORM
CORE_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_STDCALL=__stdcall
SHELL_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_STDCALL=__stdcall



!ELSE
CORE_CCONV_OPTS =
SHELL_CCONV_OPTS =



!ENDIF
!ENDIF
!ELSE
CORE_CCONV_OPTS =
SHELL_CCONV_OPTS =



!ENDIF

# These are additional compiler options used for the core library.
#
!IFNDEF CORE_COMPILE_OPTS
!IF $(DYNAMIC_SHELL)!=0 || $(FOR_WIN10)!=0
CORE_COMPILE_OPTS = $(CORE_CCONV_OPTS) -DSQLITE_API=__declspec(dllexport)
................................................................................
!ENDIF
!ENDIF

# These are the additional targets that the core library should depend on
# when linking.
#
!IFNDEF CORE_LINK_DEP
!IF $(DYNAMIC_SHELL)!=0 || $(FOR_WIN10)!=0
CORE_LINK_DEP =


!ELSE
CORE_LINK_DEP = sqlite3.def
!ENDIF
!ENDIF

# These are additional linker options used for the core library.
#
!IFNDEF CORE_LINK_OPTS
!IF $(DYNAMIC_SHELL)!=0 || $(FOR_WIN10)!=0
CORE_LINK_OPTS =


!ELSE
CORE_LINK_OPTS = /DEF:sqlite3.def
!ENDIF
!ENDIF

# These are additional compiler options used for the shell executable.
#
!IFNDEF SHELL_COMPILE_OPTS
!IF $(DYNAMIC_SHELL)!=0 || $(FOR_WIN10)!=0
................................................................................
# builds, we need to make sure the compiler can find these.
#
!IF $(USE_AMALGAMATION)==0
TCC = $(TCC) -I$(TOP)\ext\fts3
RCC = $(RCC) -I$(TOP)\ext\fts3
TCC = $(TCC) -I$(TOP)\ext\rtree
RCC = $(RCC) -I$(TOP)\ext\rtree


!ENDIF

# The mksqlite3c.tcl script accepts some options on the command
# line.  When compiling with debugging enabled, some of these
# options are necessary in order to allow debugging symbols to
# work correctly with Visual Studio when using the amalgamation.
#








!IFNDEF MKSQLITE3C_ARGS
!IF $(DEBUG)>1
MKSQLITE3C_ARGS = --linemacros
!ELSE
MKSQLITE3C_ARGS =















!ENDIF
!ENDIF
# <</mark>>

# Define -DNDEBUG to compile without debugging (i.e., for production usage)
# Omitting the define will cause extra debugging code to be inserted and
# includes extra comments when "EXPLAIN stmt" is used.
................................................................................
TCC = $(TCC) -DSQLITE_ENABLE_API_ARMOR=1
RCC = $(RCC) -DSQLITE_ENABLE_API_ARMOR=1
!ENDIF

!IF $(DEBUG)>2
TCC = $(TCC) -DSQLITE_DEBUG=1
RCC = $(RCC) -DSQLITE_DEBUG=1




!ENDIF

!IF $(DEBUG)>4 || $(OSTRACE)!=0
TCC = $(TCC) -DSQLITE_FORCE_OS_TRACE=1 -DSQLITE_DEBUG_OS_TRACE=1
RCC = $(RCC) -DSQLITE_FORCE_OS_TRACE=1 -DSQLITE_DEBUG_OS_TRACE=1
!ENDIF

................................................................................
!ENDIF

!IFNDEF TCLLIBDIR
TCLLIBDIR = c:\tcl\lib
!ENDIF

!IFNDEF LIBTCL
LIBTCL = tcl85.lib
!ENDIF

!IFNDEF LIBTCLSTUB
LIBTCLSTUB = tclstub85.lib
!ENDIF

!IFNDEF LIBTCLPATH
LIBTCLPATH = c:\tcl\bin
!ENDIF

# The locations of the ICU header and library files.  These variables
................................................................................

# This is the command to use for tclsh - normally just "tclsh", but we may
# know the specific version we want to use.  This variable (TCLSH_CMD) may be
# overridden via the environment prior to running nmake in order to select a
# specific Tcl shell to use.
#
!IFNDEF TCLSH_CMD
TCLSH_CMD = tclsh85
!ENDIF
# <</mark>>

# Compiler options needed for programs that use the readline() library.
#
!IFNDEF READLINE_FLAGS
READLINE_FLAGS = -DHAVE_READLINE=0
................................................................................

# If optimizations are enabled or disabled (either implicitly or
# explicitly), add the necessary flags.
#
!IF $(DEBUG)>1 || $(OPTIMIZATIONS)==0
TCC = $(TCC) -Od
BCC = $(BCC) -Od




!ELSEIF $(OPTIMIZATIONS)>=3
TCC = $(TCC) -Ox
BCC = $(BCC) -Ox
!ELSEIF $(OPTIMIZATIONS)==2
TCC = $(TCC) -O2
BCC = $(BCC) -O2
!ELSEIF $(OPTIMIZATIONS)==1
................................................................................
         callback.lo complete.lo ctime.lo date.lo dbstat.lo delete.lo \
         expr.lo fault.lo fkey.lo \
         fts3.lo fts3_aux.lo fts3_expr.lo fts3_hash.lo fts3_icu.lo \
         fts3_porter.lo fts3_snippet.lo fts3_tokenizer.lo fts3_tokenizer1.lo \
         fts3_tokenize_vtab.lo fts3_unicode.lo fts3_unicode2.lo fts3_write.lo \
         fts5.lo \
         func.lo global.lo hash.lo \
         icu.lo insert.lo journal.lo legacy.lo loadext.lo \
         main.lo malloc.lo mem0.lo mem1.lo mem2.lo mem3.lo mem5.lo \
         memjournal.lo \
         mutex.lo mutex_noop.lo mutex_unix.lo mutex_w32.lo \
         notify.lo opcodes.lo os.lo os_unix.lo os_win.lo \
         pager.lo pcache.lo pcache1.lo pragma.lo prepare.lo printf.lo \
         random.lo resolve.lo rowset.lo rtree.lo select.lo sqlite3rbu.lo status.lo \

         table.lo threads.lo tokenize.lo treeview.lo trigger.lo \
         update.lo util.lo vacuum.lo \
         vdbeapi.lo vdbeaux.lo vdbeblob.lo vdbemem.lo vdbesort.lo \
         vdbetrace.lo wal.lo walker.lo where.lo wherecode.lo whereexpr.lo \
         utf.lo vtab.lo
# <</mark>>

................................................................................
  $(TOP)\src\expr.c \
  $(TOP)\src\fault.c \
  $(TOP)\src\fkey.c \
  $(TOP)\src\func.c \
  $(TOP)\src\global.c \
  $(TOP)\src\hash.c \
  $(TOP)\src\insert.c \
  $(TOP)\src\journal.c \
  $(TOP)\src\legacy.c \
  $(TOP)\src\loadext.c \
  $(TOP)\src\main.c \
  $(TOP)\src\malloc.c \
  $(TOP)\src\mem0.c \
  $(TOP)\src\mem1.c \
  $(TOP)\src\mem2.c \
................................................................................
  $(TOP)\ext\fts3\fts3_tokenizer1.c \
  $(TOP)\ext\fts3\fts3_tokenize_vtab.c \
  $(TOP)\ext\fts3\fts3_unicode.c \
  $(TOP)\ext\fts3\fts3_unicode2.c \
  $(TOP)\ext\fts3\fts3_write.c \
  $(TOP)\ext\icu\icu.c \
  $(TOP)\ext\rtree\rtree.c \

  $(TOP)\ext\rbu\sqlite3rbu.c \
  $(TOP)\ext\misc\json1.c

# Extension header files, part 1.
#
SRC08 = \
  $(TOP)\ext\fts1\fts1.h \
................................................................................
SRC09 = \
  $(TOP)\ext\fts3\fts3.h \
  $(TOP)\ext\fts3\fts3Int.h \
  $(TOP)\ext\fts3\fts3_hash.h \
  $(TOP)\ext\fts3\fts3_tokenizer.h \
  $(TOP)\ext\icu\sqliteicu.h \
  $(TOP)\ext\rtree\rtree.h \
  $(TOP)\ext\rbu\sqlite3rbu.h


# Generated source code files
#
SRC10 = \
  opcodes.c \
  parse.c

................................................................................
# Generated header files
#
SRC11 = \
  keywordhash.h \
  opcodes.h \
  parse.h \
  $(SQLITE3H)











# All source code files.
#
SRC = $(SRC00) $(SRC01) $(SRC02) $(SRC03) $(SRC04) $(SRC05) $(SRC06) $(SRC07) $(SRC08) $(SRC09) $(SRC10) $(SRC11)

# Source code to the test files.
#
................................................................................
  $(TOP)\src\test6.c \
  $(TOP)\src\test7.c \
  $(TOP)\src\test8.c \
  $(TOP)\src\test9.c \
  $(TOP)\src\test_autoext.c \
  $(TOP)\src\test_async.c \
  $(TOP)\src\test_backup.c \

  $(TOP)\src\test_blob.c \
  $(TOP)\src\test_btree.c \
  $(TOP)\src\test_config.c \

  $(TOP)\src\test_demovfs.c \
  $(TOP)\src\test_devsym.c \
  $(TOP)\src\test_fs.c \
  $(TOP)\src\test_func.c \
  $(TOP)\src\test_hexio.c \
  $(TOP)\src\test_init.c \
  $(TOP)\src\test_intarray.c \
................................................................................
  $(TOP)\src\test_tclvar.c \
  $(TOP)\src\test_thread.c \
  $(TOP)\src\test_vfs.c \
  $(TOP)\src\test_windirent.c \
  $(TOP)\src\test_wsd.c \
  $(TOP)\ext\fts3\fts3_term.c \
  $(TOP)\ext\fts3\fts3_test.c \
  $(TOP)\ext\rbu\test_rbu.c


# Statically linked extensions.
#
TESTEXT = \
  $(TOP)\ext\misc\amatch.c \

  $(TOP)\ext\misc\closure.c \

  $(TOP)\ext\misc\eval.c \
  $(TOP)\ext\misc\fileio.c \
  $(TOP)\ext\misc\fuzzer.c \
  $(TOP)\ext\fts5\fts5_tcl.c \
  $(TOP)\ext\fts5\fts5_test_mi.c \
  $(TOP)\ext\fts5\fts5_test_tok.c \
  $(TOP)\ext\misc\ieee754.c \
  $(TOP)\ext\misc\nextchar.c \
  $(TOP)\ext\misc\percentile.c \
  $(TOP)\ext\misc\regexp.c \

  $(TOP)\ext\misc\series.c \
  $(TOP)\ext\misc\spellfix.c \
  $(TOP)\ext\misc\totype.c \
  $(TOP)\ext\misc\wholenumber.c

# Source code to the library files needed by the test fixture

#
TESTSRC2 = \
  $(SRC00) \
  $(SRC01) \
  $(SRC06) \
  $(SRC07) \
  $(SRC10) \
................................................................................
   $(TOP)\src\os_setup.h \
   $(TOP)\src\os_win.h \
   $(TOP)\src\pager.h \
   $(TOP)\src\pcache.h \
   parse.h \
   $(TOP)\src\pragma.h \
   $(SQLITE3H) \
   $(TOP)\src\sqlite3ext.h \
   $(TOP)\src\sqliteInt.h \
   $(TOP)\src\sqliteLimit.h \
   $(TOP)\src\vdbe.h \
   $(TOP)\src\vdbeInt.h \
   $(TOP)\src\vxworks.h \
   $(TOP)\src\whereInt.h

................................................................................
  $(TOP)\ext\fts3\fts3_tokenizer.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\rtree\rtree.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\icu\sqliteicu.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\rtree\sqlite3rtree.h



# executables needed for testing
#
TESTPROGS = \
  testfixture.exe \
  $(SQLITE3EXE) \
  sqlite3_analyzer.exe \
  sqldiff.exe


# Databases containing fuzzer test cases
#
FUZZDATA = \
  $(TOP)\test\fuzzdata1.db \
  $(TOP)\test\fuzzdata2.db \
  $(TOP)\test\fuzzdata3.db \
  $(TOP)\test\fuzzdata4.db

# <</mark>>

# Additional compiler options for the shell.  These are only effective
# when the shell is not being dynamically linked.
#
!IF $(DYNAMIC_SHELL)==0 && $(FOR_WIN10)==0
SHELL_COMPILE_OPTS = $(SHELL_COMPILE_OPTS) -DSQLITE_SHELL_JSON1 -DSQLITE_ENABLE_FTS4 -DSQLITE_ENABLE_EXPLAIN_COMMENTS
................................................................................
!ENDIF

# <<mark>>
# Extra compiler options for various test tools.
#
MPTESTER_COMPILE_OPTS = -DSQLITE_SHELL_JSON1 -DSQLITE_ENABLE_FTS5
FUZZERSHELL_COMPILE_OPTS = -DSQLITE_ENABLE_JSON1
FUZZCHECK_COMPILE_OPTS = -DSQLITE_ENABLE_JSON1 -DSQLITE_ENABLE_MEMSYS5







# Standard options to testfixture.
#
TESTOPTS = --verbose=file --output=test-out.txt

# Extra targets for the "all" target that require Tcl.
#
................................................................................
# This is the default Makefile target.  The objects listed here
# are what get build when you type just "make" with no arguments.
#
all:	dll libsqlite3.lib shell $(ALL_TCL_TARGETS)

# Dynamic link library section.
#
dll: $(SQLITE3DLL)

# Shell executable.
#
shell: $(SQLITE3EXE)

# <<mark>>
libsqlite3.lib:	$(LIBOBJ)
	$(LTLIB) $(LTLIBOPTS) /OUT:$@ $(LIBOBJ) $(TLIBS)

libtclsqlite3.lib:	tclsqlite.lo libsqlite3.lib
	$(LTLIB) $(LTLIBOPTS) $(LTLIBPATHS) /OUT:$@ tclsqlite.lo libsqlite3.lib $(LIBTCLSTUB) $(TLIBS)
# <</mark>>

$(SQLITE3DLL): $(LIBOBJ) $(LIBRESOBJS) $(CORE_LINK_DEP)
	$(LD) $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /DLL $(CORE_LINK_OPTS) /OUT:$@ $(LIBOBJ) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

# <<mark>>
sqlite3.def: libsqlite3.lib
	echo EXPORTS > sqlite3.def
	dumpbin /all libsqlite3.lib \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl include "^\s+1 _?(sqlite3_.*)$$" \1 \
		| sort >> sqlite3.def
# <</mark>>

$(SQLITE3EXE):	$(TOP)\src\shell.c $(SHELL_CORE_DEP) $(LIBRESOBJS) $(SHELL_CORE_SRC) $(SQLITE3H)
	$(LTLINK) $(SHELL_COMPILE_OPTS) $(READLINE_FLAGS) $(TOP)\src\shell.c $(SHELL_CORE_SRC) \
		/link $(SQLITE3EXEPDB) $(LDFLAGS) $(LTLINKOPTS) $(SHELL_LINK_OPTS) $(LTLIBPATHS) $(LIBRESOBJS) $(LIBREADLINE) $(LTLIBS) $(TLIBS)

# <<mark>>
sqldiff.exe:	$(TOP)\tool\sqldiff.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(TOP)\tool\sqldiff.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)







srcck1.exe:	$(TOP)\tool\srcck1.c
	$(BCC) $(NO_WARN) -Fe$@ $(TOP)\tool\srcck1.c

sourcetest:	srcck1.exe sqlite3.c
	srcck1.exe sqlite3.c

fuzzershell.exe:	$(TOP)\tool\fuzzershell.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(FUZZERSHELL_COMPILE_OPTS) $(TOP)\tool\fuzzershell.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

fuzzcheck.exe:	$(TOP)\test\fuzzcheck.c $(SQLITE3C) $(SQLITE3H)



	$(LTLINK) $(NO_WARN) $(FUZZCHECK_COMPILE_OPTS) $(TOP)\test\fuzzcheck.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)




mptester.exe:	$(TOP)\mptest\mptest.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(MPTESTER_COMPILE_OPTS) $(TOP)\mptest\mptest.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

MPTEST1 = mptester mptest.db $(TOP)\mptest\crash01.test --repeat 20
MPTEST2 = mptester mptest.db $(TOP)\mptest\multiwrite01.test --repeat 20

................................................................................

# This target creates a directory named "tsrc" and fills it with
# copies of all of the C source code and header files needed to
# build on the target system.  Some of the C source code and header
# files are automatically generated.  This target takes care of
# all that automatic generation.
#
.target_source:	$(SRC) $(TOP)\tool\vdbe-compress.tcl fts5.c
	-rmdir /Q/S tsrc 2>NUL
	-mkdir tsrc
	for %i in ($(SRC00)) do copy /Y %i tsrc
	for %i in ($(SRC01)) do copy /Y %i tsrc
	for %i in ($(SRC02)) do copy /Y %i tsrc
	for %i in ($(SRC03)) do copy /Y %i tsrc
	for %i in ($(SRC04)) do copy /Y %i tsrc
................................................................................
	for %i in ($(SRC05)) do copy /Y %i tsrc
	for %i in ($(SRC06)) do copy /Y %i tsrc
	for %i in ($(SRC07)) do copy /Y %i tsrc
	for %i in ($(SRC08)) do copy /Y %i tsrc
	for %i in ($(SRC09)) do copy /Y %i tsrc
	for %i in ($(SRC10)) do copy /Y %i tsrc
	for %i in ($(SRC11)) do copy /Y %i tsrc

	copy /Y fts5.c tsrc
	copy /Y fts5.h tsrc
	del /Q tsrc\sqlite.h.in tsrc\parse.y 2>NUL
	$(TCLSH_CMD) $(TOP)\tool\vdbe-compress.tcl $(OPTS) < tsrc\vdbe.c > vdbe.new
	move vdbe.new tsrc\vdbe.c
	echo > .target_source

sqlite3.c:	.target_source sqlite3ext.h $(TOP)\tool\mksqlite3c.tcl
	$(TCLSH_CMD) $(TOP)\tool\mksqlite3c.tcl $(MKSQLITE3C_ARGS)
	copy tsrc\shell.c .


sqlite3-all.c:	sqlite3.c $(TOP)\tool\split-sqlite3c.tcl
	$(TCLSH_CMD) $(TOP)\tool\split-sqlite3c.tcl
# <</mark>>

# Rule to build the amalgamation
#
................................................................................

hash.lo:	$(TOP)\src\hash.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\hash.c

insert.lo:	$(TOP)\src\insert.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\insert.c

journal.lo:	$(TOP)\src\journal.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\journal.c

legacy.lo:	$(TOP)\src\legacy.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\legacy.c

loadext.lo:	$(TOP)\src\loadext.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\loadext.c

main.lo:	$(TOP)\src\main.c $(HDR)
................................................................................

wherecode.lo:	$(TOP)\src\wherecode.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\wherecode.c

whereexpr.lo:	$(TOP)\src\whereexpr.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\whereexpr.c

tclsqlite.lo:	$(TOP)\src\tclsqlite.c $(HDR)
	$(LTCOMPILE) $(NO_WARN) -DUSE_TCL_STUBS=1 -DBUILD_sqlite -I$(TCLINCDIR) -c $(TOP)\src\tclsqlite.c

tclsqlite-shell.lo:	$(TOP)\src\tclsqlite.c $(HDR)
	$(LTCOMPILE) $(NO_WARN) -DTCLSH=1 -DBUILD_sqlite -I$(TCLINCDIR) -c $(TOP)\src\tclsqlite.c

tclsqlite3.exe:	tclsqlite-shell.lo $(SQLITE3C) $(SQLITE3H) $(LIBRESOBJS)
	$(LTLINK) $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /OUT:$@ tclsqlite-shell.lo $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

# Rules to build opcodes.c and opcodes.h
#
................................................................................
	del /Q parse.y parse.h parse.h.temp 2>NUL
	copy $(TOP)\src\parse.y .
	.\lemon.exe $(REQ_FEATURE_FLAGS) $(OPT_FEATURE_FLAGS) $(EXT_FEATURE_FLAGS) $(OPTS) parse.y
	move parse.h parse.h.temp
	$(TCLSH_CMD) $(TOP)\tool\addopcodes.tcl parse.h.temp > parse.h

$(SQLITE3H):	$(TOP)\src\sqlite.h.in $(TOP)\manifest.uuid $(TOP)\VERSION
	$(TCLSH_CMD) $(TOP)\tool\mksqlite3h.tcl $(TOP:\=/) > $(SQLITE3H)

sqlite3ext.h: .target_source





	copy tsrc\sqlite3ext.h .


mkkeywordhash.exe:	$(TOP)\tool\mkkeywordhash.c
	$(BCC) $(NO_WARN) -Fe$@ $(REQ_FEATURE_FLAGS) $(OPT_FEATURE_FLAGS) $(EXT_FEATURE_FLAGS) $(OPTS) \
		$(TOP)\tool\mkkeywordhash.c /link $(LDFLAGS) $(NLTLINKOPTS) $(NLTLIBPATHS)

keywordhash.h:	$(TOP)\tool\mkkeywordhash.c mkkeywordhash.exe
	.\mkkeywordhash.exe > keywordhash.h
................................................................................

fts3_write.lo:	$(TOP)\ext\fts3\fts3_write.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\fts3\fts3_write.c

rtree.lo:	$(TOP)\ext\rtree\rtree.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\rtree\rtree.c




# FTS5 things
#
FTS5_SRC = \
   $(TOP)\ext\fts5\fts5.h \
   $(TOP)\ext\fts5\fts5Int.h \
   $(TOP)\ext\fts5\fts5_aux.c \
   $(TOP)\ext\fts5\fts5_buffer.c \
................................................................................
   $(TOP)\ext\fts5\fts5_vocab.c

fts5parse.c:	$(TOP)\ext\fts5\fts5parse.y lemon.exe
	copy $(TOP)\ext\fts5\fts5parse.y .
	del /Q fts5parse.h 2>NUL
	.\lemon.exe $(REQ_FEATURE_FLAGS) $(OPT_FEATURE_FLAGS) $(EXT_FEATURE_FLAGS) $(OPTS) fts5parse.y

fts5parse.h: fts5parse.c

fts5.c: $(FTS5_SRC)
	$(TCLSH_CMD) $(TOP)\ext\fts5\tool\mkfts5c.tcl
	copy $(TOP)\ext\fts5\fts5.h .

fts5.lo:	fts5.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c fts5.c

fts5_ext.lo:	fts5.c $(HDR) $(EXTHDR)
................................................................................
# fixture.  Otherwise link against libsqlite3.lib.  (This distinction is
# necessary because the test fixture requires non-API symbols which are
# hidden when the library is built via the amalgamation).
#
TESTFIXTURE_FLAGS = -DTCLSH=1 -DSQLITE_TEST=1 -DSQLITE_CRASH_TEST=1
TESTFIXTURE_FLAGS = $(TESTFIXTURE_FLAGS) -DSQLITE_SERVER=1 -DSQLITE_PRIVATE=""
TESTFIXTURE_FLAGS = $(TESTFIXTURE_FLAGS) -DSQLITE_CORE $(NO_WARN)




TESTFIXTURE_SRC0 = $(TESTEXT) $(TESTSRC2)
TESTFIXTURE_SRC1 = $(TESTEXT) $(SQLITE3C)
!IF $(USE_AMALGAMATION)==0
TESTFIXTURE_SRC = $(TESTSRC) $(TOP)\src\tclsqlite.c $(TESTFIXTURE_SRC0)
!ELSE
TESTFIXTURE_SRC = $(TESTSRC) $(TOP)\src\tclsqlite.c $(TESTFIXTURE_SRC1)
!ENDIF





















testfixture.exe:	$(TESTFIXTURE_SRC) $(SQLITE3H) $(LIBRESOBJS) $(HDR)
	$(LTLINK) -DSQLITE_NO_SYNC=1 $(TESTFIXTURE_FLAGS) \
		-DBUILD_sqlite -I$(TCLINCDIR) \
		$(TESTFIXTURE_SRC) \
		/link $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

extensiontest: testfixture.exe testloadext.dll
	@set PATH=$(LIBTCLPATH);$(PATH)
	.\testfixture.exe $(TOP)\test\loadext.test $(TESTOPTS)

fulltest:	$(TESTPROGS) fuzztest
	@set PATH=$(LIBTCLPATH);$(PATH)
	.\testfixture.exe $(TOP)\test\all.test $(TESTOPTS)

................................................................................
	@set PATH=$(LIBTCLPATH);$(PATH)
	.\testfixture.exe $(TOP)\test\veryquick.test $(TESTOPTS)

smoketest:	$(TESTPROGS)
	@set PATH=$(LIBTCLPATH);$(PATH)
	.\testfixture.exe $(TOP)\test\main.test $(TESTOPTS)

sqlite3_analyzer.c: $(SQLITE3C) $(SQLITE3H) $(TOP)\src\tclsqlite.c $(TOP)\tool\spaceanal.tcl
	echo #define TCLSH 2 > $@
	echo #define SQLITE_ENABLE_DBSTAT_VTAB 1 >> $@
	copy $@ + $(SQLITE3C) + $(TOP)\src\tclsqlite.c $@
	echo static const char *tclsh_main_loop(void){ >> $@
	echo static const char *zMainloop = >> $@
	$(TCLSH_CMD) $(TOP)\tool\tostr.tcl $(TOP)\tool\spaceanal.tcl >> $@
	echo ; return zMainloop; } >> $@

sqlite3_analyzer.exe:	sqlite3_analyzer.c $(LIBRESOBJS)
	$(LTLINK) $(NO_WARN) -DBUILD_sqlite -I$(TCLINCDIR) sqlite3_analyzer.c \
		/link $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)





testloadext.lo:	$(TOP)\src\test_loadext.c
	$(LTCOMPILE) $(NO_WARN) -c $(TOP)\src\test_loadext.c

testloadext.dll: testloadext.lo
	$(LD) $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /DLL /OUT:$@ testloadext.lo

showdb.exe:	$(TOP)\tool\showdb.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\showdb.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

showstat4.exe:	$(TOP)\tool\showstat4.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\showstat4.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

showjournal.exe:	$(TOP)\tool\showjournal.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\showjournal.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

showwal.exe:	$(TOP)\tool\showwal.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\showwal.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)






fts3view.exe:	$(TOP)\ext\fts3\tool\fts3view.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\ext\fts3\tool\fts3view.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

rollback-test.exe:	$(TOP)\tool\rollback-test.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\tool\rollback-test.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

LogEst.exe:	$(TOP)\tool\logest.c $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -Fe$@ $(TOP)\tool\LogEst.c /link $(LDFLAGS) $(LTLINKOPTS)

wordcount.exe:	$(TOP)\test\wordcount.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\test\wordcount.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

speedtest1.exe:	$(TOP)\test\speedtest1.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_OMIT_LOAD_EXTENSION -Fe$@ \
		$(TOP)\test\speedtest1.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)








rbu.exe: $(TOP)\ext\rbu\rbu.c $(TOP)\ext\rbu\sqlite3rbu.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_ENABLE_RBU -Fe$@ \
		$(TOP)\ext\rbu\rbu.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)



# <</mark>>

clean:
	del /Q *.exp *.lo *.ilk *.lib *.obj *.ncb *.pdb *.sdf *.suo 2>NUL
	del /Q *.bsc *.def *.cod *.da *.bb *.bbg *.vc gmon.out 2>NUL
	del /Q $(SQLITE3EXE) $(SQLITE3DLL) 2>NUL
# <<mark>>

	del /Q $(SQLITE3C) $(SQLITE3H) opcodes.c opcodes.h 2>NUL
	del /Q lemon.* lempar.c parse.* 2>NUL
	del /Q mkkeywordhash.* keywordhash.h 2>NUL
	del /Q notasharedlib.* 2>NUL
	-rmdir /Q/S .deps 2>NUL
	-rmdir /Q/S .libs 2>NUL
	-rmdir /Q/S quota2a 2>NUL
	-rmdir /Q/S quota2b 2>NUL
	-rmdir /Q/S quota2c 2>NUL
	-rmdir /Q/S tsrc 2>NUL
	del /Q .target_source 2>NUL
	del /Q tclsqlite3.exe 2>NUL
	del /Q testloadext.dll 2>NUL
	del /Q testfixture.exe test.db 2>NUL
	del /Q LogEst.exe fts3view.exe rollback-test.exe showdb.exe 2>NUL

	del /Q showjournal.exe showstat4.exe showwal.exe speedtest1.exe 2>NUL
	del /Q mptester.exe wordcount.exe rbu.exe srcck1.exe 2>NUL
	del /Q sqlite3.c sqlite3-*.c 2>NUL
	del /Q sqlite3rc.h 2>NUL
	del /Q shell.c sqlite3ext.h 2>NUL
	del /Q sqlite3_analyzer.exe sqlite3_analyzer.c 2>NUL
	del /Q sqlite-*-output.vsix 2>NUL
	del /Q fuzzershell.exe fuzzcheck.exe sqldiff.exe 2>NUL
	del /Q fts5.* fts5parse.* 2>NUL
# <</mark>>







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USE_AMALGAMATION = 1
!ENDIF
# <</mark>>

# Set this non-0 to enable full warnings (-W4, etc) when compiling.
#
!IFNDEF USE_FULLWARN
USE_FULLWARN = 1
!ENDIF

# Set this non-0 to enable treating warnings as errors (-WX, etc) when
# compiling.
#
!IFNDEF USE_FATAL_WARN
USE_FATAL_WARN = 0
!ENDIF

# Set this non-0 to enable full runtime error checks (-RTC1, etc).  This
# has no effect if (any) optimizations are enabled.
#
!IFNDEF USE_RUNTIME_CHECKS
USE_RUNTIME_CHECKS = 0
!ENDIF

# Set this non-0 to create a SQLite amalgamation file that excludes the
# various built-in extensions.
#
!IFNDEF MINIMAL_AMALGAMATION
MINIMAL_AMALGAMATION = 0
!ENDIF

# Set this non-0 to use "stdcall" calling convention for the core library
# and shell executable.
#
!IFNDEF USE_STDCALL
USE_STDCALL = 0
................................................................................
# Enable use of available compiler optimizations?  Normally, this should be
# non-zero.  Setting this to zero, thus disabling all compiler optimizations,
# can be useful for testing.
#
!IFNDEF OPTIMIZATIONS
OPTIMIZATIONS = 2
!ENDIF

# Set this to non-0 to enable support for the session extension.
#
!IFNDEF SESSION
SESSION = 0
!ENDIF

# Set the source code file to be used by executables and libraries when
# they need the amalgamation.
#
!IFNDEF SQLITE3C
!IF $(SPLIT_AMALGAMATION)!=0
SQLITE3C = sqlite3-all.c
................................................................................
!IF $(FOR_WIN10)!=0
SQLITE3EXEPDB =
!ELSE
SQLITE3EXEPDB = /pdb:sqlite3sh.pdb
!ENDIF
!ENDIF

# <<mark>>
# These are the names of the customized Tcl header files used by various parts
# of this makefile when the stdcall calling convention is in use.  It is not
# used for any other purpose.
#
!IFNDEF SQLITETCLH
SQLITETCLH = sqlite_tcl.h
!ENDIF

!IFNDEF SQLITETCLDECLSH
SQLITETCLDECLSH = sqlite_tclDecls.h
!ENDIF

# These are the additional targets that the targets that integrate with the
# Tcl library should depend on when compiling, etc.
#
!IFNDEF SQLITE_TCL_DEP
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
SQLITE_TCL_DEP = $(SQLITETCLDECLSH) $(SQLITETCLH)
!ELSE
SQLITE_TCL_DEP =
!ENDIF
!ENDIF
# <</mark>>

# These are the "standard" SQLite compilation options used when compiling for
# the Windows platform.
#
!IFNDEF OPT_FEATURE_FLAGS
!IF $(MINIMAL_AMALGAMATION)==0
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS3=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_RTREE=1
!ENDIF
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_COLUMN_METADATA=1
!ENDIF

# Should the session extension be enabled?  If so, add compilation options
# to enable it.
#
!IF $(SESSION)!=0
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_SESSION=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_PREUPDATE_HOOK=1
!ENDIF

# These are the "extended" SQLite compilation options used when compiling for
# the Windows 10 platform.
#
!IFNDEF EXT_FEATURE_FLAGS
!IF $(FOR_WIN10)!=0
EXT_FEATURE_FLAGS = $(EXT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS4=1
................................................................................
# Check for the predefined command macro CC.  This should point to the compiler
# binary for the target platform.  If it is not defined, simply define it to
# the legacy default value 'cl.exe'.
#
!IFNDEF CC
CC = cl.exe
!ENDIF

# Check for the predefined command macro CSC.  This should point to a working
# C Sharp compiler binary.  If it is not defined, simply define it to the
# legacy default value 'csc.exe'.
#
!IFNDEF CSC
CSC = csc.exe
!ENDIF

# Check for the command macro LD.  This should point to the linker binary for
# the target platform.  If it is not defined, simply define it to the legacy
# default value 'link.exe'.
#
!IFNDEF LD
LD = link.exe
................................................................................
# same unless your are cross-compiling.)
#
!IF $(USE_FULLWARN)!=0
TCC = $(CC) -nologo -W4 -DINCLUDE_MSVC_H=1 $(CCOPTS) $(TCCOPTS)
!ELSE
TCC = $(CC) -nologo -W3 $(CCOPTS) $(TCCOPTS)
!ENDIF

# Check if warnings should be treated as errors when compiling.
#
!IF $(USE_FATAL_WARN)!=0
TCC = $(TCC) -WX
!ENDIF

TCC = $(TCC) -DSQLITE_OS_WIN=1 -I. -I$(TOP) -I$(TOP)\src -fp:precise
RCC = $(RC) -DSQLITE_OS_WIN=1 -I. -I$(TOP) -I$(TOP)\src $(RCOPTS) $(RCCOPTS)

# Check if we want to use the "stdcall" calling convention when compiling.
# This is not supported by the compilers for non-x86 platforms.  It should
# also be noted here that building any target with these "stdcall" options
# will most likely fail if the Tcl library is also required.  This is due
# to how the Tcl library functions are declared and exported (i.e. without
# an explicit calling convention, which results in "cdecl").
#
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
!IF "$(PLATFORM)"=="x86"
CORE_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall
SHELL_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall
# <<mark>>
TEST_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall -DINCLUDE_SQLITE_TCL_H=1 -DSQLITE_TCLAPI=__cdecl
# <</mark>>
!ELSE
!IFNDEF PLATFORM
CORE_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall
SHELL_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall
# <<mark>>
TEST_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall -DINCLUDE_SQLITE_TCL_H=1 -DSQLITE_TCLAPI=__cdecl
# <</mark>>
!ELSE
CORE_CCONV_OPTS =
SHELL_CCONV_OPTS =
# <<mark>>
TEST_CCONV_OPTS =
# <</mark>>
!ENDIF
!ENDIF
!ELSE
CORE_CCONV_OPTS =
SHELL_CCONV_OPTS =
# <<mark>>
TEST_CCONV_OPTS =
# <</mark>>
!ENDIF

# These are additional compiler options used for the core library.
#
!IFNDEF CORE_COMPILE_OPTS
!IF $(DYNAMIC_SHELL)!=0 || $(FOR_WIN10)!=0
CORE_COMPILE_OPTS = $(CORE_CCONV_OPTS) -DSQLITE_API=__declspec(dllexport)
................................................................................
!ENDIF
!ENDIF

# These are the additional targets that the core library should depend on
# when linking.
#
!IFNDEF CORE_LINK_DEP
!IF $(DYNAMIC_SHELL)!=0
CORE_LINK_DEP =
!ELSEIF $(FOR_WIN10)==0 || "$(PLATFORM)"=="x86"
CORE_LINK_DEP = sqlite3.def
!ELSE
CORE_LINK_DEP =
!ENDIF
!ENDIF

# These are additional linker options used for the core library.
#
!IFNDEF CORE_LINK_OPTS
!IF $(DYNAMIC_SHELL)!=0
CORE_LINK_OPTS =
!ELSEIF $(FOR_WIN10)==0 || "$(PLATFORM)"=="x86"
CORE_LINK_OPTS = /DEF:sqlite3.def
!ELSE
CORE_LINK_OPTS =
!ENDIF
!ENDIF

# These are additional compiler options used for the shell executable.
#
!IFNDEF SHELL_COMPILE_OPTS
!IF $(DYNAMIC_SHELL)!=0 || $(FOR_WIN10)!=0
................................................................................
# builds, we need to make sure the compiler can find these.
#
!IF $(USE_AMALGAMATION)==0
TCC = $(TCC) -I$(TOP)\ext\fts3
RCC = $(RCC) -I$(TOP)\ext\fts3
TCC = $(TCC) -I$(TOP)\ext\rtree
RCC = $(RCC) -I$(TOP)\ext\rtree
TCC = $(TCC) -I$(TOP)\ext\session
RCC = $(RCC) -I$(TOP)\ext\session
!ENDIF

# The mksqlite3c.tcl script accepts some options on the command
# line.  When compiling with debugging enabled, some of these
# options are necessary in order to allow debugging symbols to
# work correctly with Visual Studio when using the amalgamation.
#
!IFNDEF MKSQLITE3C_TOOL
!IF $(MINIMAL_AMALGAMATION)!=0
MKSQLITE3C_TOOL = $(TOP)\tool\mksqlite3c-noext.tcl
!ELSE
MKSQLITE3C_TOOL = $(TOP)\tool\mksqlite3c.tcl
!ENDIF
!ENDIF

!IFNDEF MKSQLITE3C_ARGS
!IF $(DEBUG)>1
MKSQLITE3C_ARGS = --linemacros
!ELSE
MKSQLITE3C_ARGS =
!ENDIF
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
MKSQLITE3C_ARGS = $(MKSQLITE3C_ARGS) --useapicall
!ENDIF
!ENDIF

# The mksqlite3h.tcl script accepts some options on the command line.
# When compiling with stdcall support, some of these options are
# necessary.
#
!IFNDEF MKSQLITE3H_ARGS
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
MKSQLITE3H_ARGS = --useapicall
!ELSE
MKSQLITE3H_ARGS =
!ENDIF
!ENDIF
# <</mark>>

# Define -DNDEBUG to compile without debugging (i.e., for production usage)
# Omitting the define will cause extra debugging code to be inserted and
# includes extra comments when "EXPLAIN stmt" is used.
................................................................................
TCC = $(TCC) -DSQLITE_ENABLE_API_ARMOR=1
RCC = $(RCC) -DSQLITE_ENABLE_API_ARMOR=1
!ENDIF

!IF $(DEBUG)>2
TCC = $(TCC) -DSQLITE_DEBUG=1
RCC = $(RCC) -DSQLITE_DEBUG=1
!IF $(DYNAMIC_SHELL)==0
TCC = $(TCC) -DSQLITE_ENABLE_WHERETRACE -DSQLITE_ENABLE_SELECTTRACE
RCC = $(RCC) -DSQLITE_ENABLE_WHERETRACE -DSQLITE_ENABLE_SELECTTRACE
!ENDIF
!ENDIF

!IF $(DEBUG)>4 || $(OSTRACE)!=0
TCC = $(TCC) -DSQLITE_FORCE_OS_TRACE=1 -DSQLITE_DEBUG_OS_TRACE=1
RCC = $(RCC) -DSQLITE_FORCE_OS_TRACE=1 -DSQLITE_DEBUG_OS_TRACE=1
!ENDIF

................................................................................
!ENDIF

!IFNDEF TCLLIBDIR
TCLLIBDIR = c:\tcl\lib
!ENDIF

!IFNDEF LIBTCL
LIBTCL = tcl86.lib
!ENDIF

!IFNDEF LIBTCLSTUB
LIBTCLSTUB = tclstub86.lib
!ENDIF

!IFNDEF LIBTCLPATH
LIBTCLPATH = c:\tcl\bin
!ENDIF

# The locations of the ICU header and library files.  These variables
................................................................................

# This is the command to use for tclsh - normally just "tclsh", but we may
# know the specific version we want to use.  This variable (TCLSH_CMD) may be
# overridden via the environment prior to running nmake in order to select a
# specific Tcl shell to use.
#
!IFNDEF TCLSH_CMD
TCLSH_CMD = tclsh
!ENDIF
# <</mark>>

# Compiler options needed for programs that use the readline() library.
#
!IFNDEF READLINE_FLAGS
READLINE_FLAGS = -DHAVE_READLINE=0
................................................................................

# If optimizations are enabled or disabled (either implicitly or
# explicitly), add the necessary flags.
#
!IF $(DEBUG)>1 || $(OPTIMIZATIONS)==0
TCC = $(TCC) -Od
BCC = $(BCC) -Od
!IF $(USE_RUNTIME_CHECKS)!=0
TCC = $(TCC) -RTC1
BCC = $(BCC) -RTC1
!ENDIF
!ELSEIF $(OPTIMIZATIONS)>=3
TCC = $(TCC) -Ox
BCC = $(BCC) -Ox
!ELSEIF $(OPTIMIZATIONS)==2
TCC = $(TCC) -O2
BCC = $(BCC) -O2
!ELSEIF $(OPTIMIZATIONS)==1
................................................................................
         callback.lo complete.lo ctime.lo date.lo dbstat.lo delete.lo \
         expr.lo fault.lo fkey.lo \
         fts3.lo fts3_aux.lo fts3_expr.lo fts3_hash.lo fts3_icu.lo \
         fts3_porter.lo fts3_snippet.lo fts3_tokenizer.lo fts3_tokenizer1.lo \
         fts3_tokenize_vtab.lo fts3_unicode.lo fts3_unicode2.lo fts3_write.lo \
         fts5.lo \
         func.lo global.lo hash.lo \
         icu.lo insert.lo legacy.lo loadext.lo \
         main.lo malloc.lo mem0.lo mem1.lo mem2.lo mem3.lo mem5.lo \
         memjournal.lo \
         mutex.lo mutex_noop.lo mutex_unix.lo mutex_w32.lo \
         notify.lo opcodes.lo os.lo os_unix.lo os_win.lo \
         pager.lo pcache.lo pcache1.lo pragma.lo prepare.lo printf.lo \
         random.lo resolve.lo rowset.lo rtree.lo \
         sqlite3session.lo select.lo sqlite3rbu.lo status.lo \
         table.lo threads.lo tokenize.lo treeview.lo trigger.lo \
         update.lo util.lo vacuum.lo \
         vdbeapi.lo vdbeaux.lo vdbeblob.lo vdbemem.lo vdbesort.lo \
         vdbetrace.lo wal.lo walker.lo where.lo wherecode.lo whereexpr.lo \
         utf.lo vtab.lo
# <</mark>>

................................................................................
  $(TOP)\src\expr.c \
  $(TOP)\src\fault.c \
  $(TOP)\src\fkey.c \
  $(TOP)\src\func.c \
  $(TOP)\src\global.c \
  $(TOP)\src\hash.c \
  $(TOP)\src\insert.c \

  $(TOP)\src\legacy.c \
  $(TOP)\src\loadext.c \
  $(TOP)\src\main.c \
  $(TOP)\src\malloc.c \
  $(TOP)\src\mem0.c \
  $(TOP)\src\mem1.c \
  $(TOP)\src\mem2.c \
................................................................................
  $(TOP)\ext\fts3\fts3_tokenizer1.c \
  $(TOP)\ext\fts3\fts3_tokenize_vtab.c \
  $(TOP)\ext\fts3\fts3_unicode.c \
  $(TOP)\ext\fts3\fts3_unicode2.c \
  $(TOP)\ext\fts3\fts3_write.c \
  $(TOP)\ext\icu\icu.c \
  $(TOP)\ext\rtree\rtree.c \
  $(TOP)\ext\session\sqlite3session.c \
  $(TOP)\ext\rbu\sqlite3rbu.c \
  $(TOP)\ext\misc\json1.c

# Extension header files, part 1.
#
SRC08 = \
  $(TOP)\ext\fts1\fts1.h \
................................................................................
SRC09 = \
  $(TOP)\ext\fts3\fts3.h \
  $(TOP)\ext\fts3\fts3Int.h \
  $(TOP)\ext\fts3\fts3_hash.h \
  $(TOP)\ext\fts3\fts3_tokenizer.h \
  $(TOP)\ext\icu\sqliteicu.h \
  $(TOP)\ext\rtree\rtree.h \
  $(TOP)\ext\rbu\sqlite3rbu.h \
  $(TOP)\ext\session\sqlite3session.h

# Generated source code files
#
SRC10 = \
  opcodes.c \
  parse.c

................................................................................
# Generated header files
#
SRC11 = \
  keywordhash.h \
  opcodes.h \
  parse.h \
  $(SQLITE3H)

# Generated Tcl header files
#
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
SRC12 = \
  $(SQLITETCLH) \
  $(SQLITETCLDECLSH)
!ELSE
SRC12 =
!ENDIF

# All source code files.
#
SRC = $(SRC00) $(SRC01) $(SRC02) $(SRC03) $(SRC04) $(SRC05) $(SRC06) $(SRC07) $(SRC08) $(SRC09) $(SRC10) $(SRC11)

# Source code to the test files.
#
................................................................................
  $(TOP)\src\test6.c \
  $(TOP)\src\test7.c \
  $(TOP)\src\test8.c \
  $(TOP)\src\test9.c \
  $(TOP)\src\test_autoext.c \
  $(TOP)\src\test_async.c \
  $(TOP)\src\test_backup.c \
  $(TOP)\src\test_bestindex.c \
  $(TOP)\src\test_blob.c \
  $(TOP)\src\test_btree.c \
  $(TOP)\src\test_config.c \
  $(TOP)\src\test_delete.c \
  $(TOP)\src\test_demovfs.c \
  $(TOP)\src\test_devsym.c \
  $(TOP)\src\test_fs.c \
  $(TOP)\src\test_func.c \
  $(TOP)\src\test_hexio.c \
  $(TOP)\src\test_init.c \
  $(TOP)\src\test_intarray.c \
................................................................................
  $(TOP)\src\test_tclvar.c \
  $(TOP)\src\test_thread.c \
  $(TOP)\src\test_vfs.c \
  $(TOP)\src\test_windirent.c \
  $(TOP)\src\test_wsd.c \
  $(TOP)\ext\fts3\fts3_term.c \
  $(TOP)\ext\fts3\fts3_test.c \
  $(TOP)\ext\rbu\test_rbu.c \
  $(TOP)\ext\session\test_session.c

# Statically linked extensions.
#
TESTEXT = \
  $(TOP)\ext\misc\amatch.c \
  $(TOP)\ext\misc\carray.c \
  $(TOP)\ext\misc\closure.c \
  $(TOP)\ext\misc\csv.c \
  $(TOP)\ext\misc\eval.c \
  $(TOP)\ext\misc\fileio.c \
  $(TOP)\ext\misc\fuzzer.c \
  $(TOP)\ext\fts5\fts5_tcl.c \
  $(TOP)\ext\fts5\fts5_test_mi.c \
  $(TOP)\ext\fts5\fts5_test_tok.c \
  $(TOP)\ext\misc\ieee754.c \
  $(TOP)\ext\misc\nextchar.c \
  $(TOP)\ext\misc\percentile.c \
  $(TOP)\ext\misc\regexp.c \
  $(TOP)\ext\misc\remember.c \
  $(TOP)\ext\misc\series.c \
  $(TOP)\ext\misc\spellfix.c \
  $(TOP)\ext\misc\totype.c \
  $(TOP)\ext\misc\wholenumber.c

# Source code to the library files needed by the test fixture
# (non-amalgamation)
#
TESTSRC2 = \
  $(SRC00) \
  $(SRC01) \
  $(SRC06) \
  $(SRC07) \
  $(SRC10) \
................................................................................
   $(TOP)\src\os_setup.h \
   $(TOP)\src\os_win.h \
   $(TOP)\src\pager.h \
   $(TOP)\src\pcache.h \
   parse.h \
   $(TOP)\src\pragma.h \
   $(SQLITE3H) \
   sqlite3ext.h \
   $(TOP)\src\sqliteInt.h \
   $(TOP)\src\sqliteLimit.h \
   $(TOP)\src\vdbe.h \
   $(TOP)\src\vdbeInt.h \
   $(TOP)\src\vxworks.h \
   $(TOP)\src\whereInt.h

................................................................................
  $(TOP)\ext\fts3\fts3_tokenizer.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\rtree\rtree.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\icu\sqliteicu.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\rtree\sqlite3rtree.h
EXTHDR = $(EXTHDR) \
  $(TOP)\ext\session\sqlite3session.h

# executables needed for testing
#
TESTPROGS = \
  testfixture.exe \
  $(SQLITE3EXE) \
  sqlite3_analyzer.exe \
  sqldiff.exe \
  dbhash.exe

# Databases containing fuzzer test cases
#
FUZZDATA = \
  $(TOP)\test\fuzzdata1.db \
  $(TOP)\test\fuzzdata2.db \
  $(TOP)\test\fuzzdata3.db \
  $(TOP)\test\fuzzdata4.db \
  $(TOP)\test\fuzzdata5.db
# <</mark>>

# Additional compiler options for the shell.  These are only effective
# when the shell is not being dynamically linked.
#
!IF $(DYNAMIC_SHELL)==0 && $(FOR_WIN10)==0
SHELL_COMPILE_OPTS = $(SHELL_COMPILE_OPTS) -DSQLITE_SHELL_JSON1 -DSQLITE_ENABLE_FTS4 -DSQLITE_ENABLE_EXPLAIN_COMMENTS
................................................................................
!ENDIF

# <<mark>>
# Extra compiler options for various test tools.
#
MPTESTER_COMPILE_OPTS = -DSQLITE_SHELL_JSON1 -DSQLITE_ENABLE_FTS5
FUZZERSHELL_COMPILE_OPTS = -DSQLITE_ENABLE_JSON1
FUZZCHECK_COMPILE_OPTS = -DSQLITE_ENABLE_JSON1 -DSQLITE_ENABLE_MEMSYS5 -DSQLITE_OSS_FUZZ -DSQLITE_MAX_MEMORY=50000000
FUZZCHECK_SRC = $(TOP)\test\fuzzcheck.c $(TOP)\test\ossfuzz.c
OSSSHELL_SRC = $(TOP)\test\ossshell.c $(TOP)\test\ossfuzz.c
DBFUZZ_COMPILE_OPTS = -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION
KV_COMPILE_OPTS = -DSQLITE_THREADSAFE=0 -DSQLITE_DIRECT_OVERFLOW_READ
DBSELFTEST_COMPILE_OPTS = -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION -DSQLITE_ENABLE_RTREE -DSQLITE_ENABLE_FTS4 -DSQLITE_ENABLE_FTS5
ST_COMPILE_OPTS = -DSQLITE_THREADSAFE=0

# Standard options to testfixture.
#
TESTOPTS = --verbose=file --output=test-out.txt

# Extra targets for the "all" target that require Tcl.
#
................................................................................
# This is the default Makefile target.  The objects listed here
# are what get build when you type just "make" with no arguments.
#
all:	dll libsqlite3.lib shell $(ALL_TCL_TARGETS)

# Dynamic link library section.
#
dll:	$(SQLITE3DLL)

# Shell executable.
#
shell:	$(SQLITE3EXE)

# <<mark>>
libsqlite3.lib:	$(LIBOBJ)
	$(LTLIB) $(LTLIBOPTS) /OUT:$@ $(LIBOBJ) $(TLIBS)

libtclsqlite3.lib:	tclsqlite.lo libsqlite3.lib
	$(LTLIB) $(LTLIBOPTS) $(LTLIBPATHS) /OUT:$@ tclsqlite.lo libsqlite3.lib $(LIBTCLSTUB) $(TLIBS)
# <</mark>>

$(SQLITE3DLL):	$(LIBOBJ) $(LIBRESOBJS) $(CORE_LINK_DEP)
	$(LD) $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /DLL $(CORE_LINK_OPTS) /OUT:$@ $(LIBOBJ) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

# <<block2>>
sqlite3.def:	libsqlite3.lib
	echo EXPORTS > sqlite3.def
	dumpbin /all libsqlite3.lib \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl include "^\s+1 _?(sqlite3(?:session|changeset|changegroup)?_[^@]*)(?:@\d+)?$$" \1 \
		| sort >> sqlite3.def
# <</block2>>

$(SQLITE3EXE):	$(TOP)\src\shell.c $(SHELL_CORE_DEP) $(LIBRESOBJS) $(SHELL_CORE_SRC) $(SQLITE3H)
	$(LTLINK) $(SHELL_COMPILE_OPTS) $(READLINE_FLAGS) $(TOP)\src\shell.c $(SHELL_CORE_SRC) \
		/link $(SQLITE3EXEPDB) $(LDFLAGS) $(LTLINKOPTS) $(SHELL_LINK_OPTS) $(LTLIBPATHS) $(LIBRESOBJS) $(LIBREADLINE) $(LTLIBS) $(TLIBS)

# <<mark>>
sqldiff.exe:	$(TOP)\tool\sqldiff.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(TOP)\tool\sqldiff.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

dbhash.exe:	$(TOP)\tool\dbhash.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(TOP)\tool\dbhash.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

scrub.exe:	$(TOP)\ext\misc\scrub.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(TOP)\ext\misc\scrub.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

srcck1.exe:	$(TOP)\tool\srcck1.c
	$(BCC) $(NO_WARN) -Fe$@ $(TOP)\tool\srcck1.c

sourcetest:	srcck1.exe sqlite3.c
	srcck1.exe sqlite3.c

fuzzershell.exe:	$(TOP)\tool\fuzzershell.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(FUZZERSHELL_COMPILE_OPTS) $(TOP)\tool\fuzzershell.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

dbfuzz.exe:	$(TOP)\test\dbfuzz.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(DBFUZZ_COMPILE_OPTS) $(TOP)\test\dbfuzz.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

fuzzcheck.exe:	$(FUZZCHECK_SRC) $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(FUZZCHECK_COMPILE_OPTS) $(FUZZCHECK_SRC) $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

ossshell.exe:	$(OSSSHELL_SRC) $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(FUZZCHECK_COMPILE_OPTS) $(OSSSHELL_SRC) $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

mptester.exe:	$(TOP)\mptest\mptest.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(MPTESTER_COMPILE_OPTS) $(TOP)\mptest\mptest.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

MPTEST1 = mptester mptest.db $(TOP)\mptest\crash01.test --repeat 20
MPTEST2 = mptester mptest.db $(TOP)\mptest\multiwrite01.test --repeat 20

................................................................................

# This target creates a directory named "tsrc" and fills it with
# copies of all of the C source code and header files needed to
# build on the target system.  Some of the C source code and header
# files are automatically generated.  This target takes care of
# all that automatic generation.
#
.target_source:	$(SRC) $(TOP)\tool\vdbe-compress.tcl fts5.c $(SQLITE_TCL_DEP)
	-rmdir /Q/S tsrc 2>NUL
	-mkdir tsrc
	for %i in ($(SRC00)) do copy /Y %i tsrc
	for %i in ($(SRC01)) do copy /Y %i tsrc
	for %i in ($(SRC02)) do copy /Y %i tsrc
	for %i in ($(SRC03)) do copy /Y %i tsrc
	for %i in ($(SRC04)) do copy /Y %i tsrc
................................................................................
	for %i in ($(SRC05)) do copy /Y %i tsrc
	for %i in ($(SRC06)) do copy /Y %i tsrc
	for %i in ($(SRC07)) do copy /Y %i tsrc
	for %i in ($(SRC08)) do copy /Y %i tsrc
	for %i in ($(SRC09)) do copy /Y %i tsrc
	for %i in ($(SRC10)) do copy /Y %i tsrc
	for %i in ($(SRC11)) do copy /Y %i tsrc
	for %i in ($(SRC12)) do copy /Y %i tsrc
	copy /Y fts5.c tsrc
	copy /Y fts5.h tsrc
	del /Q tsrc\sqlite.h.in tsrc\parse.y 2>NUL
	$(TCLSH_CMD) $(TOP)\tool\vdbe-compress.tcl $(OPTS) < tsrc\vdbe.c > vdbe.new
	move vdbe.new tsrc\vdbe.c
	echo > .target_source

sqlite3.c:	.target_source sqlite3ext.h $(MKSQLITE3C_TOOL)
	$(TCLSH_CMD) $(MKSQLITE3C_TOOL) $(MKSQLITE3C_ARGS)
	copy tsrc\shell.c .
	copy $(TOP)\ext\session\sqlite3session.h .

sqlite3-all.c:	sqlite3.c $(TOP)\tool\split-sqlite3c.tcl
	$(TCLSH_CMD) $(TOP)\tool\split-sqlite3c.tcl
# <</mark>>

# Rule to build the amalgamation
#
................................................................................

hash.lo:	$(TOP)\src\hash.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\hash.c

insert.lo:	$(TOP)\src\insert.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\insert.c




legacy.lo:	$(TOP)\src\legacy.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\legacy.c

loadext.lo:	$(TOP)\src\loadext.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\loadext.c

main.lo:	$(TOP)\src\main.c $(HDR)
................................................................................

wherecode.lo:	$(TOP)\src\wherecode.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\wherecode.c

whereexpr.lo:	$(TOP)\src\whereexpr.c $(HDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) -c $(TOP)\src\whereexpr.c

tclsqlite.lo:	$(TOP)\src\tclsqlite.c $(HDR) $(SQLITE_TCL_DEP)
	$(LTCOMPILE) $(NO_WARN) -DUSE_TCL_STUBS=1 -DBUILD_sqlite -I$(TCLINCDIR) -c $(TOP)\src\tclsqlite.c

tclsqlite-shell.lo:	$(TOP)\src\tclsqlite.c $(HDR) $(SQLITE_TCL_DEP)
	$(LTCOMPILE) $(NO_WARN) -DTCLSH=1 -DBUILD_sqlite -I$(TCLINCDIR) -c $(TOP)\src\tclsqlite.c

tclsqlite3.exe:	tclsqlite-shell.lo $(SQLITE3C) $(SQLITE3H) $(LIBRESOBJS)
	$(LTLINK) $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /OUT:$@ tclsqlite-shell.lo $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

# Rules to build opcodes.c and opcodes.h
#
................................................................................
	del /Q parse.y parse.h parse.h.temp 2>NUL
	copy $(TOP)\src\parse.y .
	.\lemon.exe $(REQ_FEATURE_FLAGS) $(OPT_FEATURE_FLAGS) $(EXT_FEATURE_FLAGS) $(OPTS) parse.y
	move parse.h parse.h.temp
	$(TCLSH_CMD) $(TOP)\tool\addopcodes.tcl parse.h.temp > parse.h

$(SQLITE3H):	$(TOP)\src\sqlite.h.in $(TOP)\manifest.uuid $(TOP)\VERSION
	$(TCLSH_CMD) $(TOP)\tool\mksqlite3h.tcl $(TOP:\=/) > $(SQLITE3H) $(MKSQLITE3H_ARGS)

sqlite3ext.h:	.target_source
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
	type tsrc\sqlite3ext.h | $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "\(\*\)" "(SQLITE_CALLBACK *)" \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "\(\*" "(SQLITE_APICALL *" > sqlite3ext.h
	copy /Y sqlite3ext.h tsrc\sqlite3ext.h
!ELSE
	copy /Y tsrc\sqlite3ext.h sqlite3ext.h
!ENDIF

mkkeywordhash.exe:	$(TOP)\tool\mkkeywordhash.c
	$(BCC) $(NO_WARN) -Fe$@ $(REQ_FEATURE_FLAGS) $(OPT_FEATURE_FLAGS) $(EXT_FEATURE_FLAGS) $(OPTS) \
		$(TOP)\tool\mkkeywordhash.c /link $(LDFLAGS) $(NLTLINKOPTS) $(NLTLIBPATHS)

keywordhash.h:	$(TOP)\tool\mkkeywordhash.c mkkeywordhash.exe
	.\mkkeywordhash.exe > keywordhash.h
................................................................................

fts3_write.lo:	$(TOP)\ext\fts3\fts3_write.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\fts3\fts3_write.c

rtree.lo:	$(TOP)\ext\rtree\rtree.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\rtree\rtree.c

sqlite3session.lo:	$(TOP)\ext\session\sqlite3session.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c $(TOP)\ext\session\sqlite3session.c

# FTS5 things
#
FTS5_SRC = \
   $(TOP)\ext\fts5\fts5.h \
   $(TOP)\ext\fts5\fts5Int.h \
   $(TOP)\ext\fts5\fts5_aux.c \
   $(TOP)\ext\fts5\fts5_buffer.c \
................................................................................
   $(TOP)\ext\fts5\fts5_vocab.c

fts5parse.c:	$(TOP)\ext\fts5\fts5parse.y lemon.exe
	copy $(TOP)\ext\fts5\fts5parse.y .
	del /Q fts5parse.h 2>NUL
	.\lemon.exe $(REQ_FEATURE_FLAGS) $(OPT_FEATURE_FLAGS) $(EXT_FEATURE_FLAGS) $(OPTS) fts5parse.y

fts5parse.h:	fts5parse.c

fts5.c:	$(FTS5_SRC)
	$(TCLSH_CMD) $(TOP)\ext\fts5\tool\mkfts5c.tcl
	copy $(TOP)\ext\fts5\fts5.h .

fts5.lo:	fts5.c $(HDR) $(EXTHDR)
	$(LTCOMPILE) $(CORE_COMPILE_OPTS) $(NO_WARN) -DSQLITE_CORE -c fts5.c

fts5_ext.lo:	fts5.c $(HDR) $(EXTHDR)
................................................................................
# fixture.  Otherwise link against libsqlite3.lib.  (This distinction is
# necessary because the test fixture requires non-API symbols which are
# hidden when the library is built via the amalgamation).
#
TESTFIXTURE_FLAGS = -DTCLSH=1 -DSQLITE_TEST=1 -DSQLITE_CRASH_TEST=1
TESTFIXTURE_FLAGS = $(TESTFIXTURE_FLAGS) -DSQLITE_SERVER=1 -DSQLITE_PRIVATE=""
TESTFIXTURE_FLAGS = $(TESTFIXTURE_FLAGS) -DSQLITE_CORE $(NO_WARN)
TESTFIXTURE_FLAGS = $(TESTFIXTURE_FLAGS) -DSQLITE_SERIES_CONSTRAINT_VERIFY=1
TESTFIXTURE_FLAGS = $(TESTFIXTURE_FLAGS) -DSQLITE_DEFAULT_PAGE_SIZE=1024
TESTFIXTURE_FLAGS = $(TESTFIXTURE_FLAGS) $(TEST_CCONV_OPTS)

TESTFIXTURE_SRC0 = $(TESTEXT) $(TESTSRC2)
TESTFIXTURE_SRC1 = $(TESTEXT) $(SQLITE3C)
!IF $(USE_AMALGAMATION)==0
TESTFIXTURE_SRC = $(TESTSRC) $(TOP)\src\tclsqlite.c $(TESTFIXTURE_SRC0)
!ELSE
TESTFIXTURE_SRC = $(TESTSRC) $(TOP)\src\tclsqlite.c $(TESTFIXTURE_SRC1)
!ENDIF

!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
sqlite_tclDecls.h:
	echo #ifndef SQLITE_TCLAPI > $(SQLITETCLDECLSH)
	echo #  define SQLITE_TCLAPI >> $(SQLITETCLDECLSH)
	echo #endif >> $(SQLITETCLDECLSH)
	type "$(TCLINCDIR)\tclDecls.h" \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "^(EXTERN(?: CONST\d+?)?\s+?[^\(]*?\s+?)Tcl_" "\1 SQLITE_TCLAPI Tcl_" \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "^(EXTERN\s+?(?:void|VOID)\s+?)TclFreeObj" "\1 SQLITE_TCLAPI TclFreeObj" \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "\(\*tcl_" "(SQLITE_TCLAPI *tcl_" \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "\(\*tclFreeObj" "(SQLITE_TCLAPI *tclFreeObj" \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "\(\*" "(SQLITE_TCLAPI *" >> $(SQLITETCLDECLSH)

sqlite_tcl.h:
	type "$(TCLINCDIR)\tcl.h" | $(TCLSH_CMD) $(TOP)\tool\replace.tcl exact tclDecls.h sqlite_tclDecls.h \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl regsub "typedef (.*?)\(Tcl_" "typedef \1 (SQLITE_TCLAPI Tcl_" \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl exact "void (*freeProc)" "void (SQLITE_TCLAPI *freeProc)" \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl exact "Tcl_HashEntry *(*findProc)" "Tcl_HashEntry *(SQLITE_TCLAPI *findProc)" \
		| $(TCLSH_CMD) $(TOP)\tool\replace.tcl exact "Tcl_HashEntry *(*createProc)" "Tcl_HashEntry *(SQLITE_TCLAPI *createProc)" >> $(SQLITETCLH)
!ENDIF

testfixture.exe:	$(TESTFIXTURE_SRC) $(SQLITE3H) $(LIBRESOBJS) $(HDR) $(SQLITE_TCL_DEP)
	$(LTLINK) -DSQLITE_NO_SYNC=1 $(TESTFIXTURE_FLAGS) \
		-DBUILD_sqlite -I$(TCLINCDIR) \
		$(TESTFIXTURE_SRC) \
		/link $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

extensiontest:	testfixture.exe testloadext.dll
	@set PATH=$(LIBTCLPATH);$(PATH)
	.\testfixture.exe $(TOP)\test\loadext.test $(TESTOPTS)

fulltest:	$(TESTPROGS) fuzztest
	@set PATH=$(LIBTCLPATH);$(PATH)
	.\testfixture.exe $(TOP)\test\all.test $(TESTOPTS)

................................................................................
	@set PATH=$(LIBTCLPATH);$(PATH)
	.\testfixture.exe $(TOP)\test\veryquick.test $(TESTOPTS)

smoketest:	$(TESTPROGS)
	@set PATH=$(LIBTCLPATH);$(PATH)
	.\testfixture.exe $(TOP)\test\main.test $(TESTOPTS)

sqlite3_analyzer.c:	$(SQLITE3C) $(SQLITE3H) $(TOP)\src\tclsqlite.c $(TOP)\tool\spaceanal.tcl $(SQLITE_TCL_DEP)
	echo #define TCLSH 2 > $@
	echo #define SQLITE_ENABLE_DBSTAT_VTAB 1 >> $@
	copy $@ + $(SQLITE3C) + $(TOP)\src\tclsqlite.c $@
	echo static const char *tclsh_main_loop(void){ >> $@
	echo static const char *zMainloop = >> $@
	$(TCLSH_CMD) $(TOP)\tool\tostr.tcl $(TOP)\tool\spaceanal.tcl >> $@
	echo ; return zMainloop; } >> $@

sqlite3_analyzer.exe:	sqlite3_analyzer.c $(LIBRESOBJS)
	$(LTLINK) $(NO_WARN) -DBUILD_sqlite -I$(TCLINCDIR) sqlite3_analyzer.c \
		/link $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

dbdump.exe:	$(TOP)\ext\misc\dbdump.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DDBDUMP_STANDALONE $(TOP)\ext\misc\dbdump.c $(SQLITE3C) \
		/link $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) $(LIBRESOBJS) $(LTLIBS)

testloadext.lo:	$(TOP)\src\test_loadext.c
	$(LTCOMPILE) $(NO_WARN) -c $(TOP)\src\test_loadext.c

testloadext.dll:	testloadext.lo
	$(LD) $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /DLL /OUT:$@ testloadext.lo

showdb.exe:	$(TOP)\tool\showdb.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION \
		$(TOP)\tool\showdb.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

showstat4.exe:	$(TOP)\tool\showstat4.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION \
		$(TOP)\tool\showstat4.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

showjournal.exe:	$(TOP)\tool\showjournal.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION \
		$(TOP)\tool\showjournal.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

showwal.exe:	$(TOP)\tool\showwal.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION \
		$(TOP)\tool\showwal.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

changeset.exe:	$(TOP)\ext\session\changeset.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION \
		-DSQLITE_ENABLE_SESSION=1 -DSQLITE_ENABLE_PREUPDATE_HOOK=1 \
		$(TOP)\ext\session\changeset.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

fts3view.exe:	$(TOP)\ext\fts3\tool\fts3view.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION \
		$(TOP)\ext\fts3\tool\fts3view.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

rollback-test.exe:	$(TOP)\tool\rollback-test.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION \
		$(TOP)\tool\rollback-test.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

LogEst.exe:	$(TOP)\tool\logest.c $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(TOP)\tool\LogEst.c /link $(LDFLAGS) $(LTLINKOPTS)

wordcount.exe:	$(TOP)\test\wordcount.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_THREADSAFE=0 -DSQLITE_OMIT_LOAD_EXTENSION \
		$(TOP)\test\wordcount.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

speedtest1.exe:	$(TOP)\test\speedtest1.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(ST_COMPILE_OPTS) -DSQLITE_OMIT_LOAD_EXTENSION \
		$(TOP)\test\speedtest1.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

kvtest.exe:	$(TOP)\test\kvtest.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(KV_COMPILE_OPTS) \
		$(TOP)\test\kvtest.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

dbselftest.exe:	$(TOP)\test\dbselftest.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) $(DBSELFTEST_COMPILE_OPTS) $(TOP)\test\dbselftest.c $(SQLITE3C)

rbu.exe:	$(TOP)\ext\rbu\rbu.c $(TOP)\ext\rbu\sqlite3rbu.c $(SQLITE3C) $(SQLITE3H)
	$(LTLINK) $(NO_WARN) -DSQLITE_ENABLE_RBU \
		$(TOP)\ext\rbu\rbu.c $(SQLITE3C) /link $(LDFLAGS) $(LTLINKOPTS)

moreclean:	clean
	del /Q $(SQLITE3C) $(SQLITE3H) 2>NUL
# <</mark>>

clean:
	del /Q *.exp *.lo *.ilk *.lib *.obj *.ncb *.pdb *.sdf *.suo 2>NUL
	del /Q *.bsc *.def *.cod *.da *.bb *.bbg *.vc gmon.out 2>NUL
	del /Q $(SQLITE3EXE) $(SQLITE3DLL) Replace.exe 2>NUL
# <<mark>>
	del /Q sqlite3.c sqlite3.h 2>NUL
	del /Q opcodes.c opcodes.h 2>NUL
	del /Q lemon.* lempar.c parse.* 2>NUL
	del /Q mkkeywordhash.* keywordhash.h 2>NUL
	del /Q notasharedlib.* 2>NUL
	-rmdir /Q/S .deps 2>NUL
	-rmdir /Q/S .libs 2>NUL



	-rmdir /Q/S tsrc 2>NUL
	del /Q .target_source 2>NUL
	del /Q tclsqlite3.exe $(SQLITETCLH) $(SQLITETCLDECLSH) 2>NUL
	del /Q testloadext.dll 2>NUL
	del /Q testfixture.exe test.db 2>NUL
	del /Q LogEst.exe fts3view.exe rollback-test.exe showdb.exe dbdump.exe 2>NUL
	del /Q changeset.exe 2>NUL
	del /Q showjournal.exe showstat4.exe showwal.exe speedtest1.exe 2>NUL
	del /Q mptester.exe wordcount.exe rbu.exe srcck1.exe 2>NUL
	del /Q sqlite3.c sqlite3-*.c 2>NUL
	del /Q sqlite3rc.h 2>NUL
	del /Q shell.c sqlite3ext.h sqlite3session.h 2>NUL
	del /Q sqlite3_analyzer.exe sqlite3_analyzer.c 2>NUL
	del /Q sqlite-*-output.vsix 2>NUL
	del /Q fuzzershell.exe fuzzcheck.exe sqldiff.exe dbhash.exe 2>NUL
	del /Q fts5.* fts5parse.* 2>NUL
# <</mark>>

Changes to README.md.

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engine.  Some test scripts are also include.  However, many other test scripts
and most of the documentation are managed separately.

If you are reading this on a Git mirror someplace, you are doing it wrong.
The [official repository](https://www.sqlite.org/src/) is better.  Go there
now.











































## Compiling

First create a directory in which to place
the build products.  It is recommended, but not required, that the
build directory be separate from the source directory.  Cd into the
build directory and then from the build directory run the configure
script found at the root of the source tree.  Then run "make".

For example:

    tar xzf sqlite.tar.gz    ;#  Unpack the source tree into "sqlite"
    mkdir bld                ;#  Build will occur in a sibling directory
    cd bld                   ;#  Change to the build directory
    ../sqlite/configure      ;#  Run the configure script
    make                     ;#  Run the makefile.
    make sqlite3.c           ;#  Build the "amalgamation" source file
    make test                ;#  Run some tests (requires Tcl)

See the makefile for additional targets.

The configure script uses autoconf 2.61 and libtool.  If the configure
script does not work out for you, there is a generic makefile named
"Makefile.linux-gcc" in the top directory of the source tree that you
can copy and edit to suit your needs.  Comments on the generic makefile
................................................................................
On Windows, all applicable build products can be compiled with MSVC.
First open the command prompt window associated with the desired compiler
version (e.g. "Developer Command Prompt for VS2013").  Next, use NMAKE
with the provided "Makefile.msc" to build one of the supported targets.

For example:

    mkdir bld
    cd bld
    nmake /f Makefile.msc TOP=..\sqlite
    nmake /f Makefile.msc sqlite3.c TOP=..\sqlite
    nmake /f Makefile.msc sqlite3.dll TOP=..\sqlite
    nmake /f Makefile.msc sqlite3.exe TOP=..\sqlite
    nmake /f Makefile.msc test TOP=..\sqlite

There are several build options that can be set via the NMAKE command
line.  For example, to build for WinRT, simply add "FOR_WINRT=1" argument
to the "sqlite3.dll" command line above.  When debugging into the SQLite
code, adding the "DEBUG=1" argument to one of the above command lines is
recommended.








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engine.  Some test scripts are also include.  However, many other test scripts
and most of the documentation are managed separately.

If you are reading this on a Git mirror someplace, you are doing it wrong.
The [official repository](https://www.sqlite.org/src/) is better.  Go there
now.

## Obtaining The Code

SQLite sources are managed using the
[Fossil](https://www.fossil-scm.org/), a distributed version control system
that was specifically designed to support SQLite development.
If you do not want to use Fossil, you can download tarballs or ZIP
archives as follows:

  *  Lastest trunk check-in:
     <https://www.sqlite.org/src/tarball/sqlite.tar.gz> or
     <https://www.sqlite.org/src/zip/sqlite.zip>.

  *  Latest release:
     <https://www.sqlite.org/src/tarball/sqlite.tar.gz?r=release> or
     <https://www.sqlite.org/src/zip/sqlite.zip?r=release>.

  *  For other check-ins, substitute an appropriate branch name or
     tag or hash prefix for "release" in the URLs of the previous
     bullet.  Or browse the [timeline](https://www.sqlite.org/src/timeline)
     to locate the check-in desired, click on its information page link,
     then click on the "Tarball" or "ZIP Archive" links on the information
     page.

If you do want to use Fossil to check out the source tree, 
first install Fossil version 2.0 or later.
(Source tarballs and precompiled binaries available
[here](https://www.fossil-scm.org/fossil/uv/download.html).)
Then run commands like this:

        mkdir ~/sqlite
        cd ~/sqlite
        fossil clone https://www.sqlite.org/src sqlite.fossil
        fossil open sqlite.fossil
    
After setting up a repository using the steps above, you can always
update to the lastest version using:

        fossil update trunk   ;# latest trunk check-in
        fossil update release ;# latest official release

Or type "fossil ui" to get a web-based user interface.

## Compiling

First create a directory in which to place
the build products.  It is recommended, but not required, that the
build directory be separate from the source directory.  Cd into the
build directory and then from the build directory run the configure
script found at the root of the source tree.  Then run "make".

For example:

        tar xzf sqlite.tar.gz    ;#  Unpack the source tree into "sqlite"
        mkdir bld                ;#  Build will occur in a sibling directory
        cd bld                   ;#  Change to the build directory
        ../sqlite/configure      ;#  Run the configure script
        make                     ;#  Run the makefile.
        make sqlite3.c           ;#  Build the "amalgamation" source file
        make test                ;#  Run some tests (requires Tcl)

See the makefile for additional targets.

The configure script uses autoconf 2.61 and libtool.  If the configure
script does not work out for you, there is a generic makefile named
"Makefile.linux-gcc" in the top directory of the source tree that you
can copy and edit to suit your needs.  Comments on the generic makefile
................................................................................
On Windows, all applicable build products can be compiled with MSVC.
First open the command prompt window associated with the desired compiler
version (e.g. "Developer Command Prompt for VS2013").  Next, use NMAKE
with the provided "Makefile.msc" to build one of the supported targets.

For example:

        mkdir bld
        cd bld
        nmake /f Makefile.msc TOP=..\sqlite
        nmake /f Makefile.msc sqlite3.c TOP=..\sqlite
        nmake /f Makefile.msc sqlite3.dll TOP=..\sqlite
        nmake /f Makefile.msc sqlite3.exe TOP=..\sqlite
        nmake /f Makefile.msc test TOP=..\sqlite

There are several build options that can be set via the NMAKE command
line.  For example, to build for WinRT, simply add "FOR_WINRT=1" argument
to the "sqlite3.dll" command line above.  When debugging into the SQLite
code, adding the "DEBUG=1" argument to one of the above command lines is
recommended.

Changes to VERSION.

1
3.12.0
|
1
3.20.0

Changes to autoconf/Makefile.am.

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AM_CFLAGS = @THREADSAFE_FLAGS@ @DYNAMIC_EXTENSION_FLAGS@ @FTS5_FLAGS@ @JSON1_FLAGS@ -DSQLITE_ENABLE_FTS3 -DSQLITE_ENABLE_RTREE

lib_LTLIBRARIES = libsqlite3.la
libsqlite3_la_SOURCES = sqlite3.c
libsqlite3_la_LDFLAGS = -no-undefined -version-info 8:6:8

bin_PROGRAMS = sqlite3
sqlite3_SOURCES = shell.c sqlite3.c sqlite3.h

sqlite3_LDADD = @READLINE_LIBS@
sqlite3_DEPENDENCIES = @EXTRA_SHELL_OBJ@
sqlite3_CFLAGS = $(AM_CFLAGS) -DSQLITE_ENABLE_EXPLAIN_COMMENTS

include_HEADERS = sqlite3.h sqlite3ext.h

EXTRA_DIST = sqlite3.1 tea Makefile.msc sqlite3.rc README.txt
pkgconfigdir = ${libdir}/pkgconfig
pkgconfig_DATA = sqlite3.pc

man_MANS = sqlite3.1

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AM_CFLAGS = @THREADSAFE_FLAGS@ @DYNAMIC_EXTENSION_FLAGS@ @FTS5_FLAGS@ @JSON1_FLAGS@ @SESSION_FLAGS@ -DSQLITE_ENABLE_FTS3 -DSQLITE_ENABLE_RTREE

lib_LTLIBRARIES = libsqlite3.la
libsqlite3_la_SOURCES = sqlite3.c
libsqlite3_la_LDFLAGS = -no-undefined -version-info 8:6:8

bin_PROGRAMS = sqlite3
sqlite3_SOURCES = shell.c sqlite3.h
EXTRA_sqlite3_SOURCES = sqlite3.c
sqlite3_LDADD = @EXTRA_SHELL_OBJ@ @READLINE_LIBS@
sqlite3_DEPENDENCIES = @EXTRA_SHELL_OBJ@
sqlite3_CFLAGS = $(AM_CFLAGS) -DSQLITE_ENABLE_EXPLAIN_COMMENTS

include_HEADERS = sqlite3.h sqlite3ext.h

EXTRA_DIST = sqlite3.1 tea Makefile.msc sqlite3.rc README.txt Replace.cs
pkgconfigdir = ${libdir}/pkgconfig
pkgconfig_DATA = sqlite3.pc

man_MANS = sqlite3.1

Changes to autoconf/Makefile.msc.

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#
TOP = .


# Set this non-0 to enable full warnings (-W4, etc) when compiling.
#
!IFNDEF USE_FULLWARN
USE_FULLWARN = 0





















!ENDIF

# Set this non-0 to use "stdcall" calling convention for the core library
# and shell executable.
#
!IFNDEF USE_STDCALL
USE_STDCALL = 0
................................................................................
# Enable use of available compiler optimizations?  Normally, this should be
# non-zero.  Setting this to zero, thus disabling all compiler optimizations,
# can be useful for testing.
#
!IFNDEF OPTIMIZATIONS
OPTIMIZATIONS = 2
!ENDIF







# Set the source code file to be used by executables and libraries when
# they need the amalgamation.
#
!IFNDEF SQLITE3C
!IF $(SPLIT_AMALGAMATION)!=0
SQLITE3C = sqlite3-all.c
................................................................................
!IFNDEF SQLITE3EXEPDB
!IF $(FOR_WIN10)!=0
SQLITE3EXEPDB =
!ELSE
SQLITE3EXEPDB = /pdb:sqlite3sh.pdb
!ENDIF
!ENDIF


# These are the "standard" SQLite compilation options used when compiling for
# the Windows platform.
#
!IFNDEF OPT_FEATURE_FLAGS

OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS3=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_RTREE=1

OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_COLUMN_METADATA=1
!ENDIF









# These are the "extended" SQLite compilation options used when compiling for
# the Windows 10 platform.
#
!IFNDEF EXT_FEATURE_FLAGS
!IF $(FOR_WIN10)!=0
EXT_FEATURE_FLAGS = $(EXT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS4=1
................................................................................
# Check for the predefined command macro CC.  This should point to the compiler
# binary for the target platform.  If it is not defined, simply define it to
# the legacy default value 'cl.exe'.
#
!IFNDEF CC
CC = cl.exe
!ENDIF









# Check for the command macro LD.  This should point to the linker binary for
# the target platform.  If it is not defined, simply define it to the legacy
# default value 'link.exe'.
#
!IFNDEF LD
LD = link.exe
................................................................................
# same unless your are cross-compiling.)
#
!IF $(USE_FULLWARN)!=0
TCC = $(CC) -nologo -W4 -DINCLUDE_MSVC_H=1 $(CCOPTS) $(TCCOPTS)
!ELSE
TCC = $(CC) -nologo -W3 $(CCOPTS) $(TCCOPTS)
!ENDIF







TCC = $(TCC) -DSQLITE_OS_WIN=1 -I. -I$(TOP) -fp:precise
RCC = $(RC) -DSQLITE_OS_WIN=1 -I. -I$(TOP) $(RCOPTS) $(RCCOPTS)

# Check if we want to use the "stdcall" calling convention when compiling.
# This is not supported by the compilers for non-x86 platforms.  It should
# also be noted here that building any target with these "stdcall" options
# will most likely fail if the Tcl library is also required.  This is due
# to how the Tcl library functions are declared and exported (i.e. without
# an explicit calling convention, which results in "cdecl").
#
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
!IF "$(PLATFORM)"=="x86"
CORE_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_STDCALL=__stdcall
SHELL_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_STDCALL=__stdcall
!ELSE
!IFNDEF PLATFORM
CORE_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_STDCALL=__stdcall
SHELL_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_STDCALL=__stdcall
!ELSE
CORE_CCONV_OPTS =
SHELL_CCONV_OPTS =
!ENDIF
!ENDIF
!ELSE
CORE_CCONV_OPTS =
................................................................................
!ENDIF
!ENDIF

# These are the additional targets that the core library should depend on
# when linking.
#
!IFNDEF CORE_LINK_DEP
!IF $(DYNAMIC_SHELL)!=0 || $(FOR_WIN10)!=0
CORE_LINK_DEP =


!ELSE
CORE_LINK_DEP =
!ENDIF
!ENDIF

# These are additional linker options used for the core library.
#
!IFNDEF CORE_LINK_OPTS
!IF $(DYNAMIC_SHELL)!=0 || $(FOR_WIN10)!=0
CORE_LINK_OPTS =


!ELSE
CORE_LINK_OPTS =
!ENDIF
!ENDIF

# These are additional compiler options used for the shell executable.
#
................................................................................
TCC = $(TCC) -DSQLITE_ENABLE_API_ARMOR=1
RCC = $(RCC) -DSQLITE_ENABLE_API_ARMOR=1
!ENDIF

!IF $(DEBUG)>2
TCC = $(TCC) -DSQLITE_DEBUG=1
RCC = $(RCC) -DSQLITE_DEBUG=1




!ENDIF

!IF $(DEBUG)>4 || $(OSTRACE)!=0
TCC = $(TCC) -DSQLITE_FORCE_OS_TRACE=1 -DSQLITE_DEBUG_OS_TRACE=1
RCC = $(RCC) -DSQLITE_FORCE_OS_TRACE=1 -DSQLITE_DEBUG_OS_TRACE=1
!ENDIF

................................................................................

# If optimizations are enabled or disabled (either implicitly or
# explicitly), add the necessary flags.
#
!IF $(DEBUG)>1 || $(OPTIMIZATIONS)==0
TCC = $(TCC) -Od
BCC = $(BCC) -Od




!ELSEIF $(OPTIMIZATIONS)>=3
TCC = $(TCC) -Ox
BCC = $(BCC) -Ox
!ELSEIF $(OPTIMIZATIONS)==2
TCC = $(TCC) -O2
BCC = $(BCC) -O2
!ELSEIF $(OPTIMIZATIONS)==1
................................................................................
# This is the default Makefile target.  The objects listed here
# are what get build when you type just "make" with no arguments.
#
all:	dll shell

# Dynamic link library section.
#
dll: $(SQLITE3DLL)

# Shell executable.
#
shell: $(SQLITE3EXE)


$(SQLITE3DLL): $(LIBOBJ) $(LIBRESOBJS) $(CORE_LINK_DEP)
	$(LD) $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /DLL $(CORE_LINK_OPTS) /OUT:$@ $(LIBOBJ) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)










$(SQLITE3EXE):	$(TOP)\shell.c $(SHELL_CORE_DEP) $(LIBRESOBJS) $(SHELL_CORE_SRC) $(SQLITE3H)
	$(LTLINK) $(SHELL_COMPILE_OPTS) $(READLINE_FLAGS) $(TOP)\shell.c $(SHELL_CORE_SRC) \
		/link $(SQLITE3EXEPDB) $(LDFLAGS) $(LTLINKOPTS) $(SHELL_LINK_OPTS) $(LTLIBPATHS) $(LIBRESOBJS) $(LIBREADLINE) $(LTLIBS) $(TLIBS)


# Rule to build the amalgamation
................................................................................
	$(LTRCOMPILE) -fo $(LIBRESOBJS) -DRC_VERONLY $(TOP)\sqlite3.rc
!ENDIF


clean:
	del /Q *.exp *.lo *.ilk *.lib *.obj *.ncb *.pdb *.sdf *.suo 2>NUL
	del /Q *.bsc *.def *.cod *.da *.bb *.bbg *.vc gmon.out 2>NUL
	del /Q $(SQLITE3EXE) $(SQLITE3DLL) 2>NUL







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#
TOP = .


# Set this non-0 to enable full warnings (-W4, etc) when compiling.
#
!IFNDEF USE_FULLWARN
USE_FULLWARN = 1
!ENDIF

# Set this non-0 to enable treating warnings as errors (-WX, etc) when
# compiling.
#
!IFNDEF USE_FATAL_WARN
USE_FATAL_WARN = 0
!ENDIF

# Set this non-0 to enable full runtime error checks (-RTC1, etc).  This
# has no effect if (any) optimizations are enabled.
#
!IFNDEF USE_RUNTIME_CHECKS
USE_RUNTIME_CHECKS = 0
!ENDIF

# Set this non-0 to create a SQLite amalgamation file that excludes the
# various built-in extensions.
#
!IFNDEF MINIMAL_AMALGAMATION
MINIMAL_AMALGAMATION = 0
!ENDIF

# Set this non-0 to use "stdcall" calling convention for the core library
# and shell executable.
#
!IFNDEF USE_STDCALL
USE_STDCALL = 0
................................................................................
# Enable use of available compiler optimizations?  Normally, this should be
# non-zero.  Setting this to zero, thus disabling all compiler optimizations,
# can be useful for testing.
#
!IFNDEF OPTIMIZATIONS
OPTIMIZATIONS = 2
!ENDIF

# Set this to non-0 to enable support for the session extension.
#
!IFNDEF SESSION
SESSION = 0
!ENDIF

# Set the source code file to be used by executables and libraries when
# they need the amalgamation.
#
!IFNDEF SQLITE3C
!IF $(SPLIT_AMALGAMATION)!=0
SQLITE3C = sqlite3-all.c
................................................................................
!IFNDEF SQLITE3EXEPDB
!IF $(FOR_WIN10)!=0
SQLITE3EXEPDB =
!ELSE
SQLITE3EXEPDB = /pdb:sqlite3sh.pdb
!ENDIF
!ENDIF


# These are the "standard" SQLite compilation options used when compiling for
# the Windows platform.
#
!IFNDEF OPT_FEATURE_FLAGS
!IF $(MINIMAL_AMALGAMATION)==0
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS3=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_RTREE=1
!ENDIF
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_COLUMN_METADATA=1
!ENDIF

# Should the session extension be enabled?  If so, add compilation options
# to enable it.
#
!IF $(SESSION)!=0
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_SESSION=1
OPT_FEATURE_FLAGS = $(OPT_FEATURE_FLAGS) -DSQLITE_ENABLE_PREUPDATE_HOOK=1
!ENDIF

# These are the "extended" SQLite compilation options used when compiling for
# the Windows 10 platform.
#
!IFNDEF EXT_FEATURE_FLAGS
!IF $(FOR_WIN10)!=0
EXT_FEATURE_FLAGS = $(EXT_FEATURE_FLAGS) -DSQLITE_ENABLE_FTS4=1
................................................................................
# Check for the predefined command macro CC.  This should point to the compiler
# binary for the target platform.  If it is not defined, simply define it to
# the legacy default value 'cl.exe'.
#
!IFNDEF CC
CC = cl.exe
!ENDIF

# Check for the predefined command macro CSC.  This should point to a working
# C Sharp compiler binary.  If it is not defined, simply define it to the
# legacy default value 'csc.exe'.
#
!IFNDEF CSC
CSC = csc.exe
!ENDIF

# Check for the command macro LD.  This should point to the linker binary for
# the target platform.  If it is not defined, simply define it to the legacy
# default value 'link.exe'.
#
!IFNDEF LD
LD = link.exe
................................................................................
# same unless your are cross-compiling.)
#
!IF $(USE_FULLWARN)!=0
TCC = $(CC) -nologo -W4 -DINCLUDE_MSVC_H=1 $(CCOPTS) $(TCCOPTS)
!ELSE
TCC = $(CC) -nologo -W3 $(CCOPTS) $(TCCOPTS)
!ENDIF

# Check if warnings should be treated as errors when compiling.
#
!IF $(USE_FATAL_WARN)!=0
TCC = $(TCC) -WX
!ENDIF

TCC = $(TCC) -DSQLITE_OS_WIN=1 -I. -I$(TOP) -fp:precise
RCC = $(RC) -DSQLITE_OS_WIN=1 -I. -I$(TOP) $(RCOPTS) $(RCCOPTS)

# Check if we want to use the "stdcall" calling convention when compiling.
# This is not supported by the compilers for non-x86 platforms.  It should
# also be noted here that building any target with these "stdcall" options
# will most likely fail if the Tcl library is also required.  This is due
# to how the Tcl library functions are declared and exported (i.e. without
# an explicit calling convention, which results in "cdecl").
#
!IF $(USE_STDCALL)!=0 || $(FOR_WIN10)!=0
!IF "$(PLATFORM)"=="x86"
CORE_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall
SHELL_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall
!ELSE
!IFNDEF PLATFORM
CORE_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall
SHELL_CCONV_OPTS = -Gz -DSQLITE_CDECL=__cdecl -DSQLITE_APICALL=__stdcall -DSQLITE_CALLBACK=__stdcall -DSQLITE_SYSAPI=__stdcall
!ELSE
CORE_CCONV_OPTS =
SHELL_CCONV_OPTS =
!ENDIF
!ENDIF
!ELSE
CORE_CCONV_OPTS =
................................................................................
!ENDIF
!ENDIF

# These are the additional targets that the core library should depend on
# when linking.
#
!IFNDEF CORE_LINK_DEP
!IF $(DYNAMIC_SHELL)!=0
CORE_LINK_DEP =
!ELSEIF $(FOR_WIN10)==0 || "$(PLATFORM)"=="x86"
CORE_LINK_DEP = sqlite3.def
!ELSE
CORE_LINK_DEP =
!ENDIF
!ENDIF

# These are additional linker options used for the core library.
#
!IFNDEF CORE_LINK_OPTS
!IF $(DYNAMIC_SHELL)!=0
CORE_LINK_OPTS =
!ELSEIF $(FOR_WIN10)==0 || "$(PLATFORM)"=="x86"
CORE_LINK_OPTS = /DEF:sqlite3.def
!ELSE
CORE_LINK_OPTS =
!ENDIF
!ENDIF

# These are additional compiler options used for the shell executable.
#
................................................................................
TCC = $(TCC) -DSQLITE_ENABLE_API_ARMOR=1
RCC = $(RCC) -DSQLITE_ENABLE_API_ARMOR=1
!ENDIF

!IF $(DEBUG)>2
TCC = $(TCC) -DSQLITE_DEBUG=1
RCC = $(RCC) -DSQLITE_DEBUG=1
!IF $(DYNAMIC_SHELL)==0
TCC = $(TCC) -DSQLITE_ENABLE_WHERETRACE -DSQLITE_ENABLE_SELECTTRACE
RCC = $(RCC) -DSQLITE_ENABLE_WHERETRACE -DSQLITE_ENABLE_SELECTTRACE
!ENDIF
!ENDIF

!IF $(DEBUG)>4 || $(OSTRACE)!=0
TCC = $(TCC) -DSQLITE_FORCE_OS_TRACE=1 -DSQLITE_DEBUG_OS_TRACE=1
RCC = $(RCC) -DSQLITE_FORCE_OS_TRACE=1 -DSQLITE_DEBUG_OS_TRACE=1
!ENDIF

................................................................................

# If optimizations are enabled or disabled (either implicitly or
# explicitly), add the necessary flags.
#
!IF $(DEBUG)>1 || $(OPTIMIZATIONS)==0
TCC = $(TCC) -Od
BCC = $(BCC) -Od
!IF $(USE_RUNTIME_CHECKS)!=0
TCC = $(TCC) -RTC1
BCC = $(BCC) -RTC1
!ENDIF
!ELSEIF $(OPTIMIZATIONS)>=3
TCC = $(TCC) -Ox
BCC = $(BCC) -Ox
!ELSEIF $(OPTIMIZATIONS)==2
TCC = $(TCC) -O2
BCC = $(BCC) -O2
!ELSEIF $(OPTIMIZATIONS)==1
................................................................................
# This is the default Makefile target.  The objects listed here
# are what get build when you type just "make" with no arguments.
#
all:	dll shell

# Dynamic link library section.
#
dll:	$(SQLITE3DLL)

# Shell executable.
#
shell:	$(SQLITE3EXE)


$(SQLITE3DLL):	$(LIBOBJ) $(LIBRESOBJS) $(CORE_LINK_DEP)
	$(LD) $(LDFLAGS) $(LTLINKOPTS) $(LTLIBPATHS) /DLL $(CORE_LINK_OPTS) /OUT:$@ $(LIBOBJ) $(LIBRESOBJS) $(LTLIBS) $(TLIBS)

Replace.exe:
	$(CSC) /target:exe $(TOP)\Replace.cs

sqlite3.def:	Replace.exe $(LIBOBJ)
	echo EXPORTS > sqlite3.def
	dumpbin /all $(LIBOBJ) \
		| .\Replace.exe "^\s+/EXPORT:_?(sqlite3(?:session|changeset|changegroup)?_[^@,]*)(?:@\d+|,DATA)?$$" $$1 true \
		| sort >> sqlite3.def

$(SQLITE3EXE):	$(TOP)\shell.c $(SHELL_CORE_DEP) $(LIBRESOBJS) $(SHELL_CORE_SRC) $(SQLITE3H)
	$(LTLINK) $(SHELL_COMPILE_OPTS) $(READLINE_FLAGS) $(TOP)\shell.c $(SHELL_CORE_SRC) \
		/link $(SQLITE3EXEPDB) $(LDFLAGS) $(LTLINKOPTS) $(SHELL_LINK_OPTS) $(LTLIBPATHS) $(LIBRESOBJS) $(LIBREADLINE) $(LTLIBS) $(TLIBS)


# Rule to build the amalgamation
................................................................................
	$(LTRCOMPILE) -fo $(LIBRESOBJS) -DRC_VERONLY $(TOP)\sqlite3.rc
!ENDIF


clean:
	del /Q *.exp *.lo *.ilk *.lib *.obj *.ncb *.pdb *.sdf *.suo 2>NUL
	del /Q *.bsc *.def *.cod *.da *.bb *.bbg *.vc gmon.out 2>NUL
	del /Q $(SQLITE3EXE) $(SQLITE3DLL) Replace.exe 2>NUL

Changes to autoconf/README.txt.

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 * the SQLite library amalgamation source code file: sqlite3.c
 * the sqlite3.h and sqlite3ext.h header files that define the C-language
   interface to the sqlite3.c library file
 * the shell.c file used to build the sqlite3 command-line shell program
 * autoconf/automake installation infrastucture for building on POSIX
   compliant systems
 * a Makefile.msc and sqlite3.rc for building with Microsoft Visual C++ on
   Windows

SUMMARY OF HOW TO BUILD
=======================

  Unix:      ./configure; make
  Windows:   nmake /f Makefile.msc








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 * the SQLite library amalgamation source code file: sqlite3.c
 * the sqlite3.h and sqlite3ext.h header files that define the C-language
   interface to the sqlite3.c library file
 * the shell.c file used to build the sqlite3 command-line shell program
 * autoconf/automake installation infrastucture for building on POSIX
   compliant systems
 * a Makefile.msc, sqlite3.rc, and Replace.cs for building with Microsoft
   Visual C++ on Windows

SUMMARY OF HOW TO BUILD
=======================

  Unix:      ./configure; make
  Windows:   nmake /f Makefile.msc

Changes to autoconf/configure.ac.

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# Check for library functions that SQLite can optionally use.
AC_CHECK_FUNCS([fdatasync usleep fullfsync localtime_r gmtime_r])
AC_FUNC_STRERROR_R

AC_CONFIG_FILES([Makefile sqlite3.pc])
AC_SUBST(BUILD_CFLAGS)

#-----------------------------------------------------------------------


#   --enable-editline
#   --enable-readline
#










AC_ARG_ENABLE(editline, [AS_HELP_STRING(
  [--enable-editline], 
  [use BSD libedit])], 
  [], [enable_editline=yes])
AC_ARG_ENABLE(readline, [AS_HELP_STRING(
  [--enable-readline], 
  [use readline])], 
  [], [enable_readline=no])

if test x"$enable_editline" != xno ; then

  sLIBS=$LIBS
  LIBS=""
  AC_SEARCH_LIBS([readline],[edit],[enable_readline=no],[enable_editline=no])
  READLINE_LIBS=$LIBS
  if test x"$LIBS" != "x"; then
     AC_DEFINE([HAVE_EDITLINE],1,Define to use BSD editline)
  else



    unset ac_cv_search_readline
  fi
  LIBS=$sLIBS
fi



if test x"$enable_readline" != xno ; then

  sLIBS=$LIBS
  LIBS=""
  AC_SEARCH_LIBS(tgetent, curses ncurses ncursesw, [], [])
  AC_SEARCH_LIBS(readline, readline, [], [enable_readline=no])
  AC_CHECK_FUNCS(readline, [], [])

  READLINE_LIBS=$LIBS

  LIBS=$sLIBS
fi



AC_SUBST(READLINE_LIBS)
#-----------------------------------------------------------------------

#-----------------------------------------------------------------------
#   --enable-threadsafe
#
AC_ARG_ENABLE(threadsafe, [AS_HELP_STRING(
................................................................................

#-----------------------------------------------------------------------
#   --enable-fts5
#
AC_ARG_ENABLE(fts5, [AS_HELP_STRING(
  [--enable-fts5], [include fts5 support [default=no]])], 
  [], [enable_fts5=no])
if test x"$enable_fts5" == "xyes"; then
  AC_SEARCH_LIBS(log, m)
  FTS5_FLAGS=-DSQLITE_ENABLE_FTS5
fi
AC_SUBST(FTS5_FLAGS)
#-----------------------------------------------------------------------

#-----------------------------------------------------------------------
#   --enable-json1
#
AC_ARG_ENABLE(json1, [AS_HELP_STRING(
  [--enable-json1], [include json1 support [default=no]])], 
  [], [enable_json1=no])
if test x"$enable_json1" == "xyes"; then
  JSON1_FLAGS=-DSQLITE_ENABLE_JSON1
fi
AC_SUBST(JSON1_FLAGS)
#-----------------------------------------------------------------------













#-----------------------------------------------------------------------
#   --enable-static-shell
#
AC_ARG_ENABLE(static-shell, [AS_HELP_STRING(
  [--enable-static-shell], 
  [statically link libsqlite3 into shell tool [default=yes]])], 
  [], [enable_static_shell=yes])
if test x"$enable_static_shell" == "xyes"; then
  EXTRA_SHELL_OBJ=sqlite3.$OBJEXT
else
  EXTRA_SHELL_OBJ=libsqlite3.la
fi
AC_SUBST(EXTRA_SHELL_OBJ)
#-----------------------------------------------------------------------

AC_CHECK_FUNCS(posix_fallocate)







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# Check for library functions that SQLite can optionally use.
AC_CHECK_FUNCS([fdatasync usleep fullfsync localtime_r gmtime_r])
AC_FUNC_STRERROR_R

AC_CONFIG_FILES([Makefile sqlite3.pc])
AC_SUBST(BUILD_CFLAGS)

#-------------------------------------------------------------------------
# Two options to enable readline compatible libraries: 
#
#   --enable-editline
#   --enable-readline
#
# Both are enabled by default. If, after command line processing both are
# still enabled, the script searches for editline first and automatically
# disables readline if it is found. So, to use readline explicitly, the
# user must pass "--disable-editline". To disable command line editing
# support altogether, "--disable-editline --disable-readline".
#
# When searching for either library, check for headers before libraries 
# as some distros supply packages that contain libraries but not header
# files, which come as a separate development package.
#
AC_ARG_ENABLE(editline, [AS_HELP_STRING([--enable-editline],[use BSD libedit])])



AC_ARG_ENABLE(readline, [AS_HELP_STRING([--enable-readline],[use readline])])




AS_IF([ test x"$enable_editline" != xno ],[
  AC_CHECK_HEADERS([editline/readline.h],[
    sLIBS=$LIBS
    LIBS=""
    AC_SEARCH_LIBS([readline],[edit],[


      AC_DEFINE([HAVE_EDITLINE],1,Define to use BSD editline)

      READLINE_LIBS="$LIBS -ltinfo"
      enable_readline=no
    ],[],[-ltinfo])
    AS_UNSET(ac_cv_search_readline)

    LIBS=$sLIBS

  ])
])

AS_IF([ test x"$enable_readline" != xno ],[
  AC_CHECK_HEADERS([readline/readline.h],[
    sLIBS=$LIBS
    LIBS=""
    AC_SEARCH_LIBS(tgetent, termcap curses ncurses ncursesw, [], [])
    AC_SEARCH_LIBS(readline,[readline edit], [

      AC_DEFINE([HAVE_READLINE],1,Define to use readline or wrapper)
      READLINE_LIBS=$LIBS
    ])
    LIBS=$sLIBS

  ])
])

AC_SUBST(READLINE_LIBS)
#-----------------------------------------------------------------------

#-----------------------------------------------------------------------
#   --enable-threadsafe
#
AC_ARG_ENABLE(threadsafe, [AS_HELP_STRING(
................................................................................

#-----------------------------------------------------------------------
#   --enable-fts5
#
AC_ARG_ENABLE(fts5, [AS_HELP_STRING(
  [--enable-fts5], [include fts5 support [default=no]])], 
  [], [enable_fts5=no])
if test x"$enable_fts5" = "xyes"; then
  AC_SEARCH_LIBS(log, m)
  FTS5_FLAGS=-DSQLITE_ENABLE_FTS5
fi
AC_SUBST(FTS5_FLAGS)
#-----------------------------------------------------------------------

#-----------------------------------------------------------------------
#   --enable-json1
#
AC_ARG_ENABLE(json1, [AS_HELP_STRING(
  [--enable-json1], [include json1 support [default=no]])], 
  [], [enable_json1=no])
if test x"$enable_json1" = "xyes"; then
  JSON1_FLAGS=-DSQLITE_ENABLE_JSON1
fi
AC_SUBST(JSON1_FLAGS)
#-----------------------------------------------------------------------

#-----------------------------------------------------------------------
#   --enable-session
#
AC_ARG_ENABLE(session, [AS_HELP_STRING(
  [--enable-session], [enable the session extension [default=no]])], 
  [], [enable_session=no])
if test x"$enable_session" = "xyes"; then
  SESSION_FLAGS="-DSQLITE_ENABLE_SESSION -DSQLITE_ENABLE_PREUPDATE_HOOK"
fi
AC_SUBST(SESSION_FLAGS)
#-----------------------------------------------------------------------

#-----------------------------------------------------------------------
#   --enable-static-shell
#
AC_ARG_ENABLE(static-shell, [AS_HELP_STRING(
  [--enable-static-shell], 
  [statically link libsqlite3 into shell tool [default=yes]])], 
  [], [enable_static_shell=yes])
if test x"$enable_static_shell" = "xyes"; then
  EXTRA_SHELL_OBJ=sqlite3-sqlite3.$OBJEXT
else
  EXTRA_SHELL_OBJ=libsqlite3.la
fi
AC_SUBST(EXTRA_SHELL_OBJ)
#-----------------------------------------------------------------------

AC_CHECK_FUNCS(posix_fallocate)

Changes to autoconf/tea/configure.ac.

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TEA_ADD_SOURCES([tclsqlite3.c])
TEA_ADD_HEADERS([])
TEA_ADD_INCLUDES([-I\"`\${CYGPATH} \${srcdir}/generic`\"])
TEA_ADD_LIBS([])
TEA_ADD_CFLAGS([-DSQLITE_ENABLE_FTS3=1])
TEA_ADD_CFLAGS([-DSQLITE_3_SUFFIX_ONLY=1])
TEA_ADD_CFLAGS([-DSQLITE_ENABLE_RTREE=1])
TEA_ADD_CFLAGS([-DSQLITE_OMIT_DEPRECATED=1])
TEA_ADD_STUB_SOURCES([])
TEA_ADD_TCL_SOURCES([])

#--------------------------------------------------------------------
# The --with-system-sqlite causes the TCL bindings to SQLite to use
# the system shared library for SQLite rather than statically linking
# against its own private copy.  This is dangerous and leads to







<







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TEA_ADD_SOURCES([tclsqlite3.c])
TEA_ADD_HEADERS([])
TEA_ADD_INCLUDES([-I\"`\${CYGPATH} \${srcdir}/generic`\"])
TEA_ADD_LIBS([])
TEA_ADD_CFLAGS([-DSQLITE_ENABLE_FTS3=1])
TEA_ADD_CFLAGS([-DSQLITE_3_SUFFIX_ONLY=1])
TEA_ADD_CFLAGS([-DSQLITE_ENABLE_RTREE=1])

TEA_ADD_STUB_SOURCES([])
TEA_ADD_TCL_SOURCES([])

#--------------------------------------------------------------------
# The --with-system-sqlite causes the TCL bindings to SQLite to use
# the system shared library for SQLite rather than statically linking
# against its own private copy.  This is dangerous and leads to

Changes to config.h.in.

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#undef HAVE_MALLOC_H

/* Define to 1 if you have the `malloc_usable_size' function. */
#undef HAVE_MALLOC_USABLE_SIZE

/* Define to 1 if you have the <memory.h> header file. */
#undef HAVE_MEMORY_H













/* Define to 1 if you have the <stdint.h> header file. */
#undef HAVE_STDINT_H

/* Define to 1 if you have the <stdlib.h> header file. */
#undef HAVE_STDLIB_H








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#undef HAVE_MALLOC_H

/* Define to 1 if you have the `malloc_usable_size' function. */
#undef HAVE_MALLOC_USABLE_SIZE

/* Define to 1 if you have the <memory.h> header file. */
#undef HAVE_MEMORY_H

/* Define to 1 if you have the pread() function. */
#undef HAVE_PREAD

/* Define to 1 if you have the pread64() function. */
#undef HAVE_PREAD64

/* Define to 1 if you have the pwrite() function. */
#undef HAVE_PWRITE

/* Define to 1 if you have the pwrite64() function. */
#undef HAVE_PWRITE64

/* Define to 1 if you have the <stdint.h> header file. */
#undef HAVE_STDINT_H

/* Define to 1 if you have the <stdlib.h> header file. */
#undef HAVE_STDLIB_H

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#! /bin/sh
# Guess values for system-dependent variables and create Makefiles.
# Generated by GNU Autoconf 2.69 for sqlite 3.12.0.
#
#
# Copyright (C) 1992-1996, 1998-2012 Free Software Foundation, Inc.
#
#
# This configure script is free software; the Free Software Foundation
# gives unlimited permission to copy, distribute and modify it.
................................................................................
subdirs=
MFLAGS=
MAKEFLAGS=

# Identity of this package.
PACKAGE_NAME='sqlite'
PACKAGE_TARNAME='sqlite'
PACKAGE_VERSION='3.12.0'
PACKAGE_STRING='sqlite 3.12.0'
PACKAGE_BUGREPORT=''
PACKAGE_URL=''

# Factoring default headers for most tests.
ac_includes_default="\
#include <stdio.h>
#ifdef HAVE_SYS_TYPES_H
................................................................................
enable_editline
enable_readline
with_readline_lib
with_readline_inc
enable_debug
enable_amalgamation
enable_load_extension


enable_fts3
enable_fts4
enable_fts5
enable_json1
enable_rtree

enable_gcov
'
      ac_precious_vars='build_alias
host_alias
target_alias
CC
CFLAGS
................................................................................
#
# Report the --help message.
#
if test "$ac_init_help" = "long"; then
  # Omit some internal or obsolete options to make the list less imposing.
  # This message is too long to be a string in the A/UX 3.1 sh.
  cat <<_ACEOF
\`configure' configures sqlite 3.12.0 to adapt to many kinds of systems.

Usage: $0 [OPTION]... [VAR=VALUE]...

To assign environment variables (e.g., CC, CFLAGS...), specify them as
VAR=VALUE.  See below for descriptions of some of the useful variables.

Defaults for the options are specified in brackets.
................................................................................
  --build=BUILD     configure for building on BUILD [guessed]
  --host=HOST       cross-compile to build programs to run on HOST [BUILD]
_ACEOF
fi

if test -n "$ac_init_help"; then
  case $ac_init_help in
     short | recursive ) echo "Configuration of sqlite 3.12.0:";;
   esac
  cat <<\_ACEOF

Optional Features:
  --disable-option-checking  ignore unrecognized --enable/--with options
  --disable-FEATURE       do not include FEATURE (same as --enable-FEATURE=no)
  --enable-FEATURE[=ARG]  include FEATURE [ARG=yes]
................................................................................
  --enable-editline       enable BSD editline support
  --disable-readline      disable readline support
  --enable-debug          enable debugging & verbose explain
  --disable-amalgamation  Disable the amalgamation and instead build all files
                          separately
  --disable-load-extension
                          Disable loading of external extensions


  --enable-fts3           Enable the FTS3 extension
  --enable-fts4           Enable the FTS4 extension
  --enable-fts5           Enable the FTS5 extension
  --enable-json1          Enable the JSON1 extension
  --enable-rtree          Enable the RTREE extension

  --enable-gcov           Enable coverage testing using gcov

Optional Packages:
  --with-PACKAGE[=ARG]    use PACKAGE [ARG=yes]
  --without-PACKAGE       do not use PACKAGE (same as --with-PACKAGE=no)
  --with-pic              try to use only PIC/non-PIC objects [default=use
                          both]
................................................................................
    cd "$ac_pwd" || { ac_status=$?; break; }
  done
fi

test -n "$ac_init_help" && exit $ac_status
if $ac_init_version; then
  cat <<\_ACEOF
sqlite configure 3.12.0
generated by GNU Autoconf 2.69

Copyright (C) 2012 Free Software Foundation, Inc.
This configure script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it.
_ACEOF
  exit
................................................................................
  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno

} # ac_fn_c_check_header_mongrel
cat >config.log <<_ACEOF
This file contains any messages produced by compilers while
running configure, to aid debugging if configure makes a mistake.

It was created by sqlite $as_me 3.12.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  $ $0 $@

_ACEOF
exec 5>>config.log
{
................................................................................
{ $as_echo "$as_me:${as_lineno-$LINENO}: checking the name lister ($NM) interface" >&5
$as_echo_n "checking the name lister ($NM) interface... " >&6; }
if ${lt_cv_nm_interface+:} false; then :
  $as_echo_n "(cached) " >&6
else
  lt_cv_nm_interface="BSD nm"
  echo "int some_variable = 0;" > conftest.$ac_ext
  (eval echo "\"\$as_me:3926: $ac_compile\"" >&5)
  (eval "$ac_compile" 2>conftest.err)
  cat conftest.err >&5
  (eval echo "\"\$as_me:3929: $NM \\\"conftest.$ac_objext\\\"\"" >&5)
  (eval "$NM \"conftest.$ac_objext\"" 2>conftest.err > conftest.out)
  cat conftest.err >&5
  (eval echo "\"\$as_me:3932: output\"" >&5)
  cat conftest.out >&5
  if $GREP 'External.*some_variable' conftest.out > /dev/null; then
    lt_cv_nm_interface="MS dumpbin"
  fi
  rm -f conftest*
fi
{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_nm_interface" >&5
................................................................................
	;;
    esac
  fi
  rm -rf conftest*
  ;;
*-*-irix6*)
  # Find out which ABI we are using.
  echo '#line 5138 "configure"' > conftest.$ac_ext
  if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$ac_compile\""; } >&5
  (eval $ac_compile) 2>&5
  ac_status=$?
  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
  test $ac_status = 0; }; then
    if test "$lt_cv_prog_gnu_ld" = yes; then
      case `/usr/bin/file conftest.$ac_objext` in
................................................................................
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   # The option is referenced via a variable to avoid confusing sed.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:6663: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>conftest.err)
   ac_status=$?
   cat conftest.err >&5
   echo "$as_me:6667: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s "$ac_outfile"; then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings other than the usual output.
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' >conftest.exp
     $SED '/^$/d; /^ *+/d' conftest.err >conftest.er2
     if test ! -s conftest.er2 || diff conftest.exp conftest.er2 >/dev/null; then
       lt_cv_prog_compiler_rtti_exceptions=yes
................................................................................
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   # The option is referenced via a variable to avoid confusing sed.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7002: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>conftest.err)
   ac_status=$?
   cat conftest.err >&5
   echo "$as_me:7006: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s "$ac_outfile"; then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings other than the usual output.
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' >conftest.exp
     $SED '/^$/d; /^ *+/d' conftest.err >conftest.er2
     if test ! -s conftest.er2 || diff conftest.exp conftest.er2 >/dev/null; then
       lt_cv_prog_compiler_pic_works=yes
................................................................................
   # (2) before a word containing "conftest.", or (3) at the end.
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7107: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>out/conftest.err)
   ac_status=$?
   cat out/conftest.err >&5
   echo "$as_me:7111: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s out/conftest2.$ac_objext
   then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' > out/conftest.exp
     $SED '/^$/d; /^ *+/d' out/conftest.err >out/conftest.er2
     if test ! -s out/conftest.er2 || diff out/conftest.exp out/conftest.er2 >/dev/null; then
................................................................................
   # (2) before a word containing "conftest.", or (3) at the end.
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7162: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>out/conftest.err)
   ac_status=$?
   cat out/conftest.err >&5
   echo "$as_me:7166: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s out/conftest2.$ac_objext
   then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' > out/conftest.exp
     $SED '/^$/d; /^ *+/d' out/conftest.err >out/conftest.er2
     if test ! -s out/conftest.er2 || diff out/conftest.exp out/conftest.er2 >/dev/null; then
................................................................................
else
  	  if test "$cross_compiling" = yes; then :
  lt_cv_dlopen_self=cross
else
  lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
  lt_status=$lt_dlunknown
  cat > conftest.$ac_ext <<_LT_EOF
#line 9542 "configure"
#include "confdefs.h"

#if HAVE_DLFCN_H
#include <dlfcn.h>
#endif

#include <stdio.h>
................................................................................
else
  	  if test "$cross_compiling" = yes; then :
  lt_cv_dlopen_self_static=cross
else
  lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
  lt_status=$lt_dlunknown
  cat > conftest.$ac_ext <<_LT_EOF
#line 9638 "configure"
#include "confdefs.h"

#if HAVE_DLFCN_H
#include <dlfcn.h>
#endif

#include <stdio.h>
................................................................................

done


#########
# Figure out whether or not we have these functions
#
for ac_func in fdatasync gmtime_r isnan localtime_r localtime_s malloc_usable_size strchrnul usleep utime
do :
  as_ac_var=`$as_echo "ac_cv_func_$ac_func" | $as_tr_sh`
ac_fn_c_check_func "$LINENO" "$ac_func" "$as_ac_var"
if eval test \"x\$"$as_ac_var"\" = x"yes"; then :
  cat >>confdefs.h <<_ACEOF
#define `$as_echo "HAVE_$ac_func" | $as_tr_cpp` 1
_ACEOF
................................................................................

    # On ubuntu 14.10, $auto_path on tclsh is not quite correct.
    # So try again after applying corrections.
    if test x"${ac_cv_c_tclconfig}" = x ; then
      if test x"$cross_compiling" = xno; then
        for i in `echo 'puts stdout $auto_path' | ${TCLSH_CMD} | sed 's,/tcltk/tcl,/tcl,g'`
        do














          if test -f "$i/tclConfig.sh" ; then
            ac_cv_c_tclconfig="$i"
            break
          fi
        done
      fi
    fi
................................................................................
if test "${enable_debug+set}" = set; then :
  enableval=$enable_debug; use_debug=$enableval
else
  use_debug=no
fi

if test "${use_debug}" = "yes" ; then
  TARGET_DEBUG="-DSQLITE_DEBUG=1"
else
  TARGET_DEBUG="-DNDEBUG"
fi


#########
# See whether we should use the amalgamation to build
................................................................................
  test "$ac_res" = "none required" || LIBS="$ac_res $LIBS"

fi

else
  OPT_FEATURE_FLAGS="-DSQLITE_OMIT_LOAD_EXTENSION=1"
fi







































#########
# See whether we should enable Full Text Search extensions
# Check whether --enable-fts3 was given.
if test "${enable_fts3+set}" = set; then :
  enableval=$enable_fts3; enable_fts3=yes
else
  enable_fts3=no
fi

if test "${enable_fts3}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_FTS3"
fi
# Check whether --enable-fts4 was given.
if test "${enable_fts4+set}" = set; then :
  enableval=$enable_fts4; enable_fts4=yes
else
  enable_fts4=no
fi

if test "${enable_fts4}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_FTS4"
  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for library containing log" >&5
$as_echo_n "checking for library containing log... " >&6; }
if ${ac_cv_search_log+:} false; then :
  $as_echo_n "(cached) " >&6
else
  ac_func_search_save_LIBS=$LIBS
cat confdefs.h - <<_ACEOF >conftest.$ac_ext
................................................................................
if test "${enable_fts5+set}" = set; then :
  enableval=$enable_fts5; enable_fts5=yes
else
  enable_fts5=no
fi

if test "${enable_fts5}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_FTS5"
  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for library containing log" >&5
$as_echo_n "checking for library containing log... " >&6; }
if ${ac_cv_search_log+:} false; then :
  $as_echo_n "(cached) " >&6
else
  ac_func_search_save_LIBS=$LIBS
cat confdefs.h - <<_ACEOF >conftest.$ac_ext
................................................................................
if test "${enable_json1+set}" = set; then :
  enableval=$enable_json1; enable_json1=yes
else
  enable_json1=no
fi

if test "${enable_json1}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_JSON1"
fi

#########
# See whether we should enable RTREE
# Check whether --enable-rtree was given.
if test "${enable_rtree+set}" = set; then :
  enableval=$enable_rtree; enable_rtree=yes
else
  enable_rtree=no
fi

if test "${enable_rtree}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_RTREE"














fi

#########
# attempt to duplicate any OMITS and ENABLES into the $(OPT_FEATURE_FLAGS) parameter
for option in $CFLAGS $CPPFLAGS
do
  case $option in
    -DSQLITE_OMIT*) OPT_FEATURE_FLAGS="$OPT_FEATURE_FLAGS $option";;
    -DSQLITE_ENABLE*) OPT_FEATURE_FLAGS="$OPT_FEATURE_FLAGS $option";;
  esac
done
................................................................................
test $as_write_fail = 0 && chmod +x $CONFIG_STATUS || ac_write_fail=1

cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
# Save the log message, to keep $0 and so on meaningful, and to
# report actual input values of CONFIG_FILES etc. instead of their
# values after options handling.
ac_log="
This file was extended by sqlite $as_me 3.12.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  CONFIG_FILES    = $CONFIG_FILES
  CONFIG_HEADERS  = $CONFIG_HEADERS
  CONFIG_LINKS    = $CONFIG_LINKS
  CONFIG_COMMANDS = $CONFIG_COMMANDS
  $ $0 $@
................................................................................

Report bugs to the package provider."

_ACEOF
cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
ac_cs_config="`$as_echo "$ac_configure_args" | sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`"
ac_cs_version="\\
sqlite config.status 3.12.0
configured by $0, generated by GNU Autoconf 2.69,
  with options \\"\$ac_cs_config\\"

Copyright (C) 2012 Free Software Foundation, Inc.
This config.status script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it."



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#! /bin/sh
# Guess values for system-dependent variables and create Makefiles.
# Generated by GNU Autoconf 2.69 for sqlite 3.20.0.
#
#
# Copyright (C) 1992-1996, 1998-2012 Free Software Foundation, Inc.
#
#
# This configure script is free software; the Free Software Foundation
# gives unlimited permission to copy, distribute and modify it.
................................................................................
subdirs=
MFLAGS=
MAKEFLAGS=

# Identity of this package.
PACKAGE_NAME='sqlite'
PACKAGE_TARNAME='sqlite'
PACKAGE_VERSION='3.20.0'
PACKAGE_STRING='sqlite 3.20.0'
PACKAGE_BUGREPORT=''
PACKAGE_URL=''

# Factoring default headers for most tests.
ac_includes_default="\
#include <stdio.h>
#ifdef HAVE_SYS_TYPES_H
................................................................................
enable_editline
enable_readline
with_readline_lib
with_readline_inc
enable_debug
enable_amalgamation
enable_load_extension
enable_memsys5
enable_memsys3
enable_fts3
enable_fts4
enable_fts5
enable_json1
enable_rtree
enable_session
enable_gcov
'
      ac_precious_vars='build_alias
host_alias
target_alias
CC
CFLAGS
................................................................................
#
# Report the --help message.
#
if test "$ac_init_help" = "long"; then
  # Omit some internal or obsolete options to make the list less imposing.
  # This message is too long to be a string in the A/UX 3.1 sh.
  cat <<_ACEOF
\`configure' configures sqlite 3.20.0 to adapt to many kinds of systems.

Usage: $0 [OPTION]... [VAR=VALUE]...

To assign environment variables (e.g., CC, CFLAGS...), specify them as
VAR=VALUE.  See below for descriptions of some of the useful variables.

Defaults for the options are specified in brackets.
................................................................................
  --build=BUILD     configure for building on BUILD [guessed]
  --host=HOST       cross-compile to build programs to run on HOST [BUILD]
_ACEOF
fi

if test -n "$ac_init_help"; then
  case $ac_init_help in
     short | recursive ) echo "Configuration of sqlite 3.20.0:";;
   esac
  cat <<\_ACEOF

Optional Features:
  --disable-option-checking  ignore unrecognized --enable/--with options
  --disable-FEATURE       do not include FEATURE (same as --enable-FEATURE=no)
  --enable-FEATURE[=ARG]  include FEATURE [ARG=yes]
................................................................................
  --enable-editline       enable BSD editline support
  --disable-readline      disable readline support
  --enable-debug          enable debugging & verbose explain
  --disable-amalgamation  Disable the amalgamation and instead build all files
                          separately
  --disable-load-extension
                          Disable loading of external extensions
  --enable-memsys5        Enable MEMSYS5
  --enable-memsys3        Enable MEMSYS3
  --enable-fts3           Enable the FTS3 extension
  --enable-fts4           Enable the FTS4 extension
  --enable-fts5           Enable the FTS5 extension
  --enable-json1          Enable the JSON1 extension
  --enable-rtree          Enable the RTREE extension
  --enable-session        Enable the SESSION extension
  --enable-gcov           Enable coverage testing using gcov

Optional Packages:
  --with-PACKAGE[=ARG]    use PACKAGE [ARG=yes]
  --without-PACKAGE       do not use PACKAGE (same as --with-PACKAGE=no)
  --with-pic              try to use only PIC/non-PIC objects [default=use
                          both]
................................................................................
    cd "$ac_pwd" || { ac_status=$?; break; }
  done
fi

test -n "$ac_init_help" && exit $ac_status
if $ac_init_version; then
  cat <<\_ACEOF
sqlite configure 3.20.0
generated by GNU Autoconf 2.69

Copyright (C) 2012 Free Software Foundation, Inc.
This configure script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it.
_ACEOF
  exit
................................................................................
  eval $as_lineno_stack; ${as_lineno_stack:+:} unset as_lineno

} # ac_fn_c_check_header_mongrel
cat >config.log <<_ACEOF
This file contains any messages produced by compilers while
running configure, to aid debugging if configure makes a mistake.

It was created by sqlite $as_me 3.20.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  $ $0 $@

_ACEOF
exec 5>>config.log
{
................................................................................
{ $as_echo "$as_me:${as_lineno-$LINENO}: checking the name lister ($NM) interface" >&5
$as_echo_n "checking the name lister ($NM) interface... " >&6; }
if ${lt_cv_nm_interface+:} false; then :
  $as_echo_n "(cached) " >&6
else
  lt_cv_nm_interface="BSD nm"
  echo "int some_variable = 0;" > conftest.$ac_ext
  (eval echo "\"\$as_me:3932: $ac_compile\"" >&5)
  (eval "$ac_compile" 2>conftest.err)
  cat conftest.err >&5
  (eval echo "\"\$as_me:3935: $NM \\\"conftest.$ac_objext\\\"\"" >&5)
  (eval "$NM \"conftest.$ac_objext\"" 2>conftest.err > conftest.out)
  cat conftest.err >&5
  (eval echo "\"\$as_me:3938: output\"" >&5)
  cat conftest.out >&5
  if $GREP 'External.*some_variable' conftest.out > /dev/null; then
    lt_cv_nm_interface="MS dumpbin"
  fi
  rm -f conftest*
fi
{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $lt_cv_nm_interface" >&5
................................................................................
	;;
    esac
  fi
  rm -rf conftest*
  ;;
*-*-irix6*)
  # Find out which ABI we are using.
  echo '#line 5144 "configure"' > conftest.$ac_ext
  if { { eval echo "\"\$as_me\":${as_lineno-$LINENO}: \"$ac_compile\""; } >&5
  (eval $ac_compile) 2>&5
  ac_status=$?
  $as_echo "$as_me:${as_lineno-$LINENO}: \$? = $ac_status" >&5
  test $ac_status = 0; }; then
    if test "$lt_cv_prog_gnu_ld" = yes; then
      case `/usr/bin/file conftest.$ac_objext` in
................................................................................
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   # The option is referenced via a variable to avoid confusing sed.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:6669: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>conftest.err)
   ac_status=$?
   cat conftest.err >&5
   echo "$as_me:6673: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s "$ac_outfile"; then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings other than the usual output.
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' >conftest.exp
     $SED '/^$/d; /^ *+/d' conftest.err >conftest.er2
     if test ! -s conftest.er2 || diff conftest.exp conftest.er2 >/dev/null; then
       lt_cv_prog_compiler_rtti_exceptions=yes
................................................................................
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   # The option is referenced via a variable to avoid confusing sed.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7008: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>conftest.err)
   ac_status=$?
   cat conftest.err >&5
   echo "$as_me:7012: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s "$ac_outfile"; then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings other than the usual output.
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' >conftest.exp
     $SED '/^$/d; /^ *+/d' conftest.err >conftest.er2
     if test ! -s conftest.er2 || diff conftest.exp conftest.er2 >/dev/null; then
       lt_cv_prog_compiler_pic_works=yes
................................................................................
   # (2) before a word containing "conftest.", or (3) at the end.
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7113: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>out/conftest.err)
   ac_status=$?
   cat out/conftest.err >&5
   echo "$as_me:7117: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s out/conftest2.$ac_objext
   then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' > out/conftest.exp
     $SED '/^$/d; /^ *+/d' out/conftest.err >out/conftest.er2
     if test ! -s out/conftest.er2 || diff out/conftest.exp out/conftest.er2 >/dev/null; then
................................................................................
   # (2) before a word containing "conftest.", or (3) at the end.
   # Note that $ac_compile itself does not contain backslashes and begins
   # with a dollar sign (not a hyphen), so the echo should work correctly.
   lt_compile=`echo "$ac_compile" | $SED \
   -e 's:.*FLAGS}\{0,1\} :&$lt_compiler_flag :; t' \
   -e 's: [^ ]*conftest\.: $lt_compiler_flag&:; t' \
   -e 's:$: $lt_compiler_flag:'`
   (eval echo "\"\$as_me:7168: $lt_compile\"" >&5)
   (eval "$lt_compile" 2>out/conftest.err)
   ac_status=$?
   cat out/conftest.err >&5
   echo "$as_me:7172: \$? = $ac_status" >&5
   if (exit $ac_status) && test -s out/conftest2.$ac_objext
   then
     # The compiler can only warn and ignore the option if not recognized
     # So say no if there are warnings
     $ECHO "X$_lt_compiler_boilerplate" | $Xsed -e '/^$/d' > out/conftest.exp
     $SED '/^$/d; /^ *+/d' out/conftest.err >out/conftest.er2
     if test ! -s out/conftest.er2 || diff out/conftest.exp out/conftest.er2 >/dev/null; then
................................................................................
else
  	  if test "$cross_compiling" = yes; then :
  lt_cv_dlopen_self=cross
else
  lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
  lt_status=$lt_dlunknown
  cat > conftest.$ac_ext <<_LT_EOF
#line 9548 "configure"
#include "confdefs.h"

#if HAVE_DLFCN_H
#include <dlfcn.h>
#endif

#include <stdio.h>
................................................................................
else
  	  if test "$cross_compiling" = yes; then :
  lt_cv_dlopen_self_static=cross
else
  lt_dlunknown=0; lt_dlno_uscore=1; lt_dlneed_uscore=2
  lt_status=$lt_dlunknown
  cat > conftest.$ac_ext <<_LT_EOF
#line 9644 "configure"
#include "confdefs.h"

#if HAVE_DLFCN_H
#include <dlfcn.h>
#endif

#include <stdio.h>
................................................................................

done


#########
# Figure out whether or not we have these functions
#
for ac_func in fdatasync gmtime_r isnan localtime_r localtime_s malloc_usable_size strchrnul usleep utime pread pread64 pwrite pwrite64
do :
  as_ac_var=`$as_echo "ac_cv_func_$ac_func" | $as_tr_sh`
ac_fn_c_check_func "$LINENO" "$ac_func" "$as_ac_var"
if eval test \"x\$"$as_ac_var"\" = x"yes"; then :
  cat >>confdefs.h <<_ACEOF
#define `$as_echo "HAVE_$ac_func" | $as_tr_cpp` 1
_ACEOF
................................................................................

    # On ubuntu 14.10, $auto_path on tclsh is not quite correct.
    # So try again after applying corrections.
    if test x"${ac_cv_c_tclconfig}" = x ; then
      if test x"$cross_compiling" = xno; then
        for i in `echo 'puts stdout $auto_path' | ${TCLSH_CMD} | sed 's,/tcltk/tcl,/tcl,g'`
        do
          if test -f "$i/tclConfig.sh" ; then
            ac_cv_c_tclconfig="$i"
            break
          fi
        done
      fi
    fi

    # Recent versions of Xcode on Macs hid the tclConfig.sh file
    # in a strange place.
    if test x"${ac_cv_c_tclconfig}" = x ; then
      if test x"$cross_compiling" = xno; then
        for i in /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX*.sdk/usr/lib
        do
          if test -f "$i/tclConfig.sh" ; then
            ac_cv_c_tclconfig="$i"
            break
          fi
        done
      fi
    fi
................................................................................
if test "${enable_debug+set}" = set; then :
  enableval=$enable_debug; use_debug=$enableval
else
  use_debug=no
fi

if test "${use_debug}" = "yes" ; then
  TARGET_DEBUG="-DSQLITE_DEBUG=1 -DSQLITE_ENABLE_SELECTTRACE -DSQLITE_ENABLE_WHERETRACE -O0"
else
  TARGET_DEBUG="-DNDEBUG"
fi


#########
# See whether we should use the amalgamation to build
................................................................................
  test "$ac_res" = "none required" || LIBS="$ac_res $LIBS"

fi

else
  OPT_FEATURE_FLAGS="-DSQLITE_OMIT_LOAD_EXTENSION=1"
fi

##########
# Do we want to support memsys3 and/or memsys5
#
# Check whether --enable-memsys5 was given.
if test "${enable_memsys5+set}" = set; then :
  enableval=$enable_memsys5; enable_memsys5=yes
else
  enable_memsys5=no
fi

{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether to support MEMSYS5" >&5
$as_echo_n "checking whether to support MEMSYS5... " >&6; }
if test "${enable_memsys5}" = "yes"; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_MEMSYS5"
  { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
$as_echo "yes" >&6; }
else
  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
$as_echo "no" >&6; }
fi
# Check whether --enable-memsys3 was given.
if test "${enable_memsys3+set}" = set; then :
  enableval=$enable_memsys3; enable_memsys3=yes
else
  enable_memsys3=no
fi

{ $as_echo "$as_me:${as_lineno-$LINENO}: checking whether to support MEMSYS3" >&5
$as_echo_n "checking whether to support MEMSYS3... " >&6; }
if test "${enable_memsys3}" = "yes" -a "${enable_memsys5}" = "no"; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_MEMSYS3"
  { $as_echo "$as_me:${as_lineno-$LINENO}: result: yes" >&5
$as_echo "yes" >&6; }
else
  { $as_echo "$as_me:${as_lineno-$LINENO}: result: no" >&5
$as_echo "no" >&6; }
fi

#########
# See whether we should enable Full Text Search extensions
# Check whether --enable-fts3 was given.
if test "${enable_fts3+set}" = set; then :
  enableval=$enable_fts3; enable_fts3=yes
else
  enable_fts3=no
fi

if test "${enable_fts3}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_FTS3"
fi
# Check whether --enable-fts4 was given.
if test "${enable_fts4+set}" = set; then :
  enableval=$enable_fts4; enable_fts4=yes
else
  enable_fts4=no
fi

if test "${enable_fts4}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_FTS4"
  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for library containing log" >&5
$as_echo_n "checking for library containing log... " >&6; }
if ${ac_cv_search_log+:} false; then :
  $as_echo_n "(cached) " >&6
else
  ac_func_search_save_LIBS=$LIBS
cat confdefs.h - <<_ACEOF >conftest.$ac_ext
................................................................................
if test "${enable_fts5+set}" = set; then :
  enableval=$enable_fts5; enable_fts5=yes
else
  enable_fts5=no
fi

if test "${enable_fts5}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_FTS5"
  { $as_echo "$as_me:${as_lineno-$LINENO}: checking for library containing log" >&5
$as_echo_n "checking for library containing log... " >&6; }
if ${ac_cv_search_log+:} false; then :
  $as_echo_n "(cached) " >&6
else
  ac_func_search_save_LIBS=$LIBS
cat confdefs.h - <<_ACEOF >conftest.$ac_ext
................................................................................
if test "${enable_json1+set}" = set; then :
  enableval=$enable_json1; enable_json1=yes
else
  enable_json1=no
fi

if test "${enable_json1}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_JSON1"
fi

#########
# See whether we should enable RTREE
# Check whether --enable-rtree was given.
if test "${enable_rtree+set}" = set; then :
  enableval=$enable_rtree; enable_rtree=yes
else
  enable_rtree=no
fi

if test "${enable_rtree}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_RTREE"
fi

#########
# See whether we should enable the SESSION extension
# Check whether --enable-session was given.
if test "${enable_session+set}" = set; then :
  enableval=$enable_session; enable_session=yes
else
  enable_session=no
fi

if test "${enable_session}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_SESSION"
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_PREUPDATE_HOOK"
fi

#########
# attempt to duplicate any OMITS and ENABLES into the ${OPT_FEATURE_FLAGS} parameter
for option in $CFLAGS $CPPFLAGS
do
  case $option in
    -DSQLITE_OMIT*) OPT_FEATURE_FLAGS="$OPT_FEATURE_FLAGS $option";;
    -DSQLITE_ENABLE*) OPT_FEATURE_FLAGS="$OPT_FEATURE_FLAGS $option";;
  esac
done
................................................................................
test $as_write_fail = 0 && chmod +x $CONFIG_STATUS || ac_write_fail=1

cat >>$CONFIG_STATUS <<\_ACEOF || ac_write_fail=1
# Save the log message, to keep $0 and so on meaningful, and to
# report actual input values of CONFIG_FILES etc. instead of their
# values after options handling.
ac_log="
This file was extended by sqlite $as_me 3.20.0, which was
generated by GNU Autoconf 2.69.  Invocation command line was

  CONFIG_FILES    = $CONFIG_FILES
  CONFIG_HEADERS  = $CONFIG_HEADERS
  CONFIG_LINKS    = $CONFIG_LINKS
  CONFIG_COMMANDS = $CONFIG_COMMANDS
  $ $0 $@
................................................................................

Report bugs to the package provider."

_ACEOF
cat >>$CONFIG_STATUS <<_ACEOF || ac_write_fail=1
ac_cs_config="`$as_echo "$ac_configure_args" | sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`"
ac_cs_version="\\
sqlite config.status 3.20.0
configured by $0, generated by GNU Autoconf 2.69,
  with options \\"\$ac_cs_config\\"

Copyright (C) 2012 Free Software Foundation, Inc.
This config.status script is free software; the Free Software Foundation
gives unlimited permission to copy, distribute and modify it."

Changes to configure.ac.

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#########
# Check for needed/wanted headers
AC_CHECK_HEADERS([sys/types.h stdlib.h stdint.h inttypes.h malloc.h])

#########
# Figure out whether or not we have these functions
#
AC_CHECK_FUNCS([fdatasync gmtime_r isnan localtime_r localtime_s malloc_usable_size strchrnul usleep utime])

#########
# By default, we use the amalgamation (this may be changed below...)
#
USE_AMALGAMATION=1

#########
................................................................................
          if test -f "$i/tclConfig.sh" ; then
            ac_cv_c_tclconfig="$i"
            break
          fi
        done
      fi
    fi















    # then check for a private Tcl installation
    if test x"${ac_cv_c_tclconfig}" = x ; then
      for i in \
            ../tcl \
            `ls -dr ../tcl[[8-9]].[[0-9]].[[0-9]]* 2>/dev/null` \
            `ls -dr ../tcl[[8-9]].[[0-9]] 2>/dev/null` \
................................................................................
AC_SEARCH_LIBS(fdatasync, [rt])

#########
# check for debug enabled
AC_ARG_ENABLE(debug, AC_HELP_STRING([--enable-debug],[enable debugging & verbose explain]),
      [use_debug=$enableval],[use_debug=no])
if test "${use_debug}" = "yes" ; then
  TARGET_DEBUG="-DSQLITE_DEBUG=1"
else
  TARGET_DEBUG="-DNDEBUG"
fi
AC_SUBST(TARGET_DEBUG)

#########
# See whether we should use the amalgamation to build
................................................................................
      [use_loadextension=$enableval],[use_loadextension=yes])
if test "${use_loadextension}" = "yes" ; then
  OPT_FEATURE_FLAGS=""
  AC_SEARCH_LIBS(dlopen, dl)
else
  OPT_FEATURE_FLAGS="-DSQLITE_OMIT_LOAD_EXTENSION=1"
fi

























#########
# See whether we should enable Full Text Search extensions
AC_ARG_ENABLE(fts3, AC_HELP_STRING([--enable-fts3],
      [Enable the FTS3 extension]),
      [enable_fts3=yes],[enable_fts3=no])
if test "${enable_fts3}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_FTS3"
fi
AC_ARG_ENABLE(fts4, AC_HELP_STRING([--enable-fts4],
      [Enable the FTS4 extension]),
      [enable_fts4=yes],[enable_fts4=no])
if test "${enable_fts4}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_FTS4"
  AC_SEARCH_LIBS([log],[m])
fi
AC_ARG_ENABLE(fts5, AC_HELP_STRING([--enable-fts5],
      [Enable the FTS5 extension]),
      [enable_fts5=yes],[enable_fts5=no])
if test "${enable_fts5}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_FTS5"
  AC_SEARCH_LIBS([log],[m])
fi

#########
# See whether we should enable JSON1
AC_ARG_ENABLE(json1, AC_HELP_STRING([--enable-json1],
      [Enable the JSON1 extension]),
      [enable_json1=yes],[enable_json1=no])
if test "${enable_json1}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_JSON1"
fi

#########
# See whether we should enable RTREE
AC_ARG_ENABLE(rtree, AC_HELP_STRING([--enable-rtree],
      [Enable the RTREE extension]),
      [enable_rtree=yes],[enable_rtree=no])
if test "${enable_rtree}" = "yes" ; then
  OPT_FEATURE_FLAGS+=" -DSQLITE_ENABLE_RTREE"










fi

#########
# attempt to duplicate any OMITS and ENABLES into the $(OPT_FEATURE_FLAGS) parameter
for option in $CFLAGS $CPPFLAGS
do
  case $option in
    -DSQLITE_OMIT*) OPT_FEATURE_FLAGS="$OPT_FEATURE_FLAGS $option";;
    -DSQLITE_ENABLE*) OPT_FEATURE_FLAGS="$OPT_FEATURE_FLAGS $option";;
  esac
done







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#########
# Check for needed/wanted headers
AC_CHECK_HEADERS([sys/types.h stdlib.h stdint.h inttypes.h malloc.h])

#########
# Figure out whether or not we have these functions
#
AC_CHECK_FUNCS([fdatasync gmtime_r isnan localtime_r localtime_s malloc_usable_size strchrnul usleep utime pread pread64 pwrite pwrite64])

#########
# By default, we use the amalgamation (this may be changed below...)
#
USE_AMALGAMATION=1

#########
................................................................................
          if test -f "$i/tclConfig.sh" ; then
            ac_cv_c_tclconfig="$i"
            break
          fi
        done
      fi
    fi

    # Recent versions of Xcode on Macs hid the tclConfig.sh file
    # in a strange place.
    if test x"${ac_cv_c_tclconfig}" = x ; then
      if test x"$cross_compiling" = xno; then
        for i in /Applications/Xcode.app/Contents/Developer/Platforms/MacOSX.platform/Developer/SDKs/MacOSX*.sdk/usr/lib
        do
          if test -f "$i/tclConfig.sh" ; then
            ac_cv_c_tclconfig="$i"
            break
          fi
        done
      fi
    fi

    # then check for a private Tcl installation
    if test x"${ac_cv_c_tclconfig}" = x ; then
      for i in \
            ../tcl \
            `ls -dr ../tcl[[8-9]].[[0-9]].[[0-9]]* 2>/dev/null` \
            `ls -dr ../tcl[[8-9]].[[0-9]] 2>/dev/null` \
................................................................................
AC_SEARCH_LIBS(fdatasync, [rt])

#########
# check for debug enabled
AC_ARG_ENABLE(debug, AC_HELP_STRING([--enable-debug],[enable debugging & verbose explain]),
      [use_debug=$enableval],[use_debug=no])
if test "${use_debug}" = "yes" ; then
  TARGET_DEBUG="-DSQLITE_DEBUG=1 -DSQLITE_ENABLE_SELECTTRACE -DSQLITE_ENABLE_WHERETRACE -O0"
else
  TARGET_DEBUG="-DNDEBUG"
fi
AC_SUBST(TARGET_DEBUG)

#########
# See whether we should use the amalgamation to build
................................................................................
      [use_loadextension=$enableval],[use_loadextension=yes])
if test "${use_loadextension}" = "yes" ; then
  OPT_FEATURE_FLAGS=""
  AC_SEARCH_LIBS(dlopen, dl)
else
  OPT_FEATURE_FLAGS="-DSQLITE_OMIT_LOAD_EXTENSION=1"
fi

##########
# Do we want to support memsys3 and/or memsys5
#
AC_ARG_ENABLE(memsys5, 
  AC_HELP_STRING([--enable-memsys5],[Enable MEMSYS5]),
  [enable_memsys5=yes],[enable_memsys5=no])
AC_MSG_CHECKING([whether to support MEMSYS5])
if test "${enable_memsys5}" = "yes"; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_MEMSYS5"
  AC_MSG_RESULT([yes])
else
  AC_MSG_RESULT([no])
fi
AC_ARG_ENABLE(memsys3, 
  AC_HELP_STRING([--enable-memsys3],[Enable MEMSYS3]),
  [enable_memsys3=yes],[enable_memsys3=no])
AC_MSG_CHECKING([whether to support MEMSYS3])
if test "${enable_memsys3}" = "yes" -a "${enable_memsys5}" = "no"; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_MEMSYS3"
  AC_MSG_RESULT([yes])
else
  AC_MSG_RESULT([no])
fi

#########
# See whether we should enable Full Text Search extensions
AC_ARG_ENABLE(fts3, AC_HELP_STRING([--enable-fts3],
      [Enable the FTS3 extension]),
      [enable_fts3=yes],[enable_fts3=no])
if test "${enable_fts3}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_FTS3"
fi
AC_ARG_ENABLE(fts4, AC_HELP_STRING([--enable-fts4],
      [Enable the FTS4 extension]),
      [enable_fts4=yes],[enable_fts4=no])
if test "${enable_fts4}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_FTS4"
  AC_SEARCH_LIBS([log],[m])
fi
AC_ARG_ENABLE(fts5, AC_HELP_STRING([--enable-fts5],
      [Enable the FTS5 extension]),
      [enable_fts5=yes],[enable_fts5=no])
if test "${enable_fts5}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_FTS5"
  AC_SEARCH_LIBS([log],[m])
fi

#########
# See whether we should enable JSON1
AC_ARG_ENABLE(json1, AC_HELP_STRING([--enable-json1],
      [Enable the JSON1 extension]),
      [enable_json1=yes],[enable_json1=no])
if test "${enable_json1}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_JSON1"
fi

#########
# See whether we should enable RTREE
AC_ARG_ENABLE(rtree, AC_HELP_STRING([--enable-rtree],
      [Enable the RTREE extension]),
      [enable_rtree=yes],[enable_rtree=no])
if test "${enable_rtree}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_RTREE"
fi

#########
# See whether we should enable the SESSION extension
AC_ARG_ENABLE(session, AC_HELP_STRING([--enable-session],
      [Enable the SESSION extension]),
      [enable_session=yes],[enable_session=no])
if test "${enable_session}" = "yes" ; then
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_SESSION"
  OPT_FEATURE_FLAGS="${OPT_FEATURE_FLAGS} -DSQLITE_ENABLE_PREUPDATE_HOOK"
fi

#########
# attempt to duplicate any OMITS and ENABLES into the ${OPT_FEATURE_FLAGS} parameter
for option in $CFLAGS $CPPFLAGS
do
  case $option in
    -DSQLITE_OMIT*) OPT_FEATURE_FLAGS="$OPT_FEATURE_FLAGS $option";;
    -DSQLITE_ENABLE*) OPT_FEATURE_FLAGS="$OPT_FEATURE_FLAGS $option";;
  esac
done

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<html>
<head>
<title>The Lemon Parser Generator</title>
</head>
<body bgcolor=white>
<h1 align=center>The Lemon Parser Generator</h1>

<p>Lemon is an LALR(1) parser generator for C or C++.  
It does the same job as ``bison'' and ``yacc''.
But lemon is not another bison or yacc clone.  It
uses a different grammar syntax which is designed to
reduce the number of coding errors.  Lemon also uses a more
sophisticated parsing engine that is faster than yacc and
bison and which is both reentrant and thread-safe.



Furthermore, Lemon implements features that can be used
to eliminate resource leaks, making is suitable for use
in long-running programs such as graphical user interfaces
or embedded controllers.</p>

<p>This document is an introduction to the Lemon
parser generator.</p>





















<h2>Theory of Operation</h2>

<p>The main goal of Lemon is to translate a context free grammar (CFG)
for a particular language into C code that implements a parser for
that language.
The program has two inputs:
................................................................................
<ul>
<li>C code to implement the parser.
<li>A header file defining an integer ID for each terminal symbol.
<li>An information file that describes the states of the generated parser
    automaton.
</ul>
By default, all three of these output files are generated.
The header file is suppressed if the ``-m'' command-line option is
used and the report file is omitted when ``-q'' is selected.</p>

<p>The grammar specification file uses a ``.y'' suffix, by convention.
In the examples used in this document, we'll assume the name of the
grammar file is ``gram.y''.  A typical use of Lemon would be the
following command:
<pre>
   lemon gram.y
</pre>
This command will generate three output files named ``gram.c'',
``gram.h'' and ``gram.out''.
The first is C code to implement the parser.  The second
is the header file that defines numerical values for all
terminal symbols, and the last is the report that explains
the states used by the parser automaton.</p>

<h3>Command Line Options</h3>

................................................................................
You can obtain a list of the available command-line options together
with a brief explanation of what each does by typing
<pre>
   lemon -?
</pre>
As of this writing, the following command-line options are supported:
<ul>
<li><tt>-b</tt>
<li><tt>-c</tt>
<li><tt>-g</tt>
<li><tt>-m</tt>
<li><tt>-q</tt>
<li><tt>-s</tt>
<li><tt>-x</tt>
</ul>
The ``-b'' option reduces the amount of text in the report file by
printing only the basis of each parser state, rather than the full
configuration.
The ``-c'' option suppresses action table compression.  Using -c
will make the parser a little larger and slower but it will detect
syntax errors sooner.
The ``-g'' option causes no output files to be generated at all.
Instead, the input grammar file is printed on standard output but
with all comments, actions and other extraneous text deleted.  This
is a useful way to get a quick summary of a grammar.
The ``-m'' option causes the output C source file to be compatible
with the ``makeheaders'' program.
Makeheaders is a program that automatically generates header files
from C source code.  When the ``-m'' option is used, the header
file is not output since the makeheaders program will take care
of generated all header files automatically.
The ``-q'' option suppresses the report file.
Using ``-s'' causes a brief summary of parser statistics to be
printed.  Like this:
<pre>
   Parser statistics: 74 terminals, 70 nonterminals, 179 rules
                      340 states, 2026 parser table entries, 0 conflicts
</pre>
Finally, the ``-x'' option causes Lemon to print its version number
and then stops without attempting to read the grammar or generate a parser.</p>

<h3>The Parser Interface</h3>

<p>Lemon doesn't generate a complete, working program.  It only generates
a few subroutines that implement a parser.  This section describes
the interface to those subroutines.  It is up to the programmer to
call these subroutines in an appropriate way in order to produce a
................................................................................
must first create the parser.
A new parser is created as follows:
<pre>
   void *pParser = ParseAlloc( malloc );
</pre>
The ParseAlloc() routine allocates and initializes a new parser and
returns a pointer to it.
The actual data structure used to represent a parser is opaque --
its internal structure is not visible or usable by the calling routine.
For this reason, the ParseAlloc() routine returns a pointer to void
rather than a pointer to some particular structure.
The sole argument to the ParseAlloc() routine is a pointer to the
subroutine used to allocate memory.  Typically this means ``malloc()''.</p>

<p>After a program is finished using a parser, it can reclaim all
memory allocated by that parser by calling
<pre>
   ParseFree(pParser, free);
</pre>
The first argument is the same pointer returned by ParseAlloc().  The
................................................................................
The first argument to the Parse() routine is the pointer returned by
ParseAlloc().
The second argument is a small positive integer that tells the parse the
type of the next token in the data stream.
There is one token type for each terminal symbol in the grammar.
The gram.h file generated by Lemon contains #define statements that
map symbolic terminal symbol names into appropriate integer values.
(A value of 0 for the second argument is a special flag to the
parser to indicate that the end of input has been reached.)
The third argument is the value of the given token.  By default,
the type of the third argument is integer, but the grammar will
usually redefine this type to be some kind of structure.
Typically the second argument will be a broad category of tokens
such as ``identifier'' or ``number'' and the third argument will
be the name of the identifier or the value of the number.</p>

<p>The Parse() function may have either three or four arguments,
depending on the grammar.  If the grammar specification file requests
it (via the <a href='#extraarg'><tt>extra_argument</tt> directive</a>),
the Parse() function will have a fourth parameter that can be
of any type chosen by the programmer.  The parser doesn't do anything
................................................................................
   15    ParseFree(pParser, free );
   16    TokenizerFree(pTokenizer);
   17    return sState.treeRoot;
   18 }
</pre>
This example shows a user-written routine that parses a file of
text and returns a pointer to the parse tree.
(We've omitted all error-handling from this example to keep it
simple.)
We assume the existence of some kind of tokenizer which is created
using TokenizerCreate() on line 8 and deleted by TokenizerFree()
on line 16.  The GetNextToken() function on line 11 retrieves the
next token from the input file and puts its type in the 
integer variable hTokenId.  The sToken variable is assumed to be
some kind of structure that contains details about each token,
................................................................................
declaration can occur at any point in the file.
Lemon ignores whitespace (except where it is needed to separate
tokens) and it honors the same commenting conventions as C and C++.</p>

<h3>Terminals and Nonterminals</h3>

<p>A terminal symbol (token) is any string of alphanumeric
and underscore characters
that begins with an upper case letter.
A terminal can contain lowercase letters after the first character,
but the usual convention is to make terminals all upper case.
A nonterminal, on the other hand, is any string of alphanumeric
and underscore characters than begins with a lower case letter.
Again, the usual convention is to make nonterminals use all lower
case letters.</p>
................................................................................
must have alphanumeric names.</p>

<h3>Grammar Rules</h3>

<p>The main component of a Lemon grammar file is a sequence of grammar
rules.
Each grammar rule consists of a nonterminal symbol followed by
the special symbol ``::='' and then a list of terminals and/or nonterminals.
The rule is terminated by a period.
The list of terminals and nonterminals on the right-hand side of the
rule can be empty.
Rules can occur in any order, except that the left-hand side of the
first rule is assumed to be the start symbol for the grammar (unless
specified otherwise using the <tt>%start</tt> directive described below.)
A typical sequence of grammar rules might look something like this:
................................................................................
  expr ::= expr PLUS expr.
  expr ::= expr TIMES expr.
  expr ::= LPAREN expr RPAREN.
  expr ::= VALUE.
</pre>
</p>

<p>There is one non-terminal in this example, ``expr'', and five
terminal symbols or tokens: ``PLUS'', ``TIMES'', ``LPAREN'',
``RPAREN'' and ``VALUE''.</p>

<p>Like yacc and bison, Lemon allows the grammar to specify a block
of C code that will be executed whenever a grammar rule is reduced
by the parser.
In Lemon, this action is specified by putting the C code (contained
within curly braces <tt>{...}</tt>) immediately after the
period that closes the rule.
................................................................................
<pre>
  expr ::= expr PLUS expr.   { printf("Doing an addition...\n"); }
</pre>
</p>

<p>In order to be useful, grammar actions must normally be linked to
their associated grammar rules.
In yacc and bison, this is accomplished by embedding a ``$$'' in the
action to stand for the value of the left-hand side of the rule and
symbols ``$1'', ``$2'', and so forth to stand for the value of
the terminal or nonterminal at position 1, 2 and so forth on the
right-hand side of the rule.
This idea is very powerful, but it is also very error-prone.  The
single most common source of errors in a yacc or bison grammar is
to miscount the number of symbols on the right-hand side of a grammar
rule and say ``$7'' when you really mean ``$8''.</p>

<p>Lemon avoids the need to count grammar symbols by assigning symbolic
names to each symbol in a grammar rule and then using those symbolic
names in the action.
In yacc or bison, one would write this:
<pre>
  expr -> expr PLUS expr  { $$ = $1 + $3; };
................................................................................
includes a linking symbol in parentheses but that linking symbol
is not actually used in the reduce action, then an error message
is generated.
For example, the rule
<pre>
  expr(A) ::= expr(B) PLUS expr(C).  { A = B; }
</pre>
will generate an error because the linking symbol ``C'' is used
in the grammar rule but not in the reduce action.</p>

<p>The Lemon notation for linking grammar rules to reduce actions
also facilitates the use of destructors for reclaiming memory
allocated by the values of terminals and nonterminals on the
right-hand side of a rule.</p>


<h3>Precedence Rules</h3>

<p>Lemon resolves parsing ambiguities in exactly the same way as
yacc and bison.  A shift-reduce conflict is resolved in favor
of the shift, and a reduce-reduce conflict is resolved by reducing
whichever rule comes first in the grammar file.</p>

<p>Just like in
yacc and bison, Lemon allows a measure of control 
over the resolution of paring conflicts using precedence rules.
A precedence value can be assigned to any terminal symbol



using the %left, %right or %nonassoc directives.  Terminal symbols
mentioned in earlier directives have a lower precedence that
terminal symbols mentioned in later directives.  For example:</p>

<p><pre>
   %left AND.
   %left OR.
   %nonassoc EQ NE GT GE LT LE.
................................................................................

<p>Lemon supports the following special directives:
<ul>
<li><tt>%code</tt>
<li><tt>%default_destructor</tt>
<li><tt>%default_type</tt>
<li><tt>%destructor</tt>

<li><tt>%extra_argument</tt>



<li><tt>%include</tt>
<li><tt>%left</tt>
<li><tt>%name</tt>
<li><tt>%nonassoc</tt>
<li><tt>%parse_accept</tt>
<li><tt>%parse_failure </tt>
<li><tt>%right</tt>
<li><tt>%stack_overflow</tt>
<li><tt>%stack_size</tt>
<li><tt>%start_symbol</tt>
<li><tt>%syntax_error</tt>

<li><tt>%token_destructor</tt>
<li><tt>%token_prefix</tt>
<li><tt>%token_type</tt>
<li><tt>%type</tt>

</ul>
Each of these directives will be described separately in the
following sections:</p>


<h4>The <tt>%code</tt> directive</h4>

<p>The %code directive is used to specify addition C/C++ code that
is added to the end of the main output file.  This is similar to
the %include directive except that %include is inserted at the

beginning of the main output file.</p>

<p>%code is typically used to include some action routines or perhaps

a tokenizer as part of the output file.</p>


<h4>The <tt>%default_destructor</tt> directive</h4>

<p>The %default_destructor directive specifies a destructor to 
use for non-terminals that do not have their own destructor
specified by a separate %destructor directive.  See the documentation

on the %destructor directive below for additional information.</p>

<p>In some grammers, many different non-terminal symbols have the
same datatype and hence the same destructor.  This directive is
a convenience way to specify the same destructor for all those
non-terminals using a single statement.</p>


<h4>The <tt>%default_type</tt> directive</h4>

<p>The %default_type directive specifies the datatype of non-terminal
symbols that do no have their own datatype defined using a separate
%type directive.  See the documentation on %type below for addition
information.</p>


<h4>The <tt>%destructor</tt> directive</h4>

<p>The %destructor directive is used to specify a destructor for
a non-terminal symbol.
(See also the %token_destructor directive which is used to
specify a destructor for terminal symbols.)</p>

<p>A non-terminal's destructor is called to dispose of the
non-terminal's value whenever the non-terminal is popped from
the stack.  This includes all of the following circumstances:
<ul>
<li> When a rule reduces and the value of a non-terminal on
     the right-hand side is not linked to C code.
................................................................................
<pre>
   %type nt {void*}
   %destructor nt { free($$); }
   nt(A) ::= ID NUM.   { A = malloc( 100 ); }
</pre>
This example is a bit contrived but it serves to illustrate how
destructors work.  The example shows a non-terminal named
``nt'' that holds values of type ``void*''.  When the rule for
an ``nt'' reduces, it sets the value of the non-terminal to
space obtained from malloc().  Later, when the nt non-terminal
is popped from the stack, the destructor will fire and call
free() on this malloced space, thus avoiding a memory leak.
(Note that the symbol ``$$'' in the destructor code is replaced
by the value of the non-terminal.)</p>

<p>It is important to note that the value of a non-terminal is passed
to the destructor whenever the non-terminal is removed from the
stack, unless the non-terminal is used in a C-code action.  If
the non-terminal is used by C-code, then it is assumed that the
C-code will take care of destroying it if it should really
be destroyed.  More commonly, the value is used to build some
larger structure and we don't want to destroy it, which is why
the destructor is not called in this circumstance.</p>

<p>By appropriate use of destructors, it is possible to
build a parser using Lemon that can be used within a long-running
program, such as a GUI, that will not leak memory or other resources.
To do the same using yacc or bison is much more difficult.</p>

<a name="extraarg"></a>
<h4>The <tt>%extra_argument</tt> directive</h4>

The %extra_argument directive instructs Lemon to add a 4th parameter
to the parameter list of the Parse() function it generates.  Lemon
................................................................................
and so forth.  For example, if the grammar file contains:</p>

<p><pre>
    %extra_argument { MyStruct *pAbc }
</pre></p>

<p>Then the Parse() function generated will have an 4th parameter
of type ``MyStruct*'' and all action routines will have access to
a variable named ``pAbc'' that is the value of the 4th parameter
in the most recent call to Parse().</p>

















































<h4>The <tt>%include</tt> directive</h4>

<p>The %include directive specifies C code that is included at the
top of the generated parser.  You can include any text you want --
the Lemon parser generator copies it blindly.  If you have multiple
%include directives in your grammar file the value of the last
%include directive overwrites all the others.</p.



<p>The %include directive is very handy for getting some extra #include
preprocessor statements at the beginning of the generated parser.
For example:</p>

<p><pre>
   %include {#include &lt;unistd.h&gt;}
</pre></p>

<p>This might be needed, for example, if some of the C actions in the
grammar call functions that are prototyed in unistd.h.</p>


<h4>The <tt>%left</tt> directive</h4>

The %left directive is used (along with the %right and
%nonassoc directives) to declare precedences of terminal
symbols.  Every terminal symbol whose name appears after
a %left directive but before the next period (``.'') is
given the same left-associative precedence value.  Subsequent
%left directives have higher precedence.  For example:</p>

<p><pre>
   %left AND.
   %left OR.
   %nonassoc EQ NE GT GE LT LE.
................................................................................
directive.</p>

<p>LALR(1) grammars can get into a situation where they require
a large amount of stack space if you make heavy use or right-associative
operators.  For this reason, it is recommended that you use %left
rather than %right whenever possible.</p>


<h4>The <tt>%name</tt> directive</h4>

<p>By default, the functions generated by Lemon all begin with the
five-character string ``Parse''.  You can change this string to something
different using the %name directive.  For instance:</p>

<p><pre>
   %name Abcde
</pre></p>

<p>Putting this directive in the grammar file will cause Lemon to generate
................................................................................
<li> AbcdeTrace(), and
<li> Abcde().
</ul>
The %name directive allows you to generator two or more different
parsers and link them all into the same executable.
</p>


<h4>The <tt>%nonassoc</tt> directive</h4>

<p>This directive is used to assign non-associative precedence to
one or more terminal symbols.  See the section on precedence rules

or on the %left directive for additional information.</p>


<h4>The <tt>%parse_accept</tt> directive</h4>

<p>The %parse_accept directive specifies a block of C code that is
executed whenever the parser accepts its input string.  To ``accept''
an input string means that the parser was able to process all tokens
without error.</p>

<p>For example:</p>

<p><pre>
   %parse_accept {
      printf("parsing complete!\n");
   }
</pre></p>


<h4>The <tt>%parse_failure</tt> directive</h4>

<p>The %parse_failure directive specifies a block of C code that
is executed whenever the parser fails complete.  This code is not
executed until the parser has tried and failed to resolve an input
error using is usual error recovery strategy.  The routine is
only invoked when parsing is unable to continue.</p>
................................................................................

<p><pre>
   %parse_failure {
     fprintf(stderr,"Giving up.  Parser is hopelessly lost...\n");
   }
</pre></p>


<h4>The <tt>%right</tt> directive</h4>

<p>This directive is used to assign right-associative precedence to
one or more terminal symbols.  See the section on precedence rules

or on the %left directive for additional information.</p>


<h4>The <tt>%stack_overflow</tt> directive</h4>

<p>The %stack_overflow directive specifies a block of C code that
is executed if the parser's internal stack ever overflows.  Typically
this just prints an error message.  After a stack overflow, the parser
will be unable to continue and must be reset.</p>

................................................................................
</pre>
Not like this:
<pre>
   list ::= element list.      // right-recursion.  Bad!
   list ::= .
</pre>


<h4>The <tt>%stack_size</tt> directive</h4>

<p>If stack overflow is a problem and you can't resolve the trouble
by using left-recursion, then you might want to increase the size
of the parser's stack using this directive.  Put an positive integer
after the %stack_size directive and Lemon will generate a parse
with a stack of the requested size.  The default value is 100.</p>

<p><pre>
   %stack_size 2000
</pre></p>


<h4>The <tt>%start_symbol</tt> directive</h4>

<p>By default, the start-symbol for the grammar that Lemon generates
is the first non-terminal that appears in the grammar file.  But you
can choose a different start-symbol using the %start_symbol directive.</p>

<p><pre>
   %start_symbol  prog
</pre></p>


<h4>The <tt>%token_destructor</tt> directive</h4>

<p>The %destructor directive assigns a destructor to a non-terminal
symbol.  (See the description of the %destructor directive above.)
This directive does the same thing for all terminal symbols.</p>

<p>Unlike non-terminal symbols which may each have a different data type
for their values, terminals all use the same data type (defined by
the %token_type directive) and so they use a common destructor.  Other
than that, the token destructor works just like the non-terminal
destructors.</p>


<h4>The <tt>%token_prefix</tt> directive</h4>

<p>Lemon generates #defines that assign small integer constants
to each terminal symbol in the grammar.  If desired, Lemon will
add a prefix specified by this directive
to each of the #defines it generates.
So if the default output of Lemon looked like this:
................................................................................
<pre>
    #define TOKEN_AND        1
    #define TOKEN_MINUS      2
    #define TOKEN_OR         3
    #define TOKEN_PLUS       4
</pre>


<h4>The <tt>%token_type</tt> and <tt>%type</tt> directives</h4>

<p>These directives are used to specify the data types for values
on the parser's stack associated with terminal and non-terminal
symbols.  The values of all terminal symbols must be of the same
type.  This turns out to be the same data type as the 3rd parameter
to the Parse() function generated by Lemon.  Typically, you will
................................................................................
token structure.  Like this:</p>

<p><pre>
   %token_type    {Token*}
</pre></p>

<p>If the data type of terminals is not specified, the default value
is ``int''.</p>

<p>Non-terminal symbols can each have their own data types.  Typically
the data type  of a non-terminal is a pointer to the root of a parse-tree
structure that contains all information about that non-terminal.
For example:</p>

<p><pre>
................................................................................
on what the corresponding non-terminal or terminal symbol is.  But
the grammar designer should keep in mind that the size of the union
will be the size of its largest element.  So if you have a single
non-terminal whose data type requires 1K of storage, then your 100
entry parser stack will require 100K of heap space.  If you are willing
and able to pay that price, fine.  You just need to know.</p>












<h3>Error Processing</h3>

<p>After extensive experimentation over several years, it has been
discovered that the error recovery strategy used by yacc is about
as good as it gets.  And so that is what Lemon uses.</p>

<p>When a Lemon-generated parser encounters a syntax error, it
first invokes the code specified by the %syntax_error directive, if
any.  It then enters its error recovery strategy.  The error recovery
strategy is to begin popping the parsers stack until it enters a
state where it is permitted to shift a special non-terminal symbol
named ``error''.  It then shifts this non-terminal and continues
parsing.  But the %syntax_error routine will not be called again
until at least three new tokens have been successfully shifted.</p>

<p>If the parser pops its stack until the stack is empty, and it still
is unable to shift the error symbol, then the %parse_failed routine
is invoked and the parser resets itself to its start state, ready
to begin parsing a new file.  This is what will happen at the very
first syntax error, of course, if there are no instances of the 
``error'' non-terminal in your grammar.</p>

</body>
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<html>
<head>
<title>The Lemon Parser Generator</title>
</head>
<body bgcolor=white>
<h1 align=center>The Lemon Parser Generator</h1>

<p>Lemon is an LALR(1) parser generator for C.
It does the same job as "bison" and "yacc".
But lemon is not a bison or yacc clone.  Lemon
uses a different grammar syntax which is designed to
reduce the number of coding errors.  Lemon also uses a
parsing engine that is faster than yacc and
bison and which is both reentrant and threadsafe.
(Update: Since the previous sentence was written, bison
has also been updated so that it too can generate a
reentrant and threadsafe parser.)
Lemon also implements features that can be used
to eliminate resource leaks, making is suitable for use
in long-running programs such as graphical user interfaces
or embedded controllers.</p>

<p>This document is an introduction to the Lemon
parser generator.</p>

<h2>Security Note</h2>

<p>The language parser code created by Lemon is very robust and
is well-suited for use in internet-facing applications that need to
safely process maliciously crafted inputs.

<p>The "lemon.exe" command-line tool itself works great when given a valid
input grammar file and almost always gives helpful
error messages for malformed inputs.  However,  it is possible for
a malicious user to craft a grammar file that will cause 
lemon.exe to crash.
We do not see this as a problem, as lemon.exe is not intended to be used
with hostile inputs.
To summarize:</p>

<ul>
<li>Parser code generated by lemon &rarr; Robust and secure
<li>The "lemon.exe" command line tool itself &rarr; Not so much
</ul>

<h2>Theory of Operation</h2>

<p>The main goal of Lemon is to translate a context free grammar (CFG)
for a particular language into C code that implements a parser for
that language.
The program has two inputs:
................................................................................
<ul>
<li>C code to implement the parser.
<li>A header file defining an integer ID for each terminal symbol.
<li>An information file that describes the states of the generated parser
    automaton.
</ul>
By default, all three of these output files are generated.
The header file is suppressed if the "-m" command-line option is
used and the report file is omitted when "-q" is selected.</p>

<p>The grammar specification file uses a ".y" suffix, by convention.
In the examples used in this document, we'll assume the name of the
grammar file is "gram.y".  A typical use of Lemon would be the
following command:
<pre>
   lemon gram.y
</pre>
This command will generate three output files named "gram.c",
"gram.h" and "gram.out".
The first is C code to implement the parser.  The second
is the header file that defines numerical values for all
terminal symbols, and the last is the report that explains
the states used by the parser automaton.</p>

<h3>Command Line Options</h3>

................................................................................
You can obtain a list of the available command-line options together
with a brief explanation of what each does by typing
<pre>
   lemon -?
</pre>
As of this writing, the following command-line options are supported:
<ul>
<li><b>-b</b>
Show only the basis for each parser state in the report file.
<li><b>-c</b>
Do not compress the generated action tables.
<li><b>-D<i>name</i></b>
Define C preprocessor macro <i>name</i>.  This macro is useable by
"%ifdef" lines in the grammar file.
<li><b>-g</b>
Do not generate a parser.  Instead write the input grammar to standard
output with all comments, actions, and other extraneous text removed.
<li><b>-l</b>
Omit "#line" directives in the generated parser C code.
<li><b>-m</b>
Cause the output C source code to be compatible with the "makeheaders"
program. 
<li><b>-p</b>
Display all conflicts that are resolved by 
<a href='#precrules'>precedence rules</a>.
<li><b>-q</b>
Suppress generation of the report file.
<li><b>-r</b>
Do not sort or renumber the parser states as part of optimization.
<li><b>-s</b>
Show parser statistics before existing.
<li><b>-T<i>file</i></b>
Use <i>file</i> as the template for the generated C-code parser implementation.
<li><b>-x</b>
Print the Lemon version number.
</ul>





<h3>The Parser Interface</h3>

<p>Lemon doesn't generate a complete, working program.  It only generates
a few subroutines that implement a parser.  This section describes
the interface to those subroutines.  It is up to the programmer to
call these subroutines in an appropriate way in order to produce a
................................................................................
must first create the parser.
A new parser is created as follows:
<pre>
   void *pParser = ParseAlloc( malloc );
</pre>
The ParseAlloc() routine allocates and initializes a new parser and
returns a pointer to it.
The actual data structure used to represent a parser is opaque &mdash;
its internal structure is not visible or usable by the calling routine.
For this reason, the ParseAlloc() routine returns a pointer to void
rather than a pointer to some particular structure.
The sole argument to the ParseAlloc() routine is a pointer to the
subroutine used to allocate memory.  Typically this means malloc().</p>

<p>After a program is finished using a parser, it can reclaim all
memory allocated by that parser by calling
<pre>
   ParseFree(pParser, free);
</pre>
The first argument is the same pointer returned by ParseAlloc().  The
................................................................................
The first argument to the Parse() routine is the pointer returned by
ParseAlloc().
The second argument is a small positive integer that tells the parse the
type of the next token in the data stream.
There is one token type for each terminal symbol in the grammar.
The gram.h file generated by Lemon contains #define statements that
map symbolic terminal symbol names into appropriate integer values.
A value of 0 for the second argument is a special flag to the
parser to indicate that the end of input has been reached.
The third argument is the value of the given token.  By default,
the type of the third argument is integer, but the grammar will
usually redefine this type to be some kind of structure.
Typically the second argument will be a broad category of tokens
such as "identifier" or "number" and the third argument will
be the name of the identifier or the value of the number.</p>

<p>The Parse() function may have either three or four arguments,
depending on the grammar.  If the grammar specification file requests
it (via the <a href='#extraarg'><tt>extra_argument</tt> directive</a>),
the Parse() function will have a fourth parameter that can be
of any type chosen by the programmer.  The parser doesn't do anything
................................................................................
   15    ParseFree(pParser, free );
   16    TokenizerFree(pTokenizer);
   17    return sState.treeRoot;
   18 }
</pre>
This example shows a user-written routine that parses a file of
text and returns a pointer to the parse tree.
(All error-handling code is omitted from this example to keep it
simple.)
We assume the existence of some kind of tokenizer which is created
using TokenizerCreate() on line 8 and deleted by TokenizerFree()
on line 16.  The GetNextToken() function on line 11 retrieves the
next token from the input file and puts its type in the 
integer variable hTokenId.  The sToken variable is assumed to be
some kind of structure that contains details about each token,
................................................................................
declaration can occur at any point in the file.
Lemon ignores whitespace (except where it is needed to separate
tokens) and it honors the same commenting conventions as C and C++.</p>

<h3>Terminals and Nonterminals</h3>

<p>A terminal symbol (token) is any string of alphanumeric
and/or underscore characters
that begins with an upper case letter.
A terminal can contain lowercase letters after the first character,
but the usual convention is to make terminals all upper case.
A nonterminal, on the other hand, is any string of alphanumeric
and underscore characters than begins with a lower case letter.
Again, the usual convention is to make nonterminals use all lower
case letters.</p>
................................................................................
must have alphanumeric names.</p>

<h3>Grammar Rules</h3>

<p>The main component of a Lemon grammar file is a sequence of grammar
rules.
Each grammar rule consists of a nonterminal symbol followed by
the special symbol "::=" and then a list of terminals and/or nonterminals.
The rule is terminated by a period.
The list of terminals and nonterminals on the right-hand side of the
rule can be empty.
Rules can occur in any order, except that the left-hand side of the
first rule is assumed to be the start symbol for the grammar (unless
specified otherwise using the <tt>%start</tt> directive described below.)
A typical sequence of grammar rules might look something like this:
................................................................................
  expr ::= expr PLUS expr.
  expr ::= expr TIMES expr.
  expr ::= LPAREN expr RPAREN.
  expr ::= VALUE.
</pre>
</p>

<p>There is one non-terminal in this example, "expr", and five
terminal symbols or tokens: "PLUS", "TIMES", "LPAREN",
"RPAREN" and "VALUE".</p>

<p>Like yacc and bison, Lemon allows the grammar to specify a block
of C code that will be executed whenever a grammar rule is reduced
by the parser.
In Lemon, this action is specified by putting the C code (contained
within curly braces <tt>{...}</tt>) immediately after the
period that closes the rule.
................................................................................
<pre>
  expr ::= expr PLUS expr.   { printf("Doing an addition...\n"); }
</pre>
</p>

<p>In order to be useful, grammar actions must normally be linked to
their associated grammar rules.
In yacc and bison, this is accomplished by embedding a "$$" in the
action to stand for the value of the left-hand side of the rule and
symbols "$1", "$2", and so forth to stand for the value of
the terminal or nonterminal at position 1, 2 and so forth on the
right-hand side of the rule.
This idea is very powerful, but it is also very error-prone.  The
single most common source of errors in a yacc or bison grammar is
to miscount the number of symbols on the right-hand side of a grammar
rule and say "$7" when you really mean "$8".</p>

<p>Lemon avoids the need to count grammar symbols by assigning symbolic
names to each symbol in a grammar rule and then using those symbolic
names in the action.
In yacc or bison, one would write this:
<pre>
  expr -> expr PLUS expr  { $$ = $1 + $3; };
................................................................................
includes a linking symbol in parentheses but that linking symbol
is not actually used in the reduce action, then an error message
is generated.
For example, the rule
<pre>
  expr(A) ::= expr(B) PLUS expr(C).  { A = B; }
</pre>
will generate an error because the linking symbol "C" is used
in the grammar rule but not in the reduce action.</p>

<p>The Lemon notation for linking grammar rules to reduce actions
also facilitates the use of destructors for reclaiming memory
allocated by the values of terminals and nonterminals on the
right-hand side of a rule.</p>

<a name='precrules'></a>
<h3>Precedence Rules</h3>

<p>Lemon resolves parsing ambiguities in exactly the same way as
yacc and bison.  A shift-reduce conflict is resolved in favor
of the shift, and a reduce-reduce conflict is resolved by reducing
whichever rule comes first in the grammar file.</p>

<p>Just like in
yacc and bison, Lemon allows a measure of control 
over the resolution of paring conflicts using precedence rules.
A precedence value can be assigned to any terminal symbol
using the 
<a href='#pleft'>%left</a>,
<a href='#pright'>%right</a> or
<a href='#pnonassoc'>%nonassoc</a> directives.  Terminal symbols
mentioned in earlier directives have a lower precedence that
terminal symbols mentioned in later directives.  For example:</p>

<p><pre>
   %left AND.
   %left OR.
   %nonassoc EQ NE GT GE LT LE.
................................................................................

<p>Lemon supports the following special directives:
<ul>
<li><tt>%code</tt>
<li><tt>%default_destructor</tt>
<li><tt>%default_type</tt>
<li><tt>%destructor</tt>
<li><tt>%endif</tt>
<li><tt>%extra_argument</tt>
<li><tt>%fallback</tt>
<li><tt>%ifdef</tt>
<li><tt>%ifndef</tt>
<li><tt>%include</tt>
<li><tt>%left</tt>
<li><tt>%name</tt>
<li><tt>%nonassoc</tt>
<li><tt>%parse_accept</tt>
<li><tt>%parse_failure </tt>
<li><tt>%right</tt>
<li><tt>%stack_overflow</tt>
<li><tt>%stack_size</tt>
<li><tt>%start_symbol</tt>
<li><tt>%syntax_error</tt>
<li><tt>%token_class</tt>
<li><tt>%token_destructor</tt>
<li><tt>%token_prefix</tt>
<li><tt>%token_type</tt>
<li><tt>%type</tt>
<li><tt>%wildcard</tt>
</ul>
Each of these directives will be described separately in the
following sections:</p>

<a name='pcode'></a>
<h4>The <tt>%code</tt> directive</h4>

<p>The %code directive is used to specify addition C code that
is added to the end of the main output file.  This is similar to

the <a href='#pinclude'>%include</a> directive except that %include
is inserted at the beginning of the main output file.</p>

<p>%code is typically used to include some action routines or perhaps
a tokenizer or even the "main()" function 
as part of the output file.</p>

<a name='default_destructor'></a>
<h4>The <tt>%default_destructor</tt> directive</h4>

<p>The %default_destructor directive specifies a destructor to 
use for non-terminals that do not have their own destructor
specified by a separate %destructor directive.  See the documentation
on the <a name='#destructor'>%destructor</a> directive below for
additional information.</p>

<p>In some grammers, many different non-terminal symbols have the
same datatype and hence the same destructor.  This directive is
a convenience way to specify the same destructor for all those
non-terminals using a single statement.</p>

<a name='default_type'></a>
<h4>The <tt>%default_type</tt> directive</h4>

<p>The %default_type directive specifies the datatype of non-terminal
symbols that do no have their own datatype defined using a separate
<a href='#ptype'>%type</a> directive.  
</p>

<a name='destructor'></a>
<h4>The <tt>%destructor</tt> directive</h4>

<p>The %destructor directive is used to specify a destructor for
a non-terminal symbol.
(See also the <a href='#token_destructor'>%token_destructor</a>
directive which is used to specify a destructor for terminal symbols.)</p>

<p>A non-terminal's destructor is called to dispose of the
non-terminal's value whenever the non-terminal is popped from
the stack.  This includes all of the following circumstances:
<ul>
<li> When a rule reduces and the value of a non-terminal on
     the right-hand side is not linked to C code.
................................................................................
<pre>
   %type nt {void*}
   %destructor nt { free($$); }
   nt(A) ::= ID NUM.   { A = malloc( 100 ); }
</pre>
This example is a bit contrived but it serves to illustrate how
destructors work.  The example shows a non-terminal named
"nt" that holds values of type "void*".  When the rule for
an "nt" reduces, it sets the value of the non-terminal to
space obtained from malloc().  Later, when the nt non-terminal
is popped from the stack, the destructor will fire and call
free() on this malloced space, thus avoiding a memory leak.
(Note that the symbol "$$" in the destructor code is replaced
by the value of the non-terminal.)</p>

<p>It is important to note that the value of a non-terminal is passed
to the destructor whenever the non-terminal is removed from the
stack, unless the non-terminal is used in a C-code action.  If
the non-terminal is used by C-code, then it is assumed that the
C-code will take care of destroying it.
More commonly, the value is used to build some
larger structure and we don't want to destroy it, which is why
the destructor is not called in this circumstance.</p>

<p>Destructors help avoid memory leaks by automatically freeing
allocated objects when they go out of scope.

To do the same using yacc or bison is much more difficult.</p>

<a name="extraarg"></a>
<h4>The <tt>%extra_argument</tt> directive</h4>

The %extra_argument directive instructs Lemon to add a 4th parameter
to the parameter list of the Parse() function it generates.  Lemon
................................................................................
and so forth.  For example, if the grammar file contains:</p>

<p><pre>
    %extra_argument { MyStruct *pAbc }
</pre></p>

<p>Then the Parse() function generated will have an 4th parameter
of type "MyStruct*" and all action routines will have access to
a variable named "pAbc" that is the value of the 4th parameter
in the most recent call to Parse().</p>

<a name='pfallback'></a>
<h4>The <tt>%fallback</tt> directive</h4>

<p>The %fallback directive specifies an alternative meaning for one
or more tokens.  The alternative meaning is tried if the original token
would have generated a syntax error.

<p>The %fallback directive was added to support robust parsing of SQL
syntax in <a href="https://www.sqlite.org/">SQLite</a>.
The SQL language contains a large assortment of keywords, each of which
appears as a different token to the language parser.  SQL contains so
many keywords, that it can be difficult for programmers to keep up with
them all.  Programmers will, therefore, sometimes mistakenly use an
obscure language keyword for an identifier.  The %fallback directive
provides a mechanism to tell the parser:  "If you are unable to parse
this keyword, try treating it as an identifier instead."

<p>The syntax of %fallback is as follows:

<blockquote>
<tt>%fallback</tt>  <i>ID</i> <i>TOKEN...</i> <b>.</b>
</blockquote>

<p>In words, the %fallback directive is followed by a list of token names
terminated by a period.  The first token name is the fallback token - the
token to which all the other tokens fall back to.  The second and subsequent
arguments are tokens which fall back to the token identified by the first
argument.

<a name='pifdef'></a>
<h4>The <tt>%ifdef</tt>, <tt>%ifndef</tt>, and <tt>%endif</tt> directives.</h4>

<p>The %ifdef, %ifndef, and %endif directives are similar to
#ifdef, #ifndef, and #endif in the C-preprocessor, just not as general.
Each of these directives must begin at the left margin.  No whitespace
is allowed between the "%" and the directive name.

<p>Grammar text in between "%ifdef MACRO" and the next nested "%endif" is
ignored unless the "-DMACRO" command-line option is used.  Grammar text
betwen "%ifndef MACRO" and the next nested "%endif" is included except when
the "-DMACRO" command-line option is used.

<p>Note that the argument to %ifdef and %ifndef must be a single 
preprocessor symbol name, not a general expression.  There is no "%else"
directive.


<a name='pinclude'></a>
<h4>The <tt>%include</tt> directive</h4>

<p>The %include directive specifies C code that is included at the
top of the generated parser.  You can include any text you want --
the Lemon parser generator copies it blindly.  If you have multiple
%include directives in your grammar file, their values are concatenated

so that all %include code ultimately appears near the top of the
generated parser, in the same order as it appeared in the grammer.</p>

<p>The %include directive is very handy for getting some extra #include
preprocessor statements at the beginning of the generated parser.
For example:</p>

<p><pre>
   %include {#include &lt;unistd.h&gt;}
</pre></p>

<p>This might be needed, for example, if some of the C actions in the
grammar call functions that are prototyed in unistd.h.</p>

<a name='pleft'></a>
<h4>The <tt>%left</tt> directive</h4>

The %left directive is used (along with the <a href='#pright'>%right</a> and
<a href='#pnonassoc'>%nonassoc</a> directives) to declare precedences of 
terminal symbols.  Every terminal symbol whose name appears after
a %left directive but before the next period (".") is
given the same left-associative precedence value.  Subsequent
%left directives have higher precedence.  For example:</p>

<p><pre>
   %left AND.
   %left OR.
   %nonassoc EQ NE GT GE LT LE.
................................................................................
directive.</p>

<p>LALR(1) grammars can get into a situation where they require
a large amount of stack space if you make heavy use or right-associative
operators.  For this reason, it is recommended that you use %left
rather than %right whenever possible.</p>

<a name='pname'></a>
<h4>The <tt>%name</tt> directive</h4>

<p>By default, the functions generated by Lemon all begin with the
five-character string "Parse".  You can change this string to something
different using the %name directive.  For instance:</p>

<p><pre>
   %name Abcde
</pre></p>

<p>Putting this directive in the grammar file will cause Lemon to generate
................................................................................
<li> AbcdeTrace(), and
<li> Abcde().
</ul>
The %name directive allows you to generator two or more different
parsers and link them all into the same executable.
</p>

<a name='pnonassoc'></a>
<h4>The <tt>%nonassoc</tt> directive</h4>

<p>This directive is used to assign non-associative precedence to
one or more terminal symbols.  See the section on 
<a href='#precrules'>precedence rules</a>
or on the <a href='#pleft'>%left</a> directive for additional information.</p>

<a name='parse_accept'></a>
<h4>The <tt>%parse_accept</tt> directive</h4>

<p>The %parse_accept directive specifies a block of C code that is
executed whenever the parser accepts its input string.  To "accept"
an input string means that the parser was able to process all tokens
without error.</p>

<p>For example:</p>

<p><pre>
   %parse_accept {
      printf("parsing complete!\n");
   }
</pre></p>

<a name='parse_failure'></a>
<h4>The <tt>%parse_failure</tt> directive</h4>

<p>The %parse_failure directive specifies a block of C code that
is executed whenever the parser fails complete.  This code is not
executed until the parser has tried and failed to resolve an input
error using is usual error recovery strategy.  The routine is
only invoked when parsing is unable to continue.</p>
................................................................................

<p><pre>
   %parse_failure {
     fprintf(stderr,"Giving up.  Parser is hopelessly lost...\n");
   }
</pre></p>

<a name='pright'></a>
<h4>The <tt>%right</tt> directive</h4>

<p>This directive is used to assign right-associative precedence to
one or more terminal symbols.  See the section on 
<a href='#precrules'>precedence rules</a>
or on the <a href='#pleft'>%left</a> directive for additional information.</p>

<a name='stack_overflow'></a>
<h4>The <tt>%stack_overflow</tt> directive</h4>

<p>The %stack_overflow directive specifies a block of C code that
is executed if the parser's internal stack ever overflows.  Typically
this just prints an error message.  After a stack overflow, the parser
will be unable to continue and must be reset.</p>

................................................................................
</pre>
Not like this:
<pre>
   list ::= element list.      // right-recursion.  Bad!
   list ::= .
</pre>

<a name='stack_size'></a>
<h4>The <tt>%stack_size</tt> directive</h4>

<p>If stack overflow is a problem and you can't resolve the trouble
by using left-recursion, then you might want to increase the size
of the parser's stack using this directive.  Put an positive integer
after the %stack_size directive and Lemon will generate a parse
with a stack of the requested size.  The default value is 100.</p>

<p><pre>
   %stack_size 2000
</pre></p>

<a name='start_symbol'></a>
<h4>The <tt>%start_symbol</tt> directive</h4>

<p>By default, the start-symbol for the grammar that Lemon generates
is the first non-terminal that appears in the grammar file.  But you
can choose a different start-symbol using the %start_symbol directive.</p>

<p><pre>
   %start_symbol  prog
</pre></p>

<a name='token_destructor'></a>
<h4>The <tt>%token_destructor</tt> directive</h4>

<p>The %destructor directive assigns a destructor to a non-terminal
symbol.  (See the description of the %destructor directive above.)
This directive does the same thing for all terminal symbols.</p>

<p>Unlike non-terminal symbols which may each have a different data type
for their values, terminals all use the same data type (defined by
the %token_type directive) and so they use a common destructor.  Other
than that, the token destructor works just like the non-terminal
destructors.</p>

<a name='token_prefix'></a>
<h4>The <tt>%token_prefix</tt> directive</h4>

<p>Lemon generates #defines that assign small integer constants
to each terminal symbol in the grammar.  If desired, Lemon will
add a prefix specified by this directive
to each of the #defines it generates.
So if the default output of Lemon looked like this:
................................................................................
<pre>
    #define TOKEN_AND        1
    #define TOKEN_MINUS      2
    #define TOKEN_OR         3
    #define TOKEN_PLUS       4
</pre>

<a name='token_type'></a><a name='ptype'></a>
<h4>The <tt>%token_type</tt> and <tt>%type</tt> directives</h4>

<p>These directives are used to specify the data types for values
on the parser's stack associated with terminal and non-terminal
symbols.  The values of all terminal symbols must be of the same
type.  This turns out to be the same data type as the 3rd parameter
to the Parse() function generated by Lemon.  Typically, you will
................................................................................
token structure.  Like this:</p>

<p><pre>
   %token_type    {Token*}
</pre></p>

<p>If the data type of terminals is not specified, the default value
is "void*".</p>

<p>Non-terminal symbols can each have their own data types.  Typically
the data type  of a non-terminal is a pointer to the root of a parse-tree
structure that contains all information about that non-terminal.
For example:</p>

<p><pre>
................................................................................
on what the corresponding non-terminal or terminal symbol is.  But
the grammar designer should keep in mind that the size of the union
will be the size of its largest element.  So if you have a single
non-terminal whose data type requires 1K of storage, then your 100
entry parser stack will require 100K of heap space.  If you are willing
and able to pay that price, fine.  You just need to know.</p>

<a name='pwildcard'></a>
<h4>The <tt>%wildcard</tt> directive</h4>

<p>The %wildcard directive is followed by a single token name and a
period.  This directive specifies that the identified token should 
match any input token.

<p>When the generated parser has the choice of matching an input against
the wildcard token and some other token, the other token is always used.
The wildcard token is only matched if there are no other alternatives.

<h3>Error Processing</h3>

<p>After extensive experimentation over several years, it has been
discovered that the error recovery strategy used by yacc is about
as good as it gets.  And so that is what Lemon uses.</p>

<p>When a Lemon-generated parser encounters a syntax error, it
first invokes the code specified by the %syntax_error directive, if
any.  It then enters its error recovery strategy.  The error recovery
strategy is to begin popping the parsers stack until it enters a
state where it is permitted to shift a special non-terminal symbol
named "error".  It then shifts this non-terminal and continues
parsing.  But the %syntax_error routine will not be called again
until at least three new tokens have been successfully shifted.</p>

<p>If the parser pops its stack until the stack is empty, and it still
is unable to shift the error symbol, then the %parse_failed routine
is invoked and the parser resets itself to its start state, ready
to begin parsing a new file.  This is what will happen at the very
first syntax error, of course, if there are no instances of the 
"error" non-terminal in your grammar.</p>

</body>
</html>

Name change from ext/README.txt to ext/README.md.




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Version loadable extensions to SQLite are found in subfolders
of this folder.




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## Loadable Extensions

Various [loadable extensions](https://www.sqlite.org/loadext.html) for
SQLite are found in subfolders.


Most subfolders are dedicated to a single loadable extension (for
example FTS5, or RTREE).  But the misc/ subfolder contains a collection
of smaller single-file extensions.

Changes to ext/fts2/fts2_tokenizer.c.

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  }

  sqlite3_result_blob(context, (void *)&pPtr, sizeof(pPtr), SQLITE_TRANSIENT);
}

#ifdef SQLITE_TEST




#include <tcl.h>

#include <string.h>

/*
** Implementation of a special SQL scalar function for testing tokenizers 
** designed to be used in concert with the Tcl testing framework. This
** function must be called with two arguments:
**







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  sqlite3_result_blob(context, (void *)&pPtr, sizeof(pPtr), SQLITE_TRANSIENT);
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#ifdef SQLITE_TEST

#if defined(INCLUDE_SQLITE_TCL_H)
#  include "sqlite_tcl.h"
#else
#  include "tcl.h"
#endif
#include <string.h>

/*
** Implementation of a special SQL scalar function for testing tokenizers 
** designed to be used in concert with the Tcl testing framework. This
** function must be called with two arguments:
**

Changes to ext/fts3/fts3.c.

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3320
3321
3322
3323
3324
3325
3326
3327
3328
3329
3330
3331
3332
3333
3334
3335
3336
3337
3338
3339
3340





3341
3342
3343
3344
3345
3346
3347
....
3382
3383
3384
3385
3386
3387
3388
3389

3390

3391
3392
3393
3394
3395
3396
3397
....
3398
3399
3400
3401
3402
3403
3404

3405
3406
3407
3408
3409
3410
3411
3412
3413
3414
3415
3416
3417
3418
3419

3420
3421
3422
3423
3424
3425
3426
3427
3428
3429
3430
3431
3432
3433
3434
....
3527
3528
3529
3530
3531
3532
3533
3534
3535
3536
3537

3538
3539
3540
3541
3542
3543
3544
3545
3546
3547
3548
3549
3550
3551
3552
....
3925
3926
3927
3928
3929
3930
3931
3932
3933
3934
3935
3936
3937
3938
3939
....
4508
4509
4510
4511
4512
4513
4514
4515
4516
4517
4518
4519
4520
4521
4522
....
4741
4742
4743
4744
4745
4746
4747

4748
4749
4750
4751
4752
4753
4754
4755
4756
4757
4758
4759
4760
4761
4762
4763
4764
4765
4766
4767
....
4780
4781
4782
4783
4784
4785
4786
4787
4788
4789
4790
4791
4792
4793
4794
4795
4796
4797
4798
....
5134
5135
5136
5137
5138
5139
5140

5141
5142
5143
5144
5145
5146
5147
5148
....
5163
5164
5165
5166
5167
5168
5169
5170
5171
5172
5173
5174
5175
5176
5177
....
5255
5256
5257
5258
5259
5260
5261
5262
5263
5264
5265
5266
5267
5268
5269
5270

5271
5272
5273
5274
5275
5276
5277
5278
5279
5280
5281
5282
5283
5284
5285
5286
5287
5288
5289
5290
5291
5292
5293
5294
5295
5296
5297
5298
5299
5300
5301
5302
5303
5304
5305
5306
5307
5308
5309
5310
5311
5312
5313
  if( (v & mask2)==0 ){ var = v; return ret; }

/* 
** Read a 64-bit variable-length integer from memory starting at p[0].
** Return the number of bytes read, or 0 on error.
** The value is stored in *v.
*/
int sqlite3Fts3GetVarint(const char *p, sqlite_int64 *v){

  const char *pStart = p;
  u32 a;
  u64 b;
  int shift;

  GETVARINT_INIT(a, p, 0,  0x00,     0x80, *v, 1);
  GETVARINT_STEP(a, p, 7,  0x7F,     0x4000, *v, 2);
  GETVARINT_STEP(a, p, 14, 0x3FFF,   0x200000, *v, 3);
................................................................................
    if( (c & 0x80)==0 ) break;
  }
  *v = b;
  return (int)(p - pStart);
}

/*
** Similar to sqlite3Fts3GetVarint(), except that the output is truncated to a
** 32-bit integer before it is returned.
*/
int sqlite3Fts3GetVarint32(const char *p, int *pi){
  u32 a;

#ifndef fts3GetVarint32
  GETVARINT_INIT(a, p, 0,  0x00,     0x80, *pi, 1);
#else
................................................................................
  assert( a & 0x80 );
#endif

  GETVARINT_STEP(a, p, 7,  0x7F,     0x4000, *pi, 2);
  GETVARINT_STEP(a, p, 14, 0x3FFF,   0x200000, *pi, 3);
  GETVARINT_STEP(a, p, 21, 0x1FFFFF, 0x10000000, *pi, 4);
  a = (a & 0x0FFFFFFF );
  *pi = (int)(a | ((u32)(*p & 0x0F) << 28));


  return 5;
}

/*
** Return the number of bytes required to encode v as a varint
*/
int sqlite3Fts3VarintLen(sqlite3_uint64 v){
................................................................................
  Fts3Table *p = (Fts3Table *)pVtab;
  int i;

  assert( p->nPendingData==0 );
  assert( p->pSegments==0 );

  /* Free any prepared statements held */

  for(i=0; i<SizeofArray(p->aStmt); i++){
    sqlite3_finalize(p->aStmt[i]);
  }
  sqlite3_free(p->zSegmentsTbl);
  sqlite3_free(p->zReadExprlist);
  sqlite3_free(p->zWriteExprlist);
  sqlite3_free(p->zContentTbl);
................................................................................
      }else{
        for(iOpt=0; iOpt<SizeofArray(aFts4Opt); iOpt++){
          struct Fts4Option *pOp = &aFts4Opt[iOpt];
          if( nKey==pOp->nOpt && !sqlite3_strnicmp(z, pOp->zOpt, pOp->nOpt) ){
            break;
          }
        }
        if( iOpt==SizeofArray(aFts4Opt) ){
          sqlite3Fts3ErrMsg(pzErr, "unrecognized parameter: %s", z);
          rc = SQLITE_ERROR;
        }else{
          switch( iOpt ){
            case 0:               /* MATCHINFO */
              if( strlen(zVal)!=4 || sqlite3_strnicmp(zVal, "fts3", 4) ){
                sqlite3Fts3ErrMsg(pzErr, "unrecognized matchinfo: %s", zVal);
                rc = SQLITE_ERROR;
              }
              bNoDocsize = 1;
              break;

            case 1:               /* PREFIX */
              sqlite3_free(zPrefix);
              zPrefix = zVal;
              zVal = 0;
              break;

            case 2:               /* COMPRESS */
              sqlite3_free(zCompress);
              zCompress = zVal;
              zVal = 0;
              break;

            case 3:               /* UNCOMPRESS */
              sqlite3_free(zUncompress);
              zUncompress = zVal;
              zVal = 0;
              break;

            case 4:               /* ORDER */
              if( (strlen(zVal)!=3 || sqlite3_strnicmp(zVal, "asc", 3)) 
               && (strlen(zVal)!=4 || sqlite3_strnicmp(zVal, "desc", 4)) 
              ){
                sqlite3Fts3ErrMsg(pzErr, "unrecognized order: %s", zVal);
                rc = SQLITE_ERROR;
              }
              bDescIdx = (zVal[0]=='d' || zVal[0]=='D');
              break;

            case 5:              /* CONTENT */
              sqlite3_free(zContent);
              zContent = zVal;
              zVal = 0;
              break;

            case 6:              /* LANGUAGEID */
              assert( iOpt==6 );
              sqlite3_free(zLanguageid);
              zLanguageid = zVal;
              zVal = 0;
              break;

            case 7:              /* NOTINDEXED */
              azNotindexed[nNotindexed++] = zVal;
              zVal = 0;
              break;
          }





        }
        sqlite3_free(zVal);
      }
    }

    /* Otherwise, the argument is a column name. */
    else {
................................................................................
  p->db = db;
  p->nColumn = nCol;
  p->nPendingData = 0;
  p->azColumn = (char **)&p[1];
  p->pTokenizer = pTokenizer;
  p->nMaxPendingData = FTS3_MAX_PENDING_DATA;
  p->bHasDocsize = (isFts4 && bNoDocsize==0);
  p->bHasStat = isFts4;
  p->bFts4 = isFts4;
  p->bDescIdx = bDescIdx;
  p->nAutoincrmerge = 0xff;   /* 0xff means setting unknown */
  p->zContentTbl = zContent;
  p->zLanguageid = zLanguageid;
  zContent = 0;
  zLanguageid = 0;
  TESTONLY( p->inTransaction = -1 );
  TESTONLY( p->mxSavepoint = -1 );
................................................................................
  zCsr += nDb;

  /* Fill in the azColumn array */
  for(iCol=0; iCol<nCol; iCol++){
    char *z; 
    int n = 0;
    z = (char *)sqlite3Fts3NextToken(aCol[iCol], &n);

    memcpy(zCsr, z, n);

    zCsr[n] = '\0';
    sqlite3Fts3Dequote(zCsr);
    p->azColumn[iCol] = zCsr;
    zCsr += n+1;
    assert( zCsr <= &((char *)p)[nByte] );
  }

................................................................................
  *ppCsr = pCsr = (sqlite3_vtab_cursor *)sqlite3_malloc(sizeof(Fts3Cursor));
  if( !pCsr ){
    return SQLITE_NOMEM;
  }
  memset(pCsr, 0, sizeof(Fts3Cursor));
  return SQLITE_OK;
}





















/*
** Close the cursor.  For additional information see the documentation
** on the xClose method of the virtual table interface.
*/
static int fts3CloseMethod(sqlite3_vtab_cursor *pCursor){
  Fts3Cursor *pCsr = (Fts3Cursor *)pCursor;
  assert( ((Fts3Table *)pCsr->base.pVtab)->pSegments==0 );
  sqlite3_finalize(pCsr->pStmt);
  sqlite3Fts3ExprFree(pCsr->pExpr);
  sqlite3Fts3FreeDeferredTokens(pCsr);
  sqlite3_free(pCsr->aDoclist);
  sqlite3Fts3MIBufferFree(pCsr->pMIBuffer);
  assert( ((Fts3Table *)pCsr->base.pVtab)->pSegments==0 );
  sqlite3_free(pCsr);
  return SQLITE_OK;
................................................................................
** If pCsr->pStmt has not been prepared (i.e. if pCsr->pStmt==0), then
** compose and prepare an SQL statement of the form:
**
**    "SELECT <columns> FROM %_content WHERE rowid = ?"
**
** (or the equivalent for a content=xxx table) and set pCsr->pStmt to
** it. If an error occurs, return an SQLite error code.
**
** Otherwise, set *ppStmt to point to pCsr->pStmt and return SQLITE_OK.
*/
static int fts3CursorSeekStmt(Fts3Cursor *pCsr, sqlite3_stmt **ppStmt){
  int rc = SQLITE_OK;
  if( pCsr->pStmt==0 ){
    Fts3Table *p = (Fts3Table *)pCsr->base.pVtab;
    char *zSql;




    zSql = sqlite3_mprintf("SELECT %s WHERE rowid = ?", p->zReadExprlist);
    if( !zSql ) return SQLITE_NOMEM;
    rc = sqlite3_prepare_v2(p->db, zSql, -1, &pCsr->pStmt, 0);
    sqlite3_free(zSql);
  }
  *ppStmt = pCsr->pStmt;


  return rc;
}

/*
** Position the pCsr->pStmt statement so that it is on the row
** of the %_content table that contains the last match.  Return
** SQLITE_OK on success.  
*/
static int fts3CursorSeek(sqlite3_context *pContext, Fts3Cursor *pCsr){
  int rc = SQLITE_OK;
  if( pCsr->isRequireSeek ){
    sqlite3_stmt *pStmt = 0;

    rc = fts3CursorSeekStmt(pCsr, &pStmt);
    if( rc==SQLITE_OK ){
      sqlite3_bind_int64(pCsr->pStmt, 1, pCsr->iPrevId);
      pCsr->isRequireSeek = 0;
      if( SQLITE_ROW==sqlite3_step(pCsr->pStmt) ){
        return SQLITE_OK;
      }else{
        rc = sqlite3_reset(pCsr->pStmt);
................................................................................
    ** the size of zBuffer if required.  */
    if( !isFirstTerm ){
      zCsr += fts3GetVarint32(zCsr, &nPrefix);
    }
    isFirstTerm = 0;
    zCsr += fts3GetVarint32(zCsr, &nSuffix);
    

    if( nPrefix<0 || nSuffix<0 || &zCsr[nSuffix]>zEnd ){
      rc = FTS_CORRUPT_VTAB;
      goto finish_scan;
    }
    if( nPrefix+nSuffix>nAlloc ){
      char *zNew;
      nAlloc = (nPrefix+nSuffix) * 2;
      zNew = (char *)sqlite3_realloc(zBuffer, nAlloc);
................................................................................
      nOut += sqlite3Fts3PutVarint(&pOut[nOut], iDelta);
      pOut[nOut++] = 0x02;
      bWritten = 1;
    }
    fts3ColumnlistCopy(0, &p);
  }

  while( p<pEnd && *p==0x01 ){
    sqlite3_int64 iCol;
    p++;
    p += sqlite3Fts3GetVarint(p, &iCol);
    if( *p==0x02 ){
      if( bWritten==0 ){
        nOut += sqlite3Fts3PutVarint(&pOut[nOut], iDelta);
        bWritten = 1;
................................................................................
  if( eSearch!=FTS3_FULLSCAN_SEARCH ) pCons = apVal[iIdx++];
  if( idxNum & FTS3_HAVE_LANGID ) pLangid = apVal[iIdx++];
  if( idxNum & FTS3_HAVE_DOCID_GE ) pDocidGe = apVal[iIdx++];
  if( idxNum & FTS3_HAVE_DOCID_LE ) pDocidLe = apVal[iIdx++];
  assert( iIdx==nVal );

  /* In case the cursor has been used before, clear it now. */
  sqlite3_finalize(pCsr->pStmt);
  sqlite3_free(pCsr->aDoclist);
  sqlite3Fts3MIBufferFree(pCsr->pMIBuffer);
  sqlite3Fts3ExprFree(pCsr->pExpr);
  memset(&pCursor[1], 0, sizeof(Fts3Cursor)-sizeof(sqlite3_vtab_cursor));

  /* Set the lower and upper bounds on docids to return */
  pCsr->iMinDocid = fts3DocidRange(pDocidGe, SMALLEST_INT64);
................................................................................
    if( zSql ){
      rc = sqlite3_prepare_v2(p->db, zSql, -1, &pCsr->pStmt, 0);
      sqlite3_free(zSql);
    }else{
      rc = SQLITE_NOMEM;
    }
  }else if( eSearch==FTS3_DOCID_SEARCH ){
    rc = fts3CursorSeekStmt(pCsr, &pCsr->pStmt);
    if( rc==SQLITE_OK ){
      rc = sqlite3_bind_value(pCsr->pStmt, 1, pCons);
    }
  }
  if( rc!=SQLITE_OK ) return rc;

  return fts3NextMethod(pCursor);
................................................................................
  int rc = SQLITE_OK;             /* Return Code */
  Fts3Cursor *pCsr = (Fts3Cursor *) pCursor;
  Fts3Table *p = (Fts3Table *)pCursor->pVtab;

  /* The column value supplied by SQLite must be in range. */
  assert( iCol>=0 && iCol<=p->nColumn+2 );

  if( iCol==p->nColumn+1 ){
    /* This call is a request for the "docid" column. Since "docid" is an 
    ** alias for "rowid", use the xRowid() method to obtain the value.
    */
    sqlite3_result_int64(pCtx, pCsr->iPrevId);
  }else if( iCol==p->nColumn ){
    /* The extra column whose name is the same as the table.
    ** Return a blob which is a pointer to the cursor.  */
    sqlite3_result_blob(pCtx, &pCsr, sizeof(pCsr), SQLITE_TRANSIENT);
  }else if( iCol==p->nColumn+2 && pCsr->pExpr ){
    sqlite3_result_int64(pCtx, pCsr->iLangid);
  }else{
    /* The requested column is either a user column (one that contains 
    ** indexed data), or the language-id column.  */
    rc = fts3CursorSeek(0, pCsr);

    if( rc==SQLITE_OK ){
      if( iCol==p->nColumn+2 ){
        int iLangid = 0;
        if( p->zLanguageid ){
          iLangid = sqlite3_column_int(pCsr->pStmt, p->nColumn+1);
        }
        sqlite3_result_int(pCtx, iLangid);
      }else if( sqlite3_data_count(pCsr->pStmt)>(iCol+1) ){
        sqlite3_result_value(pCtx, sqlite3_column_value(pCsr->pStmt, iCol+1));
      }
    }





  }

  assert( ((Fts3Table *)pCsr->base.pVtab)->pSegments==0 );
  return rc;
}

/* 
................................................................................
  ** of blocks from the segments table. But this is not considered overhead
  ** as it would also be required by a crisis-merge that used the same input 
  ** segments.
  */
  const u32 nMinMerge = 64;       /* Minimum amount of incr-merge work to do */

  Fts3Table *p = (Fts3Table*)pVtab;
  int rc = sqlite3Fts3PendingTermsFlush(p);



  if( rc==SQLITE_OK 
   && p->nLeafAdd>(nMinMerge/16) 
   && p->nAutoincrmerge && p->nAutoincrmerge!=0xff
  ){
    int mxLevel = 0;              /* Maximum relative level value in db */
    int A;                        /* Incr-merge parameter A */

................................................................................
    rc = sqlite3Fts3MaxLevel(p, &mxLevel);
    assert( rc==SQLITE_OK || mxLevel==0 );
    A = p->nLeafAdd * mxLevel;
    A += (A/2);
    if( A>(int)nMinMerge ) rc = sqlite3Fts3Incrmerge(p, A, p->nAutoincrmerge);
  }
  sqlite3Fts3SegmentsClose(p);

  return rc;
}

/*
** If it is currently unknown whether or not the FTS table has an %_stat
** table (if p->bHasStat==2), attempt to determine this (set p->bHasStat
** to 0 or 1). Return SQLITE_OK if successful, or an SQLite error code
** if an error occurs.
*/
static int fts3SetHasStat(Fts3Table *p){
  int rc = SQLITE_OK;
  if( p->bHasStat==2 ){
    const char *zFmt ="SELECT 1 FROM %Q.sqlite_master WHERE tbl_name='%q_stat'";
    char *zSql = sqlite3_mprintf(zFmt, p->zDb, p->zName);
    if( zSql ){

      sqlite3_stmt *pStmt = 0;
      rc = sqlite3_prepare_v2(p->db, zSql, -1, &pStmt, 0);
      if( rc==SQLITE_OK ){
        int bHasStat = (sqlite3_step(pStmt)==SQLITE_ROW);
        rc = sqlite3_finalize(pStmt);
        if( rc==SQLITE_OK ) p->bHasStat = bHasStat;
      }
      sqlite3_free(zSql);
    }else{
      rc = SQLITE_NOMEM;
    }
  }
  return rc;
}

................................................................................
*/
static int fts3FunctionArg(
  sqlite3_context *pContext,      /* SQL function call context */
  const char *zFunc,              /* Function name */
  sqlite3_value *pVal,            /* argv[0] passed to function */
  Fts3Cursor **ppCsr              /* OUT: Store cursor handle here */
){
  Fts3Cursor *pRet;
  if( sqlite3_value_type(pVal)!=SQLITE_BLOB 
   || sqlite3_value_bytes(pVal)!=sizeof(Fts3Cursor *)
  ){

    char *zErr = sqlite3_mprintf("illegal first argument to %s", zFunc);
    sqlite3_result_error(pContext, zErr, -1);
    sqlite3_free(zErr);
    return SQLITE_ERROR;
  }
  memcpy(&pRet, sqlite3_value_blob(pVal), sizeof(Fts3Cursor *));
  *ppCsr = pRet;
  return SQLITE_OK;
}

/*
** Implementation of the snippet() function for FTS3
*/
static void fts3SnippetFunc(
  sqlite3_context *pContext,      /* SQLite function call context */
................................................................................
#ifdef SQLITE_TEST
  if( rc==SQLITE_OK ){
    rc = sqlite3Fts3ExprInitTestInterface(db);
  }
#endif

  /* Create the virtual table wrapper around the hash-table and overload 
  ** the two scalar functions. If this is successful, register the
  ** module with sqlite.
  */
  if( SQLITE_OK==rc 
   && SQLITE_OK==(rc = sqlite3Fts3InitHashTable(db, pHash, "fts3_tokenizer"))
   && SQLITE_OK==(rc = sqlite3_overload_function(db, "snippet", -1))
   && SQLITE_OK==(rc = sqlite3_overload_function(db, "offsets", 1))
   && SQLITE_OK==(rc = sqlite3_overload_function(db, "matchinfo", 1))
................................................................................
  Fts3Table *pTab = (Fts3Table *)pCsr->base.pVtab;
  u8 bEof = 0;

  /* This is only called if it is guaranteed that the phrase has at least
  ** one incremental token. In which case the bIncr flag is set. */
  assert( p->bIncr==1 );

  if( p->nToken==1 && p->bIncr ){
    rc = sqlite3Fts3MsrIncrNext(pTab, p->aToken[0].pSegcsr, 
        &pDL->iDocid, &pDL->pList, &pDL->nList
    );
    if( pDL->pList==0 ) bEof = 1;
  }else{
    int bDescDoclist = pCsr->bDesc;
    struct TokenDoclist a[MAX_INCR_PHRASE_TOKENS];
................................................................................
** The average document size in pages is calculated by first calculating 
** determining the average size in bytes, B. If B is less than the amount
** of data that will fit on a single leaf page of an intkey table in
** this database, then the average docsize is 1. Otherwise, it is 1 plus
** the number of overflow pages consumed by a record B bytes in size.
*/
static int fts3EvalAverageDocsize(Fts3Cursor *pCsr, int *pnPage){

  if( pCsr->nRowAvg==0 ){
    /* The average document size, which is required to calculate the cost
    ** of each doclist, has not yet been determined. Read the required 
    ** data from the %_stat table to calculate it.
    **
    ** Entry 0 of the %_stat table is a blob containing (nCol+1) FTS3 
    ** varints, where nCol is the number of columns in the FTS3 table.
    ** The first varint is the number of documents currently stored in
    ** the table. The following nCol varints contain the total amount of
    ** data stored in all rows of each column of the table, from left
    ** to right.
    */
    int rc;
    Fts3Table *p = (Fts3Table*)pCsr->base.pVtab;
    sqlite3_stmt *pStmt;
    sqlite3_int64 nDoc = 0;
    sqlite3_int64 nByte = 0;
    const char *pEnd;
    const char *a;

................................................................................
      return FTS_CORRUPT_VTAB;
    }

    pCsr->nDoc = nDoc;
    pCsr->nRowAvg = (int)(((nByte / nDoc) + p->nPgsz) / p->nPgsz);
    assert( pCsr->nRowAvg>0 ); 
    rc = sqlite3_reset(pStmt);
    if( rc!=SQLITE_OK ) return rc;
  }

  *pnPage = pCsr->nRowAvg;
  return SQLITE_OK;
}

/*
** This function is called to select the tokens (if any) that will be 
** deferred. The array aTC[] has already been populated when this is
** called.
**
................................................................................
            }else{
              fts3EvalNextRow(pCsr, pRight, pRc);
            }
          }
          pExpr->iDocid = pLeft->iDocid;
          pExpr->bEof = (pLeft->bEof || pRight->bEof);
          if( pExpr->eType==FTSQUERY_NEAR && pExpr->bEof ){

            if( pRight->pPhrase && pRight->pPhrase->doclist.aAll ){
              Fts3Doclist *pDl = &pRight->pPhrase->doclist;
              while( *pRc==SQLITE_OK && pRight->bEof==0 ){
                memset(pDl->pList, 0, pDl->nList);
                fts3EvalNextRow(pCsr, pRight, pRc);
              }
            }
            if( pLeft->pPhrase && pLeft->pPhrase->doclist.aAll ){
................................................................................
        sqlite3_int64 iCmp = DOCID_CMP(pLeft->iDocid, pRight->iDocid);

        assert( pLeft->bStart || pLeft->iDocid==pRight->iDocid );
        assert( pRight->bStart || pLeft->iDocid==pRight->iDocid );

        if( pRight->bEof || (pLeft->bEof==0 && iCmp<0) ){
          fts3EvalNextRow(pCsr, pLeft, pRc);
        }else if( pLeft->bEof || (pRight->bEof==0 && iCmp>0) ){
          fts3EvalNextRow(pCsr, pRight, pRc);
        }else{
          fts3EvalNextRow(pCsr, pLeft, pRc);
          fts3EvalNextRow(pCsr, pRight, pRc);
        }

        pExpr->bEof = (pLeft->bEof && pRight->bEof);
................................................................................
  **
  ** The right-hand child of a NEAR node is always a phrase. The 
  ** left-hand child may be either a phrase or a NEAR node. There are
  ** no exceptions to this - it's the way the parser in fts3_expr.c works.
  */
  if( *pRc==SQLITE_OK 
   && pExpr->eType==FTSQUERY_NEAR 
   && pExpr->bEof==0
   && (pExpr->pParent==0 || pExpr->pParent->eType!=FTSQUERY_NEAR)
  ){
    Fts3Expr *p; 
    int nTmp = 0;                 /* Bytes of temp space */
    char *aTmp;                   /* Temp space for PoslistNearMerge() */

    /* Allocate temporary working space. */
    for(p=pExpr; p->pLeft; p=p->pLeft){

      nTmp += p->pRight->pPhrase->doclist.nList;
    }
    nTmp += p->pPhrase->doclist.nList;
    if( nTmp==0 ){
      res = 0;
    }else{
      aTmp = sqlite3_malloc(nTmp*2);
      if( !aTmp ){
        *pRc = SQLITE_NOMEM;
        res = 0;
      }else{
        char *aPoslist = p->pPhrase->doclist.pList;
        int nToken = p->pPhrase->nToken;

        for(p=p->pParent;res && p && p->eType==FTSQUERY_NEAR; p=p->pParent){
          Fts3Phrase *pPhrase = p->pRight->pPhrase;
          int nNear = p->nNear;
          res = fts3EvalNearTrim(nNear, aTmp, &aPoslist, &nToken, pPhrase);
        }

        aPoslist = pExpr->pRight->pPhrase->doclist.pList;
        nToken = pExpr->pRight->pPhrase->nToken;
        for(p=pExpr->pLeft; p && res; p=p->pLeft){
          int nNear;
          Fts3Phrase *pPhrase;
          assert( p->pParent && p->pParent->pLeft==p );
          nNear = p->pParent->nNear;
          pPhrase = (
              p->eType==FTSQUERY_NEAR ? p->pRight->pPhrase : p->pPhrase
              );
          res = fts3EvalNearTrim(nNear, aTmp, &aPoslist, &nToken, pPhrase);
        }
      }

      sqlite3_free(aTmp);
    }
  }

  return res;
}

/*
** This function is a helper function for sqlite3Fts3EvalTestDeferred().







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  if( (v & mask2)==0 ){ var = v; return ret; }

/* 
** Read a 64-bit variable-length integer from memory starting at p[0].
** Return the number of bytes read, or 0 on error.
** The value is stored in *v.
*/
int sqlite3Fts3GetVarint(const char *pBuf, sqlite_int64 *v){
  const unsigned char *p = (const unsigned char*)pBuf;
  const unsigned char *pStart = p;
  u32 a;
  u64 b;
  int shift;

  GETVARINT_INIT(a, p, 0,  0x00,     0x80, *v, 1);
  GETVARINT_STEP(a, p, 7,  0x7F,     0x4000, *v, 2);
  GETVARINT_STEP(a, p, 14, 0x3FFF,   0x200000, *v, 3);
................................................................................
    if( (c & 0x80)==0 ) break;
  }
  *v = b;
  return (int)(p - pStart);
}

/*
** Similar to sqlite3Fts3GetVarint(), except that the output is truncated to 
** a non-negative 32-bit integer before it is returned.
*/
int sqlite3Fts3GetVarint32(const char *p, int *pi){
  u32 a;

#ifndef fts3GetVarint32
  GETVARINT_INIT(a, p, 0,  0x00,     0x80, *pi, 1);
#else
................................................................................
  assert( a & 0x80 );
#endif

  GETVARINT_STEP(a, p, 7,  0x7F,     0x4000, *pi, 2);
  GETVARINT_STEP(a, p, 14, 0x3FFF,   0x200000, *pi, 3);
  GETVARINT_STEP(a, p, 21, 0x1FFFFF, 0x10000000, *pi, 4);
  a = (a & 0x0FFFFFFF );
  *pi = (int)(a | ((u32)(*p & 0x07) << 28));
  assert( 0==(a & 0x80000000) );
  assert( *pi>=0 );
  return 5;
}

/*
** Return the number of bytes required to encode v as a varint
*/
int sqlite3Fts3VarintLen(sqlite3_uint64 v){
................................................................................
  Fts3Table *p = (Fts3Table *)pVtab;
  int i;

  assert( p->nPendingData==0 );
  assert( p->pSegments==0 );

  /* Free any prepared statements held */
  sqlite3_finalize(p->pSeekStmt);
  for(i=0; i<SizeofArray(p->aStmt); i++){
    sqlite3_finalize(p->aStmt[i]);
  }
  sqlite3_free(p->zSegmentsTbl);
  sqlite3_free(p->zReadExprlist);
  sqlite3_free(p->zWriteExprlist);
  sqlite3_free(p->zContentTbl);
................................................................................
      }else{
        for(iOpt=0; iOpt<SizeofArray(aFts4Opt); iOpt++){
          struct Fts4Option *pOp = &aFts4Opt[iOpt];
          if( nKey==pOp->nOpt && !sqlite3_strnicmp(z, pOp->zOpt, pOp->nOpt) ){
            break;
          }
        }




        switch( iOpt ){
          case 0:               /* MATCHINFO */
            if( strlen(zVal)!=4 || sqlite3_strnicmp(zVal, "fts3", 4) ){
              sqlite3Fts3ErrMsg(pzErr, "unrecognized matchinfo: %s", zVal);
              rc = SQLITE_ERROR;
            }
            bNoDocsize = 1;
            break;

          case 1:               /* PREFIX */
            sqlite3_free(zPrefix);
            zPrefix = zVal;
            zVal = 0;
            break;

          case 2:               /* COMPRESS */
            sqlite3_free(zCompress);
            zCompress = zVal;
            zVal = 0;
            break;

          case 3:               /* UNCOMPRESS */
            sqlite3_free(zUncompress);
            zUncompress = zVal;
            zVal = 0;
            break;

          case 4:               /* ORDER */
            if( (strlen(zVal)!=3 || sqlite3_strnicmp(zVal, "asc", 3)) 
             && (strlen(zVal)!=4 || sqlite3_strnicmp(zVal, "desc", 4)) 
            ){
              sqlite3Fts3ErrMsg(pzErr, "unrecognized order: %s", zVal);
              rc = SQLITE_ERROR;
            }
            bDescIdx = (zVal[0]=='d' || zVal[0]=='D');
            break;

          case 5:              /* CONTENT */
            sqlite3_free(zContent);
            zContent = zVal;
            zVal = 0;
            break;

          case 6:              /* LANGUAGEID */
            assert( iOpt==6 );
            sqlite3_free(zLanguageid);
            zLanguageid = zVal;
            zVal = 0;
            break;

          case 7:              /* NOTINDEXED */
            azNotindexed[nNotindexed++] = zVal;
            zVal = 0;
            break;

          default:
            assert( iOpt==SizeofArray(aFts4Opt) );
            sqlite3Fts3ErrMsg(pzErr, "unrecognized parameter: %s", z);
            rc = SQLITE_ERROR;
            break;
        }
        sqlite3_free(zVal);
      }
    }

    /* Otherwise, the argument is a column name. */
    else {
................................................................................
  p->db = db;
  p->nColumn = nCol;
  p->nPendingData = 0;
  p->azColumn = (char **)&p[1];
  p->pTokenizer = pTokenizer;
  p->nMaxPendingData = FTS3_MAX_PENDING_DATA;
  p->bHasDocsize = (isFts4 && bNoDocsize==0);
  p->bHasStat = (u8)isFts4;
  p->bFts4 = (u8)isFts4;
  p->bDescIdx = (u8)bDescIdx;
  p->nAutoincrmerge = 0xff;   /* 0xff means setting unknown */
  p->zContentTbl = zContent;
  p->zLanguageid = zLanguageid;
  zContent = 0;
  zLanguageid = 0;
  TESTONLY( p->inTransaction = -1 );
  TESTONLY( p->mxSavepoint = -1 );
................................................................................
  zCsr += nDb;

  /* Fill in the azColumn array */
  for(iCol=0; iCol<nCol; iCol++){
    char *z; 
    int n = 0;
    z = (char *)sqlite3Fts3NextToken(aCol[iCol], &n);
    if( n>0 ){
      memcpy(zCsr, z, n);
    }
    zCsr[n] = '\0';
    sqlite3Fts3Dequote(zCsr);
    p->azColumn[iCol] = zCsr;
    zCsr += n+1;
    assert( zCsr <= &((char *)p)[nByte] );
  }

................................................................................
  *ppCsr = pCsr = (sqlite3_vtab_cursor *)sqlite3_malloc(sizeof(Fts3Cursor));
  if( !pCsr ){
    return SQLITE_NOMEM;
  }
  memset(pCsr, 0, sizeof(Fts3Cursor));
  return SQLITE_OK;
}

/*
** Finalize the statement handle at pCsr->pStmt.
**
** Or, if that statement handle is one created by fts3CursorSeekStmt(),
** and the Fts3Table.pSeekStmt slot is currently NULL, save the statement
** pointer there instead of finalizing it.
*/
static void fts3CursorFinalizeStmt(Fts3Cursor *pCsr){
  if( pCsr->bSeekStmt ){
    Fts3Table *p = (Fts3Table *)pCsr->base.pVtab;
    if( p->pSeekStmt==0 ){
      p->pSeekStmt = pCsr->pStmt;
      sqlite3_reset(pCsr->pStmt);
      pCsr->pStmt = 0;
    }
    pCsr->bSeekStmt = 0;
  }
  sqlite3_finalize(pCsr->pStmt);
}

/*
** Close the cursor.  For additional information see the documentation
** on the xClose method of the virtual table interface.
*/
static int fts3CloseMethod(sqlite3_vtab_cursor *pCursor){
  Fts3Cursor *pCsr = (Fts3Cursor *)pCursor;
  assert( ((Fts3Table *)pCsr->base.pVtab)->pSegments==0 );
  fts3CursorFinalizeStmt(pCsr);
  sqlite3Fts3ExprFree(pCsr->pExpr);
  sqlite3Fts3FreeDeferredTokens(pCsr);
  sqlite3_free(pCsr->aDoclist);
  sqlite3Fts3MIBufferFree(pCsr->pMIBuffer);
  assert( ((Fts3Table *)pCsr->base.pVtab)->pSegments==0 );
  sqlite3_free(pCsr);
  return SQLITE_OK;
................................................................................
** If pCsr->pStmt has not been prepared (i.e. if pCsr->pStmt==0), then
** compose and prepare an SQL statement of the form:
**
**    "SELECT <columns> FROM %_content WHERE rowid = ?"
**
** (or the equivalent for a content=xxx table) and set pCsr->pStmt to
** it. If an error occurs, return an SQLite error code.


*/
static int fts3CursorSeekStmt(Fts3Cursor *pCsr){
  int rc = SQLITE_OK;
  if( pCsr->pStmt==0 ){
    Fts3Table *p = (Fts3Table *)pCsr->base.pVtab;
    char *zSql;
    if( p->pSeekStmt ){
      pCsr->pStmt = p->pSeekStmt;
      p->pSeekStmt = 0;
    }else{
      zSql = sqlite3_mprintf("SELECT %s WHERE rowid = ?", p->zReadExprlist);
      if( !zSql ) return SQLITE_NOMEM;
      rc = sqlite3_prepare_v2(p->db, zSql, -1, &pCsr->pStmt, 0);
      sqlite3_free(zSql);
    }

    if( rc==SQLITE_OK ) pCsr->bSeekStmt = 1;
  }
  return rc;
}

/*
** Position the pCsr->pStmt statement so that it is on the row
** of the %_content table that contains the last match.  Return
** SQLITE_OK on success.  
*/
static int fts3CursorSeek(sqlite3_context *pContext, Fts3Cursor *pCsr){
  int rc = SQLITE_OK;
  if( pCsr->isRequireSeek ){


    rc = fts3CursorSeekStmt(pCsr);
    if( rc==SQLITE_OK ){
      sqlite3_bind_int64(pCsr->pStmt, 1, pCsr->iPrevId);
      pCsr->isRequireSeek = 0;
      if( SQLITE_ROW==sqlite3_step(pCsr->pStmt) ){
        return SQLITE_OK;
      }else{
        rc = sqlite3_reset(pCsr->pStmt);
................................................................................
    ** the size of zBuffer if required.  */
    if( !isFirstTerm ){
      zCsr += fts3GetVarint32(zCsr, &nPrefix);
    }
    isFirstTerm = 0;
    zCsr += fts3GetVarint32(zCsr, &nSuffix);
    
    assert( nPrefix>=0 && nSuffix>=0 );
    if( &zCsr[nSuffix]>zEnd ){
      rc = FTS_CORRUPT_VTAB;
      goto finish_scan;
    }
    if( nPrefix+nSuffix>nAlloc ){
      char *zNew;
      nAlloc = (nPrefix+nSuffix) * 2;
      zNew = (char *)sqlite3_realloc(zBuffer, nAlloc);
................................................................................
      nOut += sqlite3Fts3PutVarint(&pOut[nOut], iDelta);
      pOut[nOut++] = 0x02;
      bWritten = 1;
    }
    fts3ColumnlistCopy(0, &p);
  }

  while( p<pEnd ){
    sqlite3_int64 iCol;
    p++;
    p += sqlite3Fts3GetVarint(p, &iCol);
    if( *p==0x02 ){
      if( bWritten==0 ){
        nOut += sqlite3Fts3PutVarint(&pOut[nOut], iDelta);
        bWritten = 1;
................................................................................
  if( eSearch!=FTS3_FULLSCAN_SEARCH ) pCons = apVal[iIdx++];
  if( idxNum & FTS3_HAVE_LANGID ) pLangid = apVal[iIdx++];
  if( idxNum & FTS3_HAVE_DOCID_GE ) pDocidGe = apVal[iIdx++];
  if( idxNum & FTS3_HAVE_DOCID_LE ) pDocidLe = apVal[iIdx++];
  assert( iIdx==nVal );

  /* In case the cursor has been used before, clear it now. */
  fts3CursorFinalizeStmt(pCsr);
  sqlite3_free(pCsr->aDoclist);
  sqlite3Fts3MIBufferFree(pCsr->pMIBuffer);
  sqlite3Fts3ExprFree(pCsr->pExpr);
  memset(&pCursor[1], 0, sizeof(Fts3Cursor)-sizeof(sqlite3_vtab_cursor));

  /* Set the lower and upper bounds on docids to return */
  pCsr->iMinDocid = fts3DocidRange(pDocidGe, SMALLEST_INT64);
................................................................................
    if( zSql ){
      rc = sqlite3_prepare_v2(p->db, zSql, -1, &pCsr->pStmt, 0);
      sqlite3_free(zSql);
    }else{
      rc = SQLITE_NOMEM;
    }
  }else if( eSearch==FTS3_DOCID_SEARCH ){
    rc = fts3CursorSeekStmt(pCsr);
    if( rc==SQLITE_OK ){
      rc = sqlite3_bind_value(pCsr->pStmt, 1, pCons);
    }
  }
  if( rc!=SQLITE_OK ) return rc;

  return fts3NextMethod(pCursor);
................................................................................
  int rc = SQLITE_OK;             /* Return Code */
  Fts3Cursor *pCsr = (Fts3Cursor *) pCursor;
  Fts3Table *p = (Fts3Table *)pCursor->pVtab;

  /* The column value supplied by SQLite must be in range. */
  assert( iCol>=0 && iCol<=p->nColumn+2 );

  switch( iCol-p->nColumn ){
    case 0:
      /* The special 'table-name' column */
      sqlite3_result_blob(pCtx, &pCsr, sizeof(Fts3Cursor*), SQLITE_TRANSIENT);
      sqlite3_result_subtype(pCtx, SQLITE_BLOB);
      break;

    case 1:
      /* The docid column */
      sqlite3_result_int64(pCtx, pCsr->iPrevId);
      break;

    case 2:
      if( pCsr->pExpr ){
        sqlite3_result_int64(pCtx, pCsr->iLangid);
        break;
      }else if( p->zLanguageid==0 ){
        sqlite3_result_int(pCtx, 0);
        break;
      }else{
        iCol = p->nColumn;
        /* fall-through */
      }

    default:
      /* A user column. Or, if this is a full-table scan, possibly the
      ** language-id column. Seek the cursor. */
      rc = fts3CursorSeek(0, pCsr);
      if( rc==SQLITE_OK && sqlite3_data_count(pCsr->pStmt)-1>iCol ){
        sqlite3_result_value(pCtx, sqlite3_column_value(pCsr->pStmt, iCol+1));
      }
      break;
  }

  assert( ((Fts3Table *)pCsr->base.pVtab)->pSegments==0 );
  return rc;
}

/* 
................................................................................
  ** of blocks from the segments table. But this is not considered overhead
  ** as it would also be required by a crisis-merge that used the same input 
  ** segments.
  */
  const u32 nMinMerge = 64;       /* Minimum amount of incr-merge work to do */

  Fts3Table *p = (Fts3Table*)pVtab;
  int rc;
  i64 iLastRowid = sqlite3_last_insert_rowid(p->db);

  rc = sqlite3Fts3PendingTermsFlush(p);
  if( rc==SQLITE_OK 
   && p->nLeafAdd>(nMinMerge/16) 
   && p->nAutoincrmerge && p->nAutoincrmerge!=0xff
  ){
    int mxLevel = 0;              /* Maximum relative level value in db */
    int A;                        /* Incr-merge parameter A */

................................................................................
    rc = sqlite3Fts3MaxLevel(p, &mxLevel);
    assert( rc==SQLITE_OK || mxLevel==0 );
    A = p->nLeafAdd * mxLevel;
    A += (A/2);
    if( A>(int)nMinMerge ) rc = sqlite3Fts3Incrmerge(p, A, p->nAutoincrmerge);
  }
  sqlite3Fts3SegmentsClose(p);
  sqlite3_set_last_insert_rowid(p->db, iLastRowid);
  return rc;
}

/*
** If it is currently unknown whether or not the FTS table has an %_stat
** table (if p->bHasStat==2), attempt to determine this (set p->bHasStat
** to 0 or 1). Return SQLITE_OK if successful, or an SQLite error code
** if an error occurs.
*/
static int fts3SetHasStat(Fts3Table *p){
  int rc = SQLITE_OK;
  if( p->bHasStat==2 ){

    char *zTbl = sqlite3_mprintf("%s_stat", p->zName);
    if( zTbl ){
      int res = sqlite3_table_column_metadata(p->db, p->zDb, zTbl, 0,0,0,0,0,0);
      sqlite3_free(zTbl);

      p->bHasStat = (res==SQLITE_OK);





    }else{
      rc = SQLITE_NOMEM;
    }
  }
  return rc;
}

................................................................................
*/
static int fts3FunctionArg(
  sqlite3_context *pContext,      /* SQL function call context */
  const char *zFunc,              /* Function name */
  sqlite3_value *pVal,            /* argv[0] passed to function */
  Fts3Cursor **ppCsr              /* OUT: Store cursor handle here */
){
  int rc = SQLITE_OK;
  if( sqlite3_value_subtype(pVal)==SQLITE_BLOB ){
    *ppCsr = *(Fts3Cursor**)sqlite3_value_blob(pVal);

  }else{
    char *zErr = sqlite3_mprintf("illegal first argument to %s", zFunc);
    sqlite3_result_error(pContext, zErr, -1);
    sqlite3_free(zErr);
    rc = SQLITE_ERROR;
  }


  return rc;
}

/*
** Implementation of the snippet() function for FTS3
*/
static void fts3SnippetFunc(
  sqlite3_context *pContext,      /* SQLite function call context */
................................................................................
#ifdef SQLITE_TEST
  if( rc==SQLITE_OK ){
    rc = sqlite3Fts3ExprInitTestInterface(db);
  }
#endif

  /* Create the virtual table wrapper around the hash-table and overload 
  ** the four scalar functions. If this is successful, register the
  ** module with sqlite.
  */
  if( SQLITE_OK==rc 
   && SQLITE_OK==(rc = sqlite3Fts3InitHashTable(db, pHash, "fts3_tokenizer"))
   && SQLITE_OK==(rc = sqlite3_overload_function(db, "snippet", -1))
   && SQLITE_OK==(rc = sqlite3_overload_function(db, "offsets", 1))
   && SQLITE_OK==(rc = sqlite3_overload_function(db, "matchinfo", 1))
................................................................................
  Fts3Table *pTab = (Fts3Table *)pCsr->base.pVtab;
  u8 bEof = 0;

  /* This is only called if it is guaranteed that the phrase has at least
  ** one incremental token. In which case the bIncr flag is set. */
  assert( p->bIncr==1 );

  if( p->nToken==1 ){
    rc = sqlite3Fts3MsrIncrNext(pTab, p->aToken[0].pSegcsr, 
        &pDL->iDocid, &pDL->pList, &pDL->nList
    );
    if( pDL->pList==0 ) bEof = 1;
  }else{
    int bDescDoclist = pCsr->bDesc;
    struct TokenDoclist a[MAX_INCR_PHRASE_TOKENS];
................................................................................
** The average document size in pages is calculated by first calculating 
** determining the average size in bytes, B. If B is less than the amount
** of data that will fit on a single leaf page of an intkey table in
** this database, then the average docsize is 1. Otherwise, it is 1 plus
** the number of overflow pages consumed by a record B bytes in size.
*/
static int fts3EvalAverageDocsize(Fts3Cursor *pCsr, int *pnPage){
  int rc = SQLITE_OK;
  if( pCsr->nRowAvg==0 ){
    /* The average document size, which is required to calculate the cost
    ** of each doclist, has not yet been determined. Read the required 
    ** data from the %_stat table to calculate it.
    **
    ** Entry 0 of the %_stat table is a blob containing (nCol+1) FTS3 
    ** varints, where nCol is the number of columns in the FTS3 table.
    ** The first varint is the number of documents currently stored in
    ** the table. The following nCol varints contain the total amount of
    ** data stored in all rows of each column of the table, from left
    ** to right.
    */

    Fts3Table *p = (Fts3Table*)pCsr->base.pVtab;
    sqlite3_stmt *pStmt;
    sqlite3_int64 nDoc = 0;
    sqlite3_int64 nByte = 0;
    const char *pEnd;
    const char *a;

................................................................................
      return FTS_CORRUPT_VTAB;
    }

    pCsr->nDoc = nDoc;
    pCsr->nRowAvg = (int)(((nByte / nDoc) + p->nPgsz) / p->nPgsz);
    assert( pCsr->nRowAvg>0 ); 
    rc = sqlite3_reset(pStmt);

  }

  *pnPage = pCsr->nRowAvg;
  return rc;
}

/*
** This function is called to select the tokens (if any) that will be 
** deferred. The array aTC[] has already been populated when this is
** called.
**
................................................................................
            }else{
              fts3EvalNextRow(pCsr, pRight, pRc);
            }
          }
          pExpr->iDocid = pLeft->iDocid;
          pExpr->bEof = (pLeft->bEof || pRight->bEof);
          if( pExpr->eType==FTSQUERY_NEAR && pExpr->bEof ){
            assert( pRight->eType==FTSQUERY_PHRASE );
            if( pRight->pPhrase->doclist.aAll ){
              Fts3Doclist *pDl = &pRight->pPhrase->doclist;
              while( *pRc==SQLITE_OK && pRight->bEof==0 ){
                memset(pDl->pList, 0, pDl->nList);
                fts3EvalNextRow(pCsr, pRight, pRc);
              }
            }
            if( pLeft->pPhrase && pLeft->pPhrase->doclist.aAll ){
................................................................................
        sqlite3_int64 iCmp = DOCID_CMP(pLeft->iDocid, pRight->iDocid);

        assert( pLeft->bStart || pLeft->iDocid==pRight->iDocid );
        assert( pRight->bStart || pLeft->iDocid==pRight->iDocid );

        if( pRight->bEof || (pLeft->bEof==0 && iCmp<0) ){
          fts3EvalNextRow(pCsr, pLeft, pRc);
        }else if( pLeft->bEof || iCmp>0 ){
          fts3EvalNextRow(pCsr, pRight, pRc);
        }else{
          fts3EvalNextRow(pCsr, pLeft, pRc);
          fts3EvalNextRow(pCsr, pRight, pRc);
        }

        pExpr->bEof = (pLeft->bEof && pRight->bEof);
................................................................................
  **
  ** The right-hand child of a NEAR node is always a phrase. The 
  ** left-hand child may be either a phrase or a NEAR node. There are
  ** no exceptions to this - it's the way the parser in fts3_expr.c works.
  */
  if( *pRc==SQLITE_OK 
   && pExpr->eType==FTSQUERY_NEAR 

   && (pExpr->pParent==0 || pExpr->pParent->eType!=FTSQUERY_NEAR)
  ){
    Fts3Expr *p; 
    int nTmp = 0;                 /* Bytes of temp space */
    char *aTmp;                   /* Temp space for PoslistNearMerge() */

    /* Allocate temporary working space. */
    for(p=pExpr; p->pLeft; p=p->pLeft){
      assert( p->pRight->pPhrase->doclist.nList>0 );
      nTmp += p->pRight->pPhrase->doclist.nList;
    }
    nTmp += p->pPhrase->doclist.nList;



    aTmp = sqlite3_malloc(nTmp*2);
    if( !aTmp ){
      *pRc = SQLITE_NOMEM;
      res = 0;
    }else{
      char *aPoslist = p->pPhrase->doclist.pList;
      int nToken = p->pPhrase->nToken;

      for(p=p->pParent;res && p && p->eType==FTSQUERY_NEAR; p=p->pParent){
        Fts3Phrase *pPhrase = p->pRight->pPhrase;
        int nNear = p->nNear;
        res = fts3EvalNearTrim(nNear, aTmp, &aPoslist, &nToken, pPhrase);
      }

      aPoslist = pExpr->pRight->pPhrase->doclist.pList;
      nToken = pExpr->pRight->pPhrase->nToken;
      for(p=pExpr->pLeft; p && res; p=p->pLeft){
        int nNear;
        Fts3Phrase *pPhrase;
        assert( p->pParent && p->pParent->pLeft==p );
        nNear = p->pParent->nNear;
        pPhrase = (
            p->eType==FTSQUERY_NEAR ? p->pRight->pPhrase : p->pPhrase
        );
        res = fts3EvalNearTrim(nNear, aTmp, &aPoslist, &nToken, pPhrase);
      }
    }

    sqlite3_free(aTmp);

  }

  return res;
}

/*
** This function is a helper function for sqlite3Fts3EvalTestDeferred().

Changes to ext/fts3/fts3Int.h.

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  int nAutoincrmerge;             /* Value configured by 'automerge' */
  u32 nLeafAdd;                   /* Number of leaf blocks added this trans */

  /* Precompiled statements used by the implementation. Each of these 
  ** statements is run and reset within a single virtual table API call. 
  */
  sqlite3_stmt *aStmt[40];


  char *zReadExprlist;
  char *zWriteExprlist;

  int nNodeSize;                  /* Soft limit for node size */
  u8 bFts4;                       /* True for FTS4, false for FTS3 */
  u8 bHasStat;                    /* True if %_stat table exists (2==unknown) */
................................................................................
** the xOpen method. Cursors are destroyed using the xClose method.
*/
struct Fts3Cursor {
  sqlite3_vtab_cursor base;       /* Base class used by SQLite core */
  i16 eSearch;                    /* Search strategy (see below) */
  u8 isEof;                       /* True if at End Of Results */
  u8 isRequireSeek;               /* True if must seek pStmt to %_content row */

  sqlite3_stmt *pStmt;            /* Prepared statement in use by the cursor */
  Fts3Expr *pExpr;                /* Parsed MATCH query string */
  int iLangid;                    /* Language being queried for */
  int nPhrase;                    /* Number of matchable phrases in query */
  Fts3DeferredToken *pDeferred;   /* Deferred search tokens, if any */
  sqlite3_int64 iPrevId;          /* Previous id read from aDoclist */
  char *pNextId;                  /* Pointer into the body of aDoclist */







>







 







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  int nAutoincrmerge;             /* Value configured by 'automerge' */
  u32 nLeafAdd;                   /* Number of leaf blocks added this trans */

  /* Precompiled statements used by the implementation. Each of these 
  ** statements is run and reset within a single virtual table API call. 
  */
  sqlite3_stmt *aStmt[40];
  sqlite3_stmt *pSeekStmt;        /* Cache for fts3CursorSeekStmt() */

  char *zReadExprlist;
  char *zWriteExprlist;

  int nNodeSize;                  /* Soft limit for node size */
  u8 bFts4;                       /* True for FTS4, false for FTS3 */
  u8 bHasStat;                    /* True if %_stat table exists (2==unknown) */
................................................................................
** the xOpen method. Cursors are destroyed using the xClose method.
*/
struct Fts3Cursor {
  sqlite3_vtab_cursor base;       /* Base class used by SQLite core */
  i16 eSearch;                    /* Search strategy (see below) */
  u8 isEof;                       /* True if at End Of Results */
  u8 isRequireSeek;               /* True if must seek pStmt to %_content row */
  u8 bSeekStmt;                   /* True if pStmt is a seek */
  sqlite3_stmt *pStmt;            /* Prepared statement in use by the cursor */
  Fts3Expr *pExpr;                /* Parsed MATCH query string */
  int iLangid;                    /* Language being queried for */
  int nPhrase;                    /* Number of matchable phrases in query */
  Fts3DeferredToken *pDeferred;   /* Deferred search tokens, if any */
  sqlite3_int64 iPrevId;          /* Previous id read from aDoclist */
  char *pNextId;                  /* Pointer into the body of aDoclist */

Changes to ext/fts3/fts3_test.c.

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** testing. It contains a Tcl command that can be used to test if a document
** matches an FTS NEAR expression.
**
** As of March 2012, it also contains a version 1 tokenizer used for testing
** that the sqlite3_tokenizer_module.xLanguage() method is invoked correctly.
*/




#include <tcl.h>




#include <string.h>
#include <assert.h>

#if defined(SQLITE_TEST)
#if defined(SQLITE_ENABLE_FTS3) || defined(SQLITE_ENABLE_FTS4)

/* Required so that the "ifdef SQLITE_ENABLE_FTS3" below works */
................................................................................

  return nOcc;
}

/*
** Tclcmd: fts3_near_match DOCUMENT EXPR ?OPTIONS?
*/
static int fts3_near_match_cmd(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int nTotal = 0;
  int rc;
................................................................................
**    set cfg [fts3_configure_incr_load $new_chunksize $new_threshold]
**
**    .... run tests ....
**
**    # Restore initial incr-load settings:
**    eval fts3_configure_incr_load $cfg
*/
static int fts3_configure_incr_load_cmd(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
#ifdef SQLITE_ENABLE_FTS3
  extern int test_fts3_node_chunksize;
................................................................................
      rc = SQLITE_NOMEM;
    }else{
      int i;

      if( pCsr->iLangid & 0x00000001 ){
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = pToken[i];
      }else{
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = testTolower(pToken[i]);
      }
      pCsr->iToken++;
      pCsr->iInput = (int)(p - pCsr->aInput);

      *ppToken = pCsr->aBuffer;
      *pnBytes = nToken;
      *piStartOffset = (int)(pToken - pCsr->aInput);
................................................................................
  if( pCsr->iLangid>=100 ){
    rc = SQLITE_ERROR;
  }
  return rc;
}
#endif

static int fts3_test_tokenizer_cmd(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
#ifdef SQLITE_ENABLE_FTS3
  static const sqlite3_tokenizer_module testTokenizerModule = {
................................................................................
    (const unsigned char *)&pPtr, sizeof(sqlite3_tokenizer_module *)
  ));
#endif
  UNUSED_PARAMETER(clientData);
  return TCL_OK;
}

static int fts3_test_varint_cmd(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
#ifdef SQLITE_ENABLE_FTS3
  char aBuf[24];







>
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>
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>
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** testing. It contains a Tcl command that can be used to test if a document
** matches an FTS NEAR expression.
**
** As of March 2012, it also contains a version 1 tokenizer used for testing
** that the sqlite3_tokenizer_module.xLanguage() method is invoked correctly.
*/

#if defined(INCLUDE_SQLITE_TCL_H)
#  include "sqlite_tcl.h"
#else
#  include "tcl.h"
#  ifndef SQLITE_TCLAPI
#    define SQLITE_TCLAPI
#  endif
#endif
#include <string.h>
#include <assert.h>

#if defined(SQLITE_TEST)
#if defined(SQLITE_ENABLE_FTS3) || defined(SQLITE_ENABLE_FTS4)

/* Required so that the "ifdef SQLITE_ENABLE_FTS3" below works */
................................................................................

  return nOcc;
}

/*
** Tclcmd: fts3_near_match DOCUMENT EXPR ?OPTIONS?
*/
static int SQLITE_TCLAPI fts3_near_match_cmd(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int nTotal = 0;
  int rc;
................................................................................
**    set cfg [fts3_configure_incr_load $new_chunksize $new_threshold]
**
**    .... run tests ....
**
**    # Restore initial incr-load settings:
**    eval fts3_configure_incr_load $cfg
*/
static int SQLITE_TCLAPI fts3_configure_incr_load_cmd(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
#ifdef SQLITE_ENABLE_FTS3
  extern int test_fts3_node_chunksize;
................................................................................
      rc = SQLITE_NOMEM;
    }else{
      int i;

      if( pCsr->iLangid & 0x00000001 ){
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = pToken[i];
      }else{
        for(i=0; i<nToken; i++) pCsr->aBuffer[i] = (char)testTolower(pToken[i]);
      }
      pCsr->iToken++;
      pCsr->iInput = (int)(p - pCsr->aInput);

      *ppToken = pCsr->aBuffer;
      *pnBytes = nToken;
      *piStartOffset = (int)(pToken - pCsr->aInput);
................................................................................
  if( pCsr->iLangid>=100 ){
    rc = SQLITE_ERROR;
  }
  return rc;
}
#endif

static int SQLITE_TCLAPI fts3_test_tokenizer_cmd(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
#ifdef SQLITE_ENABLE_FTS3
  static const sqlite3_tokenizer_module testTokenizerModule = {
................................................................................
    (const unsigned char *)&pPtr, sizeof(sqlite3_tokenizer_module *)
  ));
#endif
  UNUSED_PARAMETER(clientData);
  return TCL_OK;
}

static int SQLITE_TCLAPI fts3_test_varint_cmd(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
#ifdef SQLITE_ENABLE_FTS3
  char aBuf[24];

Changes to ext/fts3/fts3_tokenizer.c.

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**       SQLite (in which case SQLITE_ENABLE_FTS3 is defined).
*/
#include "fts3Int.h"
#if !defined(SQLITE_CORE) || defined(SQLITE_ENABLE_FTS3)

#include <assert.h>
#include <string.h>













/*
** Implementation of the SQL scalar function for accessing the underlying 
** hash table. This function may be called as follows:
**
**   SELECT <function-name>(<key-name>);
**   SELECT <function-name>(<key-name>, <pointer>);
................................................................................
** the string <key-name> must already exist in the has table. Otherwise,
** an error is returned.
**
** Whether or not the <pointer> argument is specified, the value returned
** is a blob containing the pointer stored as the hash data corresponding
** to string <key-name> (after the hash-table is updated, if applicable).
*/
static void scalarFunc(
  sqlite3_context *context,
  int argc,
  sqlite3_value **argv
){
  Fts3Hash *pHash;
  void *pPtr = 0;
  const unsigned char *zName;
................................................................................

  pHash = (Fts3Hash *)sqlite3_user_data(context);

  zName = sqlite3_value_text(argv[0]);
  nName = sqlite3_value_bytes(argv[0])+1;

  if( argc==2 ){
#ifdef SQLITE_ENABLE_FTS3_TOKENIZER
    void *pOld;
    int n = sqlite3_value_bytes(argv[1]);
    if( zName==0 || n!=sizeof(pPtr) ){
      sqlite3_result_error(context, "argument type mismatch", -1);
      return;
    }
    pPtr = *(void **)sqlite3_value_blob(argv[1]);
    pOld = sqlite3Fts3HashInsert(pHash, (void *)zName, nName, pPtr);
    if( pOld==pPtr ){
      sqlite3_result_error(context, "out of memory", -1);
      return;
    }
#else
    sqlite3_result_error(context, "fts3tokenize: " 
        "disabled - rebuild with -DSQLITE_ENABLE_FTS3_TOKENIZER", -1
    );
    return;
#endif /* SQLITE_ENABLE_FTS3_TOKENIZER */

  }else
  {
    if( zName ){
      pPtr = sqlite3Fts3HashFind(pHash, zName, nName);
    }
    if( !pPtr ){
      char *zErr = sqlite3_mprintf("unknown tokenizer: %s", zName);
      sqlite3_result_error(context, zErr, -1);
      sqlite3_free(zErr);
      return;
    }
  }

  sqlite3_result_blob(context, (void *)&pPtr, sizeof(pPtr), SQLITE_TRANSIENT);
}

int sqlite3Fts3IsIdChar(char c){
  static const char isFtsIdChar[] = {
      0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  /* 0x */
      0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  /* 1x */
................................................................................
  sqlite3_free(zCopy);
  return rc;
}


#ifdef SQLITE_TEST




#include <tcl.h>

#include <string.h>

/*
** Implementation of a special SQL scalar function for testing tokenizers 
** designed to be used in concert with the Tcl testing framework. This
** function must be called with two or more arguments:
**
................................................................................
    sqlite3_result_error(context, zErr, -1);
  }else{
    sqlite3_result_text(context, Tcl_GetString(pRet), -1, SQLITE_TRANSIENT);
  }
  Tcl_DecrRefCount(pRet);
}

#ifdef SQLITE_ENABLE_FTS3_TOKENIZER
static
int registerTokenizer(
  sqlite3 *db, 
  char *zName, 
  const sqlite3_tokenizer_module *p
){
  int rc;
................................................................................

  sqlite3_bind_text(pStmt, 1, zName, -1, SQLITE_STATIC);
  sqlite3_bind_blob(pStmt, 2, &p, sizeof(p), SQLITE_STATIC);
  sqlite3_step(pStmt);

  return sqlite3_finalize(pStmt);
}
#endif /* SQLITE_ENABLE_FTS3_TOKENIZER */


static
int queryTokenizer(
  sqlite3 *db, 
  char *zName,  
  const sqlite3_tokenizer_module **pp
................................................................................
  assert( p1==p2 );
  rc = queryTokenizer(db, "nosuchtokenizer", &p2);
  assert( rc==SQLITE_ERROR );
  assert( p2==0 );
  assert( 0==strcmp(sqlite3_errmsg(db), "unknown tokenizer: nosuchtokenizer") );

  /* Test the storage function */
#ifdef SQLITE_ENABLE_FTS3_TOKENIZER
  rc = registerTokenizer(db, "nosuchtokenizer", p1);
  assert( rc==SQLITE_OK );
  rc = queryTokenizer(db, "nosuchtokenizer", &p2);
  assert( rc==SQLITE_OK );
  assert( p2==p1 );
#endif


  sqlite3_result_text(context, "ok", -1, SQLITE_STATIC);
}

#endif

/*
................................................................................
** the hash table pointed to by argument pHash. The hash table must
** been initialized to use string keys, and to take a private copy 
** of the key when a value is inserted. i.e. by a call similar to:
**
**    sqlite3Fts3HashInit(pHash, FTS3_HASH_STRING, 1);
**
** This function adds a scalar function (see header comment above
** scalarFunc() in this file for details) and, if ENABLE_TABLE is
** defined at compilation time, a temporary virtual table (see header 
** comment above struct HashTableVtab) to the database schema. Both 
** provide read/write access to the contents of *pHash.
**
** The third argument to this function, zName, is used as the name
** of both the scalar and, if created, the virtual table.
*/
................................................................................
  zTest2 = sqlite3_mprintf("%s_internal_test", zName);
  if( !zTest || !zTest2 ){
    rc = SQLITE_NOMEM;
  }
#endif

  if( SQLITE_OK==rc ){
    rc = sqlite3_create_function(db, zName, 1, any, p, scalarFunc, 0, 0);
  }
  if( SQLITE_OK==rc ){
    rc = sqlite3_create_function(db, zName, 2, any, p, scalarFunc, 0, 0);
  }
#ifdef SQLITE_TEST
  if( SQLITE_OK==rc ){
    rc = sqlite3_create_function(db, zTest, -1, any, p, testFunc, 0, 0);
  }
  if( SQLITE_OK==rc ){
    rc = sqlite3_create_function(db, zTest2, 0, any, pdb, intTestFunc, 0, 0);







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**       SQLite (in which case SQLITE_ENABLE_FTS3 is defined).
*/
#include "fts3Int.h"
#if !defined(SQLITE_CORE) || defined(SQLITE_ENABLE_FTS3)

#include <assert.h>
#include <string.h>

/*
** Return true if the two-argument version of fts3_tokenizer()
** has been activated via a prior call to sqlite3_db_config(db,
** SQLITE_DBCONFIG_ENABLE_FTS3_TOKENIZER, 1, 0);
*/
static int fts3TokenizerEnabled(sqlite3_context *context){
  sqlite3 *db = sqlite3_context_db_handle(context);
  int isEnabled = 0;
  sqlite3_db_config(db,SQLITE_DBCONFIG_ENABLE_FTS3_TOKENIZER,-1,&isEnabled);
  return isEnabled;
}

/*
** Implementation of the SQL scalar function for accessing the underlying 
** hash table. This function may be called as follows:
**
**   SELECT <function-name>(<key-name>);
**   SELECT <function-name>(<key-name>, <pointer>);
................................................................................
** the string <key-name> must already exist in the has table. Otherwise,
** an error is returned.
**
** Whether or not the <pointer> argument is specified, the value returned
** is a blob containing the pointer stored as the hash data corresponding
** to string <key-name> (after the hash-table is updated, if applicable).
*/
static void fts3TokenizerFunc(
  sqlite3_context *context,
  int argc,
  sqlite3_value **argv
){
  Fts3Hash *pHash;
  void *pPtr = 0;
  const unsigned char *zName;
................................................................................

  pHash = (Fts3Hash *)sqlite3_user_data(context);

  zName = sqlite3_value_text(argv[0]);
  nName = sqlite3_value_bytes(argv[0])+1;

  if( argc==2 ){
    if( fts3TokenizerEnabled(context) ){
      void *pOld;
      int n = sqlite3_value_bytes(argv[1]);
      if( zName==0 || n!=sizeof(pPtr) ){
        sqlite3_result_error(context, "argument type mismatch", -1);
        return;
      }
      pPtr = *(void **)sqlite3_value_blob(argv[1]);
      pOld = sqlite3Fts3HashInsert(pHash, (void *)zName, nName, pPtr);
      if( pOld==pPtr ){
        sqlite3_result_error(context, "out of memory", -1);

      }
    }else{
      sqlite3_result_error(context, "fts3tokenize disabled", -1);


      return;

    }
  }else{

    if( zName ){
      pPtr = sqlite3Fts3HashFind(pHash, zName, nName);
    }
    if( !pPtr ){
      char *zErr = sqlite3_mprintf("unknown tokenizer: %s", zName);
      sqlite3_result_error(context, zErr, -1);
      sqlite3_free(zErr);
      return;
    }
  }

  sqlite3_result_blob(context, (void *)&pPtr, sizeof(pPtr), SQLITE_TRANSIENT);
}

int sqlite3Fts3IsIdChar(char c){
  static const char isFtsIdChar[] = {
      0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  /* 0x */
      0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,  /* 1x */
................................................................................
  sqlite3_free(zCopy);
  return rc;
}


#ifdef SQLITE_TEST

#if defined(INCLUDE_SQLITE_TCL_H)
#  include "sqlite_tcl.h"
#else
#  include "tcl.h"
#endif
#include <string.h>

/*
** Implementation of a special SQL scalar function for testing tokenizers 
** designed to be used in concert with the Tcl testing framework. This
** function must be called with two or more arguments:
**
................................................................................
    sqlite3_result_error(context, zErr, -1);
  }else{
    sqlite3_result_text(context, Tcl_GetString(pRet), -1, SQLITE_TRANSIENT);
  }
  Tcl_DecrRefCount(pRet);
}


static
int registerTokenizer(
  sqlite3 *db, 
  char *zName, 
  const sqlite3_tokenizer_module *p
){
  int rc;
................................................................................

  sqlite3_bind_text(pStmt, 1, zName, -1, SQLITE_STATIC);
  sqlite3_bind_blob(pStmt, 2, &p, sizeof(p), SQLITE_STATIC);
  sqlite3_step(pStmt);

  return sqlite3_finalize(pStmt);
}



static
int queryTokenizer(
  sqlite3 *db, 
  char *zName,  
  const sqlite3_tokenizer_module **pp
................................................................................
  assert( p1==p2 );
  rc = queryTokenizer(db, "nosuchtokenizer", &p2);
  assert( rc==SQLITE_ERROR );
  assert( p2==0 );
  assert( 0==strcmp(sqlite3_errmsg(db), "unknown tokenizer: nosuchtokenizer") );

  /* Test the storage function */
  if( fts3TokenizerEnabled(context) ){
    rc = registerTokenizer(db, "nosuchtokenizer", p1);
    assert( rc==SQLITE_OK );
    rc = queryTokenizer(db, "nosuchtokenizer", &p2);
    assert( rc==SQLITE_OK );
    assert( p2==p1 );

  }

  sqlite3_result_text(context, "ok", -1, SQLITE_STATIC);
}

#endif

/*
................................................................................
** the hash table pointed to by argument pHash. The hash table must
** been initialized to use string keys, and to take a private copy 
** of the key when a value is inserted. i.e. by a call similar to:
**
**    sqlite3Fts3HashInit(pHash, FTS3_HASH_STRING, 1);
**
** This function adds a scalar function (see header comment above
** fts3TokenizerFunc() in this file for details) and, if ENABLE_TABLE is
** defined at compilation time, a temporary virtual table (see header 
** comment above struct HashTableVtab) to the database schema. Both 
** provide read/write access to the contents of *pHash.
**
** The third argument to this function, zName, is used as the name
** of both the scalar and, if created, the virtual table.
*/
................................................................................
  zTest2 = sqlite3_mprintf("%s_internal_test", zName);
  if( !zTest || !zTest2 ){
    rc = SQLITE_NOMEM;
  }
#endif

  if( SQLITE_OK==rc ){
    rc = sqlite3_create_function(db, zName, 1, any, p, fts3TokenizerFunc, 0, 0);
  }
  if( SQLITE_OK==rc ){
    rc = sqlite3_create_function(db, zName, 2, any, p, fts3TokenizerFunc, 0, 0);
  }
#ifdef SQLITE_TEST
  if( SQLITE_OK==rc ){
    rc = sqlite3_create_function(db, zTest, -1, any, p, testFunc, 0, 0);
  }
  if( SQLITE_OK==rc ){
    rc = sqlite3_create_function(db, zTest2, 0, any, pdb, intTestFunc, 0, 0);

Changes to ext/fts3/fts3_unicode.c.

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  unicode_tokenizer *p,           /* Tokenizer to add exceptions to */
  int bAlnum,                     /* Replace Isalnum() return value with this */
  const char *zIn,                /* Array of characters to make exceptions */
  int nIn                         /* Length of z in bytes */
){
  const unsigned char *z = (const unsigned char *)zIn;
  const unsigned char *zTerm = &z[nIn];
  int iCode;
  int nEntry = 0;

  assert( bAlnum==0 || bAlnum==1 );

  while( z<zTerm ){
    READ_UTF8(z, zTerm, iCode);
    assert( (sqlite3FtsUnicodeIsalnum(iCode) & 0xFFFFFFFE)==0 );
    if( sqlite3FtsUnicodeIsalnum(iCode)!=bAlnum 
     && sqlite3FtsUnicodeIsdiacritic(iCode)==0 
    ){
      nEntry++;
    }
  }

  if( nEntry ){
    int *aNew;                    /* New aiException[] array */
................................................................................
    aNew = sqlite3_realloc(p->aiException, (p->nException+nEntry)*sizeof(int));
    if( aNew==0 ) return SQLITE_NOMEM;
    nNew = p->nException;

    z = (const unsigned char *)zIn;
    while( z<zTerm ){
      READ_UTF8(z, zTerm, iCode);
      if( sqlite3FtsUnicodeIsalnum(iCode)!=bAlnum 
       && sqlite3FtsUnicodeIsdiacritic(iCode)==0
      ){
        int i, j;
        for(i=0; i<nNew && aNew[i]<iCode; i++);
        for(j=nNew; j>i; j--) aNew[j] = aNew[j-1];
        aNew[i] = iCode;
        nNew++;
      }
    }
    p->aiException = aNew;
    p->nException = nNew;
  }

................................................................................
  int *pnToken,                   /* OUT: Number of bytes at *paToken */
  int *piStart,                   /* OUT: Starting offset of token */
  int *piEnd,                     /* OUT: Ending offset of token */
  int *piPos                      /* OUT: Position integer of token */
){
  unicode_cursor *pCsr = (unicode_cursor *)pC;
  unicode_tokenizer *p = ((unicode_tokenizer *)pCsr->base.pTokenizer);
  int iCode = 0;
  char *zOut;
  const unsigned char *z = &pCsr->aInput[pCsr->iOff];
  const unsigned char *zStart = z;
  const unsigned char *zEnd;
  const unsigned char *zTerm = &pCsr->aInput[pCsr->nInput];

  /* Scan past any delimiter characters before the start of the next token.
  ** Return SQLITE_DONE early if this takes us all the way to the end of 
  ** the input.  */
  while( z<zTerm ){
    READ_UTF8(z, zTerm, iCode);
    if( unicodeIsAlnum(p, iCode) ) break;
    zStart = z;
  }
  if( zStart>=zTerm ) return SQLITE_DONE;

  zOut = pCsr->zToken;
  do {
    int iOut;
................................................................................
      zOut = &zNew[zOut - pCsr->zToken];
      pCsr->zToken = zNew;
      pCsr->nAlloc += 64;
    }

    /* Write the folded case of the last character read to the output */
    zEnd = z;
    iOut = sqlite3FtsUnicodeFold(iCode, p->bRemoveDiacritic);
    if( iOut ){
      WRITE_UTF8(zOut, iOut);
    }

    /* If the cursor is not at EOF, read the next character */
    if( z>=zTerm ) break;
    READ_UTF8(z, zTerm, iCode);
  }while( unicodeIsAlnum(p, iCode) 
       || sqlite3FtsUnicodeIsdiacritic(iCode)
  );

  /* Set the output variables and return. */
  pCsr->iOff = (int)(z - pCsr->aInput);
  *paToken = pCsr->zToken;
  *pnToken = (int)(zOut - pCsr->zToken);
  *piStart = (int)(zStart - pCsr->aInput);







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  unicode_tokenizer *p,           /* Tokenizer to add exceptions to */
  int bAlnum,                     /* Replace Isalnum() return value with this */
  const char *zIn,                /* Array of characters to make exceptions */
  int nIn                         /* Length of z in bytes */
){
  const unsigned char *z = (const unsigned char *)zIn;
  const unsigned char *zTerm = &z[nIn];
  unsigned int iCode;
  int nEntry = 0;

  assert( bAlnum==0 || bAlnum==1 );

  while( z<zTerm ){
    READ_UTF8(z, zTerm, iCode);
    assert( (sqlite3FtsUnicodeIsalnum((int)iCode) & 0xFFFFFFFE)==0 );
    if( sqlite3FtsUnicodeIsalnum((int)iCode)!=bAlnum 
     && sqlite3FtsUnicodeIsdiacritic((int)iCode)==0 
    ){
      nEntry++;
    }
  }

  if( nEntry ){
    int *aNew;                    /* New aiException[] array */
................................................................................
    aNew = sqlite3_realloc(p->aiException, (p->nException+nEntry)*sizeof(int));
    if( aNew==0 ) return SQLITE_NOMEM;
    nNew = p->nException;

    z = (const unsigned char *)zIn;
    while( z<zTerm ){
      READ_UTF8(z, zTerm, iCode);
      if( sqlite3FtsUnicodeIsalnum((int)iCode)!=bAlnum 
       && sqlite3FtsUnicodeIsdiacritic((int)iCode)==0
      ){
        int i, j;
        for(i=0; i<nNew && aNew[i]<(int)iCode; i++);
        for(j=nNew; j>i; j--) aNew[j] = aNew[j-1];
        aNew[i] = (int)iCode;
        nNew++;
      }
    }
    p->aiException = aNew;
    p->nException = nNew;
  }

................................................................................
  int *pnToken,                   /* OUT: Number of bytes at *paToken */
  int *piStart,                   /* OUT: Starting offset of token */
  int *piEnd,                     /* OUT: Ending offset of token */
  int *piPos                      /* OUT: Position integer of token */
){
  unicode_cursor *pCsr = (unicode_cursor *)pC;
  unicode_tokenizer *p = ((unicode_tokenizer *)pCsr->base.pTokenizer);
  unsigned int iCode = 0;
  char *zOut;
  const unsigned char *z = &pCsr->aInput[pCsr->iOff];
  const unsigned char *zStart = z;
  const unsigned char *zEnd;
  const unsigned char *zTerm = &pCsr->aInput[pCsr->nInput];

  /* Scan past any delimiter characters before the start of the next token.
  ** Return SQLITE_DONE early if this takes us all the way to the end of 
  ** the input.  */
  while( z<zTerm ){
    READ_UTF8(z, zTerm, iCode);
    if( unicodeIsAlnum(p, (int)iCode) ) break;
    zStart = z;
  }
  if( zStart>=zTerm ) return SQLITE_DONE;

  zOut = pCsr->zToken;
  do {
    int iOut;
................................................................................
      zOut = &zNew[zOut - pCsr->zToken];
      pCsr->zToken = zNew;
      pCsr->nAlloc += 64;
    }

    /* Write the folded case of the last character read to the output */
    zEnd = z;
    iOut = sqlite3FtsUnicodeFold((int)iCode, p->bRemoveDiacritic);
    if( iOut ){
      WRITE_UTF8(zOut, iOut);
    }

    /* If the cursor is not at EOF, read the next character */
    if( z>=zTerm ) break;
    READ_UTF8(z, zTerm, iCode);
  }while( unicodeIsAlnum(p, (int)iCode) 
       || sqlite3FtsUnicodeIsdiacritic((int)iCode)
  );

  /* Set the output variables and return. */
  pCsr->iOff = (int)(z - pCsr->aInput);
  *paToken = pCsr->zToken;
  *pnToken = (int)(zOut - pCsr->zToken);
  *piStart = (int)(zStart - pCsr->aInput);

Changes to ext/fts3/fts3_unicode2.c.

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    0x07D9140B, 0x07DA0046, 0x07DC0074, 0x38000401, 0x38008060,
    0x380400F0,
  };
  static const unsigned int aAscii[4] = {
    0xFFFFFFFF, 0xFC00FFFF, 0xF8000001, 0xF8000001,
  };

  if( c<128 ){
    return ( (aAscii[c >> 5] & (1 << (c & 0x001F)))==0 );
  }else if( c<(1<<22) ){
    unsigned int key = (((unsigned int)c)<<10) | 0x000003FF;
    int iRes = 0;
    int iHi = sizeof(aEntry)/sizeof(aEntry[0]) - 1;
    int iLo = 0;
    while( iHi>=iLo ){
      int iTest = (iHi + iLo) / 2;
      if( key >= aEntry[iTest] ){
................................................................................
   65408, 65410, 65415, 65424, 65436, 65439, 65450, 65462, 
   65472, 65476, 65478, 65480, 65482, 65488, 65506, 65511, 
   65514, 65521, 65527, 65528, 65529, 
  };

  int ret = c;

  assert( c>=0 );
  assert( sizeof(unsigned short)==2 && sizeof(unsigned char)==1 );

  if( c<128 ){
    if( c>='A' && c<='Z' ) ret = c + ('a' - 'A');
  }else if( c<65536 ){

    int iHi = sizeof(aEntry)/sizeof(aEntry[0]) - 1;
    int iLo = 0;
    int iRes = -1;


    while( iHi>=iLo ){
      int iTest = (iHi + iLo) / 2;
      int cmp = (c - aEntry[iTest].iCode);
      if( cmp>=0 ){
        iRes = iTest;
        iLo = iTest+1;
      }else{
        iHi = iTest-1;
      }
    }
    assert( iRes<0 || c>=aEntry[iRes].iCode );

    if( iRes>=0 ){

      const struct TableEntry *p = &aEntry[iRes];
      if( c<(p->iCode + p->nRange) && 0==(0x01 & p->flags & (p->iCode ^ c)) ){
        ret = (c + (aiOff[p->flags>>1])) & 0x0000FFFF;
        assert( ret>0 );
      }
    }

    if( bRemoveDiacritic ) ret = remove_diacritic(ret);
  }
  
  else if( c>=66560 && c<66600 ){
    ret = c + 40;
  }

  return ret;
}
#endif /* defined(SQLITE_ENABLE_FTS3) || defined(SQLITE_ENABLE_FTS4) */
#endif /* !defined(SQLITE_DISABLE_FTS3_UNICODE) */







|
|
|







 







<





>




>










<

<
>
|
|
|
|
<













123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
...
318
319
320
321
322
323
324

325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345

346

347
348
349
350
351

352
353
354
355
356
357
358
359
360
361
362
363
364
    0x07D9140B, 0x07DA0046, 0x07DC0074, 0x38000401, 0x38008060,
    0x380400F0,
  };
  static const unsigned int aAscii[4] = {
    0xFFFFFFFF, 0xFC00FFFF, 0xF8000001, 0xF8000001,
  };

  if( (unsigned int)c<128 ){
    return ( (aAscii[c >> 5] & ((unsigned int)1 << (c & 0x001F)))==0 );
  }else if( (unsigned int)c<(1<<22) ){
    unsigned int key = (((unsigned int)c)<<10) | 0x000003FF;
    int iRes = 0;
    int iHi = sizeof(aEntry)/sizeof(aEntry[0]) - 1;
    int iLo = 0;
    while( iHi>=iLo ){
      int iTest = (iHi + iLo) / 2;
      if( key >= aEntry[iTest] ){
................................................................................
   65408, 65410, 65415, 65424, 65436, 65439, 65450, 65462, 
   65472, 65476, 65478, 65480, 65482, 65488, 65506, 65511, 
   65514, 65521, 65527, 65528, 65529, 
  };

  int ret = c;


  assert( sizeof(unsigned short)==2 && sizeof(unsigned char)==1 );

  if( c<128 ){
    if( c>='A' && c<='Z' ) ret = c + ('a' - 'A');
  }else if( c<65536 ){
    const struct TableEntry *p;
    int iHi = sizeof(aEntry)/sizeof(aEntry[0]) - 1;
    int iLo = 0;
    int iRes = -1;

    assert( c>aEntry[0].iCode );
    while( iHi>=iLo ){
      int iTest = (iHi + iLo) / 2;
      int cmp = (c - aEntry[iTest].iCode);
      if( cmp>=0 ){
        iRes = iTest;
        iLo = iTest+1;
      }else{
        iHi = iTest-1;
      }
    }



    assert( iRes>=0 && c>=aEntry[iRes].iCode );
    p = &aEntry[iRes];
    if( c<(p->iCode + p->nRange) && 0==(0x01 & p->flags & (p->iCode ^ c)) ){
      ret = (c + (aiOff[p->flags>>1])) & 0x0000FFFF;
      assert( ret>0 );

    }

    if( bRemoveDiacritic ) ret = remove_diacritic(ret);
  }
  
  else if( c>=66560 && c<66600 ){
    ret = c + 40;
  }

  return ret;
}
#endif /* defined(SQLITE_ENABLE_FTS3) || defined(SQLITE_ENABLE_FTS4) */
#endif /* !defined(SQLITE_DISABLE_FTS3_UNICODE) */

Changes to ext/fts3/fts3_write.c.

329
330
331
332
333
334
335

336
337
338
339
340
341
342
343
....
3190
3191
3192
3193
3194
3195
3196
3197
3198
3199
3200
3201
3202
3203
3204
....
4832
4833
4834
4835
4836
4837
4838
4839
4840
4841
4842

4843
4844
4845
4846
4847
4848
4849
....
4950
4951
4952
4953
4954
4955
4956



4957
4958
4959
4960
4961
4962
4963
4964
4965
4966
4967
4968
/* 27 */ "SELECT ? UNION SELECT level / (1024 * ?) FROM %Q.'%q_segdir'",

/* This statement is used to determine which level to read the input from
** when performing an incremental merge. It returns the absolute level number
** of the oldest level in the db that contains at least ? segments. Or,
** if no level in the FTS index contains more than ? segments, the statement
** returns zero rows.  */

/* 28 */ "SELECT level FROM %Q.'%q_segdir' GROUP BY level HAVING count(*)>=?"
         "  ORDER BY (level %% 1024) ASC LIMIT 1",

/* Estimate the upper limit on the number of leaf nodes in a new segment
** created by merging the oldest :2 segments from absolute level :1. See 
** function sqlite3Fts3Incrmerge() for details.  */
/* 29 */ "SELECT 2 * total(1 + leaves_end_block - start_block) "
         "  FROM %Q.'%q_segdir' WHERE level = ? AND idx < ?",
................................................................................
  }

  if( iLevel==FTS3_SEGCURSOR_ALL ){
    /* This call is to merge all segments in the database to a single
    ** segment. The level of the new segment is equal to the numerically
    ** greatest segment level currently present in the database for this
    ** index. The idx of the new segment is always 0.  */
    if( csr.nSegment==1 ){
      rc = SQLITE_DONE;
      goto finished;
    }
    iNewLevel = iMaxLevel;
    bIgnoreEmpty = 1;

  }else{
................................................................................
    /* Search the %_segdir table for the absolute level with the smallest
    ** relative level number that contains at least nMin segments, if any.
    ** If one is found, set iAbsLevel to the absolute level number and
    ** nSeg to nMin. If no level with at least nMin segments can be found, 
    ** set nSeg to -1.
    */
    rc = fts3SqlStmt(p, SQL_FIND_MERGE_LEVEL, &pFindLevel, 0);
    sqlite3_bind_int(pFindLevel, 1, nMin);
    if( sqlite3_step(pFindLevel)==SQLITE_ROW ){
      iAbsLevel = sqlite3_column_int64(pFindLevel, 0);
      nSeg = nMin;

    }else{
      nSeg = -1;
    }
    rc = sqlite3_reset(pFindLevel);

    /* If the hint read from the %_stat table is not empty, check if the
    ** last entry in it specifies a relative level smaller than or equal
................................................................................
  return rc;
}

/*
** Convert the text beginning at *pz into an integer and return
** its value.  Advance *pz to point to the first character past
** the integer.



*/
static int fts3Getint(const char **pz){
  const char *z = *pz;
  int i = 0;
  while( (*z)>='0' && (*z)<='9' ) i = 10*i + *(z++) - '0';
  *pz = z;
  return i;
}

/*
** Process statements of the form:
**







>
|







 







|







 







|


|
>







 







>
>
>




|







329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
....
3191
3192
3193
3194
3195
3196
3197
3198
3199
3200
3201
3202
3203
3204
3205
....
4833
4834
4835
4836
4837
4838
4839
4840
4841
4842
4843
4844
4845
4846
4847
4848
4849
4850
4851
....
4952
4953
4954
4955
4956
4957
4958
4959
4960
4961
4962
4963
4964
4965
4966
4967
4968
4969
4970
4971
4972
4973
/* 27 */ "SELECT ? UNION SELECT level / (1024 * ?) FROM %Q.'%q_segdir'",

/* This statement is used to determine which level to read the input from
** when performing an incremental merge. It returns the absolute level number
** of the oldest level in the db that contains at least ? segments. Or,
** if no level in the FTS index contains more than ? segments, the statement
** returns zero rows.  */
/* 28 */ "SELECT level, count(*) AS cnt FROM %Q.'%q_segdir' "
         "  GROUP BY level HAVING cnt>=?"
         "  ORDER BY (level %% 1024) ASC LIMIT 1",

/* Estimate the upper limit on the number of leaf nodes in a new segment
** created by merging the oldest :2 segments from absolute level :1. See 
** function sqlite3Fts3Incrmerge() for details.  */
/* 29 */ "SELECT 2 * total(1 + leaves_end_block - start_block) "
         "  FROM %Q.'%q_segdir' WHERE level = ? AND idx < ?",
................................................................................
  }

  if( iLevel==FTS3_SEGCURSOR_ALL ){
    /* This call is to merge all segments in the database to a single
    ** segment. The level of the new segment is equal to the numerically
    ** greatest segment level currently present in the database for this
    ** index. The idx of the new segment is always 0.  */
    if( csr.nSegment==1 && 0==fts3SegReaderIsPending(csr.apSegment[0]) ){
      rc = SQLITE_DONE;
      goto finished;
    }
    iNewLevel = iMaxLevel;
    bIgnoreEmpty = 1;

  }else{
................................................................................
    /* Search the %_segdir table for the absolute level with the smallest
    ** relative level number that contains at least nMin segments, if any.
    ** If one is found, set iAbsLevel to the absolute level number and
    ** nSeg to nMin. If no level with at least nMin segments can be found, 
    ** set nSeg to -1.
    */
    rc = fts3SqlStmt(p, SQL_FIND_MERGE_LEVEL, &pFindLevel, 0);
    sqlite3_bind_int(pFindLevel, 1, MAX(2, nMin));
    if( sqlite3_step(pFindLevel)==SQLITE_ROW ){
      iAbsLevel = sqlite3_column_int64(pFindLevel, 0);
      nSeg = sqlite3_column_int(pFindLevel, 1);
      assert( nSeg>=2 );
    }else{
      nSeg = -1;
    }
    rc = sqlite3_reset(pFindLevel);

    /* If the hint read from the %_stat table is not empty, check if the
    ** last entry in it specifies a relative level smaller than or equal
................................................................................
  return rc;
}

/*
** Convert the text beginning at *pz into an integer and return
** its value.  Advance *pz to point to the first character past
** the integer.
**
** This function used for parameters to merge= and incrmerge=
** commands. 
*/
static int fts3Getint(const char **pz){
  const char *z = *pz;
  int i = 0;
  while( (*z)>='0' && (*z)<='9' && i<214748363 ) i = 10*i + *(z++) - '0';
  *pz = z;
  return i;
}

/*
** Process statements of the form:
**

Added ext/fts3/tool/fts3cov.sh.

































>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
>
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
#!/bin/sh

set -e

srcdir=`dirname $(dirname $(dirname $(dirname $0)))`
./testfixture $srcdir/test/fts3.test --output=fts3cov-out.txt

echo ""

for f in `ls $srcdir/ext/fts3/*.c` 
do
  f=`basename $f`
  echo -ne "$f: "
  gcov -b $f | grep Taken | sed 's/Taken at least once://'
done

Changes to ext/fts3/tool/fts3view.c.

394
395
396
397
398
399
400
401
402

403
404
405
406
407
408
409
           "         WHERE (a.blockid BETWEEN b.start_block"
                                       " AND b.leaves_end_block)"
           "           AND (b.level%%1024)==%d)",
           pgsz-45, zTab, zTab, i);
    if( sqlite3_step(pStmt)==SQLITE_ROW
     && (nLeaf = sqlite3_column_int(pStmt, 0))>0
    ){
      nIdx = sqlite3_column_int(pStmt, 5);
      sqlite3_int64 sz;

      printf("For level %d:\n", i);
      printf("  Number of indexes...................... %9d\n", nIdx);
      printf("  Number of leaf segments................ %9d\n", nLeaf);
      if( nIdx>1 ){
        printf("  Average leaf segments per index........ %11.1f\n",
               (double)nLeaf/(double)nIdx);
      }







<

>







394
395
396
397
398
399
400

401
402
403
404
405
406
407
408
409
           "         WHERE (a.blockid BETWEEN b.start_block"
                                       " AND b.leaves_end_block)"
           "           AND (b.level%%1024)==%d)",
           pgsz-45, zTab, zTab, i);
    if( sqlite3_step(pStmt)==SQLITE_ROW
     && (nLeaf = sqlite3_column_int(pStmt, 0))>0
    ){

      sqlite3_int64 sz;
      nIdx = sqlite3_column_int(pStmt, 5);
      printf("For level %d:\n", i);
      printf("  Number of indexes...................... %9d\n", nIdx);
      printf("  Number of leaf segments................ %9d\n", nLeaf);
      if( nIdx>1 ){
        printf("  Average leaf segments per index........ %11.1f\n",
               (double)nLeaf/(double)nIdx);
      }

Changes to ext/fts3/unicode/mkunicode.tcl.

223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
  puts "** is less than zero."
  puts "*/"
  puts "int ${zFunc}\(int c)\{"
  an_print_range_array $lRange
  an_print_ascii_bitmap $lRange
  puts {
  if( (unsigned int)c<128 ){
    return ( (aAscii[c >> 5] & (1 << (c & 0x001F)))==0 );
  }else if( (unsigned int)c<(1<<22) ){
    unsigned int key = (((unsigned int)c)<<10) | 0x000003FF;
    int iRes = 0;
    int iHi = sizeof(aEntry)/sizeof(aEntry[0]) - 1;
    int iLo = 0;
    while( iHi>=iLo ){
      int iTest = (iHi + iLo) / 2;







|







223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
  puts "** is less than zero."
  puts "*/"
  puts "int ${zFunc}\(int c)\{"
  an_print_range_array $lRange
  an_print_ascii_bitmap $lRange
  puts {
  if( (unsigned int)c<128 ){
    return ( (aAscii[c >> 5] & ((unsigned int)1 << (c & 0x001F)))==0 );
  }else if( (unsigned int)c<(1<<22) ){
    unsigned int key = (((unsigned int)c)<<10) | 0x000003FF;
    int iRes = 0;
    int iHi = sizeof(aEntry)/sizeof(aEntry[0]) - 1;
    int iLo = 0;
    while( iHi>=iLo ){
      int iTest = (iHi + iLo) / 2;

Changes to ext/fts5/fts5.h.

139
140
141
142
143
144
145


146
147
148
149
150
151
152
153
154
155
156
157
...
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
...
571
572
573
574
575
576
577
578
** xQueryPhrase(pFts5, iPhrase, pUserData, xCallback):
**   This API function is used to query the FTS table for phrase iPhrase
**   of the current query. Specifically, a query equivalent to:
**
**       ... FROM ftstable WHERE ftstable MATCH $p ORDER BY rowid
**
**   with $p set to a phrase equivalent to the phrase iPhrase of the


**   current query is executed. For each row visited, the callback function
**   passed as the fourth argument is invoked. The context and API objects 
**   passed to the callback function may be used to access the properties of
**   each matched row. Invoking Api.xUserData() returns a copy of the pointer
**   passed as the third argument to pUserData.
**
**   If the callback function returns any value other than SQLITE_OK, the
**   query is abandoned and the xQueryPhrase function returns immediately.
**   If the returned value is SQLITE_DONE, xQueryPhrase returns SQLITE_OK.
**   Otherwise, the error code is propagated upwards.
**
**   If the query runs to completion without incident, SQLITE_OK is returned.
................................................................................
** Applications may also register custom tokenizer types. A tokenizer 
** is registered by providing fts5 with a populated instance of the 
** following structure. All structure methods must be defined, setting
** any member of the fts5_tokenizer struct to NULL leads to undefined
** behaviour. The structure methods are expected to function as follows:
**
** xCreate:
**   This function is used to allocate and inititalize a tokenizer instance.
**   A tokenizer instance is required to actually tokenize text.
**
**   The first argument passed to this function is a copy of the (void*)
**   pointer provided by the application when the fts5_tokenizer object
**   was registered with FTS5 (the third argument to xCreateTokenizer()). 
**   The second and third arguments are an array of nul-terminated strings
**   containing the tokenizer arguments, if any, specified following the
................................................................................
*************************************************************************/

#ifdef __cplusplus
}  /* end of the 'extern "C"' block */
#endif

#endif /* _FTS5_H */








>
>
|
|
|
|
|







 







|







 







<
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
...
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
...
573
574
575
576
577
578
579

** xQueryPhrase(pFts5, iPhrase, pUserData, xCallback):
**   This API function is used to query the FTS table for phrase iPhrase
**   of the current query. Specifically, a query equivalent to:
**
**       ... FROM ftstable WHERE ftstable MATCH $p ORDER BY rowid
**
**   with $p set to a phrase equivalent to the phrase iPhrase of the
**   current query is executed. Any column filter that applies to
**   phrase iPhrase of the current query is included in $p. For each 
**   row visited, the callback function passed as the fourth argument 
**   is invoked. The context and API objects passed to the callback 
**   function may be used to access the properties of each matched row.
**   Invoking Api.xUserData() returns a copy of the pointer passed as 
**   the third argument to pUserData.
**
**   If the callback function returns any value other than SQLITE_OK, the
**   query is abandoned and the xQueryPhrase function returns immediately.
**   If the returned value is SQLITE_DONE, xQueryPhrase returns SQLITE_OK.
**   Otherwise, the error code is propagated upwards.
**
**   If the query runs to completion without incident, SQLITE_OK is returned.
................................................................................
** Applications may also register custom tokenizer types. A tokenizer 
** is registered by providing fts5 with a populated instance of the 
** following structure. All structure methods must be defined, setting
** any member of the fts5_tokenizer struct to NULL leads to undefined
** behaviour. The structure methods are expected to function as follows:
**
** xCreate:
**   This function is used to allocate and initialize a tokenizer instance.
**   A tokenizer instance is required to actually tokenize text.
**
**   The first argument passed to this function is a copy of the (void*)
**   pointer provided by the application when the fts5_tokenizer object
**   was registered with FTS5 (the third argument to xCreateTokenizer()). 
**   The second and third arguments are an array of nul-terminated strings
**   containing the tokenizer arguments, if any, specified following the
................................................................................
*************************************************************************/

#ifdef __cplusplus
}  /* end of the 'extern "C"' block */
#endif

#endif /* _FTS5_H */

Changes to ext/fts5/fts5Int.h.

26
27
28
29
30
31
32

33

34
35
36
37
38
39
40
..
43
44
45
46
47
48
49




50
51
52
53
54
55
56
...
168
169
170
171
172
173
174

175
176
177
178
179
180
181
...
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
...
475
476
477
478
479
480
481

482
483
484
485
486
487
488
...
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623

624
625
626
627
628
629
630
...
641
642
643
644
645
646
647

648
649
650
651
652
653
654
...
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
...
695
696
697
698
699
700
701






702
703
704
705
706
707
708
...
720
721
722
723
724
725
726
727

728
729
730
731
732
733
734
typedef unsigned char  u8;
typedef unsigned int   u32;
typedef unsigned short u16;
typedef short i16;
typedef sqlite3_int64 i64;
typedef sqlite3_uint64 u64;


#define ArraySize(x) ((int)(sizeof(x) / sizeof(x[0])))


#define testcase(x)
#define ALWAYS(x) 1
#define NEVER(x) 0

#define MIN(x,y) (((x) < (y)) ? (x) : (y))
#define MAX(x,y) (((x) > (y)) ? (x) : (y))
................................................................................
** Constants for the largest and smallest possible 64-bit signed integers.
*/
# define LARGEST_INT64  (0xffffffff|(((i64)0x7fffffff)<<32))
# define SMALLEST_INT64 (((i64)-1) - LARGEST_INT64)

#endif






/*
** Maximum number of prefix indexes on single FTS5 table. This must be
** less than 32. If it is set to anything large than that, an #error
** directive in fts5_index.c will cause the build to fail.
*/
#define FTS5_MAX_PREFIX_INDEXES 31
................................................................................
  fts5_tokenizer *pTokApi;

  /* Values loaded from the %_config table */
  int iCookie;                    /* Incremented when %_config is modified */
  int pgsz;                       /* Approximate page size used in %_data */
  int nAutomerge;                 /* 'automerge' setting */
  int nCrisisMerge;               /* Maximum allowed segments per level */

  int nHashSize;                  /* Bytes of memory for in-memory hash */
  char *zRank;                    /* Name of rank function */
  char *zRankArgs;                /* Arguments to rank function */

  /* If non-NULL, points to sqlite3_vtab.base.zErrmsg. Often NULL. */
  char **pzErrmsg;

................................................................................
  Fts5Index *p,                   /* Index to write to */
  int bDelete,                    /* True if current operation is a delete */
  i64 iDocid                      /* Docid to add or remove data from */
);

/*
** Flush any data stored in the in-memory hash tables to the database.
** If the bCommit flag is true, also close any open blob handles.
*/
int sqlite3Fts5IndexSync(Fts5Index *p, int bCommit);

/*
** Discard any data stored in the in-memory hash tables. Do not write it
** to the database. Additionally, assume that the contents of the %_data
** table may have changed on disk. So any in-memory caches of %_data 
** records must be invalidated.
*/
................................................................................
** this connection since it was created.
*/
int sqlite3Fts5IndexReads(Fts5Index *p);

int sqlite3Fts5IndexReinit(Fts5Index *p);
int sqlite3Fts5IndexOptimize(Fts5Index *p);
int sqlite3Fts5IndexMerge(Fts5Index *p, int nMerge);


int sqlite3Fts5IndexLoadConfig(Fts5Index *p);

/*
** End of interface to code in fts5_index.c.
**************************************************************************/

................................................................................
int sqlite3Fts5StorageStmt(Fts5Storage *p, int eStmt, sqlite3_stmt**, char**);
void sqlite3Fts5StorageStmtRelease(Fts5Storage *p, int eStmt, sqlite3_stmt*);

int sqlite3Fts5StorageDocsize(Fts5Storage *p, i64 iRowid, int *aCol);
int sqlite3Fts5StorageSize(Fts5Storage *p, int iCol, i64 *pnAvg);
int sqlite3Fts5StorageRowCount(Fts5Storage *p, i64 *pnRow);

int sqlite3Fts5StorageSync(Fts5Storage *p, int bCommit);
int sqlite3Fts5StorageRollback(Fts5Storage *p);

int sqlite3Fts5StorageConfigValue(
    Fts5Storage *p, const char*, sqlite3_value*, int
);

int sqlite3Fts5StorageDeleteAll(Fts5Storage *p);
int sqlite3Fts5StorageRebuild(Fts5Storage *p);
int sqlite3Fts5StorageOptimize(Fts5Storage *p);
int sqlite3Fts5StorageMerge(Fts5Storage *p, int nMerge);


/*
** End of interface to code in fts5_storage.c.
**************************************************************************/


/**************************************************************************
................................................................................
  const char *p;                  /* Token text (not NULL terminated) */
  int n;                          /* Size of buffer p in bytes */
};

/* Parse a MATCH expression. */
int sqlite3Fts5ExprNew(
  Fts5Config *pConfig, 

  const char *zExpr,
  Fts5Expr **ppNew, 
  char **pzErr
);

/*
** for(rc = sqlite3Fts5ExprFirst(pExpr, pIdx, bDesc);
................................................................................

typedef struct Fts5PoslistPopulator Fts5PoslistPopulator;
Fts5PoslistPopulator *sqlite3Fts5ExprClearPoslists(Fts5Expr*, int);
int sqlite3Fts5ExprPopulatePoslists(
    Fts5Config*, Fts5Expr*, Fts5PoslistPopulator*, int, const char*, int
);
void sqlite3Fts5ExprCheckPoslists(Fts5Expr*, i64);
void sqlite3Fts5ExprClearEof(Fts5Expr*);

int sqlite3Fts5ExprClonePhrase(Fts5Expr*, int, Fts5Expr**);

int sqlite3Fts5ExprPhraseCollist(Fts5Expr *, int, const u8 **, int *);

/*******************************************
** The fts5_expr.c API above this point is used by the other hand-written
................................................................................
Fts5ExprNode *sqlite3Fts5ParseNode(
  Fts5Parse *pParse,
  int eType,
  Fts5ExprNode *pLeft,
  Fts5ExprNode *pRight,
  Fts5ExprNearset *pNear
);







Fts5ExprPhrase *sqlite3Fts5ParseTerm(
  Fts5Parse *pParse, 
  Fts5ExprPhrase *pPhrase, 
  Fts5Token *pToken,
  int bPrefix
);
................................................................................
);

void sqlite3Fts5ParsePhraseFree(Fts5ExprPhrase*);
void sqlite3Fts5ParseNearsetFree(Fts5ExprNearset*);
void sqlite3Fts5ParseNodeFree(Fts5ExprNode*);

void sqlite3Fts5ParseSetDistance(Fts5Parse*, Fts5ExprNearset*, Fts5Token*);
void sqlite3Fts5ParseSetColset(Fts5Parse*, Fts5ExprNearset*, Fts5Colset*);

void sqlite3Fts5ParseFinished(Fts5Parse *pParse, Fts5ExprNode *p);
void sqlite3Fts5ParseNear(Fts5Parse *pParse, Fts5Token*);

/*
** End of interface to code in fts5_expr.c.
**************************************************************************/








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typedef unsigned char  u8;
typedef unsigned int   u32;
typedef unsigned short u16;
typedef short i16;
typedef sqlite3_int64 i64;
typedef sqlite3_uint64 u64;

#ifndef ArraySize
# define ArraySize(x) ((int)(sizeof(x) / sizeof(x[0])))
#endif

#define testcase(x)
#define ALWAYS(x) 1
#define NEVER(x) 0

#define MIN(x,y) (((x) < (y)) ? (x) : (y))
#define MAX(x,y) (((x) > (y)) ? (x) : (y))
................................................................................
** Constants for the largest and smallest possible 64-bit signed integers.
*/
# define LARGEST_INT64  (0xffffffff|(((i64)0x7fffffff)<<32))
# define SMALLEST_INT64 (((i64)-1) - LARGEST_INT64)

#endif

/* Truncate very long tokens to this many bytes. Hard limit is 
** (65536-1-1-4-9)==65521 bytes. The limiting factor is the 16-bit offset
** field that occurs at the start of each leaf page (see fts5_index.c). */
#define FTS5_MAX_TOKEN_SIZE 32768

/*
** Maximum number of prefix indexes on single FTS5 table. This must be
** less than 32. If it is set to anything large than that, an #error
** directive in fts5_index.c will cause the build to fail.
*/
#define FTS5_MAX_PREFIX_INDEXES 31
................................................................................
  fts5_tokenizer *pTokApi;

  /* Values loaded from the %_config table */
  int iCookie;                    /* Incremented when %_config is modified */
  int pgsz;                       /* Approximate page size used in %_data */
  int nAutomerge;                 /* 'automerge' setting */
  int nCrisisMerge;               /* Maximum allowed segments per level */
  int nUsermerge;                 /* 'usermerge' setting */
  int nHashSize;                  /* Bytes of memory for in-memory hash */
  char *zRank;                    /* Name of rank function */
  char *zRankArgs;                /* Arguments to rank function */

  /* If non-NULL, points to sqlite3_vtab.base.zErrmsg. Often NULL. */
  char **pzErrmsg;

................................................................................
  Fts5Index *p,                   /* Index to write to */
  int bDelete,                    /* True if current operation is a delete */
  i64 iDocid                      /* Docid to add or remove data from */
);

/*
** Flush any data stored in the in-memory hash tables to the database.
** Also close any open blob handles.
*/
int sqlite3Fts5IndexSync(Fts5Index *p);

/*
** Discard any data stored in the in-memory hash tables. Do not write it
** to the database. Additionally, assume that the contents of the %_data
** table may have changed on disk. So any in-memory caches of %_data 
** records must be invalidated.
*/
................................................................................
** this connection since it was created.
*/
int sqlite3Fts5IndexReads(Fts5Index *p);

int sqlite3Fts5IndexReinit(Fts5Index *p);
int sqlite3Fts5IndexOptimize(Fts5Index *p);
int sqlite3Fts5IndexMerge(Fts5Index *p, int nMerge);
int sqlite3Fts5IndexReset(Fts5Index *p);

int sqlite3Fts5IndexLoadConfig(Fts5Index *p);

/*
** End of interface to code in fts5_index.c.
**************************************************************************/

................................................................................
int sqlite3Fts5StorageStmt(Fts5Storage *p, int eStmt, sqlite3_stmt**, char**);
void sqlite3Fts5StorageStmtRelease(Fts5Storage *p, int eStmt, sqlite3_stmt*);

int sqlite3Fts5StorageDocsize(Fts5Storage *p, i64 iRowid, int *aCol);
int sqlite3Fts5StorageSize(Fts5Storage *p, int iCol, i64 *pnAvg);
int sqlite3Fts5StorageRowCount(Fts5Storage *p, i64 *pnRow);

int sqlite3Fts5StorageSync(Fts5Storage *p);
int sqlite3Fts5StorageRollback(Fts5Storage *p);

int sqlite3Fts5StorageConfigValue(
    Fts5Storage *p, const char*, sqlite3_value*, int
);

int sqlite3Fts5StorageDeleteAll(Fts5Storage *p);
int sqlite3Fts5StorageRebuild(Fts5Storage *p);
int sqlite3Fts5StorageOptimize(Fts5Storage *p);
int sqlite3Fts5StorageMerge(Fts5Storage *p, int nMerge);
int sqlite3Fts5StorageReset(Fts5Storage *p);

/*
** End of interface to code in fts5_storage.c.
**************************************************************************/


/**************************************************************************
................................................................................
  const char *p;                  /* Token text (not NULL terminated) */
  int n;                          /* Size of buffer p in bytes */
};

/* Parse a MATCH expression. */
int sqlite3Fts5ExprNew(
  Fts5Config *pConfig, 
  int iCol,                       /* Column on LHS of MATCH operator */
  const char *zExpr,
  Fts5Expr **ppNew, 
  char **pzErr
);

/*
** for(rc = sqlite3Fts5ExprFirst(pExpr, pIdx, bDesc);
................................................................................

typedef struct Fts5PoslistPopulator Fts5PoslistPopulator;
Fts5PoslistPopulator *sqlite3Fts5ExprClearPoslists(Fts5Expr*, int);
int sqlite3Fts5ExprPopulatePoslists(
    Fts5Config*, Fts5Expr*, Fts5PoslistPopulator*, int, const char*, int
);
void sqlite3Fts5ExprCheckPoslists(Fts5Expr*, i64);


int sqlite3Fts5ExprClonePhrase(Fts5Expr*, int, Fts5Expr**);

int sqlite3Fts5ExprPhraseCollist(Fts5Expr *, int, const u8 **, int *);

/*******************************************
** The fts5_expr.c API above this point is used by the other hand-written
................................................................................
Fts5ExprNode *sqlite3Fts5ParseNode(
  Fts5Parse *pParse,
  int eType,
  Fts5ExprNode *pLeft,
  Fts5ExprNode *pRight,
  Fts5ExprNearset *pNear
);

Fts5ExprNode *sqlite3Fts5ParseImplicitAnd(
  Fts5Parse *pParse,
  Fts5ExprNode *pLeft,
  Fts5ExprNode *pRight
);

Fts5ExprPhrase *sqlite3Fts5ParseTerm(
  Fts5Parse *pParse, 
  Fts5ExprPhrase *pPhrase, 
  Fts5Token *pToken,
  int bPrefix
);
................................................................................
);

void sqlite3Fts5ParsePhraseFree(Fts5ExprPhrase*);
void sqlite3Fts5ParseNearsetFree(Fts5ExprNearset*);
void sqlite3Fts5ParseNodeFree(Fts5ExprNode*);

void sqlite3Fts5ParseSetDistance(Fts5Parse*, Fts5ExprNearset*, Fts5Token*);
void sqlite3Fts5ParseSetColset(Fts5Parse*, Fts5ExprNode*, Fts5Colset*);
Fts5Colset *sqlite3Fts5ParseColsetInvert(Fts5Parse*, Fts5Colset*);
void sqlite3Fts5ParseFinished(Fts5Parse *pParse, Fts5ExprNode *p);
void sqlite3Fts5ParseNear(Fts5Parse *pParse, Fts5Token*);

/*
** End of interface to code in fts5_expr.c.
**************************************************************************/

Changes to ext/fts5/fts5_aux.c.

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      rc = fts5CInstIterNext(&p->iter);
    }
  }

  if( p->iRangeEnd>0 && iPos==p->iRangeEnd ){
    fts5HighlightAppend(&rc, p, &p->zIn[p->iOff], iEndOff - p->iOff);
    p->iOff = iEndOff;
    if( iPos<p->iter.iEnd ){
      fts5HighlightAppend(&rc, p, p->zClose, -1);
    }
  }

  return rc;
}

................................................................................
  if( rc!=SQLITE_OK ){
    sqlite3_result_error_code(pCtx, rc);
  }
}
/*
** End of highlight() implementation.
**************************************************************************/

















































































































/*
** Implementation of snippet() function.
*/
static void fts5SnippetFunction(
  const Fts5ExtensionApi *pApi,   /* API offered by current FTS version */
  Fts5Context *pFts,              /* First arg to pass to pApi functions */
................................................................................
  int nToken;                     /* 5th argument to snippet() */
  int nInst = 0;                  /* Number of instance matches this row */
  int i;                          /* Used to iterate through instances */
  int nPhrase;                    /* Number of phrases in query */
  unsigned char *aSeen;           /* Array of "seen instance" flags */
  int iBestCol;                   /* Column containing best snippet */
  int iBestStart = 0;             /* First token of best snippet */
  int iBestLast;                  /* Last token of best snippet */
  int nBestScore = 0;             /* Score of best snippet */
  int nColSize = 0;               /* Total size of iBestCol in tokens */



  if( nVal!=5 ){
    const char *zErr = "wrong number of arguments to function snippet()";
    sqlite3_result_error(pCtx, zErr, -1);
    return;
  }


  memset(&ctx, 0, sizeof(HighlightContext));
  iCol = sqlite3_value_int(apVal[0]);
  ctx.zOpen = (const char*)sqlite3_value_text(apVal[1]);
  ctx.zClose = (const char*)sqlite3_value_text(apVal[2]);
  zEllips = (const char*)sqlite3_value_text(apVal[3]);
  nToken = sqlite3_value_int(apVal[4]);
  iBestLast = nToken-1;

  iBestCol = (iCol>=0 ? iCol : 0);
  nPhrase = pApi->xPhraseCount(pFts);
  aSeen = sqlite3_malloc(nPhrase);
  if( aSeen==0 ){
    rc = SQLITE_NOMEM;
  }

  if( rc==SQLITE_OK ){
    rc = pApi->xInstCount(pFts, &nInst);
  }


















  for(i=0; rc==SQLITE_OK && i<nInst; i++){
    int ip, iSnippetCol, iStart;
    memset(aSeen, 0, nPhrase);
    rc = pApi->xInst(pFts, i, &ip, &iSnippetCol, &iStart);
    if( rc==SQLITE_OK && (iCol<0 || iSnippetCol==iCol) ){

      int nScore = 1000;
      int iLast = iStart - 1 + pApi->xPhraseSize(pFts, ip);
      int j;
      aSeen[ip] = 1;

      for(j=i+1; rc==SQLITE_OK && j<nInst; j++){
        int ic; int io; int iFinal;
        rc = pApi->xInst(pFts, j, &ip, &ic, &io);
        iFinal = io + pApi->xPhraseSize(pFts, ip) - 1;





        if( rc==SQLITE_OK && ic==iSnippetCol && iLast<iStart+nToken ){
          nScore += aSeen[ip] ? 1000 : 1;
          aSeen[ip] = 1;
          if( iFinal>iLast ) iLast = iFinal;




        }
      }












      if( rc==SQLITE_OK && nScore>nBestScore ){

        iBestCol = iSnippetCol;
        iBestStart = iStart;
        iBestLast = iLast;
        nBestScore = nScore;




      }
    }
  }

  if( rc==SQLITE_OK ){
    rc = pApi->xColumnSize(pFts, iBestCol, &nColSize);
  }
  if( rc==SQLITE_OK ){
    rc = pApi->xColumnText(pFts, iBestCol, &ctx.zIn, &ctx.nIn);
  }
  if( ctx.zIn ){
    if( rc==SQLITE_OK ){
      rc = fts5CInstIterInit(pApi, pFts, iBestCol, &ctx.iter);
    }

    if( (iBestStart+nToken-1)>iBestLast ){
      iBestStart -= (iBestStart+nToken-1-iBestLast) / 2;
    }
    if( iBestStart+nToken>nColSize ){
      iBestStart = nColSize - nToken;
    }
    if( iBestStart<0 ) iBestStart = 0;

    ctx.iRangeStart = iBestStart;
    ctx.iRangeEnd = iBestStart + nToken - 1;

    if( iBestStart>0 ){
      fts5HighlightAppend(&rc, &ctx, zEllips, -1);
    }







    if( rc==SQLITE_OK ){
      rc = pApi->xTokenize(pFts, ctx.zIn, ctx.nIn, (void*)&ctx,fts5HighlightCb);
    }
    if( ctx.iRangeEnd>=(nColSize-1) ){
      fts5HighlightAppend(&rc, &ctx, &ctx.zIn[ctx.iOff], ctx.nIn - ctx.iOff);
    }else{
      fts5HighlightAppend(&rc, &ctx, zEllips, -1);
    }

    if( rc==SQLITE_OK ){
      sqlite3_result_text(pCtx, (const char*)ctx.zOut, -1, SQLITE_TRANSIENT);
    }else{
      sqlite3_result_error_code(pCtx, rc);
    }
    sqlite3_free(ctx.zOut);
  }
  sqlite3_free(aSeen);

}

/************************************************************************/

/*
** The first time the bm25() function is called for a query, an instance
** of the following structure is allocated and populated.







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      rc = fts5CInstIterNext(&p->iter);
    }
  }

  if( p->iRangeEnd>0 && iPos==p->iRangeEnd ){
    fts5HighlightAppend(&rc, p, &p->zIn[p->iOff], iEndOff - p->iOff);
    p->iOff = iEndOff;
    if( iPos>=p->iter.iStart && iPos<p->iter.iEnd ){
      fts5HighlightAppend(&rc, p, p->zClose, -1);
    }
  }

  return rc;
}

................................................................................
  if( rc!=SQLITE_OK ){
    sqlite3_result_error_code(pCtx, rc);
  }
}
/*
** End of highlight() implementation.
**************************************************************************/

/*
** Context object passed to the fts5SentenceFinderCb() function.
*/
typedef struct Fts5SFinder Fts5SFinder;
struct Fts5SFinder {
  int iPos;                       /* Current token position */
  int nFirstAlloc;                /* Allocated size of aFirst[] */
  int nFirst;                     /* Number of entries in aFirst[] */
  int *aFirst;                    /* Array of first token in each sentence */
  const char *zDoc;               /* Document being tokenized */
};

/*
** Add an entry to the Fts5SFinder.aFirst[] array. Grow the array if
** necessary. Return SQLITE_OK if successful, or SQLITE_NOMEM if an
** error occurs.
*/
static int fts5SentenceFinderAdd(Fts5SFinder *p, int iAdd){
  if( p->nFirstAlloc==p->nFirst ){
    int nNew = p->nFirstAlloc ? p->nFirstAlloc*2 : 64;
    int *aNew;

    aNew = (int*)sqlite3_realloc(p->aFirst, nNew*sizeof(int));
    if( aNew==0 ) return SQLITE_NOMEM;
    p->aFirst = aNew;
    p->nFirstAlloc = nNew;
  }
  p->aFirst[p->nFirst++] = iAdd;
  return SQLITE_OK;
}

/*
** This function is an xTokenize() callback used by the auxiliary snippet()
** function. Its job is to identify tokens that are the first in a sentence.
** For each such token, an entry is added to the SFinder.aFirst[] array.
*/
static int fts5SentenceFinderCb(
  void *pContext,                 /* Pointer to HighlightContext object */
  int tflags,                     /* Mask of FTS5_TOKEN_* flags */
  const char *pToken,             /* Buffer containing token */
  int nToken,                     /* Size of token in bytes */
  int iStartOff,                  /* Start offset of token */
  int iEndOff                     /* End offset of token */
){
  int rc = SQLITE_OK;

  UNUSED_PARAM2(pToken, nToken);
  UNUSED_PARAM(iEndOff);

  if( (tflags & FTS5_TOKEN_COLOCATED)==0 ){
    Fts5SFinder *p = (Fts5SFinder*)pContext;
    if( p->iPos>0 ){
      int i;
      char c = 0;
      for(i=iStartOff-1; i>=0; i--){
        c = p->zDoc[i];
        if( c!=' ' && c!='\t' && c!='\n' && c!='\r' ) break;
      }
      if( i!=iStartOff-1 && (c=='.' || c==':') ){
        rc = fts5SentenceFinderAdd(p, p->iPos);
      }
    }else{
      rc = fts5SentenceFinderAdd(p, 0);
    }
    p->iPos++;
  }
  return rc;
}

static int fts5SnippetScore(
  const Fts5ExtensionApi *pApi,   /* API offered by current FTS version */
  Fts5Context *pFts,              /* First arg to pass to pApi functions */
  int nDocsize,                   /* Size of column in tokens */
  unsigned char *aSeen,           /* Array with one element per query phrase */
  int iCol,                       /* Column to score */
  int iPos,                       /* Starting offset to score */
  int nToken,                     /* Max tokens per snippet */
  int *pnScore,                   /* OUT: Score */
  int *piPos                      /* OUT: Adjusted offset */
){
  int rc;
  int i;
  int ip = 0;
  int ic = 0;
  int iOff = 0;
  int iFirst = -1;
  int nInst;
  int nScore = 0;
  int iLast = 0;

  rc = pApi->xInstCount(pFts, &nInst);
  for(i=0; i<nInst && rc==SQLITE_OK; i++){
    rc = pApi->xInst(pFts, i, &ip, &ic, &iOff);
    if( rc==SQLITE_OK && ic==iCol && iOff>=iPos && iOff<(iPos+nToken) ){
      nScore += (aSeen[ip] ? 1 : 1000);
      aSeen[ip] = 1;
      if( iFirst<0 ) iFirst = iOff;
      iLast = iOff + pApi->xPhraseSize(pFts, ip);
    }
  }

  *pnScore = nScore;
  if( piPos ){
    int iAdj = iFirst - (nToken - (iLast-iFirst)) / 2;
    if( (iAdj+nToken)>nDocsize ) iAdj = nDocsize - nToken;
    if( iAdj<0 ) iAdj = 0;
    *piPos = iAdj;
  }

  return rc;
}

/*
** Implementation of snippet() function.
*/
static void fts5SnippetFunction(
  const Fts5ExtensionApi *pApi,   /* API offered by current FTS version */
  Fts5Context *pFts,              /* First arg to pass to pApi functions */
................................................................................
  int nToken;                     /* 5th argument to snippet() */
  int nInst = 0;                  /* Number of instance matches this row */
  int i;                          /* Used to iterate through instances */
  int nPhrase;                    /* Number of phrases in query */
  unsigned char *aSeen;           /* Array of "seen instance" flags */
  int iBestCol;                   /* Column containing best snippet */
  int iBestStart = 0;             /* First token of best snippet */

  int nBestScore = 0;             /* Score of best snippet */
  int nColSize = 0;               /* Total size of iBestCol in tokens */
  Fts5SFinder sFinder;            /* Used to find the beginnings of sentences */
  int nCol;

  if( nVal!=5 ){
    const char *zErr = "wrong number of arguments to function snippet()";
    sqlite3_result_error(pCtx, zErr, -1);
    return;
  }

  nCol = pApi->xColumnCount(pFts);
  memset(&ctx, 0, sizeof(HighlightContext));
  iCol = sqlite3_value_int(apVal[0]);
  ctx.zOpen = (const char*)sqlite3_value_text(apVal[1]);
  ctx.zClose = (const char*)sqlite3_value_text(apVal[2]);
  zEllips = (const char*)sqlite3_value_text(apVal[3]);
  nToken = sqlite3_value_int(apVal[4]);


  iBestCol = (iCol>=0 ? iCol : 0);
  nPhrase = pApi->xPhraseCount(pFts);
  aSeen = sqlite3_malloc(nPhrase);
  if( aSeen==0 ){
    rc = SQLITE_NOMEM;
  }

  if( rc==SQLITE_OK ){
    rc = pApi->xInstCount(pFts, &nInst);
  }

  memset(&sFinder, 0, sizeof(Fts5SFinder));
  for(i=0; i<nCol; i++){
    if( iCol<0 || iCol==i ){
      int nDoc;
      int nDocsize;
      int ii;
      sFinder.iPos = 0;
      sFinder.nFirst = 0;
      rc = pApi->xColumnText(pFts, i, &sFinder.zDoc, &nDoc);
      if( rc!=SQLITE_OK ) break;
      rc = pApi->xTokenize(pFts, 
          sFinder.zDoc, nDoc, (void*)&sFinder,fts5SentenceFinderCb
      );
      if( rc!=SQLITE_OK ) break;
      rc = pApi->xColumnSize(pFts, i, &nDocsize);
      if( rc!=SQLITE_OK ) break;

      for(ii=0; rc==SQLITE_OK && ii<nInst; ii++){
        int ip, ic, io;



        int iAdj;
        int nScore;

        int jj;




        rc = pApi->xInst(pFts, ii, &ip, &ic, &io);

        if( ic!=i || rc!=SQLITE_OK ) continue;
        memset(aSeen, 0, nPhrase);
        rc = fts5SnippetScore(pApi, pFts, nDocsize, aSeen, i,
            io, nToken, &nScore, &iAdj
        );
        if( rc==SQLITE_OK && nScore>nBestScore ){



          nBestScore = nScore;
          iBestCol = i;
          iBestStart = iAdj;
          nColSize = nDocsize;
        }

        if( rc==SQLITE_OK && sFinder.nFirst && nDocsize>nToken ){
          for(jj=0; jj<(sFinder.nFirst-1); jj++){
            if( sFinder.aFirst[jj+1]>io ) break;
          }

          if( sFinder.aFirst[jj]<io ){
            memset(aSeen, 0, nPhrase);
            rc = fts5SnippetScore(pApi, pFts, nDocsize, aSeen, i, 
              sFinder.aFirst[jj], nToken, &nScore, 0
            );

            nScore += (sFinder.aFirst[jj]==0 ? 120 : 100);
            if( rc==SQLITE_OK && nScore>nBestScore ){
              nBestScore = nScore;
              iBestCol = i;
              iBestStart = sFinder.aFirst[jj];


              nColSize = nDocsize;
            }
          }
        }
      }
    }
  }

  if( rc==SQLITE_OK ){
    rc = pApi->xColumnText(pFts, iBestCol, &ctx.zIn, &ctx.nIn);
  }
  if( rc==SQLITE_OK && nColSize==0 ){
    rc = pApi->xColumnSize(pFts, iBestCol, &nColSize);
  }
  if( ctx.zIn ){
    if( rc==SQLITE_OK ){
      rc = fts5CInstIterInit(pApi, pFts, iBestCol, &ctx.iter);
    }









    ctx.iRangeStart = iBestStart;
    ctx.iRangeEnd = iBestStart + nToken - 1;

    if( iBestStart>0 ){
      fts5HighlightAppend(&rc, &ctx, zEllips, -1);
    }

    /* Advance iterator ctx.iter so that it points to the first coalesced
    ** phrase instance at or following position iBestStart. */
    while( ctx.iter.iStart>=0 && ctx.iter.iStart<iBestStart && rc==SQLITE_OK ){
      rc = fts5CInstIterNext(&ctx.iter);
    }

    if( rc==SQLITE_OK ){
      rc = pApi->xTokenize(pFts, ctx.zIn, ctx.nIn, (void*)&ctx,fts5HighlightCb);
    }
    if( ctx.iRangeEnd>=(nColSize-1) ){
      fts5HighlightAppend(&rc, &ctx, &ctx.zIn[ctx.iOff], ctx.nIn - ctx.iOff);
    }else{
      fts5HighlightAppend(&rc, &ctx, zEllips, -1);
    }
  }
  if( rc==SQLITE_OK ){
    sqlite3_result_text(pCtx, (const char*)ctx.zOut, -1, SQLITE_TRANSIENT);
  }else{
    sqlite3_result_error_code(pCtx, rc);
  }
  sqlite3_free(ctx.zOut);

  sqlite3_free(aSeen);
  sqlite3_free(sFinder.aFirst);
}

/************************************************************************/

/*
** The first time the bm25() function is called for a query, an instance
** of the following structure is allocated and populated.

Changes to ext/fts5/fts5_buffer.c.

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void sqlite3Fts5BufferAppendBlob(
  int *pRc,
  Fts5Buffer *pBuf, 
  u32 nData, 
  const u8 *pData
){
  assert_nc( *pRc || nData>=0 );

  if( fts5BufferGrow(pRc, pBuf, nData) ) return;
  memcpy(&pBuf->p[pBuf->n], pData, nData);
  pBuf->n += nData;

}

/*
** Append the nul-terminated string zStr to the buffer pBuf. This function
** ensures that the byte following the buffer data is set to 0x00, even 
** though this byte is not included in the pBuf->n count.
*/
................................................................................
  return SQLITE_OK;
}

void *sqlite3Fts5MallocZero(int *pRc, int nByte){
  void *pRet = 0;
  if( *pRc==SQLITE_OK ){
    pRet = sqlite3_malloc(nByte);
    if( pRet==0 && nByte>0 ){
      *pRc = SQLITE_NOMEM;
    }else{
      memset(pRet, 0, nByte);
    }
  }
  return pRet;
}








>
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>







 







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63
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void sqlite3Fts5BufferAppendBlob(
  int *pRc,
  Fts5Buffer *pBuf, 
  u32 nData, 
  const u8 *pData
){
  assert_nc( *pRc || nData>=0 );
  if( nData ){
    if( fts5BufferGrow(pRc, pBuf, nData) ) return;
    memcpy(&pBuf->p[pBuf->n], pData, nData);
    pBuf->n += nData;
  }
}

/*
** Append the nul-terminated string zStr to the buffer pBuf. This function
** ensures that the byte following the buffer data is set to 0x00, even 
** though this byte is not included in the pBuf->n count.
*/
................................................................................
  return SQLITE_OK;
}

void *sqlite3Fts5MallocZero(int *pRc, int nByte){
  void *pRet = 0;
  if( *pRc==SQLITE_OK ){
    pRet = sqlite3_malloc(nByte);
    if( pRet==0 ){
      if( nByte>0 ) *pRc = SQLITE_NOMEM;
    }else{
      memset(pRet, 0, nByte);
    }
  }
  return pRet;
}

Changes to ext/fts5/fts5_config.c.

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906
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*/


#include "fts5Int.h"

#define FTS5_DEFAULT_PAGE_SIZE   4050
#define FTS5_DEFAULT_AUTOMERGE      4

#define FTS5_DEFAULT_CRISISMERGE   16
#define FTS5_DEFAULT_HASHSIZE    (1024*1024)

/* Maximum allowed page size */
#define FTS5_MAX_PAGE_SIZE (128*1024)

static int fts5_iswhitespace(char x){
................................................................................
    memcpy(zOut, zIn, nIn+1);
    if( fts5_isopenquote(zOut[0]) ){
      int ii = fts5Dequote(zOut);
      zRet = &zIn[ii];
      *pbQuoted = 1;
    }else{
      zRet = fts5ConfigSkipBareword(zIn);

      zOut[zRet-zIn] = '\0';

    }
  }

  if( zRet==0 ){
    sqlite3_free(zOut);
  }else{
    *pzOut = zOut;
................................................................................
    if( nAutomerge<0 || nAutomerge>64 ){
      *pbBadkey = 1;
    }else{
      if( nAutomerge==1 ) nAutomerge = FTS5_DEFAULT_AUTOMERGE;
      pConfig->nAutomerge = nAutomerge;
    }
  }













  else if( 0==sqlite3_stricmp(zKey, "crisismerge") ){
    int nCrisisMerge = -1;
    if( SQLITE_INTEGER==sqlite3_value_numeric_type(pVal) ){
      nCrisisMerge = sqlite3_value_int(pVal);
    }
    if( nCrisisMerge<0 ){
................................................................................
  sqlite3_stmt *p = 0;
  int rc = SQLITE_OK;
  int iVersion = 0;

  /* Set default values */
  pConfig->pgsz = FTS5_DEFAULT_PAGE_SIZE;
  pConfig->nAutomerge = FTS5_DEFAULT_AUTOMERGE;

  pConfig->nCrisisMerge = FTS5_DEFAULT_CRISISMERGE;
  pConfig->nHashSize = FTS5_DEFAULT_HASHSIZE;

  zSql = sqlite3Fts5Mprintf(&rc, zSelect, pConfig->zDb, pConfig->zName);
  if( zSql ){
    rc = sqlite3_prepare_v2(pConfig->db, zSql, -1, &p, 0);
    sqlite3_free(zSql);







>







 







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*/


#include "fts5Int.h"

#define FTS5_DEFAULT_PAGE_SIZE   4050
#define FTS5_DEFAULT_AUTOMERGE      4
#define FTS5_DEFAULT_USERMERGE      4
#define FTS5_DEFAULT_CRISISMERGE   16
#define FTS5_DEFAULT_HASHSIZE    (1024*1024)

/* Maximum allowed page size */
#define FTS5_MAX_PAGE_SIZE (128*1024)

static int fts5_iswhitespace(char x){
................................................................................
    memcpy(zOut, zIn, nIn+1);
    if( fts5_isopenquote(zOut[0]) ){
      int ii = fts5Dequote(zOut);
      zRet = &zIn[ii];
      *pbQuoted = 1;
    }else{
      zRet = fts5ConfigSkipBareword(zIn);
      if( zRet ){
        zOut[zRet-zIn] = '\0';
      }
    }
  }

  if( zRet==0 ){
    sqlite3_free(zOut);
  }else{
    *pzOut = zOut;
................................................................................
    if( nAutomerge<0 || nAutomerge>64 ){
      *pbBadkey = 1;
    }else{
      if( nAutomerge==1 ) nAutomerge = FTS5_DEFAULT_AUTOMERGE;
      pConfig->nAutomerge = nAutomerge;
    }
  }

  else if( 0==sqlite3_stricmp(zKey, "usermerge") ){
    int nUsermerge = -1;
    if( SQLITE_INTEGER==sqlite3_value_numeric_type(pVal) ){
      nUsermerge = sqlite3_value_int(pVal);
    }
    if( nUsermerge<2 || nUsermerge>16 ){
      *pbBadkey = 1;
    }else{
      pConfig->nUsermerge = nUsermerge;
    }
  }

  else if( 0==sqlite3_stricmp(zKey, "crisismerge") ){
    int nCrisisMerge = -1;
    if( SQLITE_INTEGER==sqlite3_value_numeric_type(pVal) ){
      nCrisisMerge = sqlite3_value_int(pVal);
    }
    if( nCrisisMerge<0 ){
................................................................................
  sqlite3_stmt *p = 0;
  int rc = SQLITE_OK;
  int iVersion = 0;

  /* Set default values */
  pConfig->pgsz = FTS5_DEFAULT_PAGE_SIZE;
  pConfig->nAutomerge = FTS5_DEFAULT_AUTOMERGE;
  pConfig->nUsermerge = FTS5_DEFAULT_USERMERGE;
  pConfig->nCrisisMerge = FTS5_DEFAULT_CRISISMERGE;
  pConfig->nHashSize = FTS5_DEFAULT_HASHSIZE;

  zSql = sqlite3Fts5Mprintf(&rc, zSelect, pConfig->zDb, pConfig->zName);
  if( zSql ){
    rc = sqlite3_prepare_v2(pConfig->db, zSql, -1, &p, 0);
    sqlite3_free(zSql);

Changes to ext/fts5/fts5_expr.c.

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2411
2412
2413
2414
2415
....
2505
2506
2507
2508
2509
2510
2511
2512
2513
2514
2515
2516
2517
2518
2519
2520
2521
2522
2523
2524
2525
2526
2527
2528
2529
    case ')':  tok = FTS5_RP;    break;
    case '{':  tok = FTS5_LCP;   break;
    case '}':  tok = FTS5_RCP;   break;
    case ':':  tok = FTS5_COLON; break;
    case ',':  tok = FTS5_COMMA; break;
    case '+':  tok = FTS5_PLUS;  break;
    case '*':  tok = FTS5_STAR;  break;

    case '\0': tok = FTS5_EOF;   break;

    case '"': {
      const char *z2;
      tok = FTS5_STRING;

      for(z2=&z[1]; 1; z2++){
................................................................................
}

static void *fts5ParseAlloc(u64 t){ return sqlite3_malloc((int)t); }
static void fts5ParseFree(void *p){ sqlite3_free(p); }

int sqlite3Fts5ExprNew(
  Fts5Config *pConfig,            /* FTS5 Configuration */

  const char *zExpr,              /* Expression text */
  Fts5Expr **ppNew, 
  char **pzErr
){
  Fts5Parse sParse;
  Fts5Token token;
  const char *z = zExpr;
................................................................................
  sParse.pConfig = pConfig;

  do {
    t = fts5ExprGetToken(&sParse, &z, &token);
    sqlite3Fts5Parser(pEngine, t, token, &sParse);
  }while( sParse.rc==SQLITE_OK && t!=FTS5_EOF );
  sqlite3Fts5ParserFree(pEngine, fts5ParseFree);













  assert( sParse.rc!=SQLITE_OK || sParse.zErr==0 );
  if( sParse.rc==SQLITE_OK ){
    *ppNew = pNew = sqlite3_malloc(sizeof(Fts5Expr));
    if( pNew==0 ){
      sParse.rc = SQLITE_NOMEM;
      sqlite3Fts5ParseNodeFree(sParse.pExpr);
................................................................................
      }
      pNew->pIndex = 0;
      pNew->pConfig = pConfig;
      pNew->apExprPhrase = sParse.apPhrase;
      pNew->nPhrase = sParse.nPhrase;
      sParse.apPhrase = 0;
    }


  }

  sqlite3_free(sParse.apPhrase);
  *pzErr = sParse.zErr;
  return sParse.rc;
}

................................................................................
}


/*
** Initialize all term iterators in the pNear object. If any term is found
** to match no documents at all, return immediately without initializing any
** further iterators.




*/
static int fts5ExprNearInitAll(
  Fts5Expr *pExpr,
  Fts5ExprNode *pNode
){
  Fts5ExprNearset *pNear = pNode->pNear;
  int i, j;
  int rc = SQLITE_OK;

  assert( pNode->bNomatch==0 );
  for(i=0; rc==SQLITE_OK && i<pNear->nPhrase; i++){
    Fts5ExprPhrase *pPhrase = pNear->apPhrase[i];





    for(j=0; j<pPhrase->nTerm; j++){
      Fts5ExprTerm *pTerm = &pPhrase->aTerm[j];
      Fts5ExprTerm *p;
      int bEof = 1;

      for(p=pTerm; p && rc==SQLITE_OK; p=p->pSynonym){


        if( p->pIter ){
          sqlite3Fts5IterClose(p->pIter);
          p->pIter = 0;
        }
        rc = sqlite3Fts5IndexQuery(
            pExpr->pIndex, p->zTerm, (int)strlen(p->zTerm),
            (pTerm->bPrefix ? FTS5INDEX_QUERY_PREFIX : 0) |
            (pExpr->bDesc ? FTS5INDEX_QUERY_DESC : 0),
            pNear->pColset,
            &p->pIter
        );
        assert( rc==SQLITE_OK || p->pIter==0 );


        if( p->pIter && 0==sqlite3Fts5IterEof(p->pIter) ){
          bEof = 0;

        }
      }

      if( bEof ){
        pNode->bEof = 1;
        return rc;
      }
    }
  }



  return rc;
}

/*
** If pExpr is an ASC iterator, this function returns a value with the
** same sign as:
**
**   (iLhs - iRhs)
................................................................................
          if( fts5ExprSynonymAdvanceto(pTerm, bDesc, &iLast, &rc) ){
            pNode->bNomatch = 0;
            pNode->bEof = 1;
            return rc;
          }
        }else{
          Fts5IndexIter *pIter = pPhrase->aTerm[j].pIter;
          if( pIter->iRowid==iLast ) continue;
          bMatch = 0;
          if( fts5ExprAdvanceto(pIter, bDesc, &iLast, &rc, &pNode->bEof) ){
            return rc;
          }
        }
      }
    }
................................................................................
    Fts5ExprNode *p1 = pNode->apChild[i];
    assert( p1->bEof || fts5RowidCmp(pExpr, p1->iRowid, iLast)>=0 );
    if( p1->bEof==0 ){
      if( (p1->iRowid==iLast) 
       || (bFromValid && fts5RowidCmp(pExpr, p1->iRowid, iFrom)<0)
      ){
        int rc = fts5ExprNodeNext(pExpr, p1, bFromValid, iFrom);
        if( rc!=SQLITE_OK ) return rc;



      }
    }
  }

  fts5ExprNodeTest_OR(pExpr, pNode);
  return SQLITE_OK;
}
................................................................................
    bMatch = 1;
    for(iChild=0; iChild<pAnd->nChild; iChild++){
      Fts5ExprNode *pChild = pAnd->apChild[iChild];
      int cmp = fts5RowidCmp(pExpr, iLast, pChild->iRowid);
      if( cmp>0 ){
        /* Advance pChild until it points to iLast or laster */
        rc = fts5ExprNodeNext(pExpr, pChild, 1, iLast);
        if( rc!=SQLITE_OK ) return rc;



      }

      /* If the child node is now at EOF, so is the parent AND node. Otherwise,
      ** the child node is guaranteed to have advanced at least as far as
      ** rowid iLast. So if it is not at exactly iLast, pChild->iRowid is the
      ** new lastest rowid seen so far.  */
      assert( pChild->bEof || fts5RowidCmp(pExpr, iLast, pChild->iRowid)<=0 );
................................................................................
  Fts5ExprNode *pNode,
  int bFromValid,
  i64 iFrom
){
  int rc = fts5ExprNodeNext(pExpr, pNode->apChild[0], bFromValid, iFrom);
  if( rc==SQLITE_OK ){
    rc = fts5ExprNodeTest_AND(pExpr, pNode);


  }
  return rc;
}

static int fts5ExprNodeTest_NOT(
  Fts5Expr *pExpr,                /* Expression pPhrase belongs to */
  Fts5ExprNode *pNode             /* FTS5_NOT node to advance */
................................................................................
  int bFromValid,
  i64 iFrom
){
  int rc = fts5ExprNodeNext(pExpr, pNode->apChild[0], bFromValid, iFrom);
  if( rc==SQLITE_OK ){
    rc = fts5ExprNodeTest_NOT(pExpr, pNode);
  }



  return rc;
}

/*
** If pNode currently points to a match, this function returns SQLITE_OK
** without modifying it. Otherwise, pNode is advanced until it does point
** to a match or EOF is reached.
................................................................................
  int rc = SQLITE_OK;
  pNode->bEof = 0;
  pNode->bNomatch = 0;

  if( Fts5NodeIsString(pNode) ){
    /* Initialize all term iterators in the NEAR object. */
    rc = fts5ExprNearInitAll(pExpr, pNode);


  }else{
    int i;
    int nEof = 0;
    for(i=0; i<pNode->nChild && rc==SQLITE_OK; i++){
      Fts5ExprNode *pChild = pNode->apChild[i];
      rc = fts5ExprNodeFirst(pExpr, pNode->apChild[i]);
      assert( pChild->bEof==0 || pChild->bEof==1 );
................................................................................
** equal to iFirst.
**
** Return SQLITE_OK if successful, or an SQLite error code otherwise. It
** is not considered an error if the query does not match any documents.
*/
int sqlite3Fts5ExprFirst(Fts5Expr *p, Fts5Index *pIdx, i64 iFirst, int bDesc){
  Fts5ExprNode *pRoot = p->pRoot;
  int rc = SQLITE_OK;
  if( pRoot->xNext ){

    p->pIndex = pIdx;
    p->bDesc = bDesc;
    rc = fts5ExprNodeFirst(p, pRoot);

    /* If not at EOF but the current rowid occurs earlier than iFirst in
    ** the iteration order, move to document iFirst or later. */


    if( pRoot->bEof==0 && fts5RowidCmp(p, pRoot->iRowid, iFirst)<0 ){

      rc = fts5ExprNodeNext(p, pRoot, 1, iFirst);
    }

    /* If the iterator is not at a real match, skip forward until it is. */
    while( pRoot->bNomatch ){
      assert( pRoot->bEof==0 && rc==SQLITE_OK );
      rc = fts5ExprNodeNext(p, pRoot, 0, 0);
    }
  }
  return rc;
}

/*
** Move to the next document 
**
................................................................................
  }

  if( pRet==0 ){
    assert( pParse->rc!=SQLITE_OK );
    sqlite3Fts5ParseNearsetFree(pNear);
    sqlite3Fts5ParsePhraseFree(pPhrase);
  }else{















    pRet->apPhrase[pRet->nPhrase++] = pPhrase;
  }
  return pRet;
}

typedef struct TokenCtx TokenCtx;
struct TokenCtx {
................................................................................
  TokenCtx *pCtx = (TokenCtx*)pContext;
  Fts5ExprPhrase *pPhrase = pCtx->pPhrase;

  UNUSED_PARAM2(iUnused1, iUnused2);

  /* If an error has already occurred, this is a no-op */
  if( pCtx->rc!=SQLITE_OK ) return pCtx->rc;

  assert( pPhrase==0 || pPhrase->nTerm>0 );
  if( pPhrase && (tflags & FTS5_TOKEN_COLOCATED) ){
    Fts5ExprTerm *pSyn;
    int nByte = sizeof(Fts5ExprTerm) + sizeof(Fts5Buffer) + nToken+1;
    pSyn = (Fts5ExprTerm*)sqlite3_malloc(nByte);
    if( pSyn==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pSyn, 0, nByte);
................................................................................
  char *z = 0;

  memset(&sCtx, 0, sizeof(TokenCtx));
  sCtx.pPhrase = pAppend;

  rc = fts5ParseStringFromToken(pToken, &z);
  if( rc==SQLITE_OK ){
    int flags = FTS5_TOKENIZE_QUERY | (bPrefix ? FTS5_TOKENIZE_QUERY : 0);
    int n;
    sqlite3Fts5Dequote(z);
    n = (int)strlen(z);
    rc = sqlite3Fts5Tokenize(pConfig, flags, z, n, &sCtx, fts5ParseTokenize);
  }
  sqlite3_free(z);
  if( rc || (rc = sCtx.rc) ){
    pParse->rc = rc;
    fts5ExprPhraseFree(sCtx.pPhrase);
    sCtx.pPhrase = 0;
  }else if( sCtx.pPhrase ){

    if( pAppend==0 ){
      if( (pParse->nPhrase % 8)==0 ){
        int nByte = sizeof(Fts5ExprPhrase*) * (pParse->nPhrase + 8);
        Fts5ExprPhrase **apNew;
        apNew = (Fts5ExprPhrase**)sqlite3_realloc(pParse->apPhrase, nByte);
        if( apNew==0 ){
................................................................................
          return 0;
        }
        pParse->apPhrase = apNew;
      }
      pParse->nPhrase++;
    }

    pParse->apPhrase[pParse->nPhrase-1] = sCtx.pPhrase;



    assert( sCtx.pPhrase->nTerm>0 );
    sCtx.pPhrase->aTerm[sCtx.pPhrase->nTerm-1].bPrefix = bPrefix;


  }

  return sCtx.pPhrase;
}

/*
** Create a new FTS5 expression by cloning phrase iPhrase of the
................................................................................
int sqlite3Fts5ExprClonePhrase(
  Fts5Expr *pExpr, 
  int iPhrase, 
  Fts5Expr **ppNew
){
  int rc = SQLITE_OK;             /* Return code */
  Fts5ExprPhrase *pOrig;          /* The phrase extracted from pExpr */
  int i;                          /* Used to iterate through phrase terms */
  Fts5Expr *pNew = 0;             /* Expression to return via *ppNew */
  TokenCtx sCtx = {0,0};          /* Context object for fts5ParseTokenize */

  pOrig = pExpr->apExprPhrase[iPhrase];
  pNew = (Fts5Expr*)sqlite3Fts5MallocZero(&rc, sizeof(Fts5Expr));
  if( rc==SQLITE_OK ){
    pNew->apExprPhrase = (Fts5ExprPhrase**)sqlite3Fts5MallocZero(&rc, 
................................................................................
    pNew->pRoot = (Fts5ExprNode*)sqlite3Fts5MallocZero(&rc, 
        sizeof(Fts5ExprNode));
  }
  if( rc==SQLITE_OK ){
    pNew->pRoot->pNear = (Fts5ExprNearset*)sqlite3Fts5MallocZero(&rc, 
        sizeof(Fts5ExprNearset) + sizeof(Fts5ExprPhrase*));
  }














  for(i=0; rc==SQLITE_OK && i<pOrig->nTerm; i++){
    int tflags = 0;
    Fts5ExprTerm *p;
    for(p=&pOrig->aTerm[i]; p && rc==SQLITE_OK; p=p->pSynonym){
      const char *zTerm = p->zTerm;
      rc = fts5ParseTokenize((void*)&sCtx, tflags, zTerm, (int)strlen(zTerm),
          0, 0);
      tflags = FTS5_TOKEN_COLOCATED;
    }
    if( rc==SQLITE_OK ){
      sCtx.pPhrase->aTerm[i].bPrefix = pOrig->aTerm[i].bPrefix;
    }





  }

  if( rc==SQLITE_OK ){
    /* All the allocations succeeded. Put the expression object together. */
    pNew->pIndex = pExpr->pIndex;
    pNew->pConfig = pExpr->pConfig;
    pNew->nPhrase = 1;
................................................................................
}

void sqlite3Fts5ParseSetDistance(
  Fts5Parse *pParse, 
  Fts5ExprNearset *pNear,
  Fts5Token *p
){

  int nNear = 0;
  int i;
  if( p->n ){
    for(i=0; i<p->n; i++){
      char c = (char)p->p[i];
      if( c<'0' || c>'9' ){
        sqlite3Fts5ParseError(
            pParse, "expected integer, got \"%.*s\"", p->n, p->p
        );
        return;
      }
      nNear = nNear * 10 + (p->p[i] - '0');
    }
  }else{
    nNear = FTS5_DEFAULT_NEARDIST;
  }
  pNear->nNear = nNear;

}

/*
** The second argument passed to this function may be NULL, or it may be
** an existing Fts5Colset object. This function returns a pointer to
** a new colset object containing the contents of (p) with new value column
** number iCol appended. 
................................................................................
    /* Check that the array is in order and contains no duplicate entries. */
    for(i=1; i<pNew->nCol; i++) assert( pNew->aiCol[i]>pNew->aiCol[i-1] );
#endif
  }

  return pNew;
}





























Fts5Colset *sqlite3Fts5ParseColset(
  Fts5Parse *pParse,              /* Store SQLITE_NOMEM here if required */
  Fts5Colset *pColset,            /* Existing colset object */
  Fts5Token *p
){
  Fts5Colset *pRet = 0;
................................................................................
    assert( pParse->rc!=SQLITE_OK );
    sqlite3_free(pColset);
  }

  return pRet;
}


























































































void sqlite3Fts5ParseSetColset(
  Fts5Parse *pParse, 
  Fts5ExprNearset *pNear, 
  Fts5Colset *pColset 
){

  if( pParse->pConfig->eDetail==FTS5_DETAIL_NONE ){
    pParse->rc = SQLITE_ERROR;
    pParse->zErr = sqlite3_mprintf(
      "fts5: column queries are not supported (detail=none)"
    );
    sqlite3_free(pColset);
    return;
  }

  if( pNear ){
    pNear->pColset = pColset;
  }else{
    sqlite3_free(pColset);

  }

}

static void fts5ExprAssignXNext(Fts5ExprNode *pNode){
  switch( pNode->eType ){
    case FTS5_STRING: {
      Fts5ExprNearset *pNear = pNode->pNear;
      if( pNear->nPhrase==1 && pNear->apPhrase[0]->nTerm==1 
................................................................................
      pRet->eType = eType;
      pRet->pNear = pNear;
      fts5ExprAssignXNext(pRet);
      if( eType==FTS5_STRING ){
        int iPhrase;
        for(iPhrase=0; iPhrase<pNear->nPhrase; iPhrase++){
          pNear->apPhrase[iPhrase]->pNode = pRet;




        }

        if( pParse->pConfig->eDetail!=FTS5_DETAIL_FULL 
         && (pNear->nPhrase!=1 || pNear->apPhrase[0]->nTerm!=1)
        ){
          assert( pParse->rc==SQLITE_OK );
          pParse->rc = SQLITE_ERROR;
          assert( pParse->zErr==0 );
          pParse->zErr = sqlite3_mprintf(
              "fts5: %s queries are not supported (detail!=full)", 
              pNear->nPhrase==1 ? "phrase": "NEAR"
................................................................................

  if( pRet==0 ){
    assert( pParse->rc!=SQLITE_OK );
    sqlite3Fts5ParseNodeFree(pLeft);
    sqlite3Fts5ParseNodeFree(pRight);
    sqlite3Fts5ParseNearsetFree(pNear);
  }
































































  return pRet;
}

static char *fts5ExprTermPrint(Fts5ExprTerm *pTerm){
  int nByte = 0;
  Fts5ExprTerm *p;
  char *zQuoted;
................................................................................
  }

  return zRet;
}

static char *fts5ExprPrint(Fts5Config *pConfig, Fts5ExprNode *pExpr){
  char *zRet = 0;



  if( pExpr->eType==FTS5_STRING || pExpr->eType==FTS5_TERM ){
    Fts5ExprNearset *pNear = pExpr->pNear;
    int i; 
    int iTerm;

    if( pNear->pColset ){
      int iCol = pNear->pColset->aiCol[0];
................................................................................
    for(i=0; i<pExpr->nChild; i++){
      char *z = fts5ExprPrint(pConfig, pExpr->apChild[i]);
      if( z==0 ){
        sqlite3_free(zRet);
        zRet = 0;
      }else{
        int e = pExpr->apChild[i]->eType;
        int b = (e!=FTS5_STRING && e!=FTS5_TERM);
        zRet = fts5PrintfAppend(zRet, "%s%s%z%s", 
            (i==0 ? "" : zOp),
            (b?"(":""), z, (b?")":"")
        );
      }
      if( zRet==0 ) break;
    }
................................................................................
    azConfig[i++] = (const char*)sqlite3_value_text(apVal[iArg]);
  }

  zExpr = (const char*)sqlite3_value_text(apVal[0]);

  rc = sqlite3Fts5ConfigParse(pGlobal, db, nConfig, azConfig, &pConfig, &zErr);
  if( rc==SQLITE_OK ){
    rc = sqlite3Fts5ExprNew(pConfig, zExpr, &pExpr, &zErr);
  }
  if( rc==SQLITE_OK ){
    char *zText;
    if( pExpr->pRoot->xNext==0 ){
      zText = sqlite3_mprintf("");
    }else if( bTcl ){
      zText = fts5ExprPrintTcl(pConfig, zNearsetCmd, pExpr->pRoot);
................................................................................
){
  Fts5ExprCtx *p = (Fts5ExprCtx*)pCtx;
  Fts5Expr *pExpr = p->pExpr;
  int i;

  UNUSED_PARAM2(iUnused1, iUnused2);


  if( (tflags & FTS5_TOKEN_COLOCATED)==0 ) p->iOff++;
  for(i=0; i<pExpr->nPhrase; i++){
    Fts5ExprTerm *pTerm;
    if( p->aPopulator[i].bOk==0 ) continue;
    for(pTerm=&pExpr->apExprPhrase[i]->aTerm[0]; pTerm; pTerm=pTerm->pSynonym){
      int nTerm = strlen(pTerm->zTerm);
      if( (nTerm==nToken || (nTerm<nToken && pTerm->bPrefix))
       && memcmp(pTerm->zTerm, pToken, nTerm)==0
      ){
        int rc = sqlite3Fts5PoslistWriterAppend(
            &pExpr->apExprPhrase[i]->poslist, &p->aPopulator[i].writer, p->iOff
        );
        if( rc ) return rc;
................................................................................
  return 1;
}

void sqlite3Fts5ExprCheckPoslists(Fts5Expr *pExpr, i64 iRowid){
  fts5ExprCheckPoslists(pExpr->pRoot, iRowid);
}

static void fts5ExprClearEof(Fts5ExprNode *pNode){
  int i;
  for(i=0; i<pNode->nChild; i++){
    fts5ExprClearEof(pNode->apChild[i]);
  }
  pNode->bEof = 0;
}
void sqlite3Fts5ExprClearEof(Fts5Expr *pExpr){
  fts5ExprClearEof(pExpr->pRoot);
}

/*
** This function is only called for detail=columns tables. 
*/
int sqlite3Fts5ExprPhraseCollist(
  Fts5Expr *pExpr, 
  int iPhrase, 
  const u8 **ppCollist, 







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2779
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    case ')':  tok = FTS5_RP;    break;
    case '{':  tok = FTS5_LCP;   break;
    case '}':  tok = FTS5_RCP;   break;
    case ':':  tok = FTS5_COLON; break;
    case ',':  tok = FTS5_COMMA; break;
    case '+':  tok = FTS5_PLUS;  break;
    case '*':  tok = FTS5_STAR;  break;
    case '-':  tok = FTS5_MINUS; break;
    case '\0': tok = FTS5_EOF;   break;

    case '"': {
      const char *z2;
      tok = FTS5_STRING;

      for(z2=&z[1]; 1; z2++){
................................................................................
}

static void *fts5ParseAlloc(u64 t){ return sqlite3_malloc((int)t); }
static void fts5ParseFree(void *p){ sqlite3_free(p); }

int sqlite3Fts5ExprNew(
  Fts5Config *pConfig,            /* FTS5 Configuration */
  int iCol,
  const char *zExpr,              /* Expression text */
  Fts5Expr **ppNew, 
  char **pzErr
){
  Fts5Parse sParse;
  Fts5Token token;
  const char *z = zExpr;
................................................................................
  sParse.pConfig = pConfig;

  do {
    t = fts5ExprGetToken(&sParse, &z, &token);
    sqlite3Fts5Parser(pEngine, t, token, &sParse);
  }while( sParse.rc==SQLITE_OK && t!=FTS5_EOF );
  sqlite3Fts5ParserFree(pEngine, fts5ParseFree);

  /* If the LHS of the MATCH expression was a user column, apply the
  ** implicit column-filter.  */
  if( iCol<pConfig->nCol && sParse.pExpr && sParse.rc==SQLITE_OK ){
    int n = sizeof(Fts5Colset);
    Fts5Colset *pColset = (Fts5Colset*)sqlite3Fts5MallocZero(&sParse.rc, n);
    if( pColset ){
      pColset->nCol = 1;
      pColset->aiCol[0] = iCol;
      sqlite3Fts5ParseSetColset(&sParse, sParse.pExpr, pColset);
    }
  }

  assert( sParse.rc!=SQLITE_OK || sParse.zErr==0 );
  if( sParse.rc==SQLITE_OK ){
    *ppNew = pNew = sqlite3_malloc(sizeof(Fts5Expr));
    if( pNew==0 ){
      sParse.rc = SQLITE_NOMEM;
      sqlite3Fts5ParseNodeFree(sParse.pExpr);
................................................................................
      }
      pNew->pIndex = 0;
      pNew->pConfig = pConfig;
      pNew->apExprPhrase = sParse.apPhrase;
      pNew->nPhrase = sParse.nPhrase;
      sParse.apPhrase = 0;
    }
  }else{
    sqlite3Fts5ParseNodeFree(sParse.pExpr);
  }

  sqlite3_free(sParse.apPhrase);
  *pzErr = sParse.zErr;
  return sParse.rc;
}

................................................................................
}


/*
** Initialize all term iterators in the pNear object. If any term is found
** to match no documents at all, return immediately without initializing any
** further iterators.
**
** If an error occurs, return an SQLite error code. Otherwise, return
** SQLITE_OK. It is not considered an error if some term matches zero
** documents.
*/
static int fts5ExprNearInitAll(
  Fts5Expr *pExpr,
  Fts5ExprNode *pNode
){
  Fts5ExprNearset *pNear = pNode->pNear;
  int i;


  assert( pNode->bNomatch==0 );
  for(i=0; i<pNear->nPhrase; i++){
    Fts5ExprPhrase *pPhrase = pNear->apPhrase[i];
    if( pPhrase->nTerm==0 ){
      pNode->bEof = 1;
      return SQLITE_OK;
    }else{
      int j;
      for(j=0; j<pPhrase->nTerm; j++){
        Fts5ExprTerm *pTerm = &pPhrase->aTerm[j];
        Fts5ExprTerm *p;
        int bHit = 0;


        for(p=pTerm; p; p=p->pSynonym){
          int rc;
          if( p->pIter ){
            sqlite3Fts5IterClose(p->pIter);
            p->pIter = 0;
          }
          rc = sqlite3Fts5IndexQuery(
              pExpr->pIndex, p->zTerm, (int)strlen(p->zTerm),
              (pTerm->bPrefix ? FTS5INDEX_QUERY_PREFIX : 0) |
              (pExpr->bDesc ? FTS5INDEX_QUERY_DESC : 0),
              pNear->pColset,
              &p->pIter
          );

          assert( (rc==SQLITE_OK)==(p->pIter!=0) );
          if( rc!=SQLITE_OK ) return rc;
          if( 0==sqlite3Fts5IterEof(p->pIter) ){

            bHit = 1;
          }
        }

        if( bHit==0 ){
          pNode->bEof = 1;
          return SQLITE_OK;
        }
      }
    }
  }

  pNode->bEof = 0;
  return SQLITE_OK;
}

/*
** If pExpr is an ASC iterator, this function returns a value with the
** same sign as:
**
**   (iLhs - iRhs)
................................................................................
          if( fts5ExprSynonymAdvanceto(pTerm, bDesc, &iLast, &rc) ){
            pNode->bNomatch = 0;
            pNode->bEof = 1;
            return rc;
          }
        }else{
          Fts5IndexIter *pIter = pPhrase->aTerm[j].pIter;
          if( pIter->iRowid==iLast || pIter->bEof ) continue;
          bMatch = 0;
          if( fts5ExprAdvanceto(pIter, bDesc, &iLast, &rc, &pNode->bEof) ){
            return rc;
          }
        }
      }
    }
................................................................................
    Fts5ExprNode *p1 = pNode->apChild[i];
    assert( p1->bEof || fts5RowidCmp(pExpr, p1->iRowid, iLast)>=0 );
    if( p1->bEof==0 ){
      if( (p1->iRowid==iLast) 
       || (bFromValid && fts5RowidCmp(pExpr, p1->iRowid, iFrom)<0)
      ){
        int rc = fts5ExprNodeNext(pExpr, p1, bFromValid, iFrom);
        if( rc!=SQLITE_OK ){
          pNode->bNomatch = 0;
          return rc;
        }
      }
    }
  }

  fts5ExprNodeTest_OR(pExpr, pNode);
  return SQLITE_OK;
}
................................................................................
    bMatch = 1;
    for(iChild=0; iChild<pAnd->nChild; iChild++){
      Fts5ExprNode *pChild = pAnd->apChild[iChild];
      int cmp = fts5RowidCmp(pExpr, iLast, pChild->iRowid);
      if( cmp>0 ){
        /* Advance pChild until it points to iLast or laster */
        rc = fts5ExprNodeNext(pExpr, pChild, 1, iLast);
        if( rc!=SQLITE_OK ){
          pAnd->bNomatch = 0;
          return rc;
        }
      }

      /* If the child node is now at EOF, so is the parent AND node. Otherwise,
      ** the child node is guaranteed to have advanced at least as far as
      ** rowid iLast. So if it is not at exactly iLast, pChild->iRowid is the
      ** new lastest rowid seen so far.  */
      assert( pChild->bEof || fts5RowidCmp(pExpr, iLast, pChild->iRowid)<=0 );
................................................................................
  Fts5ExprNode *pNode,
  int bFromValid,
  i64 iFrom
){
  int rc = fts5ExprNodeNext(pExpr, pNode->apChild[0], bFromValid, iFrom);
  if( rc==SQLITE_OK ){
    rc = fts5ExprNodeTest_AND(pExpr, pNode);
  }else{
    pNode->bNomatch = 0;
  }
  return rc;
}

static int fts5ExprNodeTest_NOT(
  Fts5Expr *pExpr,                /* Expression pPhrase belongs to */
  Fts5ExprNode *pNode             /* FTS5_NOT node to advance */
................................................................................
  int bFromValid,
  i64 iFrom
){
  int rc = fts5ExprNodeNext(pExpr, pNode->apChild[0], bFromValid, iFrom);
  if( rc==SQLITE_OK ){
    rc = fts5ExprNodeTest_NOT(pExpr, pNode);
  }
  if( rc!=SQLITE_OK ){
    pNode->bNomatch = 0;
  }
  return rc;
}

/*
** If pNode currently points to a match, this function returns SQLITE_OK
** without modifying it. Otherwise, pNode is advanced until it does point
** to a match or EOF is reached.
................................................................................
  int rc = SQLITE_OK;
  pNode->bEof = 0;
  pNode->bNomatch = 0;

  if( Fts5NodeIsString(pNode) ){
    /* Initialize all term iterators in the NEAR object. */
    rc = fts5ExprNearInitAll(pExpr, pNode);
  }else if( pNode->xNext==0 ){
    pNode->bEof = 1;
  }else{
    int i;
    int nEof = 0;
    for(i=0; i<pNode->nChild && rc==SQLITE_OK; i++){
      Fts5ExprNode *pChild = pNode->apChild[i];
      rc = fts5ExprNodeFirst(pExpr, pNode->apChild[i]);
      assert( pChild->bEof==0 || pChild->bEof==1 );
................................................................................
** equal to iFirst.
**
** Return SQLITE_OK if successful, or an SQLite error code otherwise. It
** is not considered an error if the query does not match any documents.
*/
int sqlite3Fts5ExprFirst(Fts5Expr *p, Fts5Index *pIdx, i64 iFirst, int bDesc){
  Fts5ExprNode *pRoot = p->pRoot;
  int rc;                         /* Return code */


  p->pIndex = pIdx;
  p->bDesc = bDesc;
  rc = fts5ExprNodeFirst(p, pRoot);

  /* If not at EOF but the current rowid occurs earlier than iFirst in
  ** the iteration order, move to document iFirst or later. */
  if( rc==SQLITE_OK 
   && 0==pRoot->bEof 
   && fts5RowidCmp(p, pRoot->iRowid, iFirst)<0 
  ){
    rc = fts5ExprNodeNext(p, pRoot, 1, iFirst);
  }

  /* If the iterator is not at a real match, skip forward until it is. */
  while( pRoot->bNomatch ){
    assert( pRoot->bEof==0 && rc==SQLITE_OK );
    rc = fts5ExprNodeNext(p, pRoot, 0, 0);

  }
  return rc;
}

/*
** Move to the next document 
**
................................................................................
  }

  if( pRet==0 ){
    assert( pParse->rc!=SQLITE_OK );
    sqlite3Fts5ParseNearsetFree(pNear);
    sqlite3Fts5ParsePhraseFree(pPhrase);
  }else{
    if( pRet->nPhrase>0 ){
      Fts5ExprPhrase *pLast = pRet->apPhrase[pRet->nPhrase-1];
      assert( pLast==pParse->apPhrase[pParse->nPhrase-2] );
      if( pPhrase->nTerm==0 ){
        fts5ExprPhraseFree(pPhrase);
        pRet->nPhrase--;
        pParse->nPhrase--;
        pPhrase = pLast;
      }else if( pLast->nTerm==0 ){
        fts5ExprPhraseFree(pLast);
        pParse->apPhrase[pParse->nPhrase-2] = pPhrase;
        pParse->nPhrase--;
        pRet->nPhrase--;
      }
    }
    pRet->apPhrase[pRet->nPhrase++] = pPhrase;
  }
  return pRet;
}

typedef struct TokenCtx TokenCtx;
struct TokenCtx {
................................................................................
  TokenCtx *pCtx = (TokenCtx*)pContext;
  Fts5ExprPhrase *pPhrase = pCtx->pPhrase;

  UNUSED_PARAM2(iUnused1, iUnused2);

  /* If an error has already occurred, this is a no-op */
  if( pCtx->rc!=SQLITE_OK ) return pCtx->rc;
  if( nToken>FTS5_MAX_TOKEN_SIZE ) nToken = FTS5_MAX_TOKEN_SIZE;

  if( pPhrase && pPhrase->nTerm>0 && (tflags & FTS5_TOKEN_COLOCATED) ){
    Fts5ExprTerm *pSyn;
    int nByte = sizeof(Fts5ExprTerm) + sizeof(Fts5Buffer) + nToken+1;
    pSyn = (Fts5ExprTerm*)sqlite3_malloc(nByte);
    if( pSyn==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pSyn, 0, nByte);
................................................................................
  char *z = 0;

  memset(&sCtx, 0, sizeof(TokenCtx));
  sCtx.pPhrase = pAppend;

  rc = fts5ParseStringFromToken(pToken, &z);
  if( rc==SQLITE_OK ){
    int flags = FTS5_TOKENIZE_QUERY | (bPrefix ? FTS5_TOKENIZE_PREFIX : 0);
    int n;
    sqlite3Fts5Dequote(z);
    n = (int)strlen(z);
    rc = sqlite3Fts5Tokenize(pConfig, flags, z, n, &sCtx, fts5ParseTokenize);
  }
  sqlite3_free(z);
  if( rc || (rc = sCtx.rc) ){
    pParse->rc = rc;
    fts5ExprPhraseFree(sCtx.pPhrase);
    sCtx.pPhrase = 0;
  }else{

    if( pAppend==0 ){
      if( (pParse->nPhrase % 8)==0 ){
        int nByte = sizeof(Fts5ExprPhrase*) * (pParse->nPhrase + 8);
        Fts5ExprPhrase **apNew;
        apNew = (Fts5ExprPhrase**)sqlite3_realloc(pParse->apPhrase, nByte);
        if( apNew==0 ){
................................................................................
          return 0;
        }
        pParse->apPhrase = apNew;
      }
      pParse->nPhrase++;
    }

    if( sCtx.pPhrase==0 ){
      /* This happens when parsing a token or quoted phrase that contains
      ** no token characters at all. (e.g ... MATCH '""'). */
      sCtx.pPhrase = sqlite3Fts5MallocZero(&pParse->rc, sizeof(Fts5ExprPhrase));
    }else if( sCtx.pPhrase->nTerm ){
      sCtx.pPhrase->aTerm[sCtx.pPhrase->nTerm-1].bPrefix = bPrefix;
    }
    pParse->apPhrase[pParse->nPhrase-1] = sCtx.pPhrase;
  }

  return sCtx.pPhrase;
}

/*
** Create a new FTS5 expression by cloning phrase iPhrase of the
................................................................................
int sqlite3Fts5ExprClonePhrase(
  Fts5Expr *pExpr, 
  int iPhrase, 
  Fts5Expr **ppNew
){
  int rc = SQLITE_OK;             /* Return code */
  Fts5ExprPhrase *pOrig;          /* The phrase extracted from pExpr */

  Fts5Expr *pNew = 0;             /* Expression to return via *ppNew */
  TokenCtx sCtx = {0,0};          /* Context object for fts5ParseTokenize */

  pOrig = pExpr->apExprPhrase[iPhrase];
  pNew = (Fts5Expr*)sqlite3Fts5MallocZero(&rc, sizeof(Fts5Expr));
  if( rc==SQLITE_OK ){
    pNew->apExprPhrase = (Fts5ExprPhrase**)sqlite3Fts5MallocZero(&rc, 
................................................................................
    pNew->pRoot = (Fts5ExprNode*)sqlite3Fts5MallocZero(&rc, 
        sizeof(Fts5ExprNode));
  }
  if( rc==SQLITE_OK ){
    pNew->pRoot->pNear = (Fts5ExprNearset*)sqlite3Fts5MallocZero(&rc, 
        sizeof(Fts5ExprNearset) + sizeof(Fts5ExprPhrase*));
  }
  if( rc==SQLITE_OK ){
    Fts5Colset *pColsetOrig = pOrig->pNode->pNear->pColset;
    if( pColsetOrig ){
      int nByte = sizeof(Fts5Colset) + (pColsetOrig->nCol-1) * sizeof(int);
      Fts5Colset *pColset = (Fts5Colset*)sqlite3Fts5MallocZero(&rc, nByte);
      if( pColset ){ 
        memcpy(pColset, pColsetOrig, nByte);
      }
      pNew->pRoot->pNear->pColset = pColset;
    }
  }

  if( pOrig->nTerm ){
    int i;                          /* Used to iterate through phrase terms */
    for(i=0; rc==SQLITE_OK && i<pOrig->nTerm; i++){
      int tflags = 0;
      Fts5ExprTerm *p;
      for(p=&pOrig->aTerm[i]; p && rc==SQLITE_OK; p=p->pSynonym){
        const char *zTerm = p->zTerm;
        rc = fts5ParseTokenize((void*)&sCtx, tflags, zTerm, (int)strlen(zTerm),
            0, 0);
        tflags = FTS5_TOKEN_COLOCATED;
      }
      if( rc==SQLITE_OK ){
        sCtx.pPhrase->aTerm[i].bPrefix = pOrig->aTerm[i].bPrefix;
      }
    }
  }else{
    /* This happens when parsing a token or quoted phrase that contains
    ** no token characters at all. (e.g ... MATCH '""'). */
    sCtx.pPhrase = sqlite3Fts5MallocZero(&rc, sizeof(Fts5ExprPhrase));
  }

  if( rc==SQLITE_OK ){
    /* All the allocations succeeded. Put the expression object together. */
    pNew->pIndex = pExpr->pIndex;
    pNew->pConfig = pExpr->pConfig;
    pNew->nPhrase = 1;
................................................................................
}

void sqlite3Fts5ParseSetDistance(
  Fts5Parse *pParse, 
  Fts5ExprNearset *pNear,
  Fts5Token *p
){
  if( pNear ){
    int nNear = 0;
    int i;
    if( p->n ){
      for(i=0; i<p->n; i++){
        char c = (char)p->p[i];
        if( c<'0' || c>'9' ){
          sqlite3Fts5ParseError(
              pParse, "expected integer, got \"%.*s\"", p->n, p->p
              );
          return;
        }
        nNear = nNear * 10 + (p->p[i] - '0');
      }
    }else{
      nNear = FTS5_DEFAULT_NEARDIST;
    }
    pNear->nNear = nNear;
  }
}

/*
** The second argument passed to this function may be NULL, or it may be
** an existing Fts5Colset object. This function returns a pointer to
** a new colset object containing the contents of (p) with new value column
** number iCol appended. 
................................................................................
    /* Check that the array is in order and contains no duplicate entries. */
    for(i=1; i<pNew->nCol; i++) assert( pNew->aiCol[i]>pNew->aiCol[i-1] );
#endif
  }

  return pNew;
}

/*
** Allocate and return an Fts5Colset object specifying the inverse of
** the colset passed as the second argument. Free the colset passed
** as the second argument before returning.
*/
Fts5Colset *sqlite3Fts5ParseColsetInvert(Fts5Parse *pParse, Fts5Colset *p){
  Fts5Colset *pRet;
  int nCol = pParse->pConfig->nCol;

  pRet = (Fts5Colset*)sqlite3Fts5MallocZero(&pParse->rc, 
      sizeof(Fts5Colset) + sizeof(int)*nCol
  );
  if( pRet ){
    int i;
    int iOld = 0;
    for(i=0; i<nCol; i++){
      if( iOld>=p->nCol || p->aiCol[iOld]!=i ){
        pRet->aiCol[pRet->nCol++] = i;
      }else{
        iOld++;
      }
    }
  }

  sqlite3_free(p);
  return pRet;
}

Fts5Colset *sqlite3Fts5ParseColset(
  Fts5Parse *pParse,              /* Store SQLITE_NOMEM here if required */
  Fts5Colset *pColset,            /* Existing colset object */
  Fts5Token *p
){
  Fts5Colset *pRet = 0;
................................................................................
    assert( pParse->rc!=SQLITE_OK );
    sqlite3_free(pColset);
  }

  return pRet;
}

/*
** If argument pOrig is NULL, or if (*pRc) is set to anything other than
** SQLITE_OK when this function is called, NULL is returned. 
**
** Otherwise, a copy of (*pOrig) is made into memory obtained from
** sqlite3Fts5MallocZero() and a pointer to it returned. If the allocation
** fails, (*pRc) is set to SQLITE_NOMEM and NULL is returned.
*/
static Fts5Colset *fts5CloneColset(int *pRc, Fts5Colset *pOrig){
  Fts5Colset *pRet;
  if( pOrig ){
    int nByte = sizeof(Fts5Colset) + (pOrig->nCol-1) * sizeof(int);
    pRet = (Fts5Colset*)sqlite3Fts5MallocZero(pRc, nByte);
    if( pRet ){ 
      memcpy(pRet, pOrig, nByte);
    }
  }else{
    pRet = 0;
  }
  return pRet;
}

/*
** Remove from colset pColset any columns that are not also in colset pMerge.
*/
static void fts5MergeColset(Fts5Colset *pColset, Fts5Colset *pMerge){
  int iIn = 0;          /* Next input in pColset */
  int iMerge = 0;       /* Next input in pMerge */
  int iOut = 0;         /* Next output slot in pColset */

  while( iIn<pColset->nCol && iMerge<pMerge->nCol ){
    int iDiff = pColset->aiCol[iIn] - pMerge->aiCol[iMerge];
    if( iDiff==0 ){
      pColset->aiCol[iOut++] = pMerge->aiCol[iMerge];
      iMerge++;
      iIn++;
    }else if( iDiff>0 ){
      iMerge++;
    }else{
      iIn++;
    }
  }
  pColset->nCol = iOut;
}

/*
** Recursively apply colset pColset to expression node pNode and all of
** its decendents. If (*ppFree) is not NULL, it contains a spare copy
** of pColset. This function may use the spare copy and set (*ppFree) to
** zero, or it may create copies of pColset using fts5CloneColset().
*/
static void fts5ParseSetColset(
  Fts5Parse *pParse, 
  Fts5ExprNode *pNode, 
  Fts5Colset *pColset,
  Fts5Colset **ppFree
){
  if( pParse->rc==SQLITE_OK ){
    assert( pNode->eType==FTS5_TERM || pNode->eType==FTS5_STRING 
         || pNode->eType==FTS5_AND  || pNode->eType==FTS5_OR
         || pNode->eType==FTS5_NOT  || pNode->eType==FTS5_EOF
    );
    if( pNode->eType==FTS5_STRING || pNode->eType==FTS5_TERM ){
      Fts5ExprNearset *pNear = pNode->pNear;
      if( pNear->pColset ){
        fts5MergeColset(pNear->pColset, pColset);
        if( pNear->pColset->nCol==0 ){
          pNode->eType = FTS5_EOF;
          pNode->xNext = 0;
        }
      }else if( *ppFree ){
        pNear->pColset = pColset;
        *ppFree = 0;
      }else{
        pNear->pColset = fts5CloneColset(&pParse->rc, pColset);
      }
    }else{
      int i;
      assert( pNode->eType!=FTS5_EOF || pNode->nChild==0 );
      for(i=0; i<pNode->nChild; i++){
        fts5ParseSetColset(pParse, pNode->apChild[i], pColset, ppFree);
      }
    }
  }
}

/*
** Apply colset pColset to expression node pExpr and all of its descendents.
*/
void sqlite3Fts5ParseSetColset(
  Fts5Parse *pParse, 
  Fts5ExprNode *pExpr, 
  Fts5Colset *pColset 
){
  Fts5Colset *pFree = pColset;
  if( pParse->pConfig->eDetail==FTS5_DETAIL_NONE ){
    pParse->rc = SQLITE_ERROR;
    pParse->zErr = sqlite3_mprintf(
      "fts5: column queries are not supported (detail=none)"
    );






  }else{

    fts5ParseSetColset(pParse, pExpr, pColset, &pFree);
  }
  sqlite3_free(pFree);
}

static void fts5ExprAssignXNext(Fts5ExprNode *pNode){
  switch( pNode->eType ){
    case FTS5_STRING: {
      Fts5ExprNearset *pNear = pNode->pNear;
      if( pNear->nPhrase==1 && pNear->apPhrase[0]->nTerm==1 
................................................................................
      pRet->eType = eType;
      pRet->pNear = pNear;
      fts5ExprAssignXNext(pRet);
      if( eType==FTS5_STRING ){
        int iPhrase;
        for(iPhrase=0; iPhrase<pNear->nPhrase; iPhrase++){
          pNear->apPhrase[iPhrase]->pNode = pRet;
          if( pNear->apPhrase[iPhrase]->nTerm==0 ){
            pRet->xNext = 0;
            pRet->eType = FTS5_EOF;
          }
        }

        if( pParse->pConfig->eDetail!=FTS5_DETAIL_FULL 
         && (pNear->nPhrase!=1 || pNear->apPhrase[0]->nTerm>1)
        ){
          assert( pParse->rc==SQLITE_OK );
          pParse->rc = SQLITE_ERROR;
          assert( pParse->zErr==0 );
          pParse->zErr = sqlite3_mprintf(
              "fts5: %s queries are not supported (detail!=full)", 
              pNear->nPhrase==1 ? "phrase": "NEAR"
................................................................................

  if( pRet==0 ){
    assert( pParse->rc!=SQLITE_OK );
    sqlite3Fts5ParseNodeFree(pLeft);
    sqlite3Fts5ParseNodeFree(pRight);
    sqlite3Fts5ParseNearsetFree(pNear);
  }
  return pRet;
}

Fts5ExprNode *sqlite3Fts5ParseImplicitAnd(
  Fts5Parse *pParse,              /* Parse context */
  Fts5ExprNode *pLeft,            /* Left hand child expression */
  Fts5ExprNode *pRight            /* Right hand child expression */
){
  Fts5ExprNode *pRet = 0;
  Fts5ExprNode *pPrev;

  if( pParse->rc ){
    sqlite3Fts5ParseNodeFree(pLeft);
    sqlite3Fts5ParseNodeFree(pRight);
  }else{

    assert( pLeft->eType==FTS5_STRING 
        || pLeft->eType==FTS5_TERM
        || pLeft->eType==FTS5_EOF
        || pLeft->eType==FTS5_AND
    );
    assert( pRight->eType==FTS5_STRING 
        || pRight->eType==FTS5_TERM 
        || pRight->eType==FTS5_EOF 
    );

    if( pLeft->eType==FTS5_AND ){
      pPrev = pLeft->apChild[pLeft->nChild-1];
    }else{
      pPrev = pLeft;
    }
    assert( pPrev->eType==FTS5_STRING 
        || pPrev->eType==FTS5_TERM 
        || pPrev->eType==FTS5_EOF 
        );

    if( pRight->eType==FTS5_EOF ){
      assert( pParse->apPhrase[pParse->nPhrase-1]==pRight->pNear->apPhrase[0] );
      sqlite3Fts5ParseNodeFree(pRight);
      pRet = pLeft;
      pParse->nPhrase--;
    }
    else if( pPrev->eType==FTS5_EOF ){
      Fts5ExprPhrase **ap;

      if( pPrev==pLeft ){
        pRet = pRight;
      }else{
        pLeft->apChild[pLeft->nChild-1] = pRight;
        pRet = pLeft;
      }

      ap = &pParse->apPhrase[pParse->nPhrase-1-pRight->pNear->nPhrase];
      assert( ap[0]==pPrev->pNear->apPhrase[0] );
      memmove(ap, &ap[1], sizeof(Fts5ExprPhrase*)*pRight->pNear->nPhrase);
      pParse->nPhrase--;

      sqlite3Fts5ParseNodeFree(pPrev);
    }
    else{
      pRet = sqlite3Fts5ParseNode(pParse, FTS5_AND, pLeft, pRight, 0);
    }
  }

  return pRet;
}

static char *fts5ExprTermPrint(Fts5ExprTerm *pTerm){
  int nByte = 0;
  Fts5ExprTerm *p;
  char *zQuoted;
................................................................................
  }

  return zRet;
}

static char *fts5ExprPrint(Fts5Config *pConfig, Fts5ExprNode *pExpr){
  char *zRet = 0;
  if( pExpr->eType==0 ){
    return sqlite3_mprintf("\"\"");
  }else
  if( pExpr->eType==FTS5_STRING || pExpr->eType==FTS5_TERM ){
    Fts5ExprNearset *pNear = pExpr->pNear;
    int i; 
    int iTerm;

    if( pNear->pColset ){
      int iCol = pNear->pColset->aiCol[0];
................................................................................
    for(i=0; i<pExpr->nChild; i++){
      char *z = fts5ExprPrint(pConfig, pExpr->apChild[i]);
      if( z==0 ){
        sqlite3_free(zRet);
        zRet = 0;
      }else{
        int e = pExpr->apChild[i]->eType;
        int b = (e!=FTS5_STRING && e!=FTS5_TERM && e!=FTS5_EOF);
        zRet = fts5PrintfAppend(zRet, "%s%s%z%s", 
            (i==0 ? "" : zOp),
            (b?"(":""), z, (b?")":"")
        );
      }
      if( zRet==0 ) break;
    }
................................................................................
    azConfig[i++] = (const char*)sqlite3_value_text(apVal[iArg]);
  }

  zExpr = (const char*)sqlite3_value_text(apVal[0]);

  rc = sqlite3Fts5ConfigParse(pGlobal, db, nConfig, azConfig, &pConfig, &zErr);
  if( rc==SQLITE_OK ){
    rc = sqlite3Fts5ExprNew(pConfig, pConfig->nCol, zExpr, &pExpr, &zErr);
  }
  if( rc==SQLITE_OK ){
    char *zText;
    if( pExpr->pRoot->xNext==0 ){
      zText = sqlite3_mprintf("");
    }else if( bTcl ){
      zText = fts5ExprPrintTcl(pConfig, zNearsetCmd, pExpr->pRoot);
................................................................................
){
  Fts5ExprCtx *p = (Fts5ExprCtx*)pCtx;
  Fts5Expr *pExpr = p->pExpr;
  int i;

  UNUSED_PARAM2(iUnused1, iUnused2);

  if( nToken>FTS5_MAX_TOKEN_SIZE ) nToken = FTS5_MAX_TOKEN_SIZE;
  if( (tflags & FTS5_TOKEN_COLOCATED)==0 ) p->iOff++;
  for(i=0; i<pExpr->nPhrase; i++){
    Fts5ExprTerm *pTerm;
    if( p->aPopulator[i].bOk==0 ) continue;
    for(pTerm=&pExpr->apExprPhrase[i]->aTerm[0]; pTerm; pTerm=pTerm->pSynonym){
      int nTerm = (int)strlen(pTerm->zTerm);
      if( (nTerm==nToken || (nTerm<nToken && pTerm->bPrefix))
       && memcmp(pTerm->zTerm, pToken, nTerm)==0
      ){
        int rc = sqlite3Fts5PoslistWriterAppend(
            &pExpr->apExprPhrase[i]->poslist, &p->aPopulator[i].writer, p->iOff
        );
        if( rc ) return rc;
................................................................................
  return 1;
}

void sqlite3Fts5ExprCheckPoslists(Fts5Expr *pExpr, i64 iRowid){
  fts5ExprCheckPoslists(pExpr->pRoot, iRowid);
}












/*
** This function is only called for detail=columns tables. 
*/
int sqlite3Fts5ExprPhraseCollist(
  Fts5Expr *pExpr, 
  int iPhrase, 
  const u8 **ppCollist, 

Changes to ext/fts5/fts5_hash.c.

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  int nSlot;                      /* Size of aSlot[] array */
  Fts5HashEntry *pScan;           /* Current ordered scan item */
  Fts5HashEntry **aSlot;          /* Array of hash slots */
};

/*
** Each entry in the hash table is represented by an object of the 
** following type. Each object, its key (zKey[]) and its current data
** are stored in a single memory allocation. The position list data 

** immediately follows the key data in memory.
**
** The data that follows the key is in a similar, but not identical format
** to the doclist data stored in the database. It is:
**
**   * Rowid, as a varint
**   * Position list, without 0x00 terminator.
**   * Size of previous position list and rowid, as a 4 byte
................................................................................
struct Fts5HashEntry {
  Fts5HashEntry *pHashNext;       /* Next hash entry with same hash-key */
  Fts5HashEntry *pScanNext;       /* Next entry in sorted order */
  
  int nAlloc;                     /* Total size of allocation */
  int iSzPoslist;                 /* Offset of space for 4-byte poslist size */
  int nData;                      /* Total bytes of data (incl. structure) */
  int nKey;                       /* Length of zKey[] in bytes */
  u8 bDel;                        /* Set delete-flag @ iSzPoslist */
  u8 bContent;                    /* Set content-flag (detail=none mode) */
  i16 iCol;                       /* Column of last value written */
  int iPos;                       /* Position of last value written */
  i64 iRowid;                     /* Rowid of last value written */
  char zKey[8];                   /* Nul-terminated entry key */
};

/*
** Size of Fts5HashEntry without the zKey[] array.


*/
#define FTS5_HASHENTRYSIZE (sizeof(Fts5HashEntry)-8)




/*
** Allocate a new hash table.
*/
int sqlite3Fts5HashNew(Fts5Config *pConfig, Fts5Hash **ppNew, int *pnByte){
  int rc = SQLITE_OK;
................................................................................

  apNew = (Fts5HashEntry**)sqlite3_malloc(nNew*sizeof(Fts5HashEntry*));
  if( !apNew ) return SQLITE_NOMEM;
  memset(apNew, 0, nNew*sizeof(Fts5HashEntry*));

  for(i=0; i<pHash->nSlot; i++){
    while( apOld[i] ){
      int iHash;
      Fts5HashEntry *p = apOld[i];
      apOld[i] = p->pHashNext;
      iHash = fts5HashKey(nNew, (u8*)p->zKey, (int)strlen(p->zKey));

      p->pHashNext = apNew[iHash];
      apNew[iHash] = p;
    }
  }

  sqlite3_free(apOld);
  pHash->nSlot = nNew;
................................................................................
  int bNew;                       /* If non-delete entry should be written */
  
  bNew = (pHash->eDetail==FTS5_DETAIL_FULL);

  /* Attempt to locate an existing hash entry */
  iHash = fts5HashKey2(pHash->nSlot, (u8)bByte, (const u8*)pToken, nToken);
  for(p=pHash->aSlot[iHash]; p; p=p->pHashNext){

    if( p->zKey[0]==bByte 
     && p->nKey==nToken
     && memcmp(&p->zKey[1], pToken, nToken)==0 
    ){
      break;
    }
  }

  /* If an existing hash entry cannot be found, create a new one. */
  if( p==0 ){
    /* Figure out how much space to allocate */

    int nByte = FTS5_HASHENTRYSIZE + (nToken+1) + 1 + 64;
    if( nByte<128 ) nByte = 128;

    /* Grow the Fts5Hash.aSlot[] array if necessary. */
    if( (pHash->nEntry*2)>=pHash->nSlot ){
      int rc = fts5HashResize(pHash);
      if( rc!=SQLITE_OK ) return rc;
      iHash = fts5HashKey2(pHash->nSlot, (u8)bByte, (const u8*)pToken, nToken);
    }

    /* Allocate new Fts5HashEntry and add it to the hash table. */
    p = (Fts5HashEntry*)sqlite3_malloc(nByte);
    if( !p ) return SQLITE_NOMEM;
    memset(p, 0, FTS5_HASHENTRYSIZE);
    p->nAlloc = nByte;

    p->zKey[0] = bByte;
    memcpy(&p->zKey[1], pToken, nToken);
    assert( iHash==fts5HashKey(pHash->nSlot, (u8*)p->zKey, nToken+1) );
    p->nKey = nToken;
    p->zKey[nToken+1] = '\0';
    p->nData = nToken+1 + 1 + FTS5_HASHENTRYSIZE;
    p->pHashNext = pHash->aSlot[iHash];
    pHash->aSlot[iHash] = p;
    pHash->nEntry++;

    /* Add the first rowid field to the hash-entry */
    p->nData += sqlite3Fts5PutVarint(&((u8*)p)[p->nData], iRowid);
    p->iRowid = iRowid;
................................................................................
    }else{
      /* Append a new column value, if necessary */
      assert( iCol>=p->iCol );
      if( iCol!=p->iCol ){
        if( pHash->eDetail==FTS5_DETAIL_FULL ){
          pPtr[p->nData++] = 0x01;
          p->nData += sqlite3Fts5PutVarint(&pPtr[p->nData], iCol);
          p->iCol = iCol;
          p->iPos = 0;
        }else{
          bNew = 1;
          p->iCol = iPos = iCol;
        }
      }

      /* Append the new position offset, if necessary */
      if( bNew ){
        p->nData += sqlite3Fts5PutVarint(&pPtr[p->nData], iPos - p->iPos + 2);
        p->iPos = iPos;
................................................................................
      *ppOut = p2;
      p2 = 0;
    }else if( p2==0 ){
      *ppOut = p1;
      p1 = 0;
    }else{
      int i = 0;
      while( p1->zKey[i]==p2->zKey[i] ) i++;



      if( ((u8)p1->zKey[i])>((u8)p2->zKey[i]) ){

        /* p2 is smaller */
        *ppOut = p2;
        ppOut = &p2->pScanNext;
        p2 = p2->pScanNext;
      }else{
        /* p1 is smaller */
        *ppOut = p1;
................................................................................
  ap = sqlite3_malloc(sizeof(Fts5HashEntry*) * nMergeSlot);
  if( !ap ) return SQLITE_NOMEM;
  memset(ap, 0, sizeof(Fts5HashEntry*) * nMergeSlot);

  for(iSlot=0; iSlot<pHash->nSlot; iSlot++){
    Fts5HashEntry *pIter;
    for(pIter=pHash->aSlot[iSlot]; pIter; pIter=pIter->pHashNext){
      if( pTerm==0 || 0==memcmp(pIter->zKey, pTerm, nTerm) ){
        Fts5HashEntry *pEntry = pIter;
        pEntry->pScanNext = 0;
        for(i=0; ap[i]; i++){
          pEntry = fts5HashEntryMerge(pEntry, ap[i]);
          ap[i] = 0;
        }
        ap[i] = pEntry;
................................................................................
int sqlite3Fts5HashQuery(
  Fts5Hash *pHash,                /* Hash table to query */
  const char *pTerm, int nTerm,   /* Query term */
  const u8 **ppDoclist,           /* OUT: Pointer to doclist for pTerm */
  int *pnDoclist                  /* OUT: Size of doclist in bytes */
){
  unsigned int iHash = fts5HashKey(pHash->nSlot, (const u8*)pTerm, nTerm);

  Fts5HashEntry *p;

  for(p=pHash->aSlot[iHash]; p; p=p->pHashNext){

    if( memcmp(p->zKey, pTerm, nTerm)==0 && p->zKey[nTerm]==0 ) break;
  }

  if( p ){
    fts5HashAddPoslistSize(pHash, p);
    *ppDoclist = (const u8*)&p->zKey[nTerm+1];
    *pnDoclist = p->nData - (FTS5_HASHENTRYSIZE + nTerm + 1);
  }else{
    *ppDoclist = 0;
    *pnDoclist = 0;
  }

  return SQLITE_OK;
}
................................................................................
  Fts5Hash *pHash,
  const char **pzTerm,            /* OUT: term (nul-terminated) */
  const u8 **ppDoclist,           /* OUT: pointer to doclist */
  int *pnDoclist                  /* OUT: size of doclist in bytes */
){
  Fts5HashEntry *p;
  if( (p = pHash->pScan) ){

    int nTerm = (int)strlen(p->zKey);
    fts5HashAddPoslistSize(pHash, p);
    *pzTerm = p->zKey;
    *ppDoclist = (const u8*)&p->zKey[nTerm+1];
    *pnDoclist = p->nData - (FTS5_HASHENTRYSIZE + nTerm + 1);
  }else{
    *pzTerm = 0;
    *ppDoclist = 0;
    *pnDoclist = 0;
  }
}








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  int nSlot;                      /* Size of aSlot[] array */
  Fts5HashEntry *pScan;           /* Current ordered scan item */
  Fts5HashEntry **aSlot;          /* Array of hash slots */
};

/*
** Each entry in the hash table is represented by an object of the 
** following type. Each object, its key (a nul-terminated string) and 
** its current data are stored in a single memory allocation. The 
** key immediately follows the object in memory. The position list
** data immediately follows the key data in memory.
**
** The data that follows the key is in a similar, but not identical format
** to the doclist data stored in the database. It is:
**
**   * Rowid, as a varint
**   * Position list, without 0x00 terminator.
**   * Size of previous position list and rowid, as a 4 byte
................................................................................
struct Fts5HashEntry {
  Fts5HashEntry *pHashNext;       /* Next hash entry with same hash-key */
  Fts5HashEntry *pScanNext;       /* Next entry in sorted order */
  
  int nAlloc;                     /* Total size of allocation */
  int iSzPoslist;                 /* Offset of space for 4-byte poslist size */
  int nData;                      /* Total bytes of data (incl. structure) */
  int nKey;                       /* Length of key in bytes */
  u8 bDel;                        /* Set delete-flag @ iSzPoslist */
  u8 bContent;                    /* Set content-flag (detail=none mode) */
  i16 iCol;                       /* Column of last value written */
  int iPos;                       /* Position of last value written */
  i64 iRowid;                     /* Rowid of last value written */

};

/*
** Eqivalent to:
**
**   char *fts5EntryKey(Fts5HashEntry *pEntry){ return zKey; }
*/


#define fts5EntryKey(p) ( ((char *)(&(p)[1])) )


/*
** Allocate a new hash table.
*/
int sqlite3Fts5HashNew(Fts5Config *pConfig, Fts5Hash **ppNew, int *pnByte){
  int rc = SQLITE_OK;
................................................................................

  apNew = (Fts5HashEntry**)sqlite3_malloc(nNew*sizeof(Fts5HashEntry*));
  if( !apNew ) return SQLITE_NOMEM;
  memset(apNew, 0, nNew*sizeof(Fts5HashEntry*));

  for(i=0; i<pHash->nSlot; i++){
    while( apOld[i] ){
      unsigned int iHash;
      Fts5HashEntry *p = apOld[i];
      apOld[i] = p->pHashNext;
      iHash = fts5HashKey(nNew, (u8*)fts5EntryKey(p),
                          (int)strlen(fts5EntryKey(p)));
      p->pHashNext = apNew[iHash];
      apNew[iHash] = p;
    }
  }

  sqlite3_free(apOld);
  pHash->nSlot = nNew;
................................................................................
  int bNew;                       /* If non-delete entry should be written */
  
  bNew = (pHash->eDetail==FTS5_DETAIL_FULL);

  /* Attempt to locate an existing hash entry */
  iHash = fts5HashKey2(pHash->nSlot, (u8)bByte, (const u8*)pToken, nToken);
  for(p=pHash->aSlot[iHash]; p; p=p->pHashNext){
    char *zKey = fts5EntryKey(p);
    if( zKey[0]==bByte 
     && p->nKey==nToken
     && memcmp(&zKey[1], pToken, nToken)==0 
    ){
      break;
    }
  }

  /* If an existing hash entry cannot be found, create a new one. */
  if( p==0 ){
    /* Figure out how much space to allocate */
    char *zKey;
    int nByte = sizeof(Fts5HashEntry) + (nToken+1) + 1 + 64;
    if( nByte<128 ) nByte = 128;

    /* Grow the Fts5Hash.aSlot[] array if necessary. */
    if( (pHash->nEntry*2)>=pHash->nSlot ){
      int rc = fts5HashResize(pHash);
      if( rc!=SQLITE_OK ) return rc;
      iHash = fts5HashKey2(pHash->nSlot, (u8)bByte, (const u8*)pToken, nToken);
    }

    /* Allocate new Fts5HashEntry and add it to the hash table. */
    p = (Fts5HashEntry*)sqlite3_malloc(nByte);
    if( !p ) return SQLITE_NOMEM;
    memset(p, 0, sizeof(Fts5HashEntry));
    p->nAlloc = nByte;
    zKey = fts5EntryKey(p);
    zKey[0] = bByte;
    memcpy(&zKey[1], pToken, nToken);
    assert( iHash==fts5HashKey(pHash->nSlot, (u8*)zKey, nToken+1) );
    p->nKey = nToken;
    zKey[nToken+1] = '\0';
    p->nData = nToken+1 + 1 + sizeof(Fts5HashEntry);
    p->pHashNext = pHash->aSlot[iHash];
    pHash->aSlot[iHash] = p;
    pHash->nEntry++;

    /* Add the first rowid field to the hash-entry */
    p->nData += sqlite3Fts5PutVarint(&((u8*)p)[p->nData], iRowid);
    p->iRowid = iRowid;
................................................................................
    }else{
      /* Append a new column value, if necessary */
      assert( iCol>=p->iCol );
      if( iCol!=p->iCol ){
        if( pHash->eDetail==FTS5_DETAIL_FULL ){
          pPtr[p->nData++] = 0x01;
          p->nData += sqlite3Fts5PutVarint(&pPtr[p->nData], iCol);
          p->iCol = (i16)iCol;
          p->iPos = 0;
        }else{
          bNew = 1;
          p->iCol = (i16)(iPos = iCol);
        }
      }

      /* Append the new position offset, if necessary */
      if( bNew ){
        p->nData += sqlite3Fts5PutVarint(&pPtr[p->nData], iPos - p->iPos + 2);
        p->iPos = iPos;
................................................................................
      *ppOut = p2;
      p2 = 0;
    }else if( p2==0 ){
      *ppOut = p1;
      p1 = 0;
    }else{
      int i = 0;
      char *zKey1 = fts5EntryKey(p1);
      char *zKey2 = fts5EntryKey(p2);
      while( zKey1[i]==zKey2[i] ) i++;


      if( ((u8)zKey1[i])>((u8)zKey2[i]) ){
        /* p2 is smaller */
        *ppOut = p2;
        ppOut = &p2->pScanNext;
        p2 = p2->pScanNext;
      }else{
        /* p1 is smaller */
        *ppOut = p1;
................................................................................
  ap = sqlite3_malloc(sizeof(Fts5HashEntry*) * nMergeSlot);
  if( !ap ) return SQLITE_NOMEM;
  memset(ap, 0, sizeof(Fts5HashEntry*) * nMergeSlot);

  for(iSlot=0; iSlot<pHash->nSlot; iSlot++){
    Fts5HashEntry *pIter;
    for(pIter=pHash->aSlot[iSlot]; pIter; pIter=pIter->pHashNext){
      if( pTerm==0 || 0==memcmp(fts5EntryKey(pIter), pTerm, nTerm) ){
        Fts5HashEntry *pEntry = pIter;
        pEntry->pScanNext = 0;
        for(i=0; ap[i]; i++){
          pEntry = fts5HashEntryMerge(pEntry, ap[i]);
          ap[i] = 0;
        }
        ap[i] = pEntry;
................................................................................
int sqlite3Fts5HashQuery(
  Fts5Hash *pHash,                /* Hash table to query */
  const char *pTerm, int nTerm,   /* Query term */
  const u8 **ppDoclist,           /* OUT: Pointer to doclist for pTerm */
  int *pnDoclist                  /* OUT: Size of doclist in bytes */
){
  unsigned int iHash = fts5HashKey(pHash->nSlot, (const u8*)pTerm, nTerm);
  char *zKey = 0;
  Fts5HashEntry *p;

  for(p=pHash->aSlot[iHash]; p; p=p->pHashNext){
    zKey = fts5EntryKey(p);
    if( memcmp(zKey, pTerm, nTerm)==0 && zKey[nTerm]==0 ) break;
  }

  if( p ){
    fts5HashAddPoslistSize(pHash, p);
    *ppDoclist = (const u8*)&zKey[nTerm+1];
    *pnDoclist = p->nData - (sizeof(Fts5HashEntry) + nTerm + 1);
  }else{
    *ppDoclist = 0;
    *pnDoclist = 0;
  }

  return SQLITE_OK;
}
................................................................................
  Fts5Hash *pHash,
  const char **pzTerm,            /* OUT: term (nul-terminated) */
  const u8 **ppDoclist,           /* OUT: pointer to doclist */
  int *pnDoclist                  /* OUT: size of doclist in bytes */
){
  Fts5HashEntry *p;
  if( (p = pHash->pScan) ){
    char *zKey = fts5EntryKey(p);
    int nTerm = (int)strlen(zKey);
    fts5HashAddPoslistSize(pHash, p);
    *pzTerm = zKey;
    *ppDoclist = (const u8*)&zKey[nTerm+1];
    *pnDoclist = p->nData - (sizeof(Fts5HashEntry) + nTerm + 1);
  }else{
    *pzTerm = 0;
    *ppDoclist = 0;
    *pnDoclist = 0;
  }
}

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  sqlite3_blob *pReader;          /* RO incr-blob open on %_data table */
  sqlite3_stmt *pWriter;          /* "INSERT ... %_data VALUES(?,?)" */
  sqlite3_stmt *pDeleter;         /* "DELETE FROM %_data ... id>=? AND id<=?" */
  sqlite3_stmt *pIdxWriter;       /* "INSERT ... %_idx VALUES(?,?,?,?)" */
  sqlite3_stmt *pIdxDeleter;      /* "DELETE FROM %_idx WHERE segid=? */
  sqlite3_stmt *pIdxSelect;
  int nRead;                      /* Total number of blocks read */




};

struct Fts5DoclistIter {
  u8 *aEof;                       /* Pointer to 1 byte past end of doclist */

  /* Output variables. aPoslist==0 at EOF */
  i64 iRowid;
................................................................................
  if( p->pReader ){
    sqlite3_blob *pReader = p->pReader;
    p->pReader = 0;
    sqlite3_blob_close(pReader);
  }
}


/*
** Retrieve a record from the %_data table.
**
** If an error occurs, NULL is returned and an error left in the 
** Fts5Index object.
*/
static Fts5Data *fts5DataRead(Fts5Index *p, i64 iRowid){
................................................................................
/*
** Release a reference to data record returned by an earlier call to
** fts5DataRead().
*/
static void fts5DataRelease(Fts5Data *pData){
  sqlite3_free(pData);
}













static int fts5IndexPrepareStmt(
  Fts5Index *p,
  sqlite3_stmt **ppStmt,
  char *zSql
){
  if( p->rc==SQLITE_OK ){
................................................................................
      }
      pLvl->aSeg = aNew;
    }else{
      *pRc = SQLITE_NOMEM;
    }
  }
}













































/*
** Read, deserialize and return the structure record.
**
** The Fts5Structure.aLevel[] and each Fts5StructureLevel.aSeg[] array
** are over-allocated as described for function fts5StructureDecode() 
** above.
**
** If an error occurs, NULL is returned and an error code left in the
** Fts5Index handle. If an error has already occurred when this function
** is called, it is a no-op.
*/
static Fts5Structure *fts5StructureRead(Fts5Index *p){
  Fts5Config *pConfig = p->pConfig;
  Fts5Structure *pRet = 0;        /* Object to return */
  int iCookie;                    /* Configuration cookie */
  Fts5Data *pData;

  pData = fts5DataRead(p, FTS5_STRUCTURE_ROWID);
  if( p->rc ) return 0;
  /* TODO: Do we need this if the leaf-index is appended? Probably... */
  memset(&pData->p[pData->nn], 0, FTS5_DATA_PADDING);
  p->rc = fts5StructureDecode(pData->p, pData->nn, &iCookie, &pRet);


  if( p->rc==SQLITE_OK && pConfig->iCookie!=iCookie ){
    p->rc = sqlite3Fts5ConfigLoad(pConfig, iCookie);

  }

  fts5DataRelease(pData);
























  if( p->rc!=SQLITE_OK ){








    fts5StructureRelease(pRet);
    pRet = 0;
  }
  return pRet;
}

/*
** Return the total number of segments in index structure pStruct. This
** function is only ever used as part of assert() conditions.
*/
#ifdef SQLITE_DEBUG
................................................................................
  Fts5StructureSegment *pSeg = pIter->pSeg;
  fts5DataRelease(pIter->pLeaf);
  pIter->iLeafPgno++;
  if( pIter->pNextLeaf ){
    pIter->pLeaf = pIter->pNextLeaf;
    pIter->pNextLeaf = 0;
  }else if( pIter->iLeafPgno<=pSeg->pgnoLast ){
    pIter->pLeaf = fts5DataRead(p, 
        FTS5_SEGMENT_ROWID(pSeg->iSegid, pIter->iLeafPgno)
    );
  }else{
    pIter->pLeaf = 0;
  }
  pLeaf = pIter->pLeaf;

................................................................................
      if( (iOff = fts5LeafFirstRowidOff(pLeaf)) && iOff<pLeaf->szLeaf ){
        iOff += sqlite3Fts5GetVarint(&pLeaf->p[iOff], (u64*)&pIter->iRowid);
        pIter->iLeafOffset = iOff;

        if( pLeaf->nn>pLeaf->szLeaf ){
          pIter->iPgidxOff = pLeaf->szLeaf + fts5GetVarint32(
              &pLeaf->p[pLeaf->szLeaf], pIter->iEndofDoclist
              );
        }

      }
      else if( pLeaf->nn>pLeaf->szLeaf ){
        pIter->iPgidxOff = pLeaf->szLeaf + fts5GetVarint32(
            &pLeaf->p[pLeaf->szLeaf], iOff
            );
        pIter->iLeafOffset = iOff;
        pIter->iEndofDoclist = iOff;
        bNewTerm = 1;
      }
      assert_nc( iOff<pLeaf->szLeaf );
      if( iOff>pLeaf->szLeaf ){
        p->rc = FTS5_CORRUPT;
................................................................................
      ** code is inlined. 
      **
      ** Later: Switched back to fts5SegIterLoadNPos() because it supports
      ** detail=none mode. Not ideal.
      */
      int nSz;
      assert( p->rc==SQLITE_OK );

      fts5FastGetVarint32(pIter->pLeaf->p, pIter->iLeafOffset, nSz);
      pIter->bDel = (nSz & 0x0001);
      pIter->nPos = nSz>>1;
      assert_nc( pIter->nPos>=0 );
    }
  }
}
................................................................................
  int bEndOfPage = 0;

  assert( p->rc==SQLITE_OK );

  iPgidx = szLeaf;
  iPgidx += fts5GetVarint32(&a[iPgidx], iTermOff);
  iOff = iTermOff;





  while( 1 ){

    /* Figure out how many new bytes are in this term */
    fts5FastGetVarint32(a, iOff, nNew);
    if( nKeep<nMatch ){
      goto search_failed;
................................................................................
      bEndOfPage = 1;
      break;
    }

    iPgidx += fts5GetVarint32(&a[iPgidx], nKeep);
    iTermOff += nKeep;
    iOff = iTermOff;






    /* Read the nKeep field of the next term. */
    fts5FastGetVarint32(a, iOff, nKeep);
  }

 search_failed:
  if( bGe==0 ){
................................................................................
    pIter->iEndofDoclist = iTermOff + nExtra;
  }
  pIter->iPgidxOff = iPgidx;

  fts5SegIterLoadRowid(p, pIter);
  fts5SegIterLoadNPos(p, pIter);
}













/*
** Initialize the object pIter to point to term pTerm/nTerm within segment
** pSeg. If there is no such term in the index, the iterator is set to EOF.
**
** If an error occurs, Fts5Index.rc is set to an appropriate error code. If 
** an error has already occurred when this function is called, it is a no-op.
................................................................................
  int flags,                      /* Mask of FTS5INDEX_XXX flags */
  Fts5StructureSegment *pSeg,     /* Description of segment */
  Fts5SegIter *pIter              /* Object to populate */
){
  int iPg = 1;
  int bGe = (flags & FTS5INDEX_QUERY_SCAN);
  int bDlidx = 0;                 /* True if there is a doclist-index */


  assert( bGe==0 || (flags & FTS5INDEX_QUERY_DESC)==0 );
  assert( pTerm && nTerm );
  memset(pIter, 0, sizeof(*pIter));
  pIter->pSeg = pSeg;

  /* This block sets stack variable iPg to the leaf page number that may
  ** contain term (pTerm/nTerm), if it is present in the segment. */
  if( p->pIdxSelect==0 ){
    Fts5Config *pConfig = p->pConfig;
    fts5IndexPrepareStmt(p, &p->pIdxSelect, sqlite3_mprintf(
          "SELECT pgno FROM '%q'.'%q_idx' WHERE "
          "segid=? AND term<=? ORDER BY term DESC LIMIT 1",
          pConfig->zDb, pConfig->zName
    ));
  }
  if( p->rc ) return;
  sqlite3_bind_int(p->pIdxSelect, 1, pSeg->iSegid);
  sqlite3_bind_blob(p->pIdxSelect, 2, pTerm, nTerm, SQLITE_STATIC);
  if( SQLITE_ROW==sqlite3_step(p->pIdxSelect) ){
    i64 val = sqlite3_column_int(p->pIdxSelect, 0);
    iPg = (int)(val>>1);
    bDlidx = (val & 0x0001);
  }
  p->rc = sqlite3_reset(p->pIdxSelect);

  if( iPg<pSeg->pgnoFirst ){
    iPg = pSeg->pgnoFirst;
    bDlidx = 0;
  }

  pIter->iLeafPgno = iPg - 1;
................................................................................
static void fts5MultiIterNext(
  Fts5Index *p, 
  Fts5Iter *pIter,
  int bFrom,                      /* True if argument iFrom is valid */
  i64 iFrom                       /* Advance at least as far as this */
){
  int bUseFrom = bFrom;

  while( p->rc==SQLITE_OK ){
    int iFirst = pIter->aFirst[1].iFirst;
    int bNewTerm = 0;
    Fts5SegIter *pSeg = &pIter->aSeg[iFirst];
    assert( p->rc==SQLITE_OK );
    if( bUseFrom && pSeg->pDlidx ){
      fts5SegIterNextFrom(p, pSeg, iFrom);
................................................................................
static void fts5MultiIterNext2(
  Fts5Index *p, 
  Fts5Iter *pIter,
  int *pbNewTerm                  /* OUT: True if *might* be new term */
){
  assert( pIter->bSkipEmpty );
  if( p->rc==SQLITE_OK ){

    do {
      int iFirst = pIter->aFirst[1].iFirst;
      Fts5SegIter *pSeg = &pIter->aSeg[iFirst];
      int bNewTerm = 0;

      assert( p->rc==SQLITE_OK );
      pSeg->xNext(p, pSeg, &bNewTerm);
      if( pSeg->pLeaf==0 || bNewTerm 
       || fts5MultiIterAdvanceRowid(pIter, iFirst, &pSeg)
      ){
        fts5MultiIterAdvanced(p, pIter, iFirst, 1);
        fts5MultiIterSetEof(pIter);
        *pbNewTerm = 1;
      }else{
        *pbNewTerm = 0;
      }
      fts5AssertMultiIterSetup(p, pIter);

    }while( fts5MultiIterIsEmpty(p, pIter) );
  }
}

................................................................................
    xChunk(p, pCtx, pChunk, nChunk);
    nRem -= nChunk;
    fts5DataRelease(pData);
    if( nRem<=0 ){
      break;
    }else{
      pgno++;
      pData = fts5DataRead(p, FTS5_SEGMENT_ROWID(pSeg->pSeg->iSegid, pgno));
      if( pData==0 ) break;
      pChunk = &pData->p[4];
      nChunk = MIN(nRem, pData->szLeaf - 4);
      if( pgno==pgnoSave ){
        assert( pSeg->pNextLeaf==0 );
        pSeg->pNextLeaf = pData;
        pData = 0;
................................................................................
  while( p<pEnd && *p!=0x01 ){
    while( *p++ & 0x80 );
  }

  return p - (*pa);
}

static int fts5IndexExtractColset (

  Fts5Colset *pColset,            /* Colset to filter on */
  const u8 *pPos, int nPos,       /* Position list */
  Fts5Buffer *pBuf                /* Output buffer */
){
  int rc = SQLITE_OK;
  int i;

  fts5BufferZero(pBuf);
  for(i=0; i<pColset->nCol; i++){
    const u8 *pSub = pPos;
    int nSub = fts5IndexExtractCol(&pSub, nPos, pColset->aiCol[i]);
    if( nSub ){
      fts5BufferAppendBlob(&rc, pBuf, nSub, pSub);
    }
  }
  return rc;

}

/*
** xSetOutputs callback used by detail=none tables.
*/
static void fts5IterSetOutputs_None(Fts5Iter *pIter, Fts5SegIter *pSeg){
  assert( pIter->pIndex->pConfig->eDetail==FTS5_DETAIL_NONE );
................................................................................
    ** Fts5Iter.poslist buffer and then set the output pointer to point
    ** to this buffer.  */
    fts5BufferZero(&pIter->poslist);
    fts5SegiterPoslist(pIter->pIndex, pSeg, 0, &pIter->poslist);
    pIter->base.pData = pIter->poslist.p;
  }
}










/*
** xSetOutputs callback used by detail=col when there is a column filter
** and there are 100 or more columns. Also called as a fallback from
** fts5IterSetOutputs_Col100 if the column-list spans more than one page.
*/
static void fts5IterSetOutputs_Col(Fts5Iter *pIter, Fts5SegIter *pSeg){
................................................................................
    while( a<pEnd ){
      iPrev += (int)a++[0] - 2;
      while( *aiCol<iPrev ){
        aiCol++;
        if( aiCol==aiColEnd ) goto setoutputs_col_out;
      }
      if( *aiCol==iPrev ){
        *aOut++ = (iPrev - iPrevOut) + 2;
        iPrevOut = iPrev;
      }
    }

setoutputs_col_out:
    pIter->base.pData = pIter->poslist.p;
    pIter->base.nData = aOut - pIter->poslist.p;
................................................................................
    /* All data is stored on the current page. Populate the output 
    ** variables to point into the body of the page object. */
    const u8 *a = &pSeg->pLeaf->p[pSeg->iLeafOffset];
    if( pColset->nCol==1 ){
      pIter->base.nData = fts5IndexExtractCol(&a, pSeg->nPos,pColset->aiCol[0]);
      pIter->base.pData = a;
    }else{

      fts5BufferZero(&pIter->poslist);
      fts5IndexExtractColset(pColset, a, pSeg->nPos, &pIter->poslist);
      pIter->base.pData = pIter->poslist.p;
      pIter->base.nData = pIter->poslist.n;
    }
  }else{
    /* The data is distributed over two or more pages. Copy it into the
    ** Fts5Iter.poslist buffer and then set the output pointer to point
    ** to this buffer.  */
................................................................................
    if( pConfig->eDetail==FTS5_DETAIL_NONE ){
      pIter->xSetOutputs = fts5IterSetOutputs_None;
    }

    else if( pIter->pColset==0 ){
      pIter->xSetOutputs = fts5IterSetOutputs_Nocolset;
    }





    else if( pConfig->eDetail==FTS5_DETAIL_FULL ){
      pIter->xSetOutputs = fts5IterSetOutputs_Full;
    }

    else{
      assert( pConfig->eDetail==FTS5_DETAIL_COLUMNS );
................................................................................
static int fts5AllocateSegid(Fts5Index *p, Fts5Structure *pStruct){
  int iSegid = 0;

  if( p->rc==SQLITE_OK ){
    if( pStruct->nSegment>=FTS5_MAX_SEGMENT ){
      p->rc = SQLITE_FULL;
    }else{
      while( iSegid==0 ){


        int iLvl, iSeg;
        sqlite3_randomness(sizeof(u32), (void*)&iSegid);
        iSegid = iSegid & ((1 << FTS5_DATA_ID_B)-1);



        for(iLvl=0; iLvl<pStruct->nLevel; iLvl++){
          for(iSeg=0; iSeg<pStruct->aLevel[iLvl].nSeg; iSeg++){
            if( iSegid==pStruct->aLevel[iLvl].aSeg[iSeg].iSegid ){









              iSegid = 0;
            }




          }
        }

      }











    }
  }

  return iSegid;
}

/*
................................................................................
  Fts5PageWriter *pLeaf = &pWriter->writer;
  if( p->rc==SQLITE_OK ){
    assert( pLeaf->pgno>=1 );
    if( pLeaf->buf.n>4 ){
      fts5WriteFlushLeaf(p, pWriter);
    }
    *pnLeaf = pLeaf->pgno-1;

    fts5WriteFlushBtree(p, pWriter);

  }
  fts5BufferFree(&pLeaf->term);
  fts5BufferFree(&pLeaf->buf);
  fts5BufferFree(&pLeaf->pgidx);
  fts5BufferFree(&pWriter->btterm);

  for(i=0; i<pWriter->nDlidx; i++){
................................................................................
  int nInput;                     /* Number of input segments */
  Fts5SegWriter writer;           /* Writer object */
  Fts5StructureSegment *pSeg;     /* Output segment */
  Fts5Buffer term;
  int bOldest;                    /* True if the output segment is the oldest */
  int eDetail = p->pConfig->eDetail;
  const int flags = FTS5INDEX_QUERY_NOOUTPUT;


  assert( iLvl<pStruct->nLevel );
  assert( pLvl->nMerge<=pLvl->nSeg );

  memset(&writer, 0, sizeof(Fts5SegWriter));
  memset(&term, 0, sizeof(Fts5Buffer));
  if( pLvl->nMerge ){
................................................................................
      fts5MultiIterNext(p, pIter, 0, 0)
  ){
    Fts5SegIter *pSegIter = &pIter->aSeg[ pIter->aFirst[1].iFirst ];
    int nPos;                     /* position-list size field value */
    int nTerm;
    const u8 *pTerm;

    /* Check for key annihilation. */
    if( pSegIter->nPos==0 && (bOldest || pSegIter->bDel==0) ) continue;

    pTerm = fts5MultiIterTerm(pIter, &nTerm);
    if( nTerm!=term.n || memcmp(pTerm, term.p, nTerm) ){
      if( pnRem && writer.nLeafWritten>nRem ){
        break;
      }








      /* This is a new term. Append a term to the output segment. */
      fts5WriteAppendTerm(p, &writer, nTerm, pTerm);
      fts5BufferSet(&p->rc, &term, nTerm, pTerm);

    }

    /* Append the rowid to the output */
    /* WRITEPOSLISTSIZE */
    fts5WriteAppendRowid(p, &writer, fts5MultiIterRowid(pIter));

    if( eDetail==FTS5_DETAIL_NONE ){
................................................................................
  fts5MultiIterFree(pIter);
  fts5BufferFree(&term);
  if( pnRem ) *pnRem -= writer.nLeafWritten;
}

/*
** Do up to nPg pages of automerge work on the index.


*/
static void fts5IndexMerge(
  Fts5Index *p,                   /* FTS5 backend object */
  Fts5Structure **ppStruct,       /* IN/OUT: Current structure of index */
  int nPg                         /* Pages of work to do */

){
  int nRem = nPg;

  Fts5Structure *pStruct = *ppStruct;
  while( nRem>0 && p->rc==SQLITE_OK ){
    int iLvl;                   /* To iterate through levels */
    int iBestLvl = 0;           /* Level offering the most input segments */
    int nBest = 0;              /* Number of input segments on best level */

    /* Set iBestLvl to the level to read input segments from. */
................................................................................
    /* If nBest is still 0, then the index must be empty. */
#ifdef SQLITE_DEBUG
    for(iLvl=0; nBest==0 && iLvl<pStruct->nLevel; iLvl++){
      assert( pStruct->aLevel[iLvl].nSeg==0 );
    }
#endif

    if( nBest<p->pConfig->nAutomerge 
        && pStruct->aLevel[iBestLvl].nMerge==0 
      ){
      break;
    }

    fts5IndexMergeLevel(p, &pStruct, iBestLvl, &nRem);
    if( p->rc==SQLITE_OK && pStruct->aLevel[iBestLvl].nMerge==0 ){
      fts5StructurePromote(p, iBestLvl+1, pStruct);
    }
  }
  *ppStruct = pStruct;

}

/*
** A total of nLeaf leaf pages of data has just been flushed to a level-0
** segment. This function updates the write-counter accordingly and, if
** necessary, performs incremental merge work.
**
................................................................................

    /* Update the write-counter. While doing so, set nWork. */
    nWrite = pStruct->nWriteCounter;
    nWork = (int)(((nWrite + nLeaf) / p->nWorkUnit) - (nWrite / p->nWorkUnit));
    pStruct->nWriteCounter += nLeaf;
    nRem = (int)(p->nWorkUnit * nWork * pStruct->nLevel);

    fts5IndexMerge(p, ppStruct, nRem);
  }
}

static void fts5IndexCrisismerge(
  Fts5Index *p,                   /* FTS5 backend object */
  Fts5Structure **ppStruct        /* IN/OUT: Current structure of index */
){
................................................................................
  int iSegid;
  int pgnoLast = 0;                 /* Last leaf page number in segment */

  /* Obtain a reference to the index structure and allocate a new segment-id
  ** for the new level-0 segment.  */
  pStruct = fts5StructureRead(p);
  iSegid = fts5AllocateSegid(p, pStruct);


  if( iSegid ){
    const int pgsz = p->pConfig->pgsz;
    int eDetail = p->pConfig->eDetail;
    Fts5StructureSegment *pSeg;   /* New segment within pStruct */
    Fts5Buffer *pBuf;             /* Buffer in which to assemble leaf page */
    Fts5Buffer *pPgidx;           /* Buffer in which to assemble pgidx */
................................................................................
  if( p->nPendingData ){
    assert( p->pHash );
    p->nPendingData = 0;
    fts5FlushOneHash(p);
  }
}



int sqlite3Fts5IndexOptimize(Fts5Index *p){
  Fts5Structure *pStruct;

  Fts5Structure *pNew = 0;

  int nSeg = 0;


  assert( p->rc==SQLITE_OK );
  fts5IndexFlush(p);














  pStruct = fts5StructureRead(p);


  if( pStruct ){
    assert( pStruct->nSegment==fts5StructureCountSegments(pStruct) );
    nSeg = pStruct->nSegment;
    if( nSeg>1 ){
      int nByte = sizeof(Fts5Structure);



      nByte += (pStruct->nLevel+1) * sizeof(Fts5StructureLevel);
      pNew = (Fts5Structure*)sqlite3Fts5MallocZero(&p->rc, nByte);
    }
  }
  if( pNew ){
    Fts5StructureLevel *pLvl;
    int nByte = nSeg * sizeof(Fts5StructureSegment);
    pNew->nLevel = pStruct->nLevel+1;
    pNew->nRef = 1;
    pNew->nWriteCounter = pStruct->nWriteCounter;
    pLvl = &pNew->aLevel[pStruct->nLevel];
    pLvl->aSeg = (Fts5StructureSegment*)sqlite3Fts5MallocZero(&p->rc, nByte);
    if( pLvl->aSeg ){
      int iLvl, iSeg;
      int iSegOut = 0;
      for(iLvl=0; iLvl<pStruct->nLevel; iLvl++){



        for(iSeg=0; iSeg<pStruct->aLevel[iLvl].nSeg; iSeg++){
          pLvl->aSeg[iSegOut] = pStruct->aLevel[iLvl].aSeg[iSeg];
          iSegOut++;
        }
      }
      pNew->nSegment = pLvl->nSeg = nSeg;
    }else{
      sqlite3_free(pNew);
      pNew = 0;
    }
  }



















  if( pNew ){
    int iLvl = pNew->nLevel-1;

    while( p->rc==SQLITE_OK && pNew->aLevel[iLvl].nSeg>0 ){
      int nRem = FTS5_OPT_WORK_UNIT;
      fts5IndexMergeLevel(p, &pNew, iLvl, &nRem);
    }

    fts5StructureWrite(p, pNew);
    fts5StructureRelease(pNew);
  }

  fts5StructureRelease(pStruct);
  return fts5IndexReturn(p); 
}





int sqlite3Fts5IndexMerge(Fts5Index *p, int nMerge){
  Fts5Structure *pStruct;










  pStruct = fts5StructureRead(p);
  if( pStruct && pStruct->nLevel ){
    fts5IndexMerge(p, &pStruct, nMerge);
    fts5StructureWrite(p, pStruct);
  }

  fts5StructureRelease(pStruct);

  return fts5IndexReturn(p);
}

static void fts5AppendRowid(
  Fts5Index *p,
  i64 iDelta,
  Fts5Iter *pUnused,
................................................................................
    }
    fts5MultiIterFree(p1);

    pData = fts5IdxMalloc(p, sizeof(Fts5Data) + doclist.n);
    if( pData ){
      pData->p = (u8*)&pData[1];
      pData->nn = pData->szLeaf = doclist.n;
      memcpy(pData->p, doclist.p, doclist.n);
      fts5MultiIterNew2(p, pData, bDesc, ppIter);
    }
    fts5BufferFree(&doclist);
  }

  fts5StructureRelease(pStruct);
  sqlite3_free(aBuf);
................................................................................
  p->bDelete = bDelete;
  return fts5IndexReturn(p);
}

/*
** Commit data to disk.
*/
int sqlite3Fts5IndexSync(Fts5Index *p, int bCommit){
  assert( p->rc==SQLITE_OK );
  fts5IndexFlush(p);
  if( bCommit ) fts5CloseReader(p);
  return fts5IndexReturn(p);
}

/*
** Discard any data stored in the in-memory hash tables. Do not write it
** to the database. Additionally, assume that the contents of the %_data
** table may have changed on disk. So any in-memory caches of %_data 
** records must be invalidated.
*/
int sqlite3Fts5IndexRollback(Fts5Index *p){
  fts5CloseReader(p);
  fts5IndexDiscardData(p);

  /* assert( p->rc==SQLITE_OK ); */
  return SQLITE_OK;
}

/*
** The %_data table is completely empty when this function is called. This
** function populates it with the initial structure objects for each index,
** and the initial version of the "averages" record (a zero-byte blob).
*/
int sqlite3Fts5IndexReinit(Fts5Index *p){
  Fts5Structure s;

  memset(&s, 0, sizeof(Fts5Structure));
  fts5DataWrite(p, FTS5_AVERAGES_ROWID, (const u8*)"", 0);
  fts5StructureWrite(p, &s);
  return fts5IndexReturn(p);
}

/*
................................................................................
/*
** Close a handle opened by an earlier call to sqlite3Fts5IndexOpen().
*/
int sqlite3Fts5IndexClose(Fts5Index *p){
  int rc = SQLITE_OK;
  if( p ){
    assert( p->pReader==0 );

    sqlite3_finalize(p->pWriter);
    sqlite3_finalize(p->pDeleter);
    sqlite3_finalize(p->pIdxWriter);
    sqlite3_finalize(p->pIdxDeleter);
    sqlite3_finalize(p->pIdxSelect);

    sqlite3Fts5HashFree(p->pHash);
    sqlite3_free(p->zDataTbl);
    sqlite3_free(p);
  }
  return rc;
}

................................................................................
  Fts5Buffer buf = {0, 0, 0};

  /* If the QUERY_SCAN flag is set, all other flags must be clear. */
  assert( (flags & FTS5INDEX_QUERY_SCAN)==0 || flags==FTS5INDEX_QUERY_SCAN );

  if( sqlite3Fts5BufferSize(&p->rc, &buf, nToken+1)==0 ){
    int iIdx = 0;                 /* Index to search */
    memcpy(&buf.p[1], pToken, nToken);

    /* Figure out which index to search and set iIdx accordingly. If this
    ** is a prefix query for which there is no prefix index, set iIdx to
    ** greater than pConfig->nPrefix to indicate that the query will be
    ** satisfied by scanning multiple terms in the main index.
    **
    ** If the QUERY_TEST_NOIDX flag was specified, then this must be a
................................................................................
      if( p->rc==SQLITE_OK ){
        Fts5SegIter *pSeg = &pRet->aSeg[pRet->aFirst[1].iFirst];
        if( pSeg->pLeaf ) pRet->xSetOutputs(pRet, pSeg);
      }
    }

    if( p->rc ){
      sqlite3Fts5IterClose(&pRet->base);
      pRet = 0;
      fts5CloseReader(p);
    }

    *ppIter = &pRet->base;
    sqlite3Fts5BufferFree(&buf);
  }
................................................................................
    int iIdxLeaf = sqlite3_column_int(pStmt, 2);
    int bIdxDlidx = sqlite3_column_int(pStmt, 3);

    /* If the leaf in question has already been trimmed from the segment, 
    ** ignore this b-tree entry. Otherwise, load it into memory. */
    if( iIdxLeaf<pSeg->pgnoFirst ) continue;
    iRow = FTS5_SEGMENT_ROWID(pSeg->iSegid, iIdxLeaf);
    pLeaf = fts5DataRead(p, iRow);
    if( pLeaf==0 ) break;

    /* Check that the leaf contains at least one term, and that it is equal
    ** to or larger than the split-key in zIdxTerm.  Also check that if there
    ** is also a rowid pointer within the leaf page header, it points to a
    ** location before the term.  */
    if( pLeaf->nn<=pLeaf->szLeaf ){
................................................................................
  if( rc==SQLITE_OK ){
    rc = sqlite3_create_function(
        db, "fts5_rowid", -1, SQLITE_UTF8, 0, fts5RowidFunction, 0, 0
    );
  }
  return rc;
}
















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....
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4364

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....
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....
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....
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....
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....
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....
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....
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....
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....
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....
6477
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6492
  sqlite3_blob *pReader;          /* RO incr-blob open on %_data table */
  sqlite3_stmt *pWriter;          /* "INSERT ... %_data VALUES(?,?)" */
  sqlite3_stmt *pDeleter;         /* "DELETE FROM %_data ... id>=? AND id<=?" */
  sqlite3_stmt *pIdxWriter;       /* "INSERT ... %_idx VALUES(?,?,?,?)" */
  sqlite3_stmt *pIdxDeleter;      /* "DELETE FROM %_idx WHERE segid=? */
  sqlite3_stmt *pIdxSelect;
  int nRead;                      /* Total number of blocks read */

  sqlite3_stmt *pDataVersion;
  i64 iStructVersion;             /* data_version when pStruct read */
  Fts5Structure *pStruct;         /* Current db structure (or NULL) */
};

struct Fts5DoclistIter {
  u8 *aEof;                       /* Pointer to 1 byte past end of doclist */

  /* Output variables. aPoslist==0 at EOF */
  i64 iRowid;
................................................................................
  if( p->pReader ){
    sqlite3_blob *pReader = p->pReader;
    p->pReader = 0;
    sqlite3_blob_close(pReader);
  }
}


/*
** Retrieve a record from the %_data table.
**
** If an error occurs, NULL is returned and an error left in the 
** Fts5Index object.
*/
static Fts5Data *fts5DataRead(Fts5Index *p, i64 iRowid){
................................................................................
/*
** Release a reference to data record returned by an earlier call to
** fts5DataRead().
*/
static void fts5DataRelease(Fts5Data *pData){
  sqlite3_free(pData);
}

static Fts5Data *fts5LeafRead(Fts5Index *p, i64 iRowid){
  Fts5Data *pRet = fts5DataRead(p, iRowid);
  if( pRet ){
    if( pRet->szLeaf>pRet->nn ){
      p->rc = FTS5_CORRUPT;
      fts5DataRelease(pRet);
      pRet = 0;
    }
  }
  return pRet;
}

static int fts5IndexPrepareStmt(
  Fts5Index *p,
  sqlite3_stmt **ppStmt,
  char *zSql
){
  if( p->rc==SQLITE_OK ){
................................................................................
      }
      pLvl->aSeg = aNew;
    }else{
      *pRc = SQLITE_NOMEM;
    }
  }
}

static Fts5Structure *fts5StructureReadUncached(Fts5Index *p){
  Fts5Structure *pRet = 0;
  Fts5Config *pConfig = p->pConfig;
  int iCookie;                    /* Configuration cookie */
  Fts5Data *pData;

  pData = fts5DataRead(p, FTS5_STRUCTURE_ROWID);
  if( p->rc==SQLITE_OK ){
    /* TODO: Do we need this if the leaf-index is appended? Probably... */
    memset(&pData->p[pData->nn], 0, FTS5_DATA_PADDING);
    p->rc = fts5StructureDecode(pData->p, pData->nn, &iCookie, &pRet);
    if( p->rc==SQLITE_OK && pConfig->iCookie!=iCookie ){
      p->rc = sqlite3Fts5ConfigLoad(pConfig, iCookie);
    }
    fts5DataRelease(pData);
    if( p->rc!=SQLITE_OK ){
      fts5StructureRelease(pRet);
      pRet = 0;
    }
  }

  return pRet;
}

static i64 fts5IndexDataVersion(Fts5Index *p){
  i64 iVersion = 0;

  if( p->rc==SQLITE_OK ){
    if( p->pDataVersion==0 ){
      p->rc = fts5IndexPrepareStmt(p, &p->pDataVersion, 
          sqlite3_mprintf("PRAGMA %Q.data_version", p->pConfig->zDb)
          );
      if( p->rc ) return 0;
    }

    if( SQLITE_ROW==sqlite3_step(p->pDataVersion) ){
      iVersion = sqlite3_column_int64(p->pDataVersion, 0);
    }
    p->rc = sqlite3_reset(p->pDataVersion);
  }

  return iVersion;
}

/*
** Read, deserialize and return the structure record.
**
** The Fts5Structure.aLevel[] and each Fts5StructureLevel.aSeg[] array
** are over-allocated as described for function fts5StructureDecode() 
** above.
**
** If an error occurs, NULL is returned and an error code left in the
** Fts5Index handle. If an error has already occurred when this function
** is called, it is a no-op.
*/
static Fts5Structure *fts5StructureRead(Fts5Index *p){










  if( p->pStruct==0 ){
    p->iStructVersion = fts5IndexDataVersion(p);
    if( p->rc==SQLITE_OK ){

      p->pStruct = fts5StructureReadUncached(p);
    }
  }


#if 0
  else{
    Fts5Structure *pTest = fts5StructureReadUncached(p);
    if( pTest ){
      int i, j;
      assert_nc( p->pStruct->nSegment==pTest->nSegment );
      assert_nc( p->pStruct->nLevel==pTest->nLevel );
      for(i=0; i<pTest->nLevel; i++){
        assert_nc( p->pStruct->aLevel[i].nMerge==pTest->aLevel[i].nMerge );
        assert_nc( p->pStruct->aLevel[i].nSeg==pTest->aLevel[i].nSeg );
        for(j=0; j<pTest->aLevel[i].nSeg; j++){
          Fts5StructureSegment *p1 = &pTest->aLevel[i].aSeg[j];
          Fts5StructureSegment *p2 = &p->pStruct->aLevel[i].aSeg[j];
          assert_nc( p1->iSegid==p2->iSegid );
          assert_nc( p1->pgnoFirst==p2->pgnoFirst );
          assert_nc( p1->pgnoLast==p2->pgnoLast );
        }
      }
      fts5StructureRelease(pTest);
    }
  }
#endif

  if( p->rc!=SQLITE_OK ) return 0;
  assert( p->iStructVersion!=0 );
  assert( p->pStruct!=0 );
  fts5StructureRef(p->pStruct);
  return p->pStruct;
}

static void fts5StructureInvalidate(Fts5Index *p){
  if( p->pStruct ){
    fts5StructureRelease(p->pStruct);
    p->pStruct = 0;
  }

}

/*
** Return the total number of segments in index structure pStruct. This
** function is only ever used as part of assert() conditions.
*/
#ifdef SQLITE_DEBUG
................................................................................
  Fts5StructureSegment *pSeg = pIter->pSeg;
  fts5DataRelease(pIter->pLeaf);
  pIter->iLeafPgno++;
  if( pIter->pNextLeaf ){
    pIter->pLeaf = pIter->pNextLeaf;
    pIter->pNextLeaf = 0;
  }else if( pIter->iLeafPgno<=pSeg->pgnoLast ){
    pIter->pLeaf = fts5LeafRead(p, 
        FTS5_SEGMENT_ROWID(pSeg->iSegid, pIter->iLeafPgno)
    );
  }else{
    pIter->pLeaf = 0;
  }
  pLeaf = pIter->pLeaf;

................................................................................
      if( (iOff = fts5LeafFirstRowidOff(pLeaf)) && iOff<pLeaf->szLeaf ){
        iOff += sqlite3Fts5GetVarint(&pLeaf->p[iOff], (u64*)&pIter->iRowid);
        pIter->iLeafOffset = iOff;

        if( pLeaf->nn>pLeaf->szLeaf ){
          pIter->iPgidxOff = pLeaf->szLeaf + fts5GetVarint32(
              &pLeaf->p[pLeaf->szLeaf], pIter->iEndofDoclist
          );
        }

      }
      else if( pLeaf->nn>pLeaf->szLeaf ){
        pIter->iPgidxOff = pLeaf->szLeaf + fts5GetVarint32(
            &pLeaf->p[pLeaf->szLeaf], iOff
        );
        pIter->iLeafOffset = iOff;
        pIter->iEndofDoclist = iOff;
        bNewTerm = 1;
      }
      assert_nc( iOff<pLeaf->szLeaf );
      if( iOff>pLeaf->szLeaf ){
        p->rc = FTS5_CORRUPT;
................................................................................
      ** code is inlined. 
      **
      ** Later: Switched back to fts5SegIterLoadNPos() because it supports
      ** detail=none mode. Not ideal.
      */
      int nSz;
      assert( p->rc==SQLITE_OK );
      assert( pIter->iLeafOffset<=pIter->pLeaf->nn );
      fts5FastGetVarint32(pIter->pLeaf->p, pIter->iLeafOffset, nSz);
      pIter->bDel = (nSz & 0x0001);
      pIter->nPos = nSz>>1;
      assert_nc( pIter->nPos>=0 );
    }
  }
}
................................................................................
  int bEndOfPage = 0;

  assert( p->rc==SQLITE_OK );

  iPgidx = szLeaf;
  iPgidx += fts5GetVarint32(&a[iPgidx], iTermOff);
  iOff = iTermOff;
  if( iOff>n ){
    p->rc = FTS5_CORRUPT;
    return;
  }

  while( 1 ){

    /* Figure out how many new bytes are in this term */
    fts5FastGetVarint32(a, iOff, nNew);
    if( nKeep<nMatch ){
      goto search_failed;
................................................................................
      bEndOfPage = 1;
      break;
    }

    iPgidx += fts5GetVarint32(&a[iPgidx], nKeep);
    iTermOff += nKeep;
    iOff = iTermOff;

    if( iOff>=n ){
      p->rc = FTS5_CORRUPT;
      return;
    }

    /* Read the nKeep field of the next term. */
    fts5FastGetVarint32(a, iOff, nKeep);
  }

 search_failed:
  if( bGe==0 ){
................................................................................
    pIter->iEndofDoclist = iTermOff + nExtra;
  }
  pIter->iPgidxOff = iPgidx;

  fts5SegIterLoadRowid(p, pIter);
  fts5SegIterLoadNPos(p, pIter);
}

static sqlite3_stmt *fts5IdxSelectStmt(Fts5Index *p){
  if( p->pIdxSelect==0 ){
    Fts5Config *pConfig = p->pConfig;
    fts5IndexPrepareStmt(p, &p->pIdxSelect, sqlite3_mprintf(
          "SELECT pgno FROM '%q'.'%q_idx' WHERE "
          "segid=? AND term<=? ORDER BY term DESC LIMIT 1",
          pConfig->zDb, pConfig->zName
    ));
  }
  return p->pIdxSelect;
}

/*
** Initialize the object pIter to point to term pTerm/nTerm within segment
** pSeg. If there is no such term in the index, the iterator is set to EOF.
**
** If an error occurs, Fts5Index.rc is set to an appropriate error code. If 
** an error has already occurred when this function is called, it is a no-op.
................................................................................
  int flags,                      /* Mask of FTS5INDEX_XXX flags */
  Fts5StructureSegment *pSeg,     /* Description of segment */
  Fts5SegIter *pIter              /* Object to populate */
){
  int iPg = 1;
  int bGe = (flags & FTS5INDEX_QUERY_SCAN);
  int bDlidx = 0;                 /* True if there is a doclist-index */
  sqlite3_stmt *pIdxSelect = 0;

  assert( bGe==0 || (flags & FTS5INDEX_QUERY_DESC)==0 );
  assert( pTerm && nTerm );
  memset(pIter, 0, sizeof(*pIter));
  pIter->pSeg = pSeg;

  /* This block sets stack variable iPg to the leaf page number that may
  ** contain term (pTerm/nTerm), if it is present in the segment. */
  pIdxSelect = fts5IdxSelectStmt(p);







  if( p->rc ) return;
  sqlite3_bind_int(pIdxSelect, 1, pSeg->iSegid);
  sqlite3_bind_blob(pIdxSelect, 2, pTerm, nTerm, SQLITE_STATIC);
  if( SQLITE_ROW==sqlite3_step(pIdxSelect) ){
    i64 val = sqlite3_column_int(pIdxSelect, 0);
    iPg = (int)(val>>1);
    bDlidx = (val & 0x0001);
  }
  p->rc = sqlite3_reset(pIdxSelect);

  if( iPg<pSeg->pgnoFirst ){
    iPg = pSeg->pgnoFirst;
    bDlidx = 0;
  }

  pIter->iLeafPgno = iPg - 1;
................................................................................
static void fts5MultiIterNext(
  Fts5Index *p, 
  Fts5Iter *pIter,
  int bFrom,                      /* True if argument iFrom is valid */
  i64 iFrom                       /* Advance at least as far as this */
){
  int bUseFrom = bFrom;
  assert( pIter->base.bEof==0 );
  while( p->rc==SQLITE_OK ){
    int iFirst = pIter->aFirst[1].iFirst;
    int bNewTerm = 0;
    Fts5SegIter *pSeg = &pIter->aSeg[iFirst];
    assert( p->rc==SQLITE_OK );
    if( bUseFrom && pSeg->pDlidx ){
      fts5SegIterNextFrom(p, pSeg, iFrom);
................................................................................
static void fts5MultiIterNext2(
  Fts5Index *p, 
  Fts5Iter *pIter,
  int *pbNewTerm                  /* OUT: True if *might* be new term */
){
  assert( pIter->bSkipEmpty );
  if( p->rc==SQLITE_OK ){
    *pbNewTerm = 0;
    do{
      int iFirst = pIter->aFirst[1].iFirst;
      Fts5SegIter *pSeg = &pIter->aSeg[iFirst];
      int bNewTerm = 0;

      assert( p->rc==SQLITE_OK );
      pSeg->xNext(p, pSeg, &bNewTerm);
      if( pSeg->pLeaf==0 || bNewTerm 
       || fts5MultiIterAdvanceRowid(pIter, iFirst, &pSeg)
      ){
        fts5MultiIterAdvanced(p, pIter, iFirst, 1);
        fts5MultiIterSetEof(pIter);
        *pbNewTerm = 1;


      }
      fts5AssertMultiIterSetup(p, pIter);

    }while( fts5MultiIterIsEmpty(p, pIter) );
  }
}

................................................................................
    xChunk(p, pCtx, pChunk, nChunk);
    nRem -= nChunk;
    fts5DataRelease(pData);
    if( nRem<=0 ){
      break;
    }else{
      pgno++;
      pData = fts5LeafRead(p, FTS5_SEGMENT_ROWID(pSeg->pSeg->iSegid, pgno));
      if( pData==0 ) break;
      pChunk = &pData->p[4];
      nChunk = MIN(nRem, pData->szLeaf - 4);
      if( pgno==pgnoSave ){
        assert( pSeg->pNextLeaf==0 );
        pSeg->pNextLeaf = pData;
        pData = 0;
................................................................................
  while( p<pEnd && *p!=0x01 ){
    while( *p++ & 0x80 );
  }

  return p - (*pa);
}

static void fts5IndexExtractColset(
  int *pRc,
  Fts5Colset *pColset,            /* Colset to filter on */
  const u8 *pPos, int nPos,       /* Position list */
  Fts5Buffer *pBuf                /* Output buffer */
){
  if( *pRc==SQLITE_OK ){
    int i;

    fts5BufferZero(pBuf);
    for(i=0; i<pColset->nCol; i++){
      const u8 *pSub = pPos;
      int nSub = fts5IndexExtractCol(&pSub, nPos, pColset->aiCol[i]);
      if( nSub ){
        fts5BufferAppendBlob(pRc, pBuf, nSub, pSub);
      }
    }

  }
}

/*
** xSetOutputs callback used by detail=none tables.
*/
static void fts5IterSetOutputs_None(Fts5Iter *pIter, Fts5SegIter *pSeg){
  assert( pIter->pIndex->pConfig->eDetail==FTS5_DETAIL_NONE );
................................................................................
    ** Fts5Iter.poslist buffer and then set the output pointer to point
    ** to this buffer.  */
    fts5BufferZero(&pIter->poslist);
    fts5SegiterPoslist(pIter->pIndex, pSeg, 0, &pIter->poslist);
    pIter->base.pData = pIter->poslist.p;
  }
}

/*
** xSetOutputs callback used when the Fts5Colset object has nCol==0 (match
** against no columns at all).
*/
static void fts5IterSetOutputs_ZeroColset(Fts5Iter *pIter, Fts5SegIter *pSeg){
  UNUSED_PARAM(pSeg);
  pIter->base.nData = 0;
}

/*
** xSetOutputs callback used by detail=col when there is a column filter
** and there are 100 or more columns. Also called as a fallback from
** fts5IterSetOutputs_Col100 if the column-list spans more than one page.
*/
static void fts5IterSetOutputs_Col(Fts5Iter *pIter, Fts5SegIter *pSeg){
................................................................................
    while( a<pEnd ){
      iPrev += (int)a++[0] - 2;
      while( *aiCol<iPrev ){
        aiCol++;
        if( aiCol==aiColEnd ) goto setoutputs_col_out;
      }
      if( *aiCol==iPrev ){
        *aOut++ = (u8)((iPrev - iPrevOut) + 2);
        iPrevOut = iPrev;
      }
    }

setoutputs_col_out:
    pIter->base.pData = pIter->poslist.p;
    pIter->base.nData = aOut - pIter->poslist.p;
................................................................................
    /* All data is stored on the current page. Populate the output 
    ** variables to point into the body of the page object. */
    const u8 *a = &pSeg->pLeaf->p[pSeg->iLeafOffset];
    if( pColset->nCol==1 ){
      pIter->base.nData = fts5IndexExtractCol(&a, pSeg->nPos,pColset->aiCol[0]);
      pIter->base.pData = a;
    }else{
      int *pRc = &pIter->pIndex->rc;
      fts5BufferZero(&pIter->poslist);
      fts5IndexExtractColset(pRc, pColset, a, pSeg->nPos, &pIter->poslist);
      pIter->base.pData = pIter->poslist.p;
      pIter->base.nData = pIter->poslist.n;
    }
  }else{
    /* The data is distributed over two or more pages. Copy it into the
    ** Fts5Iter.poslist buffer and then set the output pointer to point
    ** to this buffer.  */
................................................................................
    if( pConfig->eDetail==FTS5_DETAIL_NONE ){
      pIter->xSetOutputs = fts5IterSetOutputs_None;
    }

    else if( pIter->pColset==0 ){
      pIter->xSetOutputs = fts5IterSetOutputs_Nocolset;
    }

    else if( pIter->pColset->nCol==0 ){
      pIter->xSetOutputs = fts5IterSetOutputs_ZeroColset;
    }

    else if( pConfig->eDetail==FTS5_DETAIL_FULL ){
      pIter->xSetOutputs = fts5IterSetOutputs_Full;
    }

    else{
      assert( pConfig->eDetail==FTS5_DETAIL_COLUMNS );
................................................................................
static int fts5AllocateSegid(Fts5Index *p, Fts5Structure *pStruct){
  int iSegid = 0;

  if( p->rc==SQLITE_OK ){
    if( pStruct->nSegment>=FTS5_MAX_SEGMENT ){
      p->rc = SQLITE_FULL;
    }else{
      /* FTS5_MAX_SEGMENT is currently defined as 2000. So the following
      ** array is 63 elements, or 252 bytes, in size.  */
      u32 aUsed[(FTS5_MAX_SEGMENT+31) / 32];
      int iLvl, iSeg;


      int i;
      u32 mask;
      memset(aUsed, 0, sizeof(aUsed));
      for(iLvl=0; iLvl<pStruct->nLevel; iLvl++){
        for(iSeg=0; iSeg<pStruct->aLevel[iLvl].nSeg; iSeg++){
          int iId = pStruct->aLevel[iLvl].aSeg[iSeg].iSegid;
          if( iId<=FTS5_MAX_SEGMENT ){
            aUsed[(iId-1) / 32] |= 1 << ((iId-1) % 32);
          }
        }
      }

      for(i=0; aUsed[i]==0xFFFFFFFF; i++);
      mask = aUsed[i];
      for(iSegid=0; mask & (1 << iSegid); iSegid++);
      iSegid += 1 + i*32;

#ifdef SQLITE_DEBUG
      for(iLvl=0; iLvl<pStruct->nLevel; iLvl++){
        for(iSeg=0; iSeg<pStruct->aLevel[iLvl].nSeg; iSeg++){
          assert( iSegid!=pStruct->aLevel[iLvl].aSeg[iSeg].iSegid );
        }
      }
      assert( iSegid>0 && iSegid<=FTS5_MAX_SEGMENT );

      {
        sqlite3_stmt *pIdxSelect = fts5IdxSelectStmt(p);
        if( p->rc==SQLITE_OK ){
          u8 aBlob[2] = {0xff, 0xff};
          sqlite3_bind_int(pIdxSelect, 1, iSegid);
          sqlite3_bind_blob(pIdxSelect, 2, aBlob, 2, SQLITE_STATIC);
          assert( sqlite3_step(pIdxSelect)!=SQLITE_ROW );
          p->rc = sqlite3_reset(pIdxSelect);
        }
      }
#endif
    }
  }

  return iSegid;
}

/*
................................................................................
  Fts5PageWriter *pLeaf = &pWriter->writer;
  if( p->rc==SQLITE_OK ){
    assert( pLeaf->pgno>=1 );
    if( pLeaf->buf.n>4 ){
      fts5WriteFlushLeaf(p, pWriter);
    }
    *pnLeaf = pLeaf->pgno-1;
    if( pLeaf->pgno>1 ){
      fts5WriteFlushBtree(p, pWriter);
    }
  }
  fts5BufferFree(&pLeaf->term);
  fts5BufferFree(&pLeaf->buf);
  fts5BufferFree(&pLeaf->pgidx);
  fts5BufferFree(&pWriter->btterm);

  for(i=0; i<pWriter->nDlidx; i++){
................................................................................
  int nInput;                     /* Number of input segments */
  Fts5SegWriter writer;           /* Writer object */
  Fts5StructureSegment *pSeg;     /* Output segment */
  Fts5Buffer term;
  int bOldest;                    /* True if the output segment is the oldest */
  int eDetail = p->pConfig->eDetail;
  const int flags = FTS5INDEX_QUERY_NOOUTPUT;
  int bTermWritten = 0;           /* True if current term already output */

  assert( iLvl<pStruct->nLevel );
  assert( pLvl->nMerge<=pLvl->nSeg );

  memset(&writer, 0, sizeof(Fts5SegWriter));
  memset(&term, 0, sizeof(Fts5Buffer));
  if( pLvl->nMerge ){
................................................................................
      fts5MultiIterNext(p, pIter, 0, 0)
  ){
    Fts5SegIter *pSegIter = &pIter->aSeg[ pIter->aFirst[1].iFirst ];
    int nPos;                     /* position-list size field value */
    int nTerm;
    const u8 *pTerm;




    pTerm = fts5MultiIterTerm(pIter, &nTerm);
    if( nTerm!=term.n || memcmp(pTerm, term.p, nTerm) ){
      if( pnRem && writer.nLeafWritten>nRem ){
        break;
      }
      fts5BufferSet(&p->rc, &term, nTerm, pTerm);
      bTermWritten =0;
    }

    /* Check for key annihilation. */
    if( pSegIter->nPos==0 && (bOldest || pSegIter->bDel==0) ) continue;

    if( p->rc==SQLITE_OK && bTermWritten==0 ){
      /* This is a new term. Append a term to the output segment. */
      fts5WriteAppendTerm(p, &writer, nTerm, pTerm);

      bTermWritten = 1;
    }

    /* Append the rowid to the output */
    /* WRITEPOSLISTSIZE */
    fts5WriteAppendRowid(p, &writer, fts5MultiIterRowid(pIter));

    if( eDetail==FTS5_DETAIL_NONE ){
................................................................................
  fts5MultiIterFree(pIter);
  fts5BufferFree(&term);
  if( pnRem ) *pnRem -= writer.nLeafWritten;
}

/*
** Do up to nPg pages of automerge work on the index.
**
** Return true if any changes were actually made, or false otherwise.
*/
static int fts5IndexMerge(
  Fts5Index *p,                   /* FTS5 backend object */
  Fts5Structure **ppStruct,       /* IN/OUT: Current structure of index */
  int nPg,                        /* Pages of work to do */
  int nMin                        /* Minimum number of segments to merge */
){
  int nRem = nPg;
  int bRet = 0;
  Fts5Structure *pStruct = *ppStruct;
  while( nRem>0 && p->rc==SQLITE_OK ){
    int iLvl;                   /* To iterate through levels */
    int iBestLvl = 0;           /* Level offering the most input segments */
    int nBest = 0;              /* Number of input segments on best level */

    /* Set iBestLvl to the level to read input segments from. */
................................................................................
    /* If nBest is still 0, then the index must be empty. */
#ifdef SQLITE_DEBUG
    for(iLvl=0; nBest==0 && iLvl<pStruct->nLevel; iLvl++){
      assert( pStruct->aLevel[iLvl].nSeg==0 );
    }
#endif


    if( nBest<nMin && pStruct->aLevel[iBestLvl].nMerge==0 ){

      break;
    }
    bRet = 1;
    fts5IndexMergeLevel(p, &pStruct, iBestLvl, &nRem);
    if( p->rc==SQLITE_OK && pStruct->aLevel[iBestLvl].nMerge==0 ){
      fts5StructurePromote(p, iBestLvl+1, pStruct);
    }
  }
  *ppStruct = pStruct;
  return bRet;
}

/*
** A total of nLeaf leaf pages of data has just been flushed to a level-0
** segment. This function updates the write-counter accordingly and, if
** necessary, performs incremental merge work.
**
................................................................................

    /* Update the write-counter. While doing so, set nWork. */
    nWrite = pStruct->nWriteCounter;
    nWork = (int)(((nWrite + nLeaf) / p->nWorkUnit) - (nWrite / p->nWorkUnit));
    pStruct->nWriteCounter += nLeaf;
    nRem = (int)(p->nWorkUnit * nWork * pStruct->nLevel);

    fts5IndexMerge(p, ppStruct, nRem, p->pConfig->nAutomerge);
  }
}

static void fts5IndexCrisismerge(
  Fts5Index *p,                   /* FTS5 backend object */
  Fts5Structure **ppStruct        /* IN/OUT: Current structure of index */
){
................................................................................
  int iSegid;
  int pgnoLast = 0;                 /* Last leaf page number in segment */

  /* Obtain a reference to the index structure and allocate a new segment-id
  ** for the new level-0 segment.  */
  pStruct = fts5StructureRead(p);
  iSegid = fts5AllocateSegid(p, pStruct);
  fts5StructureInvalidate(p);

  if( iSegid ){
    const int pgsz = p->pConfig->pgsz;
    int eDetail = p->pConfig->eDetail;
    Fts5StructureSegment *pSeg;   /* New segment within pStruct */
    Fts5Buffer *pBuf;             /* Buffer in which to assemble leaf page */
    Fts5Buffer *pPgidx;           /* Buffer in which to assemble pgidx */
................................................................................
  if( p->nPendingData ){
    assert( p->pHash );
    p->nPendingData = 0;
    fts5FlushOneHash(p);
  }
}


static Fts5Structure *fts5IndexOptimizeStruct(
  Fts5Index *p, 
  Fts5Structure *pStruct
){
  Fts5Structure *pNew = 0;
  int nByte = sizeof(Fts5Structure);
  int nSeg = pStruct->nSegment;
  int i;



  /* Figure out if this structure requires optimization. A structure does
  ** not require optimization if either:
  **
  **  + it consists of fewer than two segments, or 
  **  + all segments are on the same level, or
  **  + all segments except one are currently inputs to a merge operation.
  **
  ** In the first case, return NULL. In the second, increment the ref-count
  ** on *pStruct and return a copy of the pointer to it.
  */
  if( nSeg<2 ) return 0;
  for(i=0; i<pStruct->nLevel; i++){
    int nThis = pStruct->aLevel[i].nSeg;
    if( nThis==nSeg || (nThis==nSeg-1 && pStruct->aLevel[i].nMerge==nThis) ){
      fts5StructureRef(pStruct);
      return pStruct;
    }





    assert( pStruct->aLevel[i].nMerge<=nThis );
  }

  nByte += (pStruct->nLevel+1) * sizeof(Fts5StructureLevel);
  pNew = (Fts5Structure*)sqlite3Fts5MallocZero(&p->rc, nByte);


  if( pNew ){
    Fts5StructureLevel *pLvl;
    nByte = nSeg * sizeof(Fts5StructureSegment);
    pNew->nLevel = pStruct->nLevel+1;
    pNew->nRef = 1;
    pNew->nWriteCounter = pStruct->nWriteCounter;
    pLvl = &pNew->aLevel[pStruct->nLevel];
    pLvl->aSeg = (Fts5StructureSegment*)sqlite3Fts5MallocZero(&p->rc, nByte);
    if( pLvl->aSeg ){
      int iLvl, iSeg;
      int iSegOut = 0;
      /* Iterate through all segments, from oldest to newest. Add them to
      ** the new Fts5Level object so that pLvl->aSeg[0] is the oldest
      ** segment in the data structure.  */
      for(iLvl=pStruct->nLevel-1; iLvl>=0; iLvl--){
        for(iSeg=0; iSeg<pStruct->aLevel[iLvl].nSeg; iSeg++){
          pLvl->aSeg[iSegOut] = pStruct->aLevel[iLvl].aSeg[iSeg];
          iSegOut++;
        }
      }
      pNew->nSegment = pLvl->nSeg = nSeg;
    }else{
      sqlite3_free(pNew);
      pNew = 0;
    }
  }

  return pNew;
}

int sqlite3Fts5IndexOptimize(Fts5Index *p){
  Fts5Structure *pStruct;
  Fts5Structure *pNew = 0;

  assert( p->rc==SQLITE_OK );
  fts5IndexFlush(p);
  pStruct = fts5StructureRead(p);
  fts5StructureInvalidate(p);

  if( pStruct ){
    pNew = fts5IndexOptimizeStruct(p, pStruct);
  }
  fts5StructureRelease(pStruct);

  assert( pNew==0 || pNew->nSegment>0 );
  if( pNew ){
    int iLvl;
    for(iLvl=0; pNew->aLevel[iLvl].nSeg==0; iLvl++){}
    while( p->rc==SQLITE_OK && pNew->aLevel[iLvl].nSeg>0 ){
      int nRem = FTS5_OPT_WORK_UNIT;
      fts5IndexMergeLevel(p, &pNew, iLvl, &nRem);
    }

    fts5StructureWrite(p, pNew);
    fts5StructureRelease(pNew);
  }


  return fts5IndexReturn(p); 
}

/*
** This is called to implement the special "VALUES('merge', $nMerge)"
** INSERT command.
*/
int sqlite3Fts5IndexMerge(Fts5Index *p, int nMerge){
  Fts5Structure *pStruct = fts5StructureRead(p);
  if( pStruct ){
    int nMin = p->pConfig->nUsermerge;
    fts5StructureInvalidate(p);
    if( nMerge<0 ){
      Fts5Structure *pNew = fts5IndexOptimizeStruct(p, pStruct);
      fts5StructureRelease(pStruct);
      pStruct = pNew;
      nMin = 2;
      nMerge = nMerge*-1;
    }

    if( pStruct && pStruct->nLevel ){
      if( fts5IndexMerge(p, &pStruct, nMerge, nMin) ){
        fts5StructureWrite(p, pStruct);
      }
    }
    fts5StructureRelease(pStruct);
  }
  return fts5IndexReturn(p);
}

static void fts5AppendRowid(
  Fts5Index *p,
  i64 iDelta,
  Fts5Iter *pUnused,
................................................................................
    }
    fts5MultiIterFree(p1);

    pData = fts5IdxMalloc(p, sizeof(Fts5Data) + doclist.n);
    if( pData ){
      pData->p = (u8*)&pData[1];
      pData->nn = pData->szLeaf = doclist.n;
      if( doclist.n ) memcpy(pData->p, doclist.p, doclist.n);
      fts5MultiIterNew2(p, pData, bDesc, ppIter);
    }
    fts5BufferFree(&doclist);
  }

  fts5StructureRelease(pStruct);
  sqlite3_free(aBuf);
................................................................................
  p->bDelete = bDelete;
  return fts5IndexReturn(p);
}

/*
** Commit data to disk.
*/
int sqlite3Fts5IndexSync(Fts5Index *p){
  assert( p->rc==SQLITE_OK );
  fts5IndexFlush(p);
  fts5CloseReader(p);
  return fts5IndexReturn(p);
}

/*
** Discard any data stored in the in-memory hash tables. Do not write it
** to the database. Additionally, assume that the contents of the %_data
** table may have changed on disk. So any in-memory caches of %_data 
** records must be invalidated.
*/
int sqlite3Fts5IndexRollback(Fts5Index *p){
  fts5CloseReader(p);
  fts5IndexDiscardData(p);
  fts5StructureInvalidate(p);
  /* assert( p->rc==SQLITE_OK ); */
  return SQLITE_OK;
}

/*
** The %_data table is completely empty when this function is called. This
** function populates it with the initial structure objects for each index,
** and the initial version of the "averages" record (a zero-byte blob).
*/
int sqlite3Fts5IndexReinit(Fts5Index *p){
  Fts5Structure s;
  fts5StructureInvalidate(p);
  memset(&s, 0, sizeof(Fts5Structure));
  fts5DataWrite(p, FTS5_AVERAGES_ROWID, (const u8*)"", 0);
  fts5StructureWrite(p, &s);
  return fts5IndexReturn(p);
}

/*
................................................................................
/*
** Close a handle opened by an earlier call to sqlite3Fts5IndexOpen().
*/
int sqlite3Fts5IndexClose(Fts5Index *p){
  int rc = SQLITE_OK;
  if( p ){
    assert( p->pReader==0 );
    fts5StructureInvalidate(p);
    sqlite3_finalize(p->pWriter);
    sqlite3_finalize(p->pDeleter);
    sqlite3_finalize(p->pIdxWriter);
    sqlite3_finalize(p->pIdxDeleter);
    sqlite3_finalize(p->pIdxSelect);
    sqlite3_finalize(p->pDataVersion);
    sqlite3Fts5HashFree(p->pHash);
    sqlite3_free(p->zDataTbl);
    sqlite3_free(p);
  }
  return rc;
}

................................................................................
  Fts5Buffer buf = {0, 0, 0};

  /* If the QUERY_SCAN flag is set, all other flags must be clear. */
  assert( (flags & FTS5INDEX_QUERY_SCAN)==0 || flags==FTS5INDEX_QUERY_SCAN );

  if( sqlite3Fts5BufferSize(&p->rc, &buf, nToken+1)==0 ){
    int iIdx = 0;                 /* Index to search */
    if( nToken ) memcpy(&buf.p[1], pToken, nToken);

    /* Figure out which index to search and set iIdx accordingly. If this
    ** is a prefix query for which there is no prefix index, set iIdx to
    ** greater than pConfig->nPrefix to indicate that the query will be
    ** satisfied by scanning multiple terms in the main index.
    **
    ** If the QUERY_TEST_NOIDX flag was specified, then this must be a
................................................................................
      if( p->rc==SQLITE_OK ){
        Fts5SegIter *pSeg = &pRet->aSeg[pRet->aFirst[1].iFirst];
        if( pSeg->pLeaf ) pRet->xSetOutputs(pRet, pSeg);
      }
    }

    if( p->rc ){
      sqlite3Fts5IterClose((Fts5IndexIter*)pRet);
      pRet = 0;
      fts5CloseReader(p);
    }

    *ppIter = &pRet->base;
    sqlite3Fts5BufferFree(&buf);
  }
................................................................................
    int iIdxLeaf = sqlite3_column_int(pStmt, 2);
    int bIdxDlidx = sqlite3_column_int(pStmt, 3);

    /* If the leaf in question has already been trimmed from the segment, 
    ** ignore this b-tree entry. Otherwise, load it into memory. */
    if( iIdxLeaf<pSeg->pgnoFirst ) continue;
    iRow = FTS5_SEGMENT_ROWID(pSeg->iSegid, iIdxLeaf);
    pLeaf = fts5LeafRead(p, iRow);
    if( pLeaf==0 ) break;

    /* Check that the leaf contains at least one term, and that it is equal
    ** to or larger than the split-key in zIdxTerm.  Also check that if there
    ** is also a rowid pointer within the leaf page header, it points to a
    ** location before the term.  */
    if( pLeaf->nn<=pLeaf->szLeaf ){
................................................................................
  if( rc==SQLITE_OK ){
    rc = sqlite3_create_function(
        db, "fts5_rowid", -1, SQLITE_UTF8, 0, fts5RowidFunction, 0, 0
    );
  }
  return rc;
}


int sqlite3Fts5IndexReset(Fts5Index *p){
  assert( p->pStruct==0 || p->iStructVersion!=0 );
  if( fts5IndexDataVersion(p)!=p->iStructVersion ){
    fts5StructureInvalidate(p);
  }
  return fts5IndexReturn(p);
}

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**       * An == rowid constraint:       cost=10.0
**
** Costs are not modified by the ORDER BY clause.
*/
static int fts5BestIndexMethod(sqlite3_vtab *pVTab, sqlite3_index_info *pInfo){
  Fts5Table *pTab = (Fts5Table*)pVTab;
  Fts5Config *pConfig = pTab->pConfig;

  int idxFlags = 0;               /* Parameter passed through to xFilter() */
  int bHasMatch;
  int iNext;
  int i;

  struct Constraint {
    int op;                       /* Mask against sqlite3_index_constraint.op */
................................................................................
                                    FTS5_BI_ROWID_LE, 0, 0, -1},
    {SQLITE_INDEX_CONSTRAINT_GT|SQLITE_INDEX_CONSTRAINT_GE, 
                                    FTS5_BI_ROWID_GE, 0, 0, -1},
  };

  int aColMap[3];
  aColMap[0] = -1;
  aColMap[1] = pConfig->nCol;
  aColMap[2] = pConfig->nCol+1;

  /* Set idxFlags flags for all WHERE clause terms that will be used. */
  for(i=0; i<pInfo->nConstraint; i++){
    struct sqlite3_index_constraint *p = &pInfo->aConstraint[i];
    int j;
    for(j=0; j<ArraySize(aConstraint); j++){

      struct Constraint *pC = &aConstraint[j];
      if( p->iColumn==aColMap[pC->iCol] && p->op & pC->op ){


        if( p->usable ){

          pC->iConsIndex = i;
          idxFlags |= pC->fts5op;
        }else if( j==0 ){
          /* As there exists an unusable MATCH constraint this is an 
          ** unusable plan. Set a prohibitively high cost. */
          pInfo->estimatedCost = 1e50;
          return SQLITE_OK;








        }
      }
    }
  }

  /* Set idxFlags flags for the ORDER BY clause */
  if( pInfo->nOrderBy==1 ){
................................................................................
      pInfo->aConstraintUsage[pC->iConsIndex].omit = (unsigned char)pC->omit;
    }
  }

  pInfo->idxNum = idxFlags;
  return SQLITE_OK;
}









/*
** Implementation of xOpen method.
*/
static int fts5OpenMethod(sqlite3_vtab *pVTab, sqlite3_vtab_cursor **ppCsr){
  Fts5Table *pTab = (Fts5Table*)pVTab;
  Fts5Config *pConfig = pTab->pConfig;
  Fts5Cursor *pCsr;               /* New cursor object */
  int nByte;                      /* Bytes of space to allocate */
  int rc = SQLITE_OK;             /* Return code */



  nByte = sizeof(Fts5Cursor) + pConfig->nCol * sizeof(int);
  pCsr = (Fts5Cursor*)sqlite3_malloc(nByte);
  if( pCsr ){
    Fts5Global *pGlobal = pTab->pGlobal;
    memset(pCsr, 0, nByte);
    pCsr->aColumnSize = (int*)&pCsr[1];
    pCsr->pNext = pGlobal->pCsr;
    pGlobal->pCsr = pCsr;
    pCsr->iCsrId = ++pGlobal->iNextId;
  }else{
    rc = SQLITE_NOMEM;

  }
  *ppCsr = (sqlite3_vtab_cursor*)pCsr;
  return rc;
}

static int fts5StmtType(Fts5Cursor *pCsr){
  if( pCsr->ePlan==FTS5_PLAN_SCAN ){
................................................................................
  int bDesc;                      /* True if ORDER BY [rank|rowid] DESC */
  int bOrderByRank;               /* True if ORDER BY rank */
  sqlite3_value *pMatch = 0;      /* <tbl> MATCH ? expression (or NULL) */
  sqlite3_value *pRank = 0;       /* rank MATCH ? expression (or NULL) */
  sqlite3_value *pRowidEq = 0;    /* rowid = ? expression (or NULL) */
  sqlite3_value *pRowidLe = 0;    /* rowid <= ? expression (or NULL) */
  sqlite3_value *pRowidGe = 0;    /* rowid >= ? expression (or NULL) */

  char **pzErrmsg = pConfig->pzErrmsg;

  UNUSED_PARAM(zUnused);
  UNUSED_PARAM(nVal);

  if( pCsr->ePlan ){
    fts5FreeCursorComponents(pCsr);
................................................................................
  ** order as the corresponding entries in the struct at the top of
  ** fts5BestIndexMethod().  */
  if( BitFlagTest(idxNum, FTS5_BI_MATCH) ) pMatch = apVal[iVal++];
  if( BitFlagTest(idxNum, FTS5_BI_RANK) ) pRank = apVal[iVal++];
  if( BitFlagTest(idxNum, FTS5_BI_ROWID_EQ) ) pRowidEq = apVal[iVal++];
  if( BitFlagTest(idxNum, FTS5_BI_ROWID_LE) ) pRowidLe = apVal[iVal++];
  if( BitFlagTest(idxNum, FTS5_BI_ROWID_GE) ) pRowidGe = apVal[iVal++];


  assert( iVal==nVal );
  bOrderByRank = ((idxNum & FTS5_BI_ORDER_RANK) ? 1 : 0);
  pCsr->bDesc = bDesc = ((idxNum & FTS5_BI_ORDER_DESC) ? 1 : 0);

  /* Set the cursor upper and lower rowid limits. Only some strategies 
  ** actually use them. This is ok, as the xBestIndex() method leaves the
  ** sqlite3_index_constraint.omit flag clear for range constraints
................................................................................
    assert( pRowidEq==0 && pRowidLe==0 && pRowidGe==0 && pRank==0 );
    assert( nVal==0 && pMatch==0 && bOrderByRank==0 && bDesc==0 );
    assert( pCsr->iLastRowid==LARGEST_INT64 );
    assert( pCsr->iFirstRowid==SMALLEST_INT64 );
    pCsr->ePlan = FTS5_PLAN_SOURCE;
    pCsr->pExpr = pTab->pSortCsr->pExpr;
    rc = fts5CursorFirst(pTab, pCsr, bDesc);
    sqlite3Fts5ExprClearEof(pCsr->pExpr);
  }else if( pMatch ){
    const char *zExpr = (const char*)sqlite3_value_text(apVal[0]);
    if( zExpr==0 ) zExpr = "";

    rc = fts5CursorParseRank(pConfig, pCsr, pRank);
    if( rc==SQLITE_OK ){
      if( zExpr[0]=='*' ){
        /* The user has issued a query of the form "MATCH '*...'". This
        ** indicates that the MATCH expression is not a full text query,
        ** but a request for an internal parameter.  */
        rc = fts5SpecialMatch(pTab, pCsr, &zExpr[1]);
      }else{
        char **pzErr = &pTab->base.zErrMsg;
        rc = sqlite3Fts5ExprNew(pConfig, zExpr, &pCsr->pExpr, pzErr);
        if( rc==SQLITE_OK ){
          if( bOrderByRank ){
            pCsr->ePlan = FTS5_PLAN_SORTED_MATCH;
            rc = fts5CursorFirstSorted(pTab, pCsr, bDesc);
          }else{
            pCsr->ePlan = FTS5_PLAN_MATCH;
            rc = fts5CursorFirst(pTab, pCsr, bDesc);
................................................................................
      pTab->base.zErrMsg = sqlite3_mprintf(
          "cannot %s contentless fts5 table: %s", 
          (nArg>1 ? "UPDATE" : "DELETE from"), pConfig->zName
      );
      rc = SQLITE_ERROR;
    }

    /* Case 1: DELETE */
    else if( nArg==1 ){
      i64 iDel = sqlite3_value_int64(apVal[0]);  /* Rowid to delete */
      rc = sqlite3Fts5StorageDelete(pTab->pStorage, iDel, 0);
    }

    /* Case 2: INSERT */
    else if( eType0!=SQLITE_INTEGER ){     
      /* If this is a REPLACE, first remove the current entry (if any) */
      if( eConflict==SQLITE_REPLACE 
       && sqlite3_value_type(apVal[1])==SQLITE_INTEGER 
      ){
        i64 iNew = sqlite3_value_int64(apVal[1]);  /* Rowid to delete */
        rc = sqlite3Fts5StorageDelete(pTab->pStorage, iNew, 0);
      }
      fts5StorageInsert(&rc, pTab, apVal, pRowid);
    }

    /* Case 2: UPDATE */
    else{
      i64 iOld = sqlite3_value_int64(apVal[0]);  /* Old rowid */
      i64 iNew = sqlite3_value_int64(apVal[1]);  /* New rowid */
      if( iOld!=iNew ){
        if( eConflict==SQLITE_REPLACE ){
          rc = sqlite3Fts5StorageDelete(pTab->pStorage, iOld, 0);
          if( rc==SQLITE_OK ){
................................................................................
*/
static int fts5SyncMethod(sqlite3_vtab *pVtab){
  int rc;
  Fts5Table *pTab = (Fts5Table*)pVtab;
  fts5CheckTransactionState(pTab, FTS5_SYNC, 0);
  pTab->pConfig->pzErrmsg = &pTab->base.zErrMsg;
  fts5TripCursors(pTab);
  rc = sqlite3Fts5StorageSync(pTab->pStorage, 1);
  pTab->pConfig->pzErrmsg = 0;
  return rc;
}

/*
** Implementation of xBegin() method. 
*/
static int fts5BeginMethod(sqlite3_vtab *pVtab){
  UNUSED_PARAM(pVtab);  /* Call below is a no-op for NDEBUG builds */
  fts5CheckTransactionState((Fts5Table*)pVtab, FTS5_BEGIN, 0);

  return SQLITE_OK;
}

/*
** Implementation of xCommit() method. This is a no-op. The contents of
** the pending-terms hash-table have already been flushed into the database
** by fts5SyncMethod().
................................................................................
** Flush the contents of the pending-terms table to disk.
*/
static int fts5SavepointMethod(sqlite3_vtab *pVtab, int iSavepoint){
  Fts5Table *pTab = (Fts5Table*)pVtab;
  UNUSED_PARAM(iSavepoint);  /* Call below is a no-op for NDEBUG builds */
  fts5CheckTransactionState(pTab, FTS5_SAVEPOINT, iSavepoint);
  fts5TripCursors(pTab);
  return sqlite3Fts5StorageSync(pTab->pStorage, 0);
}

/*
** The xRelease() method.
**
** This is a no-op.
*/
static int fts5ReleaseMethod(sqlite3_vtab *pVtab, int iSavepoint){
  Fts5Table *pTab = (Fts5Table*)pVtab;
  UNUSED_PARAM(iSavepoint);  /* Call below is a no-op for NDEBUG builds */
  fts5CheckTransactionState(pTab, FTS5_RELEASE, iSavepoint);
  fts5TripCursors(pTab);
  return sqlite3Fts5StorageSync(pTab->pStorage, 0);
}

/*
** The xRollbackTo() method.
**
** Discard the contents of the pending terms table.
*/







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**       * An == rowid constraint:       cost=10.0
**
** Costs are not modified by the ORDER BY clause.
*/
static int fts5BestIndexMethod(sqlite3_vtab *pVTab, sqlite3_index_info *pInfo){
  Fts5Table *pTab = (Fts5Table*)pVTab;
  Fts5Config *pConfig = pTab->pConfig;
  const int nCol = pConfig->nCol;
  int idxFlags = 0;               /* Parameter passed through to xFilter() */
  int bHasMatch;
  int iNext;
  int i;

  struct Constraint {
    int op;                       /* Mask against sqlite3_index_constraint.op */
................................................................................
                                    FTS5_BI_ROWID_LE, 0, 0, -1},
    {SQLITE_INDEX_CONSTRAINT_GT|SQLITE_INDEX_CONSTRAINT_GE, 
                                    FTS5_BI_ROWID_GE, 0, 0, -1},
  };

  int aColMap[3];
  aColMap[0] = -1;
  aColMap[1] = nCol;
  aColMap[2] = nCol+1;

  /* Set idxFlags flags for all WHERE clause terms that will be used. */
  for(i=0; i<pInfo->nConstraint; i++){
    struct sqlite3_index_constraint *p = &pInfo->aConstraint[i];
    int iCol = p->iColumn;


    if( (p->op==SQLITE_INDEX_CONSTRAINT_MATCH && iCol>=0 && iCol<=nCol)
     || (p->op==SQLITE_INDEX_CONSTRAINT_EQ && iCol==nCol)
    ){
      /* A MATCH operator or equivalent */
      if( p->usable ){
        idxFlags = (idxFlags & 0xFFFF) | FTS5_BI_MATCH | (iCol << 16);
        aConstraint[0].iConsIndex = i;

      }else{
        /* As there exists an unusable MATCH constraint this is an 
        ** unusable plan. Set a prohibitively high cost. */
        pInfo->estimatedCost = 1e50;
        return SQLITE_OK;
      }
    }else{
      int j;
      for(j=1; j<ArraySize(aConstraint); j++){
        struct Constraint *pC = &aConstraint[j];
        if( iCol==aColMap[pC->iCol] && p->op & pC->op && p->usable ){
          pC->iConsIndex = i;
          idxFlags |= pC->fts5op;
        }
      }
    }
  }

  /* Set idxFlags flags for the ORDER BY clause */
  if( pInfo->nOrderBy==1 ){
................................................................................
      pInfo->aConstraintUsage[pC->iConsIndex].omit = (unsigned char)pC->omit;
    }
  }

  pInfo->idxNum = idxFlags;
  return SQLITE_OK;
}

static int fts5NewTransaction(Fts5Table *pTab){
  Fts5Cursor *pCsr;
  for(pCsr=pTab->pGlobal->pCsr; pCsr; pCsr=pCsr->pNext){
    if( pCsr->base.pVtab==(sqlite3_vtab*)pTab ) return SQLITE_OK;
  }
  return sqlite3Fts5StorageReset(pTab->pStorage);
}

/*
** Implementation of xOpen method.
*/
static int fts5OpenMethod(sqlite3_vtab *pVTab, sqlite3_vtab_cursor **ppCsr){
  Fts5Table *pTab = (Fts5Table*)pVTab;
  Fts5Config *pConfig = pTab->pConfig;
  Fts5Cursor *pCsr = 0;           /* New cursor object */
  int nByte;                      /* Bytes of space to allocate */
  int rc;                         /* Return code */

  rc = fts5NewTransaction(pTab);
  if( rc==SQLITE_OK ){
    nByte = sizeof(Fts5Cursor) + pConfig->nCol * sizeof(int);
    pCsr = (Fts5Cursor*)sqlite3_malloc(nByte);
    if( pCsr ){
      Fts5Global *pGlobal = pTab->pGlobal;
      memset(pCsr, 0, nByte);
      pCsr->aColumnSize = (int*)&pCsr[1];
      pCsr->pNext = pGlobal->pCsr;
      pGlobal->pCsr = pCsr;
      pCsr->iCsrId = ++pGlobal->iNextId;
    }else{
      rc = SQLITE_NOMEM;
    }
  }
  *ppCsr = (sqlite3_vtab_cursor*)pCsr;
  return rc;
}

static int fts5StmtType(Fts5Cursor *pCsr){
  if( pCsr->ePlan==FTS5_PLAN_SCAN ){
................................................................................
  int bDesc;                      /* True if ORDER BY [rank|rowid] DESC */
  int bOrderByRank;               /* True if ORDER BY rank */
  sqlite3_value *pMatch = 0;      /* <tbl> MATCH ? expression (or NULL) */
  sqlite3_value *pRank = 0;       /* rank MATCH ? expression (or NULL) */
  sqlite3_value *pRowidEq = 0;    /* rowid = ? expression (or NULL) */
  sqlite3_value *pRowidLe = 0;    /* rowid <= ? expression (or NULL) */
  sqlite3_value *pRowidGe = 0;    /* rowid >= ? expression (or NULL) */
  int iCol;                       /* Column on LHS of MATCH operator */
  char **pzErrmsg = pConfig->pzErrmsg;

  UNUSED_PARAM(zUnused);
  UNUSED_PARAM(nVal);

  if( pCsr->ePlan ){
    fts5FreeCursorComponents(pCsr);
................................................................................
  ** order as the corresponding entries in the struct at the top of
  ** fts5BestIndexMethod().  */
  if( BitFlagTest(idxNum, FTS5_BI_MATCH) ) pMatch = apVal[iVal++];
  if( BitFlagTest(idxNum, FTS5_BI_RANK) ) pRank = apVal[iVal++];
  if( BitFlagTest(idxNum, FTS5_BI_ROWID_EQ) ) pRowidEq = apVal[iVal++];
  if( BitFlagTest(idxNum, FTS5_BI_ROWID_LE) ) pRowidLe = apVal[iVal++];
  if( BitFlagTest(idxNum, FTS5_BI_ROWID_GE) ) pRowidGe = apVal[iVal++];
  iCol = (idxNum>>16);
  assert( iCol>=0 && iCol<=pConfig->nCol );
  assert( iVal==nVal );
  bOrderByRank = ((idxNum & FTS5_BI_ORDER_RANK) ? 1 : 0);
  pCsr->bDesc = bDesc = ((idxNum & FTS5_BI_ORDER_DESC) ? 1 : 0);

  /* Set the cursor upper and lower rowid limits. Only some strategies 
  ** actually use them. This is ok, as the xBestIndex() method leaves the
  ** sqlite3_index_constraint.omit flag clear for range constraints
................................................................................
    assert( pRowidEq==0 && pRowidLe==0 && pRowidGe==0 && pRank==0 );
    assert( nVal==0 && pMatch==0 && bOrderByRank==0 && bDesc==0 );
    assert( pCsr->iLastRowid==LARGEST_INT64 );
    assert( pCsr->iFirstRowid==SMALLEST_INT64 );
    pCsr->ePlan = FTS5_PLAN_SOURCE;
    pCsr->pExpr = pTab->pSortCsr->pExpr;
    rc = fts5CursorFirst(pTab, pCsr, bDesc);

  }else if( pMatch ){
    const char *zExpr = (const char*)sqlite3_value_text(apVal[0]);
    if( zExpr==0 ) zExpr = "";

    rc = fts5CursorParseRank(pConfig, pCsr, pRank);
    if( rc==SQLITE_OK ){
      if( zExpr[0]=='*' ){
        /* The user has issued a query of the form "MATCH '*...'". This
        ** indicates that the MATCH expression is not a full text query,
        ** but a request for an internal parameter.  */
        rc = fts5SpecialMatch(pTab, pCsr, &zExpr[1]);
      }else{
        char **pzErr = &pTab->base.zErrMsg;
        rc = sqlite3Fts5ExprNew(pConfig, iCol, zExpr, &pCsr->pExpr, pzErr);
        if( rc==SQLITE_OK ){
          if( bOrderByRank ){
            pCsr->ePlan = FTS5_PLAN_SORTED_MATCH;
            rc = fts5CursorFirstSorted(pTab, pCsr, bDesc);
          }else{
            pCsr->ePlan = FTS5_PLAN_MATCH;
            rc = fts5CursorFirst(pTab, pCsr, bDesc);
................................................................................
      pTab->base.zErrMsg = sqlite3_mprintf(
          "cannot %s contentless fts5 table: %s", 
          (nArg>1 ? "UPDATE" : "DELETE from"), pConfig->zName
      );
      rc = SQLITE_ERROR;
    }

    /* DELETE */
    else if( nArg==1 ){
      i64 iDel = sqlite3_value_int64(apVal[0]);  /* Rowid to delete */
      rc = sqlite3Fts5StorageDelete(pTab->pStorage, iDel, 0);
    }

    /* INSERT */
    else if( eType0!=SQLITE_INTEGER ){     
      /* If this is a REPLACE, first remove the current entry (if any) */
      if( eConflict==SQLITE_REPLACE 
       && sqlite3_value_type(apVal[1])==SQLITE_INTEGER 
      ){
        i64 iNew = sqlite3_value_int64(apVal[1]);  /* Rowid to delete */
        rc = sqlite3Fts5StorageDelete(pTab->pStorage, iNew, 0);
      }
      fts5StorageInsert(&rc, pTab, apVal, pRowid);
    }

    /* UPDATE */
    else{
      i64 iOld = sqlite3_value_int64(apVal[0]);  /* Old rowid */
      i64 iNew = sqlite3_value_int64(apVal[1]);  /* New rowid */
      if( iOld!=iNew ){
        if( eConflict==SQLITE_REPLACE ){
          rc = sqlite3Fts5StorageDelete(pTab->pStorage, iOld, 0);
          if( rc==SQLITE_OK ){
................................................................................
*/
static int fts5SyncMethod(sqlite3_vtab *pVtab){
  int rc;
  Fts5Table *pTab = (Fts5Table*)pVtab;
  fts5CheckTransactionState(pTab, FTS5_SYNC, 0);
  pTab->pConfig->pzErrmsg = &pTab->base.zErrMsg;
  fts5TripCursors(pTab);
  rc = sqlite3Fts5StorageSync(pTab->pStorage);
  pTab->pConfig->pzErrmsg = 0;
  return rc;
}

/*
** Implementation of xBegin() method. 
*/
static int fts5BeginMethod(sqlite3_vtab *pVtab){

  fts5CheckTransactionState((Fts5Table*)pVtab, FTS5_BEGIN, 0);
  fts5NewTransaction((Fts5Table*)pVtab);
  return SQLITE_OK;
}

/*
** Implementation of xCommit() method. This is a no-op. The contents of
** the pending-terms hash-table have already been flushed into the database
** by fts5SyncMethod().
................................................................................
** Flush the contents of the pending-terms table to disk.
*/
static int fts5SavepointMethod(sqlite3_vtab *pVtab, int iSavepoint){
  Fts5Table *pTab = (Fts5Table*)pVtab;
  UNUSED_PARAM(iSavepoint);  /* Call below is a no-op for NDEBUG builds */
  fts5CheckTransactionState(pTab, FTS5_SAVEPOINT, iSavepoint);
  fts5TripCursors(pTab);
  return sqlite3Fts5StorageSync(pTab->pStorage);
}

/*
** The xRelease() method.
**
** This is a no-op.
*/
static int fts5ReleaseMethod(sqlite3_vtab *pVtab, int iSavepoint){
  Fts5Table *pTab = (Fts5Table*)pVtab;
  UNUSED_PARAM(iSavepoint);  /* Call below is a no-op for NDEBUG builds */
  fts5CheckTransactionState(pTab, FTS5_RELEASE, iSavepoint);
  fts5TripCursors(pTab);
  return sqlite3Fts5StorageSync(pTab->pStorage);
}

/*
** The xRollbackTo() method.
**
** Discard the contents of the pending terms table.
*/

Changes to ext/fts5/fts5_storage.c.

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      if( rc!=SQLITE_OK && pzErrMsg ){
        *pzErrMsg = sqlite3_mprintf("%s", sqlite3_errmsg(pC->db));
      }
    }
  }

  *ppStmt = p->aStmt[eStmt];

  return rc;
}


static int fts5ExecPrintf(
  sqlite3 *db,
  char **pzErr,
................................................................................
        pConfig->zDb, pConfig->zName, zTail, zName, zTail
    );
  }
}

int sqlite3Fts5StorageRename(Fts5Storage *pStorage, const char *zName){
  Fts5Config *pConfig = pStorage->pConfig;
  int rc = sqlite3Fts5StorageSync(pStorage, 1);

  fts5StorageRenameOne(pConfig, &rc, "data", zName);
  fts5StorageRenameOne(pConfig, &rc, "idx", zName);
  fts5StorageRenameOne(pConfig, &rc, "config", zName);
  if( pConfig->bColumnsize ){
    fts5StorageRenameOne(pConfig, &rc, "docsize", zName);
  }
................................................................................
  int bWithout,                   /* True for without rowid */
  char **pzErr                    /* OUT: Error message */
){
  int rc;
  char *zErr = 0;

  rc = fts5ExecPrintf(pConfig->db, &zErr, "CREATE TABLE %Q.'%q_%q'(%s)%s",
      pConfig->zDb, pConfig->zName, zPost, zDefn, bWithout?" WITHOUT ROWID":""




  );
  if( zErr ){
    *pzErr = sqlite3_mprintf(
        "fts5: error creating shadow table %q_%s: %s", 
        pConfig->zName, zPost, zErr
    );
    sqlite3_free(zErr);
................................................................................
  int nToken,                     /* Size of token in bytes */
  int iUnused1,                   /* Start offset of token */
  int iUnused2                    /* End offset of token */
){
  Fts5InsertCtx *pCtx = (Fts5InsertCtx*)pContext;
  Fts5Index *pIdx = pCtx->pStorage->pIndex;
  UNUSED_PARAM2(iUnused1, iUnused2);

  if( (tflags & FTS5_TOKEN_COLOCATED)==0 || pCtx->szCol==0 ){
    pCtx->szCol++;
  }
  return sqlite3Fts5IndexWrite(pIdx, pCtx->iCol, pCtx->szCol-1, pToken, nToken);
}

/*
................................................................................
    if( rc==SQLITE_OK ){
      sqlite3_bind_int64(pDel, 1, iDel);
      sqlite3_step(pDel);
      rc = sqlite3_reset(pDel);
    }
  }

  /* Write the averages record */
  if( rc==SQLITE_OK ){
    rc = fts5StorageSaveTotals(p);
  }

  return rc;
}

/*
** Delete all entries in the FTS5 index.
*/
int sqlite3Fts5StorageDeleteAll(Fts5Storage *p){
................................................................................
int sqlite3Fts5StorageOptimize(Fts5Storage *p){
  return sqlite3Fts5IndexOptimize(p->pIndex);
}

int sqlite3Fts5StorageMerge(Fts5Storage *p, int nMerge){
  return sqlite3Fts5IndexMerge(p->pIndex, nMerge);
}





/*
** Allocate a new rowid. This is used for "external content" tables when
** a NULL value is inserted into the rowid column. The new rowid is allocated
** by inserting a dummy row into the %_docsize table. The dummy will be
** overwritten later.
**
................................................................................

  /* Write the %_docsize record */
  if( rc==SQLITE_OK ){
    rc = fts5StorageInsertDocsize(p, iRowid, &buf);
  }
  sqlite3_free(buf.p);

  /* Write the averages record */
  if( rc==SQLITE_OK ){
    rc = fts5StorageSaveTotals(p);
  }

  return rc;
}

static int fts5StorageCount(Fts5Storage *p, const char *zSuffix, i64 *pnRow){
  Fts5Config *pConfig = p->pConfig;
  char *zSql;
  int rc;
................................................................................
  int bPresent;
  int ii;
  int rc = SQLITE_OK;
  int iPos;
  int iCol;

  UNUSED_PARAM2(iUnused1, iUnused2);


  if( (tflags & FTS5_TOKEN_COLOCATED)==0 || pCtx->szCol==0 ){
    pCtx->szCol++;
  }

  switch( pCtx->pConfig->eDetail ){
    case FTS5_DETAIL_FULL:
................................................................................
  }
  return rc;
}

/*
** Flush any data currently held in-memory to disk.
*/
int sqlite3Fts5StorageSync(Fts5Storage *p, int bCommit){


  if( bCommit && p->bTotalsValid ){
    int rc = fts5StorageSaveTotals(p);
    p->bTotalsValid = 0;
    if( rc!=SQLITE_OK ) return rc;
  }

  return sqlite3Fts5IndexSync(p->pIndex, bCommit);



}

int sqlite3Fts5StorageRollback(Fts5Storage *p){
  p->bTotalsValid = 0;
  return sqlite3Fts5IndexRollback(p->pIndex);
}

................................................................................
    rc = sqlite3Fts5IndexSetCookie(p->pIndex, iNew);
    if( rc==SQLITE_OK ){
      p->pConfig->iCookie = iNew;
    }
  }
  return rc;
}









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      if( rc!=SQLITE_OK && pzErrMsg ){
        *pzErrMsg = sqlite3_mprintf("%s", sqlite3_errmsg(pC->db));
      }
    }
  }

  *ppStmt = p->aStmt[eStmt];
  sqlite3_reset(*ppStmt);
  return rc;
}


static int fts5ExecPrintf(
  sqlite3 *db,
  char **pzErr,
................................................................................
        pConfig->zDb, pConfig->zName, zTail, zName, zTail
    );
  }
}

int sqlite3Fts5StorageRename(Fts5Storage *pStorage, const char *zName){
  Fts5Config *pConfig = pStorage->pConfig;
  int rc = sqlite3Fts5StorageSync(pStorage);

  fts5StorageRenameOne(pConfig, &rc, "data", zName);
  fts5StorageRenameOne(pConfig, &rc, "idx", zName);
  fts5StorageRenameOne(pConfig, &rc, "config", zName);
  if( pConfig->bColumnsize ){
    fts5StorageRenameOne(pConfig, &rc, "docsize", zName);
  }
................................................................................
  int bWithout,                   /* True for without rowid */
  char **pzErr                    /* OUT: Error message */
){
  int rc;
  char *zErr = 0;

  rc = fts5ExecPrintf(pConfig->db, &zErr, "CREATE TABLE %Q.'%q_%q'(%s)%s",
      pConfig->zDb, pConfig->zName, zPost, zDefn, 
#ifndef SQLITE_FTS5_NO_WITHOUT_ROWID
      bWithout?" WITHOUT ROWID":
#endif
      ""
  );
  if( zErr ){
    *pzErr = sqlite3_mprintf(
        "fts5: error creating shadow table %q_%s: %s", 
        pConfig->zName, zPost, zErr
    );
    sqlite3_free(zErr);
................................................................................
  int nToken,                     /* Size of token in bytes */
  int iUnused1,                   /* Start offset of token */
  int iUnused2                    /* End offset of token */
){
  Fts5InsertCtx *pCtx = (Fts5InsertCtx*)pContext;
  Fts5Index *pIdx = pCtx->pStorage->pIndex;
  UNUSED_PARAM2(iUnused1, iUnused2);
  if( nToken>FTS5_MAX_TOKEN_SIZE ) nToken = FTS5_MAX_TOKEN_SIZE;
  if( (tflags & FTS5_TOKEN_COLOCATED)==0 || pCtx->szCol==0 ){
    pCtx->szCol++;
  }
  return sqlite3Fts5IndexWrite(pIdx, pCtx->iCol, pCtx->szCol-1, pToken, nToken);
}

/*
................................................................................
    if( rc==SQLITE_OK ){
      sqlite3_bind_int64(pDel, 1, iDel);
      sqlite3_step(pDel);
      rc = sqlite3_reset(pDel);
    }
  }






  return rc;
}

/*
** Delete all entries in the FTS5 index.
*/
int sqlite3Fts5StorageDeleteAll(Fts5Storage *p){
................................................................................
int sqlite3Fts5StorageOptimize(Fts5Storage *p){
  return sqlite3Fts5IndexOptimize(p->pIndex);
}

int sqlite3Fts5StorageMerge(Fts5Storage *p, int nMerge){
  return sqlite3Fts5IndexMerge(p->pIndex, nMerge);
}

int sqlite3Fts5StorageReset(Fts5Storage *p){
  return sqlite3Fts5IndexReset(p->pIndex);
}

/*
** Allocate a new rowid. This is used for "external content" tables when
** a NULL value is inserted into the rowid column. The new rowid is allocated
** by inserting a dummy row into the %_docsize table. The dummy will be
** overwritten later.
**
................................................................................

  /* Write the %_docsize record */
  if( rc==SQLITE_OK ){
    rc = fts5StorageInsertDocsize(p, iRowid, &buf);
  }
  sqlite3_free(buf.p);






  return rc;
}

static int fts5StorageCount(Fts5Storage *p, const char *zSuffix, i64 *pnRow){
  Fts5Config *pConfig = p->pConfig;
  char *zSql;
  int rc;
................................................................................
  int bPresent;
  int ii;
  int rc = SQLITE_OK;
  int iPos;
  int iCol;

  UNUSED_PARAM2(iUnused1, iUnused2);
  if( nToken>FTS5_MAX_TOKEN_SIZE ) nToken = FTS5_MAX_TOKEN_SIZE;

  if( (tflags & FTS5_TOKEN_COLOCATED)==0 || pCtx->szCol==0 ){
    pCtx->szCol++;
  }

  switch( pCtx->pConfig->eDetail ){
    case FTS5_DETAIL_FULL:
................................................................................
  }
  return rc;
}

/*
** Flush any data currently held in-memory to disk.
*/
int sqlite3Fts5StorageSync(Fts5Storage *p){
  int rc = SQLITE_OK;
  i64 iLastRowid = sqlite3_last_insert_rowid(p->pConfig->db);
  if( p->bTotalsValid ){
    rc = fts5StorageSaveTotals(p);
    p->bTotalsValid = 0;

  }
  if( rc==SQLITE_OK ){
    rc = sqlite3Fts5IndexSync(p->pIndex);
  }
  sqlite3_set_last_insert_rowid(p->pConfig->db, iLastRowid);
  return rc;
}

int sqlite3Fts5StorageRollback(Fts5Storage *p){
  p->bTotalsValid = 0;
  return sqlite3Fts5IndexRollback(p->pIndex);
}

................................................................................
    rc = sqlite3Fts5IndexSetCookie(p->pIndex, iNew);
    if( rc==SQLITE_OK ){
      p->pConfig->iCookie = iNew;
    }
  }
  return rc;
}


Changes to ext/fts5/fts5_tcl.c.

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**
******************************************************************************
**
*/


#ifdef SQLITE_TEST



#include <tcl.h>





#ifdef SQLITE_ENABLE_FTS5

#include "fts5.h"
#include <string.h>
#include <assert.h>

................................................................................
      return aErr[i].rc;
    }
  }

  return SQLITE_ERROR;
}

static int f5tDbAndApi(
  Tcl_Interp *interp, 
  Tcl_Obj *pObj, 
  sqlite3 **ppDb, 
  fts5_api **ppApi
){
  sqlite3 *db = 0;
  int rc = f5tDbPointer(interp, pObj, &db);
................................................................................
  if( rc==TCL_OK ){
    rc = f5tResultToErrorCode(Tcl_GetStringResult(p->interp));
  }

  return rc;
}

static int xF5tApi(void*, Tcl_Interp*, int, Tcl_Obj *CONST []);

static int xQueryPhraseCb(
  const Fts5ExtensionApi *pApi, 
  Fts5Context *pFts, 
  void *pCtx
){
  F5tFunction *p = (F5tFunction*)pCtx;
................................................................................
}

/*
**      api sub-command...
**
** Description...
*/
static int xF5tApi(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  struct Sub {
    const char *zName;
................................................................................
}

/*
**      sqlite3_fts5_create_function DB NAME SCRIPT
**
** Description...
*/
static int f5tCreateFunction(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  char *zName;
  Tcl_Obj *pScript;
................................................................................


/*
**      sqlite3_fts5_tokenize DB TOKENIZER TEXT
**
** Description...
*/
static int f5tTokenize(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  char *zText;
  int nText;
................................................................................
  pInst->pContext->xToken = xOldToken;
  return rc;
}

/*
** sqlite3_fts5_token ?-colocated? TEXT START END
*/
static int f5tTokenizerReturn(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  F5tTokenizerContext *p = (F5tTokenizerContext*)clientData;
  int iStart;
................................................................................
** tokenizer instance "returned" by SCRIPT. Specifically, to tokenize
** text SCRIPT2 is invoked with a single argument appended to it - the
** text to tokenize.
**
** SCRIPT2 should invoke the [sqlite3_fts5_token] command once for each
** token within the tokenized text.
*/
static int f5tCreateTokenizer(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  F5tTokenizerContext *pContext = (F5tTokenizerContext*)clientData;
  sqlite3 *db;
................................................................................
    Tcl_AppendResult(interp, "error in fts5_api.xCreateTokenizer()", 0);
    return TCL_ERROR;
  }

  return TCL_OK;
}

static void xF5tFree(ClientData clientData){
  ckfree(clientData);
}

/*
**      sqlite3_fts5_may_be_corrupt BOOLEAN
**
** Set or clear the global "may-be-corrupt" flag. Return the old value.
*/
static int f5tMayBeCorrupt(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int bOld = sqlite3_fts5_may_be_corrupt;

................................................................................
  unsigned int h = 13;
  for(i=n-1; i>=0; i--){
    h = (h << 3) ^ h ^ p[i];
  }
  return (h % nSlot);
}

static int f5tTokenHash(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  char *z;
  int n;
................................................................................
  z = Tcl_GetStringFromObj(objv[2], &n);

  iVal = f5t_fts5HashKey(nSlot, z, n);
  Tcl_SetObjResult(interp, Tcl_NewIntObj(iVal));
  return TCL_OK;
}

static int f5tRegisterMatchinfo(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int rc;
  sqlite3 *db = 0;
................................................................................
  if( rc!=SQLITE_OK ){
    Tcl_SetResult(interp, (char*)sqlite3ErrName(rc), TCL_VOLATILE);
    return TCL_ERROR;
  }
  return TCL_OK;
}

static int f5tRegisterTok(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int rc;
  sqlite3 *db = 0;







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**
******************************************************************************
**
*/


#ifdef SQLITE_TEST
#if defined(INCLUDE_SQLITE_TCL_H)
#  include "sqlite_tcl.h"
#else
#  include "tcl.h"
#  ifndef SQLITE_TCLAPI
#    define SQLITE_TCLAPI
#  endif
#endif

#ifdef SQLITE_ENABLE_FTS5

#include "fts5.h"
#include <string.h>
#include <assert.h>

................................................................................
      return aErr[i].rc;
    }
  }

  return SQLITE_ERROR;
}

static int SQLITE_TCLAPI f5tDbAndApi(
  Tcl_Interp *interp, 
  Tcl_Obj *pObj, 
  sqlite3 **ppDb, 
  fts5_api **ppApi
){
  sqlite3 *db = 0;
  int rc = f5tDbPointer(interp, pObj, &db);
................................................................................
  if( rc==TCL_OK ){
    rc = f5tResultToErrorCode(Tcl_GetStringResult(p->interp));
  }

  return rc;
}

static int SQLITE_TCLAPI xF5tApi(void*, Tcl_Interp*, int, Tcl_Obj *CONST []);

static int xQueryPhraseCb(
  const Fts5ExtensionApi *pApi, 
  Fts5Context *pFts, 
  void *pCtx
){
  F5tFunction *p = (F5tFunction*)pCtx;
................................................................................
}

/*
**      api sub-command...
**
** Description...
*/
static int SQLITE_TCLAPI xF5tApi(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  struct Sub {
    const char *zName;
................................................................................
}

/*
**      sqlite3_fts5_create_function DB NAME SCRIPT
**
** Description...
*/
static int SQLITE_TCLAPI f5tCreateFunction(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  char *zName;
  Tcl_Obj *pScript;
................................................................................


/*
**      sqlite3_fts5_tokenize DB TOKENIZER TEXT
**
** Description...
*/
static int SQLITE_TCLAPI f5tTokenize(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  char *zText;
  int nText;
................................................................................
  pInst->pContext->xToken = xOldToken;
  return rc;
}

/*
** sqlite3_fts5_token ?-colocated? TEXT START END
*/
static int SQLITE_TCLAPI f5tTokenizerReturn(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  F5tTokenizerContext *p = (F5tTokenizerContext*)clientData;
  int iStart;
................................................................................
** tokenizer instance "returned" by SCRIPT. Specifically, to tokenize
** text SCRIPT2 is invoked with a single argument appended to it - the
** text to tokenize.
**
** SCRIPT2 should invoke the [sqlite3_fts5_token] command once for each
** token within the tokenized text.
*/
static int SQLITE_TCLAPI f5tCreateTokenizer(
  ClientData clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  F5tTokenizerContext *pContext = (F5tTokenizerContext*)clientData;
  sqlite3 *db;
................................................................................
    Tcl_AppendResult(interp, "error in fts5_api.xCreateTokenizer()", 0);
    return TCL_ERROR;
  }

  return TCL_OK;
}

static void SQLITE_TCLAPI xF5tFree(ClientData clientData){
  ckfree(clientData);
}

/*
**      sqlite3_fts5_may_be_corrupt BOOLEAN
**
** Set or clear the global "may-be-corrupt" flag. Return the old value.
*/
static int SQLITE_TCLAPI f5tMayBeCorrupt(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int bOld = sqlite3_fts5_may_be_corrupt;

................................................................................
  unsigned int h = 13;
  for(i=n-1; i>=0; i--){
    h = (h << 3) ^ h ^ p[i];
  }
  return (h % nSlot);
}

static int SQLITE_TCLAPI f5tTokenHash(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  char *z;
  int n;
................................................................................
  z = Tcl_GetStringFromObj(objv[2], &n);

  iVal = f5t_fts5HashKey(nSlot, z, n);
  Tcl_SetObjResult(interp, Tcl_NewIntObj(iVal));
  return TCL_OK;
}

static int SQLITE_TCLAPI f5tRegisterMatchinfo(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int rc;
  sqlite3 *db = 0;
................................................................................
  if( rc!=SQLITE_OK ){
    Tcl_SetResult(interp, (char*)sqlite3ErrName(rc), TCL_VOLATILE);
    return TCL_ERROR;
  }
  return TCL_OK;
}

static int SQLITE_TCLAPI f5tRegisterTok(
  void * clientData,
  Tcl_Interp *interp,
  int objc,
  Tcl_Obj *CONST objv[]
){
  int rc;
  sqlite3 *db = 0;

Changes to ext/fts5/fts5_test_mi.c.

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/*
** Return a pointer to the fts5_api pointer for database connection db.
** If an error occurs, return NULL and leave an error in the database 
** handle (accessible using sqlite3_errcode()/errmsg()).
*/
static fts5_api *fts5_api_from_db(sqlite3 *db){
  fts5_api *pRet = 0;
  sqlite3_stmt *pStmt = 0;



  if( SQLITE_OK==sqlite3_prepare(db, "SELECT fts5()", -1, &pStmt, 0)

   && SQLITE_ROW==sqlite3_step(pStmt) 
   && sizeof(pRet)==sqlite3_column_bytes(pStmt, 0)
  ){
    memcpy(&pRet, sqlite3_column_blob(pStmt, 0), sizeof(pRet));
  }
  sqlite3_finalize(pStmt);


  return pRet;
}


/*
** Argument f should be a flag accepted by matchinfo() (a valid character
** in the string passed as the second argument). If it is not, -1 is 
** returned. Otherwise, if f is a valid matchinfo flag, the value returned
................................................................................
int sqlite3Fts5TestRegisterMatchinfo(sqlite3 *db){
  int rc;                         /* Return code */
  fts5_api *pApi;                 /* FTS5 API functions */

  /* Extract the FTS5 API pointer from the database handle. The 
  ** fts5_api_from_db() function above is copied verbatim from the 
  ** FTS5 documentation. Refer there for details. */
  pApi = fts5_api_from_db(db);


  /* If fts5_api_from_db() returns NULL, then either FTS5 is not registered
  ** with this database handle, or an error (OOM perhaps?) has occurred.
  **
  ** Also check that the fts5_api object is version 2 or newer.  
  */ 
  if( pApi==0 || pApi->iVersion<2 ){







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/*
** Return a pointer to the fts5_api pointer for database connection db.
** If an error occurs, return NULL and leave an error in the database 
** handle (accessible using sqlite3_errcode()/errmsg()).
*/
static int fts5_api_from_db(sqlite3 *db, fts5_api **ppApi){

  sqlite3_stmt *pStmt = 0;
  int rc;

  *ppApi = 0;
  rc = sqlite3_prepare(db, "SELECT fts5()", -1, &pStmt, 0);
  if( rc==SQLITE_OK ){
    if( SQLITE_ROW==sqlite3_step(pStmt) 
        && sizeof(fts5_api*)==sqlite3_column_bytes(pStmt, 0)
      ){
      memcpy(ppApi, sqlite3_column_blob(pStmt, 0), sizeof(fts5_api*));
    }
    rc = sqlite3_finalize(pStmt);
  }

  return rc;
}


/*
** Argument f should be a flag accepted by matchinfo() (a valid character
** in the string passed as the second argument). If it is not, -1 is 
** returned. Otherwise, if f is a valid matchinfo flag, the value returned
................................................................................
int sqlite3Fts5TestRegisterMatchinfo(sqlite3 *db){
  int rc;                         /* Return code */
  fts5_api *pApi;                 /* FTS5 API functions */

  /* Extract the FTS5 API pointer from the database handle. The 
  ** fts5_api_from_db() function above is copied verbatim from the 
  ** FTS5 documentation. Refer there for details. */
  rc = fts5_api_from_db(db, &pApi);
  if( rc!=SQLITE_OK ) return rc;

  /* If fts5_api_from_db() returns NULL, then either FTS5 is not registered
  ** with this database handle, or an error (OOM perhaps?) has occurred.
  **
  ** Also check that the fts5_api object is version 2 or newer.  
  */ 
  if( pApi==0 || pApi->iVersion<2 ){

Changes to ext/fts5/fts5_test_tok.c.

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**   end:     Byte offset of the byte immediately following the end of the
**            token within the input string.
**   pos:     Token offset of token within input.
**
*/
#if defined(SQLITE_TEST) && defined(SQLITE_ENABLE_FTS5)

#include <fts5.h>
#include <string.h>
#include <assert.h>

typedef struct Fts5tokTable Fts5tokTable;
typedef struct Fts5tokCursor Fts5tokCursor;
typedef struct Fts5tokRow Fts5tokRow;

................................................................................
  sqlite3_vtab **ppVtab,          /* OUT: New sqlite3_vtab object */
  char **pzErr                    /* OUT: sqlite3_malloc'd error message */
){
  fts5_api *pApi = (fts5_api*)pCtx;
  Fts5tokTable *pTab = 0;
  int rc;
  char **azDequote = 0;
  int nDequote;

  rc = sqlite3_declare_vtab(db, 
       "CREATE TABLE x(input HIDDEN, token, start, end, position)"
  );

  if( rc==SQLITE_OK ){
    nDequote = argc-3;







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**   end:     Byte offset of the byte immediately following the end of the
**            token within the input string.
**   pos:     Token offset of token within input.
**
*/
#if defined(SQLITE_TEST) && defined(SQLITE_ENABLE_FTS5)

#include "fts5.h"
#include <string.h>
#include <assert.h>

typedef struct Fts5tokTable Fts5tokTable;
typedef struct Fts5tokCursor Fts5tokCursor;
typedef struct Fts5tokRow Fts5tokRow;

................................................................................
  sqlite3_vtab **ppVtab,          /* OUT: New sqlite3_vtab object */
  char **pzErr                    /* OUT: sqlite3_malloc'd error message */
){
  fts5_api *pApi = (fts5_api*)pCtx;
  Fts5tokTable *pTab = 0;
  int rc;
  char **azDequote = 0;
  int nDequote = 0;

  rc = sqlite3_declare_vtab(db, 
       "CREATE TABLE x(input HIDDEN, token, start, end, position)"
  );

  if( rc==SQLITE_OK ){
    nDequote = argc-3;

Changes to ext/fts5/fts5_vocab.c.

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    }
    if( iTermLe>=0 ){
      idxNum |= FTS5_VOCAB_TERM_LE;
      pInfo->aConstraintUsage[iTermLe].argvIndex = ++nArg;
      pInfo->estimatedCost = pInfo->estimatedCost / 2;
    }
  }

  pInfo->idxNum = idxNum;












  return SQLITE_OK;
}

/*
** Implementation of xOpen method.
*/
static int fts5VocabOpenMethod(








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    }
    if( iTermLe>=0 ){
      idxNum |= FTS5_VOCAB_TERM_LE;
      pInfo->aConstraintUsage[iTermLe].argvIndex = ++nArg;
      pInfo->estimatedCost = pInfo->estimatedCost / 2;
    }
  }

  /* This virtual table always delivers results in ascending order of
  ** the "term" column (column 0). So if the user has requested this
  ** specifically - "ORDER BY term" or "ORDER BY term ASC" - set the
  ** sqlite3_index_info.orderByConsumed flag to tell the core the results
  ** are already in sorted order.  */
  if( pInfo->nOrderBy==1 
   && pInfo->aOrderBy[0].iColumn==0 
   && pInfo->aOrderBy[0].desc==0
  ){
    pInfo->orderByConsumed = 1;
  }

  pInfo->idxNum = idxNum;
  return SQLITE_OK;
}

/*
** Implementation of xOpen method.
*/
static int fts5VocabOpenMethod(

Changes to ext/fts5/fts5parse.y.

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%type cnearset    {Fts5ExprNode*}
%type expr        {Fts5ExprNode*}
%type exprlist    {Fts5ExprNode*}
%destructor cnearset { sqlite3Fts5ParseNodeFree($$); }
%destructor expr     { sqlite3Fts5ParseNodeFree($$); }
%destructor exprlist { sqlite3Fts5ParseNodeFree($$); }
























expr(A) ::= expr(X) AND expr(Y). {
  A = sqlite3Fts5ParseNode(pParse, FTS5_AND, X, Y, 0);
}
expr(A) ::= expr(X) OR expr(Y). {
  A = sqlite3Fts5ParseNode(pParse, FTS5_OR, X, Y, 0);
}
expr(A) ::= expr(X) NOT expr(Y). {
  A = sqlite3Fts5ParseNode(pParse, FTS5_NOT, X, Y, 0);
}





expr(A) ::= LP expr(X) RP. {A = X;}
expr(A) ::= exprlist(X).   {A = X;}

exprlist(A) ::= cnearset(X). {A = X;}
exprlist(A) ::= exprlist(X) cnearset(Y). {
  A = sqlite3Fts5ParseNode(pParse, FTS5_AND, X, Y, 0);
}

cnearset(A) ::= nearset(X). { 
  A = sqlite3Fts5ParseNode(pParse, FTS5_STRING, 0, 0, X); 
}
cnearset(A) ::= colset(X) COLON nearset(Y). { 
  sqlite3Fts5ParseSetColset(pParse, Y, X);
  A = sqlite3Fts5ParseNode(pParse, FTS5_STRING, 0, 0, Y); 
}

%type colset {Fts5Colset*}
%destructor colset { sqlite3_free($$); }
%type colsetlist {Fts5Colset*}
%destructor colsetlist { sqlite3_free($$); }

colset(A) ::= LCP colsetlist(X) RCP. { A = X; }
colset(A) ::= STRING(X). {
  A = sqlite3Fts5ParseColset(pParse, 0, &X);
}

colsetlist(A) ::= colsetlist(Y) STRING(X). { 
  A = sqlite3Fts5ParseColset(pParse, Y, &X); }
colsetlist(A) ::= STRING(X). { 
  A = sqlite3Fts5ParseColset(pParse, 0, &X); 
}


%type nearset     {Fts5ExprNearset*}
%type nearphrases {Fts5ExprNearset*}
%destructor nearset { sqlite3Fts5ParseNearsetFree($$); }
%destructor nearphrases { sqlite3Fts5ParseNearsetFree($$); }







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%type cnearset    {Fts5ExprNode*}
%type expr        {Fts5ExprNode*}
%type exprlist    {Fts5ExprNode*}
%destructor cnearset { sqlite3Fts5ParseNodeFree($$); }
%destructor expr     { sqlite3Fts5ParseNodeFree($$); }
%destructor exprlist { sqlite3Fts5ParseNodeFree($$); }

%type colset {Fts5Colset*}
%destructor colset { sqlite3_free($$); }
%type colsetlist {Fts5Colset*}
%destructor colsetlist { sqlite3_free($$); }

colset(A) ::= MINUS LCP colsetlist(X) RCP. { 
    A = sqlite3Fts5ParseColsetInvert(pParse, X);
}
colset(A) ::= LCP colsetlist(X) RCP. { A = X; }
colset(A) ::= STRING(X). {
  A = sqlite3Fts5ParseColset(pParse, 0, &X);
}
colset(A) ::= MINUS STRING(X). {
  A = sqlite3Fts5ParseColset(pParse, 0, &X);
  A = sqlite3Fts5ParseColsetInvert(pParse, A);
}

colsetlist(A) ::= colsetlist(Y) STRING(X). { 
  A = sqlite3Fts5ParseColset(pParse, Y, &X); }
colsetlist(A) ::= STRING(X). { 
  A = sqlite3Fts5ParseColset(pParse, 0, &X); 
}

expr(A) ::= expr(X) AND expr(Y). {
  A = sqlite3Fts5ParseNode(pParse, FTS5_AND, X, Y, 0);
}
expr(A) ::= expr(X) OR expr(Y). {
  A = sqlite3Fts5ParseNode(pParse, FTS5_OR, X, Y, 0);
}
expr(A) ::= expr(X) NOT expr(Y). {
  A = sqlite3Fts5ParseNode(pParse, FTS5_NOT, X, Y, 0);
}

expr(A) ::= colset(X) COLON LP expr(Y) RP. {
  sqlite3Fts5ParseSetColset(pParse, Y, X);
  A = Y;
}
expr(A) ::= LP expr(X) RP. {A = X;}
expr(A) ::= exprlist(X).   {A = X;}

exprlist(A) ::= cnearset(X). {A = X;}
exprlist(A) ::= exprlist(X) cnearset(Y). {
  A = sqlite3Fts5ParseImplicitAnd(pParse, X, Y);
}

cnearset(A) ::= nearset(X). { 
  A = sqlite3Fts5ParseNode(pParse, FTS5_STRING, 0, 0, X); 
}
cnearset(A) ::= colset(X) COLON nearset(Y). { 

  A = sqlite3Fts5ParseNode(pParse, FTS5_STRING, 0, 0, Y); 









  sqlite3Fts5ParseSetColset(pParse, A, X);






}


%type nearset     {Fts5ExprNearset*}
%type nearphrases {Fts5ExprNearset*}
%destructor nearset { sqlite3Fts5ParseNearsetFree($$); }
%destructor nearphrases { sqlite3Fts5ParseNearsetFree($$); }

Changes to ext/fts5/test/fts5_common.tcl.

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if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. .. test]
}
source $testdir/tester.tcl

ifcapable !fts5 {

  finish_test


  return


}

catch { 
  sqlite3_fts5_may_be_corrupt 0 
  reset_db
}

# If SQLITE_ENABLE_FTS5 is not defined, skip this test.
ifcapable !fts5 {
  finish_test
  return
}

proc fts5_test_poslist {cmd} {
  set res [list]
  for {set i 0} {$i < [$cmd xInstCount]} {incr i} {
    lappend res [string map {{ } .} [$cmd xInst $i]]
  }
  set res
}
................................................................................

    fts5_test_queryphrase
    fts5_test_phrasecount
  } {
    sqlite3_fts5_create_function $db $f $f
  }
}







proc fts5_level_segs {tbl} {
  set sql "SELECT fts5_decode(rowid,block) aS r FROM ${tbl}_data WHERE rowid=10"
  set ret [list]
  foreach L [lrange [db one $sql] 1 end] {
    lappend ret [expr [llength $L] - 3]
  }







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if {![info exists testdir]} {
  set testdir [file join [file dirname [info script]] .. .. .. test]
}
source $testdir/tester.tcl

ifcapable !fts5 {
  proc return_if_no_fts5 {} {
    finish_test
    return -code return
  }
  return
} else {
  proc return_if_no_fts5 {} {}
}

catch { 
  sqlite3_fts5_may_be_corrupt 0 
  reset_db
}







proc fts5_test_poslist {cmd} {
  set res [list]
  for {set i 0} {$i < [$cmd xInstCount]} {incr i} {
    lappend res [string map {{ } .} [$cmd xInst $i]]
  }
  set res
}
................................................................................

    fts5_test_queryphrase
    fts5_test_phrasecount
  } {
    sqlite3_fts5_create_function $db $f $f
  }
}

proc fts5_segcount {tbl} {
  set N 0
  foreach n [fts5_level_segs $tbl] { incr N $n }
  set N
}

proc fts5_level_segs {tbl} {
  set sql "SELECT fts5_decode(rowid,block) aS r FROM ${tbl}_data WHERE rowid=10"
  set ret [list]
  foreach L [lrange [db one $sql] 1 end] {
    lappend ret [expr [llength $L] - 3]
  }

Changes to ext/fts5/test/fts5aa.test.

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  set fd [db incrblob main n1_data block 10]
  fconfigure $fd -encoding binary -translation binary
  puts -nonewline $fd "\x44\x45"
  close $fd
}
db func funk funk







do_catchsql_test 16.2 {
  SELECT funk(), bm25(n1), funk() FROM n1 WHERE n1 MATCH 'a+b+c+d'

} {1 {SQL logic error or missing database}}

#-------------------------------------------------------------------------
#
reset_db
do_execsql_test 17.1 {
  CREATE VIRTUAL TABLE b2 USING fts5(x, detail=%DETAIL%);
  INSERT INTO b2 VALUES('a');
................................................................................
]
do_test 20.1 {
  foreach id $::ids {
    execsql { INSERT INTO tmp(rowid, x) VALUES($id, 'x y z') }
  }
  execsql { SELECT rowid FROM tmp WHERE tmp MATCH 'y' }
} $::ids































}


finish_test









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  set fd [db incrblob main n1_data block 10]
  fconfigure $fd -encoding binary -translation binary
  puts -nonewline $fd "\x44\x45"
  close $fd
}
db func funk funk

# This test case corrupts the structure record within the first invocation
# of function funk(). Which used to cause the bm25() function to throw an
# exception. But since bm25() can now used the cached structure record,
# it never sees the corruption introduced by funk() and so the following 
# statement no longer fails.
#
do_catchsql_test 16.2 {
  SELECT funk(), bm25(n1), funk() FROM n1 WHERE n1 MATCH 'a+b+c+d'
} {0 {{} -1e-06 {}}}
# {1 {SQL logic error or missing database}}

#-------------------------------------------------------------------------
#
reset_db
do_execsql_test 17.1 {
  CREATE VIRTUAL TABLE b2 USING fts5(x, detail=%DETAIL%);
  INSERT INTO b2 VALUES('a');
................................................................................
]
do_test 20.1 {
  foreach id $::ids {
    execsql { INSERT INTO tmp(rowid, x) VALUES($id, 'x y z') }
  }
  execsql { SELECT rowid FROM tmp WHERE tmp MATCH 'y' }
} $::ids

#--------------------------------------------------------------------
# Test that a DROP TABLE may be executed within a transaction that
# writes to an FTS5 table.
#
do_execsql_test 21.0 {
  CREATE TEMP TABLE t8(a, b);
  CREATE VIRTUAL TABLE ft USING fts5(x, detail=%DETAIL%);
}

do_execsql_test 21.1 {
  BEGIN;
    INSERT INTO ft VALUES('a b c');
    DROP TABLE t8;
  COMMIT;
}

do_execsql_test 22.0 {
  CREATE VIRTUAL TABLE t9 USING fts5(x, detail=%DETAIL%);
  INSERT INTO t9(rowid, x) VALUES(2, 'bbb');
  BEGIN;
    INSERT INTO t9(rowid, x) VALUES(1, 'aaa');
    DELETE FROM t9 WHERE rowid = 2;
    INSERT INTO t9(rowid, x) VALUES(3, 'bbb');
  COMMIT;
}

do_execsql_test 22.1 {
  SELECT rowid FROM t9('a*')
} {1}

}


finish_test


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  1.6 {o o o o o X o} {o o o o o [X] o}
  1.7 {o o o o o o X} {o o o o o o [X]}

  2.1 {X o o o o o o o} {[X] o o o o o o...}
  2.2 {o X o o o o o o} {o [X] o o o o o...}
  2.3 {o o X o o o o o} {o o [X] o o o o...}
  2.4 {o o o X o o o o} {o o o [X] o o o...}
  2.5 {o o o o X o o o} {...o o o [X] o o o}
  2.6 {o o o o o X o o} {...o o o o [X] o o}
  2.7 {o o o o o o X o} {...o o o o o [X] o}
  2.8 {o o o o o o o X} {...o o o o o o [X]}







  3.1 {X o o o o o o o o} {[X] o o o o o o...}
  3.2 {o X o o o o o o o} {o [X] o o o o o...}
  3.3 {o o X o o o o o o} {o o [X] o o o o...}
  3.4 {o o o X o o o o o} {o o o [X] o o o...}

  3.5 {o o o o X o o o o} {...o o o [X] o o o...}
  3.6 {o o o o o X o o o} {...o o o [X] o o o}
  3.7 {o o o o o o X o o} {...o o o o [X] o o}
  3.8 {o o o o o o o X o} {...o o o o o [X] o}
  3.9 {o o o o o o o o X} {...o o o o o o [X]}

  4.1 {X o o o o o X o o} {[X] o o o o o [X]...}
  4.2 {o X o o o o o X o} {...[X] o o o o o [X]...}
  4.3 {o o X o o o o o X} {...[X] o o o o o [X]}

  5.1 {X o o o o X o o o} {[X] o o o o [X] o...}
  5.2 {o X o o o o X o o} {...[X] o o o o [X] o...}
  5.3 {o o X o o o o X o} {...[X] o o o o [X] o}
  5.4 {o o o X o o o o X} {...o [X] o o o o [X]}

  6.1 {X o o o X o o o} {[X] o o o [X] o o...}
  6.2 {o X o o o X o o o} {o [X] o o o [X] o...}
  6.3 {o o X o o o X o o} {...o [X] o o o [X] o...}
  6.4 {o o o X o o o X o} {...o [X] o o o [X] o}
  6.5 {o o o o X o o o X} {...o o [X] o o o [X]}

  7.1 {X o o X o o o o o} {[X] o o [X] o o o...}
  7.2 {o X o o X o o o o} {o [X] o o [X] o o...}
  7.3 {o o X o o X o o o} {...o [X] o o [X] o o...}
  7.4 {o o o X o o X o o} {...o [X] o o [X] o o}
  7.5 {o o o o X o o X o} {...o o [X] o o [X] o}
  7.6 {o o o o o X o o X} {...o o o [X] o o [X]}







} {
  do_snippet_test 1.$tn $doc X $res
}

if {[detail_is_full]} {
  foreach {tn doc res} {
    1.1 {X Y o o o o o} {[X Y] o o o o o}
................................................................................
    1.4 {o o o X Y o o} {o o o [X Y] o o}
    1.5 {o o o o X Y o} {o o o o [X Y] o}
    1.6 {o o o o o X Y} {o o o o o [X Y]}

    2.1 {X Y o o o o o o} {[X Y] o o o o o...}
    2.2 {o X Y o o o o o} {o [X Y] o o o o...}
    2.3 {o o X Y o o o o} {o o [X Y] o o o...}
    2.4 {o o o X Y o o o} {...o o [X Y] o o o}
    2.5 {o o o o X Y o o} {...o o o [X Y] o o}
    2.6 {o o o o o X Y o} {...o o o o [X Y] o}
    2.7 {o o o o o o X Y} {...o o o o o [X Y]}

    3.1 {X Y o o o o o o o} {[X Y] o o o o o...}
    3.2 {o X Y o o o o o o} {o [X Y] o o o o...}
    3.3 {o o X Y o o o o o} {o o [X Y] o o o...}
    3.4 {o o o X Y o o o o} {...o o [X Y] o o o...}
    3.5 {o o o o X Y o o o} {...o o [X Y] o o o}
    3.6 {o o o o o X Y o o} {...o o o [X Y] o o}
    3.7 {o o o o o o X Y o} {...o o o o [X Y] o}
    3.8 {o o o o o o o X Y} {...o o o o o [X Y]}
  } {
    do_snippet_test 2.$tn $doc "X + Y" $res
  }
}




















} ;# foreach_detail_mode 

finish_test








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  1.6 {o o o o o X o} {o o o o o [X] o}
  1.7 {o o o o o o X} {o o o o o o [X]}

  2.1 {X o o o o o o o} {[X] o o o o o o...}
  2.2 {o X o o o o o o} {o [X] o o o o o...}
  2.3 {o o X o o o o o} {o o [X] o o o o...}
  2.4 {o o o X o o o o} {o o o [X] o o o...}
  2.5 {o o o o X o o o} {o o o o [X] o o...}
  2.6 {o o o o o X o o} {o o o o o [X] o...}
  2.7 {o o o o o o X o} {o o o o o o [X]...}
  2.8 {o o o o o o o X} {...o o o o o o [X]}

  2.9  {o o o o o o o X o}       {...o o o o o [X] o}
  2.10 {o o o o o o o X o o}     {...o o o o [X] o o}
  2.11 {o o o o o o o X o o o}   {...o o o [X] o o o}
  2.12 {o o o o o o o X o o o o} {...o o o [X] o o o...}


  3.1 {X o o o o o o o o} {[X] o o o o o o...}
  3.2 {o X o o o o o o o} {o [X] o o o o o...}
  3.3 {o o X o o o o o o} {o o [X] o o o o...}
  3.4 {o o o X o o o o o} {o o o [X] o o o...}

  3.5 {o o o o o o o X o o o o} {...o o o [X] o o o...}
  3.6 {o o o o o o o o X o o o} {...o o o [X] o o o}
  3.7 {o o o o o o o o o X o o} {...o o o o [X] o o}
  3.8 {o o o o o o o o o o X o} {...o o o o o [X] o}
  3.9 {o o o o o o o o o o o X} {...o o o o o o [X]}

  4.1 {X o o o o o X o o} {[X] o o o o o [X]...}
  4.2 {o o o o o o o X o o o o o X o} {...[X] o o o o o [X]...}
  4.3 {o o o o o o o o X o o o o o X} {...[X] o o o o o [X]}

  5.1 {X o o o o X o o o} {[X] o o o o [X] o...}
  5.2 {o o o o o o o X o o o o X o o} {...[X] o o o o [X] o...}
  5.3 {o o o o o o o o X o o o o X o} {...[X] o o o o [X] o}
  5.4 {o o o o o o o o o X o o o o X} {...o [X] o o o o [X]}

  6.1 {X o o o X o o o} {[X] o o o [X] o o...}
  6.2 {o X o o o X o o o} {o [X] o o o [X] o...}
  6.3 {o o o o o o o X o o o X o o} {...o [X] o o o [X] o...}
  6.4 {o o o o o o o o X o o o X o} {...o [X] o o o [X] o}
  6.5 {o o o o o o o o o X o o o X} {...o o [X] o o o [X]}

  7.1 {X o o X o o o o o} {[X] o o [X] o o o...}
  7.2 {o X o o X o o o o} {o [X] o o [X] o o...}
  7.3 {o o o o o o o X o o X o o o} {...o [X] o o [X] o o...}
  7.4 {o o o o o o o o X o o X o o} {...o [X] o o [X] o o}
  7.5 {o o o o o o o o o X o o X o} {...o o [X] o o [X] o}
  7.6 {o o o o o o o o o o X o o X} {...o o o [X] o o [X]}

  8.1 {o o o o o o o o o X o o o o o o o o o o o o o o o o X X X o o o}
      {...o o [X] [X] [X] o o...}
  8.2 {o o o o o o o. o o X o o o o o o o o o o o o o o o o X X X o o o} 
      {...o o [X] o o o o...}
  8.3 {o o o o X o o o o o o o o o o o o o o o o o o o o o X X X o o o} 
      {o o o o [X] o o...}
} {
  do_snippet_test 1.$tn $doc X $res
}

if {[detail_is_full]} {
  foreach {tn doc res} {
    1.1 {X Y o o o o o} {[X Y] o o o o o}
................................................................................
    1.4 {o o o X Y o o} {o o o [X Y] o o}
    1.5 {o o o o X Y o} {o o o o [X Y] o}
    1.6 {o o o o o X Y} {o o o o o [X Y]}

    2.1 {X Y o o o o o o} {[X Y] o o o o o...}
    2.2 {o X Y o o o o o} {o [X Y] o o o o...}
    2.3 {o o X Y o o o o} {o o [X Y] o o o...}
    2.4 {o o o o o o o X Y o o o} {...o o [X Y] o o o}
    2.5 {o o o o o o o o X Y o o} {...o o o [X Y] o o}
    2.6 {o o o o o o o o o X Y o} {...o o o o [X Y] o}
    2.7 {o o o o o o o o o o X Y} {...o o o o o [X Y]}

    3.1 {X Y o o o o o o o} {[X Y] o o o o o...}
    3.2 {o X Y o o o o o o} {o [X Y] o o o o...}
    3.3 {o o X Y o o o o o} {o o [X Y] o o o...}
    3.4 {o o o o o o o X Y o o o o} {...o o [X Y] o o o...}
    3.5 {o o o o o o o o X Y o o o} {...o o [X Y] o o o}
    3.6 {o o o o o o o o o X Y o o} {...o o o [X Y] o o}
    3.7 {o o o o o o o o o o X Y o} {...o o o o [X Y] o}
    3.8 {o o o o o o o o o o o X Y} {...o o o o o [X Y]}
  } {
    do_snippet_test 2.$tn $doc "X + Y" $res
  }
}

do_execsql_test 4.0 {
  CREATE VIRTUAL TABLE x1 USING fts5(a, b);
  INSERT INTO x1 VALUES('xyz', '1 2 3 4 5 6 7 8 9 10 11 12 13');
  SELECT snippet(x1, 1, '[', ']', '...', 5) FROM x1('xyz');
} {
  {1 2 3 4 5...}
}

do_execsql_test 5.0 {
  CREATE VIRTUAL TABLE p1 USING fts5(a, b);
  INSERT INTO p1 VALUES(
    'x a a a a a a a a a a',
    'a a a a a a a a a a a a a a a a a a a x'
  );
}
do_execsql_test 5.1 {
  SELECT snippet(p1, 0, '[', ']', '...', 6) FROM p1('x');
} {{[x] a a a a a...}}

} ;# foreach_detail_mode 

finish_test

Changes to ext/fts5/test/fts5aux.test.

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  execsql { DELETE FROM x1 }
  foreach row $lRow { execsql { INSERT INTO x1 VALUES($row) } }
  breakpoint
  do_execsql_test 8.$tn {
    SELECT highlight(x1, 0, '[', ']') FROM x1 WHERE x1 MATCH 'a OR (b AND d)';
  } $res
}

































finish_test









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  execsql { DELETE FROM x1 }
  foreach row $lRow { execsql { INSERT INTO x1 VALUES($row) } }
  breakpoint
  do_execsql_test 8.$tn {
    SELECT highlight(x1, 0, '[', ']') FROM x1 WHERE x1 MATCH 'a OR (b AND d)';
  } $res
}

#-------------------------------------------------------------------------
# Test the built-in bm25() demo.
#
reset_db
do_execsql_test 9.1 {
  CREATE VIRTUAL TABLE t1 USING fts5(a, b);
  INSERT INTO t1 VALUES('a',   NULL);           -- 1
  INSERT INTO t1 VALUES('a',   NULL);           -- 2
  INSERT INTO t1 VALUES('a',   NULL);           -- 3
  INSERT INTO t1 VALUES('a',   NULL);           -- 4
  INSERT INTO t1 VALUES('a',   NULL);           -- 5
  INSERT INTO t1 VALUES('a',   NULL);           -- 6
  INSERT INTO t1 VALUES('a',   NULL);           -- 7
  INSERT INTO t1 VALUES('a',   NULL);           -- 8
  INSERT INTO t1 VALUES(NULL,  'a a b');        -- 9
  INSERT INTO t1 VALUES(NULL,  'b b a');        -- 10
}

do_execsql_test 9.2 {
  SELECT rowid FROM t1('a AND b') ORDER BY rank;
} {
  10 9
}

do_execsql_test 9.3 {
  SELECT rowid FROM t1('b:a AND b:b') ORDER BY rank;
} {
  9 10
}



finish_test

Changes to ext/fts5/test/fts5bigtok.test.

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#*************************************************************************
# This file implements regression tests for SQLite library.  The
# focus of this script is testing the FTS5 module.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5bigtok


proc rndterm {} {
  set L [list a b c d e f g h i j k l m n o p q r s t u v w x y z]
  set l [lindex $L [expr int(rand() * [llength $L])]]
  string repeat $l [expr int(rand() * 5) + 60]
}








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#*************************************************************************
# This file implements regression tests for SQLite library.  The
# focus of this script is testing the FTS5 module.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5bigtok
return_if_no_fts5

proc rndterm {} {
  set L [list a b c d e f g h i j k l m n o p q r s t u v w x y z]
  set l [lindex $L [expr int(rand() * [llength $L])]]
  string repeat $l [expr int(rand() * 5) + 60]
}

Added ext/fts5/test/fts5colset.test.

















































































































































































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# 2016 August 10
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#*************************************************************************
# This file implements regression tests for SQLite library.  The
# focus of this script is testing the FTS5 module.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5colset

# If SQLITE_ENABLE_FTS5 is not defined, omit this file.
ifcapable !fts5 {
  finish_test
  return
}

foreach_detail_mode $::testprefix {
  if {[detail_is_none]} continue

  do_execsql_test 1.0 {
    CREATE VIRTUAL TABLE t1 USING fts5(a, b, c, d, detail=%DETAIL%);
    INSERT INTO t1 VALUES('a', 'b', 'c', 'd');  -- 1
    INSERT INTO t1 VALUES('d', 'a', 'b', 'c');  -- 2
    INSERT INTO t1 VALUES('c', 'd', 'a', 'b');  -- 3
    INSERT INTO t1 VALUES('b', 'c', 'd', 'a');  -- 4
  }

  foreach {tn q res} {
    1 "a"          {1 2 3 4}
    2 "{a}   : a"  {1}
    3 "-{a}   : a" {2 3 4}
    4 "- {a c} : a" {2 4}
    5 " - {d d c} : a" {1 2}
    6 "- {d c b a} : a" {}
    7 "-{\"a\"} : b" {1 2 3}
    8 "- c : a" {1 2 4}
    9 "-c : a"  {1 2 4}
    10 "-\"c\" : a"  {1 2 4}
  } {
    do_execsql_test 1.$tn {
      SELECT rowid FROM t1($q)
    } $res
  }

  foreach {tn q res} {
    0 {{a} : (a AND ":")}     {}
    1 "{a b c} : (a AND d)"   {2 3}
    2 "{a b c} : (a AND b:d)" {3}
    3 "{a b c} : (a AND d:d)" {}
    4 "{b} : ( {b a} : ( {c b a} : ( {d b c a} : ( d OR c ) ) ) )" {3 4}
    5 "{a} : ( {b a} : ( {c b a} : ( {d b c a} : ( d OR c ) ) ) )" {2 3}
    6 "{a} : ( {b a} : ( {c b} : ( {d b c a} : ( d OR c ) ) ) )" {}
    7 "{a b c} : (b:a AND c:b)" {2}
  } {
    do_execsql_test 2.$tn {
      SELECT rowid FROM t1($q)
    } $res
  }

  foreach {tn w res} {
    0 "a MATCH 'a'" {1}
    1 "b MATCH 'a'" {2}
    2 "b MATCH '{a b c} : a'" {2}
    3 "b MATCH 'a OR b'"      {1 2}
    4 "b MATCH 'a OR a:b'"    {2}
    5 "b MATCH 'a OR b:b'"    {1 2}
  } {
    do_execsql_test 3.$tn "
      SELECT rowid FROM t1 WHERE $w
    " $res
  }

  do_catchsql_test 4.1 {
    SELECT * FROM t1 WHERE rowid MATCH 'a'
  } {1 {unable to use function MATCH in the requested context}}
}


finish_test


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  set res [list 1 {malformed detail=... directive}]
  do_catchsql_test 11.$tn "CREATE VIRTUAL TABLE f1 USING fts5(x, $opt)" $res
}

do_catchsql_test 12.1 {
  INSERT INTO t1(t1, rank) VALUES('rank', NULL);;
} {1 {SQL logic error or missing database}}

















finish_test








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  set res [list 1 {malformed detail=... directive}]
  do_catchsql_test 11.$tn "CREATE VIRTUAL TABLE f1 USING fts5(x, $opt)" $res
}

do_catchsql_test 12.1 {
  INSERT INTO t1(t1, rank) VALUES('rank', NULL);;
} {1 {SQL logic error or missing database}}

#-------------------------------------------------------------------------
# errors in the 'usermerge' option
#
do_execsql_test 13.0 {
  CREATE VIRTUAL TABLE tt USING fts5(ttt);
}
foreach {tn val} {
  1     -1
  2     4.2
  3     17
  4     1
} {
  set sql "INSERT INTO tt(tt, rank) VALUES('usermerge', $val)"
  do_catchsql_test 13.$tn $sql {1 {SQL logic error or missing database}}
}

finish_test

Changes to ext/fts5/test/fts5corrupt2.test.

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  CREATE VIRTUAL TABLE t1 USING fts5(x);
  INSERT INTO t1(t1, rank) VALUES('pgsz', 32);
  WITH ii(i) AS (SELECT 1 UNION SELECT i+1 FROM ii WHERE i<100)
  INSERT INTO t1 SELECT rnddoc(10) FROM ii;
}
set mask [expr 31 << 31]

if 1 {

# Test 1:
#
#   For each page in the t1_data table, open a transaction and DELETE
#   the t1_data entry. Then run:
#
#     * an integrity-check, and
................................................................................
    }
  
    do_execsql_test 1.$tno.$tn.3.$rowid {
      ROLLBACK;
      INSERT INTO t1(t1) VALUES('integrity-check');
    } {}
  }


}

# Using the same database as the 1.* tests.
#
# Run N-1 tests, where N is the number of bytes in the rightmost leaf page
# of the fts index. For test $i, truncate the rightmost leafpage to $i
# bytes. Then test both the integrity-check detects the corruption.
................................................................................
      set {} 1
    } {1}

    execsql ROLLBACK
  }

  # do_test 4.$tn.x { expr $nCorrupt>0 } 1
}

}

set doc [string repeat "A B C " 1000]
do_execsql_test 5.0 {
  CREATE VIRTUAL TABLE x5 USING fts5(tt);
  INSERT INTO x5(x5, rank) VALUES('pgsz', 32);
  WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<10) 







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  CREATE VIRTUAL TABLE t1 USING fts5(x);
  INSERT INTO t1(t1, rank) VALUES('pgsz', 32);
  WITH ii(i) AS (SELECT 1 UNION SELECT i+1 FROM ii WHERE i<100)
  INSERT INTO t1 SELECT rnddoc(10) FROM ii;
}
set mask [expr 31 << 31]

if 0 {

# Test 1:
#
#   For each page in the t1_data table, open a transaction and DELETE
#   the t1_data entry. Then run:
#
#     * an integrity-check, and
................................................................................
    }
  
    do_execsql_test 1.$tno.$tn.3.$rowid {
      ROLLBACK;
      INSERT INTO t1(t1) VALUES('integrity-check');
    } {}
  }
}

}

# Using the same database as the 1.* tests.
#
# Run N-1 tests, where N is the number of bytes in the rightmost leaf page
# of the fts index. For test $i, truncate the rightmost leafpage to $i
# bytes. Then test both the integrity-check detects the corruption.
................................................................................
      set {} 1
    } {1}

    execsql ROLLBACK
  }

  # do_test 4.$tn.x { expr $nCorrupt>0 } 1


}

set doc [string repeat "A B C " 1000]
do_execsql_test 5.0 {
  CREATE VIRTUAL TABLE x5 USING fts5(tt);
  INSERT INTO x5(x5, rank) VALUES('pgsz', 32);
  WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<10) 

Changes to ext/fts5/test/fts5corrupt3.test.

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for {set i 1} {1} {incr i} {
  set struct [db one {SELECT block FROM t1_data WHERE id=10}]
  binary scan $struct c* var
  set end [lindex $var end]
  if {$end<=$i} break
  lset var end [expr $end - $i]
  set struct [binary format c* $var]




  db eval {
    BEGIN;
    UPDATE t1_data SET block = $struct WHERE id=10;
  }
  do_test 4.1.$i {
    incr nErr [catch { db eval { SELECT rowid FROM t1 WHERE t1 MATCH 'x*' } }]
    set {} {}







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for {set i 1} {1} {incr i} {
  set struct [db one {SELECT block FROM t1_data WHERE id=10}]
  binary scan $struct c* var
  set end [lindex $var end]
  if {$end<=$i} break
  lset var end [expr $end - $i]
  set struct [binary format c* $var]

  db close
  sqlite3 db test.db

  db eval {
    BEGIN;
    UPDATE t1_data SET block = $struct WHERE id=10;
  }
  do_test 4.1.$i {
    incr nErr [catch { db eval { SELECT rowid FROM t1 WHERE t1 MATCH 'x*' } }]
    set {} {}

Added ext/fts5/test/fts5delete.test.













































































































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# 2017 May 12
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#*************************************************************************
# This file implements regression tests for SQLite library.  The
# focus of this script is testing the FTS5 module.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5delete

# If SQLITE_ENABLE_FTS5 is not defined, omit this file.
ifcapable !fts5 {
  finish_test
  return
}
fts5_aux_test_functions db

do_execsql_test 1.0 {
  CREATE VIRTUAL TABLE t1 USING fts5(x);
  WITH s(i) AS (
    SELECT 1 UNION ALL SELECT i+1 FROM s WHERE i<5000
  )
  INSERT INTO t1(rowid, x) SELECT i, (i/2)*2 FROM s;
}

do_test 1.1 {
  execsql BEGIN
  for {set i 1} {$i<=5000} {incr i} {
    if {$i % 2} {
      execsql { INSERT INTO t1 VALUES($i) }
    } else {
      execsql { DELETE FROM t1 WHERE rowid = $i }
    }
  }
  execsql COMMIT
} {}

do_test 1.2 {
  execsql { INSERT INTO t1(t1, rank) VALUES('usermerge', 2); }
  for {set i 0} {$i < 5} {incr i} {
    execsql { INSERT INTO t1(t1, rank) VALUES('merge', 1) }
    execsql { INSERT INTO t1(t1) VALUES('integrity-check') }
  }
} {}

finish_test

Added ext/fts5/test/fts5determin.test.







































































































































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# 2016 March 21
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#*************************************************************************
# This file implements regression tests for SQLite library.  The
# focus of this script is testing the FTS5 module.
#
# Specifically, that the fts5 module is deterministic. At one point, when
# segment ids were allocated using sqlite3_randomness(), this was not the
# case.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5aa
return_if_no_fts5 

proc do_determin_test {tn} {
  uplevel [list
    do_execsql_test $tn {
      SELECT (SELECT md5sum(id, block) FROM t1_data)==
             (SELECT md5sum(id, block) FROM t2_data),
             (SELECT md5sum(id, block) FROM t1_data)==
             (SELECT md5sum(id, block) FROM t3_data)
    } {1 1}
  ]
}

foreach_detail_mode $::testprefix {
  do_execsql_test 1.0 {
    CREATE VIRTUAL TABLE t1 USING fts5(a, b, prefix="1 2", detail=%DETAIL%);
    CREATE VIRTUAL TABLE t2 USING fts5(a, b, prefix="1 2", detail=%DETAIL%);
    CREATE VIRTUAL TABLE t3 USING fts5(a, b, prefix="1 2", detail=%DETAIL%);
  }

  do_test 1.1 {
    foreach t {t1 t2 t3} {
      execsql [string map [list TBL $t] {
        INSERT INTO TBL VALUES('a b c', 'd e f');
        INSERT INTO TBL VALUES('c1 c2 c3', 'c1 c2 c3');
        INSERT INTO TBL VALUES('xyzxyzxyz', 'xyzxyzxyz');
      }]
    }
  } {}

  do_determin_test 1.2

  do_test 1.3 {
    foreach t {t1 t2 t3} {
      execsql [string map [list TBL $t] {
        INSERT INTO TBL(TBL) VALUES('optimize');
      }]
    }
  } {}

  do_determin_test 1.4
}


finish_test


Changes to ext/fts5/test/fts5dlidx.test.

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do_execsql_test 3.2 {
  SELECT rowid FROM abc WHERE abc 
  MATCH 'IteratorpItercurrentlypointstothefirstrowidofadoclist' 
  ORDER BY rowid DESC;
} {16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1}

do_execsql_test 3.2 {
  INSERT INTO abc(abc) VALUES('integrity-check');
  INSERT INTO abc(abc) VALUES('optimize');
  INSERT INTO abc(abc) VALUES('integrity-check');
}

set v [lindex $vocab 0]
set i 0
foreach v $vocab {
  do_execsql_test 3.3.[incr i] {
    SELECT rowid FROM abc WHERE abc MATCH $v
  } {1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16}
}

} ;# foreach_detail_mode



finish_test








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do_execsql_test 3.2 {
  SELECT rowid FROM abc WHERE abc 
  MATCH 'IteratorpItercurrentlypointstothefirstrowidofadoclist' 
  ORDER BY rowid DESC;
} {16 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1}

do_execsql_test 3.3 {
  INSERT INTO abc(abc) VALUES('integrity-check');
  INSERT INTO abc(abc) VALUES('optimize');
  INSERT INTO abc(abc) VALUES('integrity-check');
}

set v [lindex $vocab 0]
set i 0
foreach v $vocab {
  do_execsql_test 3.4.[incr i] {
    SELECT rowid FROM abc WHERE abc MATCH $v
  } {1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16}
}

} ;# foreach_detail_mode



finish_test

Changes to ext/fts5/test/fts5eb.test.

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  do_execsql_test $tn {SELECT fts5_expr($se_expr)} [list $res]
}

foreach {tn expr res} {
  1  {abc}                            {"abc"}
  2  {abc ""}                         {"abc"}
  3  {""}                             {}
  4  {abc OR ""}                      {"abc"}
  5  {abc NOT ""}                     {"abc"}
  6  {abc AND ""}                     {"abc"}
  7  {"" OR abc}                      {"abc"}
  8  {"" NOT abc}                     {"abc"}
  9  {"" AND abc}                     {"abc"}
  10 {abc + "" + def}                 {"abc" + "def"}
  11 {abc "" def}                     {"abc" AND "def"}
  12 {r+e OR w}                       {"r" + "e" OR "w"}

  13 {a AND b NOT c}                  {"a" AND ("b" NOT "c")}
  14 {a OR b NOT c}                   {"a" OR ("b" NOT "c")}
  15 {a NOT b AND c}                  {("a" NOT "b") AND "c"}
................................................................................
do_catchsql_test 2.1 {
  SELECT fts5_expr()
} {1 {wrong number of arguments to function fts5_expr}}

do_catchsql_test 2.1 {
  SELECT fts5_expr_tcl()
} {1 {wrong number of arguments to function fts5_expr_tcl}}


















finish_test










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  do_execsql_test $tn {SELECT fts5_expr($se_expr)} [list $res]
}

foreach {tn expr res} {
  1  {abc}                            {"abc"}
  2  {abc ""}                         {"abc"}
  3  {""}                             {}
  4  {abc OR ""}                      {"abc" OR ""}
  5  {abc NOT ""}                     {"abc" NOT ""}
  6  {abc AND ""}                     {"abc" AND ""}
  7  {"" OR abc}                      {"" OR "abc"}
  8  {"" NOT abc}                     {"" NOT "abc"}
  9  {"" AND abc}                     {"" AND "abc"}
  10 {abc + "" + def}                 {"abc" + "def"}
  11 {abc "" def}                     {"abc" AND "def"}
  12 {r+e OR w}                       {"r" + "e" OR "w"}

  13 {a AND b NOT c}                  {"a" AND ("b" NOT "c")}
  14 {a OR b NOT c}                   {"a" OR ("b" NOT "c")}
  15 {a NOT b AND c}                  {("a" NOT "b") AND "c"}
................................................................................
do_catchsql_test 2.1 {
  SELECT fts5_expr()
} {1 {wrong number of arguments to function fts5_expr}}

do_catchsql_test 2.1 {
  SELECT fts5_expr_tcl()
} {1 {wrong number of arguments to function fts5_expr_tcl}}


do_execsql_test 3.0 {
  CREATE VIRTUAL TABLE e1 USING fts5(text, tokenize = 'porter unicode61');
  INSERT INTO e1 VALUES ("just a few words with a / inside");
}
do_execsql_test 3.1 {
  SELECT rowid, bm25(e1) FROM e1 WHERE e1 MATCH '"just"' ORDER BY rank;
} {1 -1e-06}
do_execsql_test 3.2 {
  SELECT rowid FROM e1 WHERE e1 MATCH '"/" OR "just"'
} 1
do_execsql_test 3.3 {
  SELECT rowid, bm25(e1) FROM e1 WHERE e1 MATCH '"/" OR "just"' ORDER BY rank;
} {1 -1e-06}



finish_test



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}

set ::res [db eval {SELECT rowid, x1 FROM x1 WHERE x1 MATCH '*reads'}]

do_faultsim_test 4 -faults oom-* -body {
  db eval {SELECT rowid, x, x1 FROM x1 WHERE x1 MATCH '*reads'}
} -test {
  faultsim_test_result {0 {0 {} 4}}
}

#-------------------------------------------------------------------------
# An OOM within a query that uses a custom rank function.
#
reset_db
do_execsql_test 5.0 {







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}

set ::res [db eval {SELECT rowid, x1 FROM x1 WHERE x1 MATCH '*reads'}]

do_faultsim_test 4 -faults oom-* -body {
  db eval {SELECT rowid, x, x1 FROM x1 WHERE x1 MATCH '*reads'}
} -test {
  faultsim_test_result {0 {0 {} 3}}
}

#-------------------------------------------------------------------------
# An OOM within a query that uses a custom rank function.
#
reset_db
do_execsql_test 5.0 {

Changes to ext/fts5/test/fts5fault8.test.

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  if {[detail_is_none]==0} {
    do_faultsim_test 3 -faults oom-* -body {
      execsql { SELECT rowid FROM t1('b:2') }
    } -test {
      faultsim_test_result {0 {1 3}} {1 SQLITE_NOMEM}
    }
  }

} ;# foreach_detail_mode...

























finish_test








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  if {[detail_is_none]==0} {
    do_faultsim_test 3 -faults oom-* -body {
      execsql { SELECT rowid FROM t1('b:2') }
    } -test {
      faultsim_test_result {0 {1 3}} {1 SQLITE_NOMEM}
    }
  }

} ;# foreach_detail_mode...


do_execsql_test 4.0 {
  CREATE VIRTUAL TABLE x2 USING fts5(a);
  INSERT INTO x2(x2, rank) VALUES('crisismerge', 2);
  INSERT INTO x2(x2, rank) VALUES('pgsz', 32);
  INSERT INTO x2 VALUES('a b c d');
  INSERT INTO x2 VALUES('e f g h');
  INSERT INTO x2 VALUES('i j k l');
  INSERT INTO x2 VALUES('m n o p');
  INSERT INTO x2 VALUES('q r s t');
  INSERT INTO x2 VALUES('u v w x');
  INSERT INTO x2 VALUES('y z a b');
}
faultsim_save_and_close

do_faultsim_test 4 -faults oom-* -prep {
  faultsim_restore_and_reopen
} -body {
  execsql { INSERT INTO x2(x2) VALUES('optimize') }
} -test {
  faultsim_test_result {0 {}} {1 SQLITE_NOMEM}
}


finish_test

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}

do_faultsim_test 2.4 -faults oom* -body {
  execsql { SELECT mit(matchinfo(t1, 's')) FROM t1('a b c') }
} -test {
  faultsim_test_result {0 {{3 2} {2 3}}} 
}






















































finish_test









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}

do_faultsim_test 2.4 -faults oom* -body {
  execsql { SELECT mit(matchinfo(t1, 's')) FROM t1('a b c') }
} -test {
  faultsim_test_result {0 {{3 2} {2 3}}} 
}

#-------------------------------------------------------------------------
#
reset_db 
do_execsql_test 3.0 {
  CREATE VIRTUAL TABLE x1 USING fts5(z);
}

do_faultsim_test 3.1 -faults oom* -body {
  execsql {
    SELECT rowid FROM x1('c') WHERE rowid>1;
  }
} -test {
  faultsim_test_result {0 {}}
}

do_execsql_test 3.2 {
  INSERT INTO x1 VALUES('a b c');
  INSERT INTO x1 VALUES('b c d');
  INSERT INTO x1 VALUES('c d e');
  INSERT INTO x1 VALUES('d e f');
}
do_faultsim_test 3.3 -faults oom* -body {
  execsql {
    SELECT rowid FROM x1('c') WHERE rowid>1;
  }
} -test {
  faultsim_test_result {0 {2 3}}
}

#-------------------------------------------------------------------------
# Test OOM injection with nested colsets.
#
reset_db
do_execsql_test 4.0 {
  CREATE VIRTUAL TABLE t1 USING fts5(a, b, c, d);
  INSERT INTO t1 VALUES('a', 'b', 'c', 'd');  -- 1
  INSERT INTO t1 VALUES('d', 'a', 'b', 'c');  -- 2
  INSERT INTO t1 VALUES('c', 'd', 'a', 'b');  -- 3
  INSERT INTO t1 VALUES('b', 'c', 'd', 'a');  -- 4
}
do_faultsim_test 4.1 -faults oom* -body {
  execsql { SELECT rowid FROM t1('{a b c} : (b:a AND c:b)'); }
} -test {
  faultsim_test_result {0 2}
}

do_faultsim_test 4.2 -faults oom* -body {
  execsql { SELECT rowid FROM t1('{a b c} : (a AND d)') }
} -test {
  faultsim_test_result {0 {2 3}}
}


finish_test

Added ext/fts5/test/fts5faultD.test.















































































































































































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# 2016 February 2
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#*************************************************************************
#
# This file is focused on OOM errors.
#

source [file join [file dirname [info script]] fts5_common.tcl]
source $testdir/malloc_common.tcl
set testprefix fts5faultA

# If SQLITE_ENABLE_FTS3 is defined, omit this file.
ifcapable !fts5 {
  finish_test
  return
}

foreach_detail_mode $testprefix {
  if {"%DETAIL%"=="none"} continue

  do_execsql_test 1.0 {
    CREATE VIRTUAL TABLE o1 USING fts5(a, b, c, detail=%DETAIL%);
    INSERT INTO o1(o1, rank) VALUES('pgsz', 32);

    WITH s(i) AS ( SELECT 1 UNION ALL SELECT i+1 FROM s WHERE i<60 )
    INSERT INTO o1 SELECT 'A', 'B', 'C' FROM s;

    WITH s(i) AS ( SELECT 1 UNION ALL SELECT i+1 FROM s WHERE i<60 )
    INSERT INTO o1 SELECT 'C', 'A', 'B' FROM s;

    WITH s(i) AS ( SELECT 1 UNION ALL SELECT i+1 FROM s WHERE i<60 )
    INSERT INTO o1 SELECT 'B', 'C', 'A' FROM s;
  }
  
  do_faultsim_test 1 -faults int* -prep {
    sqlite3 db test.db
  } -body {
    execsql { SELECT count(*) FROM o1('a') }
  } -test {
    faultsim_test_result {0 180} {1 {vtable constructor failed: o1}}
  }

  do_faultsim_test 2 -faults int* -prep {
    sqlite3 db test.db
  } -body {
    execsql { SELECT * FROM o1('a:a AND {b c}:b') ORDER BY rank }
    expr 1
  } -test {
    faultsim_test_result {0 1} {1 {vtable constructor failed: o1}}
  }

  do_faultsim_test 3 -faults int* -prep {
    sqlite3 db test.db
  } -body {
    execsql { SELECT * FROM o1('{b c}:b NOT a:a') ORDER BY rank }
    expr 1
  } -test {
    faultsim_test_result {0 1} {1 {vtable constructor failed: o1}}
  }

  do_faultsim_test 4 -faults int* -prep {
    sqlite3 db test.db
  } -body {
    execsql { SELECT * FROM o1('b:b OR a:a') }
    expr 1
  } -test {
    faultsim_test_result {0 1} {1 {vtable constructor failed: o1}}
  }

  do_faultsim_test 5 -faults int* -prep {
    sqlite3 db test.db
  } -body {
    execsql { SELECT count(*) FROM o1('c:b') }
    expr 1
  } -test {
    faultsim_test_result {0 1} {1 {vtable constructor failed: o1}}
  }
}

finish_test

Added ext/fts5/test/fts5fuzz1.test.



























































































































































































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# 2014 June 17
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#*************************************************************************
# This file implements regression tests for SQLite library.  The
# focus of this script is testing the FTS5 module.
#

source [file join [file dirname [info script]] fts5_common.tcl]
return_if_no_fts5
set testprefix fts5fuzz1


#-------------------------------------------------------------------------
reset_db
do_catchsql_test 1.1 {
  CREATE VIRTUAL TABLE f1 USING fts5(a  b);
} {/1 {parse error in.*}/}


#-------------------------------------------------------------------------
reset_db
do_execsql_test 2.1 {
  CREATE VIRTUAL TABLE f1 USING fts5(a, b);
  INSERT INTO f1 VALUES('a b', 'c d');
  INSERT INTO f1 VALUES('e f', 'a b');
}

do_execsql_test 2.2.1 {
  SELECT rowid FROM f1('""');
} {}

do_execsql_test 2.2.2 {
  SELECT rowid FROM f1('"" AND a');
} {}


do_execsql_test 2.2.3 {
  SELECT rowid FROM f1('"" a');
} {1 2}

do_execsql_test 2.2.4 {
  SELECT rowid FROM f1('"" OR a');
} {1 2}

do_execsql_test 2.3 {
  SELECT a, b FROM f1('NEAR("")');
} {}

do_execsql_test 2.4 {
  SELECT a, b FROM f1('NEAR("", 5)');
} {}

do_execsql_test 2.5 {
  SELECT a, b FROM f1('NEAR("" c, 5)');
} {{a b} {c d}}

do_execsql_test 2.6 {
  SELECT a, b FROM f1('NEAR("" c d, 5)');
} {{a b} {c d}}

do_execsql_test 2.7 {
  SELECT a, b FROM f1('NEAR(c d, 5)');
} {{a b} {c d}}

do_execsql_test 2.8 {
  SELECT rowid FROM f1('NEAR("a" "b", 5)');
} {1 2}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 3.2 {
  CREATE VIRTUAL TABLE f2 USING fts5(o, t, tokenize="ascii separators abc");
  SELECT * FROM f2('a+4');
} {}



#-------------------------------------------------------------------------
reset_db
do_catchsql_test 4.1 {
  CREATE VIRTUAL TABLE f2 USING fts5(o, t);
  SELECT * FROM f2('(8 AND 9)`AND 10');
} {1 {fts5: syntax error near "`"}}

finish_test

Added ext/fts5/test/fts5lastrowid.test.



















































































































































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# 2017 Feb 27
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# Tests of the last_insert_rowid functionality with fts5.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5lastrowid

# If SQLITE_ENABLE_FTS5 is defined, omit this file.
ifcapable !fts5 {
  finish_test
  return
}

do_execsql_test 1.0 {
  CREATE VIRTUAL TABLE t1 USING fts5(str);
}

do_execsql_test 1.1 {
  INSERT INTO t1 VALUES('one string');
  INSERT INTO t1 VALUES('two string');
  INSERT INTO t1 VALUES('three string');
  SELECT last_insert_rowid();
} {3}

do_execsql_test 1.2 {
  BEGIN;
    INSERT INTO t1 VALUES('one string');
    INSERT INTO t1 VALUES('two string');
    INSERT INTO t1 VALUES('three string');
  COMMIT;
  SELECT last_insert_rowid();
} {6}

do_execsql_test 1.3 {
  INSERT INTO t1(rowid, str) VALUES(-22, 'some more text');
  SELECT last_insert_rowid();
} {-22}

do_execsql_test 1.4 {
  BEGIN;
    INSERT INTO t1(rowid, str) VALUES(45, 'some more text');
    INSERT INTO t1(rowid, str) VALUES(46, 'some more text');
    INSERT INTO t1(rowid, str) VALUES(222, 'some more text');
    SELECT last_insert_rowid();
  COMMIT;
  SELECT last_insert_rowid();
} {222 222}

do_execsql_test 1.5 {
  CREATE TABLE x1(x);
  INSERT INTO x1 VALUES('john'), ('paul'), ('george'), ('ringo');
  INSERT INTO t1 SELECT x FROM x1;
  SELECT last_insert_rowid();
} {226}

do_execsql_test 1.6 {
  INSERT INTO t1(rowid, str) SELECT rowid+10, x FROM x1;
  SELECT last_insert_rowid();
} {14}


finish_test

Changes to ext/fts5/test/fts5merge.test.

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    WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<$::nRowPerSeg)
      INSERT INTO x8 SELECT repeat('x y ', i % 16) FROM ii;

    WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<$::nRowPerSeg)
      INSERT INTO x8 SELECT repeat('x y ', i % 16) FROM ii;

    INSERT INTO x8(x8, rank) VALUES('automerge', 2);
  }

  for {set tn 1} {[lindex [fts5_level_segs x8] 0]>0} {incr tn} {
    do_execsql_test $testname.$tn {
      INSERT INTO x8(x8, rank) VALUES('merge', 1);
      INSERT INTO x8(x8) VALUES('integrity-check');
    }
................................................................................

  set ::nRow $nRow
  do_test $testname.1 {
    for {set i 0} {$i < $::nRow} {incr i} {
      execsql { INSERT INTO x8 VALUES( rnddoc(($i%16) + 5) ) }
      while {[not_merged x8]} {
        execsql {
          INSERT INTO x8(x8, rank) VALUES('automerge', 2);
          INSERT INTO x8(x8, rank) VALUES('merge', 1);
          INSERT INTO x8(x8, rank) VALUES('automerge', 16);
          INSERT INTO x8(x8) VALUES('integrity-check');
        }
      }
    }
  } {}
}
proc not_merged {tbl} {
................................................................................
}

do_merge2_test 2.1    5
do_merge2_test 2.2   10
do_merge2_test 2.3   20

#-------------------------------------------------------------------------
# Test that an auto-merge will complete any merge that has already been
# started, even if the number of input segments is less than the current
# value of the 'automerge' configuration parameter.
#
db func rnddoc fts5_rnddoc

do_execsql_test 3.1 {
  DROP TABLE IF EXISTS x8;
  CREATE VIRTUAL TABLE x8 USING fts5(i);
  INSERT INTO x8(x8, rank) VALUES('pgsz', 32);
  INSERT INTO x8 VALUES(rnddoc(100));
  INSERT INTO x8 VALUES(rnddoc(100));
}
do_test 3.2 {
  execsql {
    INSERT INTO x8(x8, rank) VALUES('automerge', 4);
    INSERT INTO x8(x8, rank) VALUES('merge', 1);
  }
  fts5_level_segs x8
} {2}

do_test 3.3 {
  execsql {
    INSERT INTO x8(x8, rank) VALUES('automerge', 2);
    INSERT INTO x8(x8, rank) VALUES('merge', 1);
  }
  fts5_level_segs x8
} {2 1}

do_test 3.4 {
  execsql { INSERT INTO x8(x8, rank) VALUES('automerge', 4) }
  while {[not_merged x8]} {
    execsql { INSERT INTO x8(x8, rank) VALUES('merge', 1) }
  }
  fts5_level_segs x8
} {0 1}

#-------------------------------------------------------------------------
................................................................................
  }

  do_execsql_test 4.$tn.3 {
    WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<100)
      INSERT INTO x8 SELECT mydoc() FROM ii;
    WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<100)
      INSERT INTO x8 SELECT mydoc() FROM ii;
    INSERT INTO x8(x8, rank) VALUES('automerge', 2);
  }

  set expect [mycount]
    for {set i 0} {$i < 20} {incr i} {
      do_test 4.$tn.4.$i {
        execsql { INSERT INTO x8(x8, rank) VALUES('merge', 1); }
        mycount
      } $expect
      break
    }
#  db eval {SELECT fts5_decode(rowid, block) AS r FROM x8_data} { puts $r }
}



















































finish_test








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    WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<$::nRowPerSeg)
      INSERT INTO x8 SELECT repeat('x y ', i % 16) FROM ii;

    WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<$::nRowPerSeg)
      INSERT INTO x8 SELECT repeat('x y ', i % 16) FROM ii;

    INSERT INTO x8(x8, rank) VALUES('usermerge', 2);
  }

  for {set tn 1} {[lindex [fts5_level_segs x8] 0]>0} {incr tn} {
    do_execsql_test $testname.$tn {
      INSERT INTO x8(x8, rank) VALUES('merge', 1);
      INSERT INTO x8(x8) VALUES('integrity-check');
    }
................................................................................

  set ::nRow $nRow
  do_test $testname.1 {
    for {set i 0} {$i < $::nRow} {incr i} {
      execsql { INSERT INTO x8 VALUES( rnddoc(($i%16) + 5) ) }
      while {[not_merged x8]} {
        execsql {
          INSERT INTO x8(x8, rank) VALUES('usermerge', 2);
          INSERT INTO x8(x8, rank) VALUES('merge', 1);
          INSERT INTO x8(x8, rank) VALUES('usermerge', 16);
          INSERT INTO x8(x8) VALUES('integrity-check');
        }
      }
    }
  } {}
}
proc not_merged {tbl} {
................................................................................
}

do_merge2_test 2.1    5
do_merge2_test 2.2   10
do_merge2_test 2.3   20

#-------------------------------------------------------------------------
# Test that a merge will complete any merge that has already been
# started, even if the number of input segments is less than the current
# value of the 'usermerge' configuration parameter.
#
db func rnddoc fts5_rnddoc

do_execsql_test 3.1 {
  DROP TABLE IF EXISTS x8;
  CREATE VIRTUAL TABLE x8 USING fts5(i);
  INSERT INTO x8(x8, rank) VALUES('pgsz', 32);
  INSERT INTO x8 VALUES(rnddoc(100));
  INSERT INTO x8 VALUES(rnddoc(100));
}
do_test 3.2 {
  execsql {
    INSERT INTO x8(x8, rank) VALUES('usermerge', 4);
    INSERT INTO x8(x8, rank) VALUES('merge', 1);
  }
  fts5_level_segs x8
} {2}

do_test 3.3 {
  execsql {
    INSERT INTO x8(x8, rank) VALUES('usermerge', 2);
    INSERT INTO x8(x8, rank) VALUES('merge', 1);
  }
  fts5_level_segs x8
} {2 1}

do_test 3.4 {
  execsql { INSERT INTO x8(x8, rank) VALUES('usermerge', 4) }
  while {[not_merged x8]} {
    execsql { INSERT INTO x8(x8, rank) VALUES('merge', 1) }
  }
  fts5_level_segs x8
} {0 1}

#-------------------------------------------------------------------------
................................................................................
  }

  do_execsql_test 4.$tn.3 {
    WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<100)
      INSERT INTO x8 SELECT mydoc() FROM ii;
    WITH ii(i) AS (SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<100)
      INSERT INTO x8 SELECT mydoc() FROM ii;
    INSERT INTO x8(x8, rank) VALUES('usermerge', 2);
  }

  set expect [mycount]
    for {set i 0} {$i < 20} {incr i} {
      do_test 4.$tn.4.$i {
        execsql { INSERT INTO x8(x8, rank) VALUES('merge', 1); }
        mycount
      } $expect
      break
    }
#  db eval {SELECT fts5_decode(rowid, block) AS r FROM x8_data} { puts $r }
}

#-------------------------------------------------------------------------
# Test that the 'merge' command does not modify the database if there is
# no work to do. 

do_execsql_test 5.1 {
  CREATE VIRTUAL TABLE x9 USING fts5(one, two);
  INSERT INTO x9(x9, rank) VALUES('pgsz', 32);
  INSERT INTO x9(x9, rank) VALUES('automerge', 2);
  INSERT INTO x9(x9, rank) VALUES('usermerge', 2);
  INSERT INTO x9 VALUES(rnddoc(100), rnddoc(100));
  INSERT INTO x9 VALUES(rnddoc(100), rnddoc(100));
  INSERT INTO x9 VALUES(rnddoc(100), rnddoc(100));
  INSERT INTO x9 VALUES(rnddoc(100), rnddoc(100));
  INSERT INTO x9 VALUES(rnddoc(100), rnddoc(100));
  INSERT INTO x9 VALUES(rnddoc(100), rnddoc(100));
  INSERT INTO x9 VALUES(rnddoc(100), rnddoc(100));
  INSERT INTO x9 VALUES(rnddoc(100), rnddoc(100));
}

do_test 5.2 {
  while 1 {
    set nChange [db total_changes]
    execsql { INSERT INTO x9(x9, rank) VALUES('merge', 1); }
    set nChange [expr [db total_changes] - $nChange]
    #puts $nChange
    if {$nChange<2} break
  }
} {}


#--------------------------------------------------------------------------
# Test that running 'merge' on an empty database does not cause a 
# problem.
#
reset_db
do_execsql_test 6.0 {
  CREATE VIRTUAL TABLE g1 USING fts5(a, b);
}
do_execsql_test 6.1 {
  INSERT INTO g1(g1, rank) VALUES('merge', 10);
}
do_execsql_test 6.2 {
  INSERT INTO g1(g1, rank) VALUES('merge', -10);
}
do_execsql_test 6.3 {
  INSERT INTO g1(g1) VALUES('integrity-check');
}



finish_test

Changes to ext/fts5/test/fts5merge2.test.

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#
#***********************************************************************
#
# Test that focus on incremental merges of segments.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5merge


proc dump_structure {} {
  db eval {SELECT fts5_decode(id, block) AS t FROM t1_data WHERE id=10} {
    foreach lvl [lrange $t 1 end] {
      set seg [string repeat . [expr [llength $lvl]-2]]
      puts "[lrange $lvl 0 1] $seg"
    }
  }
}

foreach_detail_mode $testprefix {

if {[detail_is_none]==0} continue

do_execsql_test 1.0 {
  CREATE VIRTUAL TABLE t1 USING fts5(x, detail=%DETAIL%);
  INSERT INTO t1(t1, rank) VALUES('pgsz', 32);
  INSERT INTO t1(t1, rank) VALUES('crisismerge', 2);
  INSERT INTO t1 VALUES('1 2 3 4');
}








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#
#***********************************************************************
#
# Test that focus on incremental merges of segments.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5merge2
return_if_no_fts5

proc dump_structure {} {
  db eval {SELECT fts5_decode(id, block) AS t FROM t1_data WHERE id=10} {
    foreach lvl [lrange $t 1 end] {
      set seg [string repeat . [expr [llength $lvl]-2]]
      puts "[lrange $lvl 0 1] $seg"
    }
  }
}

foreach_detail_mode $testprefix {



do_execsql_test 1.0 {
  CREATE VIRTUAL TABLE t1 USING fts5(x, detail=%DETAIL%);
  INSERT INTO t1(t1, rank) VALUES('pgsz', 32);
  INSERT INTO t1(t1, rank) VALUES('crisismerge', 2);
  INSERT INTO t1 VALUES('1 2 3 4');
}

Added ext/fts5/test/fts5multiclient.test.

































































































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# 2016 March 17
#
# The author disclaims copyright to this source code.  In place of
# a legal notice, here is a blessing:
#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#*************************************************************************
#

source [file join [file dirname [info script]] fts5_common.tcl]
source $testdir/lock_common.tcl

set testprefix fts5multiclient
return_if_no_fts5

foreach_detail_mode $testprefix {

do_multiclient_test tn {

  do_test 1.$tn.1 {
    sql1 { CREATE VIRTUAL TABLE t1 USING fts5(x, detail=%DETAIL%) }
    sql1 { INSERT INTO t1 VALUES('a b c') }
    sql2 { SELECT rowid FROM t1('b') }
  } {1}

  do_test 1.$tn.2 {
    sql2 { INSERT INTO t1 VALUES('a b c') }
    sql1 { SELECT rowid FROM t1('b') }
  } {1 2}

  do_test 1.$tn.3 {
    sql2 { INSERT INTO t1 VALUES('a b c') }
    sql1 { SELECT rowid FROM t1('b') }
  } {1 2 3}

  do_test 1.$tn.4 {
    sql2 { INSERT INTO t1 VALUES('a b c') }
    sql1 { INSERT INTO t1 VALUES('a b c') }
    sql3 { INSERT INTO t1(t1) VALUES('integrity-check') }
  } {}

};# do_multiclient_test
};# foreach_detail_mode
finish_test

Changes to ext/fts5/test/fts5optimize.test.

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set testprefix fts5optimize

# If SQLITE_ENABLE_FTS5 is defined, omit this file.
ifcapable !fts5 {
  finish_test
  return
}







proc rnddoc {nWord} {
  set vocab {a b c d e f g h i j k l m n o p q r s t u v w x y z}
  set nVocab [llength $vocab]
  set ret [list]
  for {set i 0} {$i < $nWord} {incr i} {
    lappend ret [lindex $vocab [expr {int(rand() * $nVocab)}]]
  }
  return $ret
}


foreach {tn nStep} {
  1 2
  2 10
  3 50
  4 500
} {
if {$tn!=4} continue
  reset_db
  db func rnddoc rnddoc
  do_execsql_test 1.$tn.1 {
    CREATE VIRTUAL TABLE t1 USING fts5(x, y);
  }
  do_test 1.$tn.2 {
    for {set i 0} {$i < $nStep} {incr i} {
................................................................................
  do_execsql_test 1.$tn.4 {
    INSERT INTO t1(t1) VALUES('optimize');
  }

  do_execsql_test 1.$tn.5 {
    INSERT INTO t1(t1) VALUES('integrity-check');
  }
}








































finish_test








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set testprefix fts5optimize

# If SQLITE_ENABLE_FTS5 is defined, omit this file.
ifcapable !fts5 {
  finish_test
  return
}

#
# 1.* - Warm body tests for index optimization using ('optimize')
#
# 2.* - Warm body tests for index optimization using ('merge', -1)
#

proc rnddoc {nWord} {
  set vocab {a b c d e f g h i j k l m n o p q r s t u v w x y z}
  set nVocab [llength $vocab]
  set ret [list]
  for {set i 0} {$i < $nWord} {incr i} {
    lappend ret [lindex $vocab [expr {int(rand() * $nVocab)}]]
  }
  return $ret
}


foreach {tn nStep} {
  1 2
  2 10
  3 50
  4 500
} {

  reset_db
  db func rnddoc rnddoc
  do_execsql_test 1.$tn.1 {
    CREATE VIRTUAL TABLE t1 USING fts5(x, y);
  }
  do_test 1.$tn.2 {
    for {set i 0} {$i < $nStep} {incr i} {
................................................................................
  do_execsql_test 1.$tn.4 {
    INSERT INTO t1(t1) VALUES('optimize');
  }

  do_execsql_test 1.$tn.5 {
    INSERT INTO t1(t1) VALUES('integrity-check');
  }

  do_test 1.$tn.6 { fts5_segcount t1 } 1
}

foreach {tn nStep} {
  1 2
  2 10
  3 50
  4 500
} {
  reset_db
  db func rnddoc rnddoc
  do_execsql_test 1.$tn.1 {
    CREATE VIRTUAL TABLE t1 USING fts5(x, y);
  }
  do_test 2.$tn.2 {
    for {set i 0} {$i < $nStep} {incr i} {
      execsql { INSERT INTO t1 VALUES( rnddoc(5), rnddoc(5) ) }
    }
  } {}

  do_execsql_test 2.$tn.3 {
    INSERT INTO t1(t1) VALUES('integrity-check');
  }

  do_test 2.$tn.4 {
    execsql { INSERT INTO t1(t1, rank) VALUES('merge', -1) }
    while 1 {
      set c [db total_changes]
      execsql { INSERT INTO t1(t1, rank) VALUES('merge', 1) }
      set c [expr [db total_changes]-$c]
      if {$c<2} break
    }
  } {}

  do_execsql_test 2.$tn.5 {
    INSERT INTO t1(t1) VALUES('integrity-check');
  }

  do_test 2.$tn.6 { fts5_segcount t1 } 1
}
finish_test

Changes to ext/fts5/test/fts5plan.test.

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  CREATE VIRTUAL TABLE f1 USING fts5(ff);
}

do_eqp_test 1.1 {
  SELECT * FROM t1, f1 WHERE f1 MATCH t1.x
} {
  0 0 0 {SCAN TABLE t1} 
  0 1 1 {SCAN TABLE f1 VIRTUAL TABLE INDEX 1:}
}

do_eqp_test 1.2 {
  SELECT * FROM t1, f1 WHERE f1 > t1.x
} {
  0 0 1 {SCAN TABLE f1 VIRTUAL TABLE INDEX 0:}
  0 1 0 {SCAN TABLE t1} 
}

do_eqp_test 1.3 {
  SELECT * FROM f1 WHERE f1 MATCH ? ORDER BY ff
} {
  0 0 0 {SCAN TABLE f1 VIRTUAL TABLE INDEX 1:}
  0 0 0 {USE TEMP B-TREE FOR ORDER BY}
}

do_eqp_test 1.4 {
  SELECT * FROM f1 ORDER BY rank
} {
  0 0 0 {SCAN TABLE f1 VIRTUAL TABLE INDEX 0:}







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  CREATE VIRTUAL TABLE f1 USING fts5(ff);
}

do_eqp_test 1.1 {
  SELECT * FROM t1, f1 WHERE f1 MATCH t1.x
} {
  0 0 0 {SCAN TABLE t1} 
  0 1 1 {SCAN TABLE f1 VIRTUAL TABLE INDEX 65537:}
}

do_eqp_test 1.2 {
  SELECT * FROM t1, f1 WHERE f1 > t1.x
} {
  0 0 1 {SCAN TABLE f1 VIRTUAL TABLE INDEX 0:}
  0 1 0 {SCAN TABLE t1} 
}

do_eqp_test 1.3 {
  SELECT * FROM f1 WHERE f1 MATCH ? ORDER BY ff
} {
  0 0 0 {SCAN TABLE f1 VIRTUAL TABLE INDEX 65537:}
  0 0 0 {USE TEMP B-TREE FOR ORDER BY}
}

do_eqp_test 1.4 {
  SELECT * FROM f1 ORDER BY rank
} {
  0 0 0 {SCAN TABLE f1 VIRTUAL TABLE INDEX 0:}

Changes to ext/fts5/test/fts5prefix.test.

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#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# This file containst tests focused on prefix indexes.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5prefix

# If SQLITE_ENABLE_FTS5 is defined, omit this file.
ifcapable !fts5 {







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#
#    May you do good and not evil.
#    May you find forgiveness for yourself and forgive others.
#    May you share freely, never taking more than you give.
#
#***********************************************************************
#
# This file contains tests focused on prefix indexes.
#

source [file join [file dirname [info script]] fts5_common.tcl]
set testprefix fts5prefix

# If SQLITE_ENABLE_FTS5 is defined, omit this file.
ifcapable !fts5 {

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  execsql { SELECT rowid FROM tt('a') ORDER BY rank; } db2
} {1 3 2}

do_test 2.7 {
  execsql { SELECT rowid FROM tt('a') ORDER BY rank; } db
} {1 3 2}






























































finish_test








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  execsql { SELECT rowid FROM tt('a') ORDER BY rank; } db2
} {1 3 2}

do_test 2.7 {
  execsql { SELECT rowid FROM tt('a') ORDER BY rank; } db
} {1 3 2}

db2 close

#--------------------------------------------------------------------------
# At one point there was a problem with queries such as:
#
#   ... MATCH 'x OR y' ORDER BY rank;
#
# if there were zero occurrences of token 'y' in the dataset. The
# following tests verify that that problem has been addressed.
#
foreach_detail_mode $::testprefix {
  do_execsql_test 3.1.0 {
    CREATE VIRTUAL TABLE y1 USING fts5(z, detail=%DETAIL%);
    INSERT INTO y1 VALUES('test xyz');
    INSERT INTO y1 VALUES('test test xyz test');
    INSERT INTO y1 VALUES('test test xyz');
  }

  do_execsql_test 3.1.1 {
    SELECT rowid FROM y1('test OR tset');
  } {1 2 3}

  do_execsql_test 3.1.2 {
    SELECT rowid FROM y1('test OR tset') ORDER BY bm25(y1)
  } {2 3 1}

  do_execsql_test 3.1.3 {
    SELECT rowid FROM y1('test OR tset') ORDER BY +rank
  } {2 3 1}

  do_execsql_test 3.1.4 {
    SELECT rowid FROM y1('test OR tset') ORDER BY rank
  } {2 3 1}

  do_execsql_test 3.1.5 {
    SELECT rowid FROM y1('test OR xyz') ORDER BY rank
  } {3 2 1}


  do_execsql_test 3.2.1 {
    CREATE VIRTUAL TABLE z1 USING fts5(a, detail=%DETAIL%);
    INSERT INTO z1 VALUES('wrinkle in time');
    SELECT * FROM z1 WHERE z1 MATCH 'wrinkle in time OR a wrinkle in time';
  } {{wrinkle in time}}
}

do_execsql_test 4.1 {
  DROP TABLE IF EXISTS VTest;
  CREATE virtual TABLE VTest USING FTS5(
    Title, AUthor, tokenize ='porter unicode61 remove_diacritics 1', 
    columnsize='1', detail=full
  );
  INSERT INTO VTest (Title, Author) VALUES ('wrinkle in time', 'Bill Smith');

  SELECT * FROM VTest WHERE 
  VTest MATCH 'wrinkle in time OR a wrinkle in time' ORDER BY rank;
} {{wrinkle in time} {Bill Smith}}




finish_test

Changes to ext/fts5/test/fts5simple.test.

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# Test that character 0x1A is allowed in fts5 barewords.
#
do_test 11.0 {
  execsql "CREATE VIRTUAL TABLE t4 USING fts5(x, tokenize=\"ascii tokenchars '\x1A'\")"
  execsql "
    INSERT INTO t4 VALUES('a b c \x1A');
    INSERT INTO t4 VALUES('a b c d\x1A');
    INSERT INTO t4 VALUES('a b c \x1Ad');
    INSERT INTO t4 VALUES('a b c d');
  "
} {}

do_test 11.1 {
  execsql "SELECT rowid FROM t4('\x1A')"
} {1}
................................................................................
}
do_test 14.2 { 
  fts5_level_segs ttt 
} {1}

#-------------------------------------------------------------------------
db func rnddoc fts5_rnddoc
do_execsql_test 4.0 {
  CREATE VIRTUAL TABLE x1 USING fts5(x);
  INSERT INTO x1(x1, rank) VALUES('pgsz', 32);

  WITH ii(i) AS ( SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<10 )
  INSERT INTO x1 SELECT rnddoc(5) FROM ii;
}

do_execsql_test 4.1 {
  SELECT rowid, x, x1 FROM x1 WHERE x1 MATCH '*reads'
} {0 {} 4}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 15.0 {
  CREATE VIRTUAL TABLE x2 USING fts5(x, prefix=1);
  INSERT INTO x2 VALUES('ab');
}
................................................................................
  CREATE VIRTUAL TABLE x1 USING fts5(a,b,c);
}

do_catchsql_test 19.2 {
  SELECT * FROM x1 WHERE x1 MATCH 'c0 AND (c1 AND (c2 AND (c3 AND (c4 AND (c5 AND (c6 AND (c7 AND (c8 AND (c9 AND (c10 AND (c11 AND (c12 AND (c13 AND (c14 AND (c15 AND (c16 AND (c17 AND (c18 AND (c19 AND (c20 AND (c21 AND (c22 AND (c23 AND (c24 AND (c25 AND (c26 AND (c27 AND (c28 AND (c29 AND (c30 AND (c31 AND (c32 AND (c33 AND (c34 AND (c35 AND (c36 AND (c37 AND (c38 AND (c39 AND (c40 AND (c41 AND (c42 AND (c43 AND (c44 AND (c45 AND (c46 AND (c47 AND (c48 AND (c49 AND (c50 AND (c51 AND (c52 AND (c53 AND (c54 AND (c55 AND (c56 AND (c57 AND (c58 AND (c59 AND (c60 AND (c61 AND (c62 AND (c63 AND (c64 AND (c65 AND (c66 AND (c67 AND (c68 AND (c69 AND (c70 AND (c71 AND (c72 AND (c73 AND (c74 AND (c75 AND (c76 AND (c77 AND (c78 AND (c79 AND (c80 AND (c81 AND (c82 AND (c83 AND (c84 AND (c85 AND (c86 AND (c87 AND (c88 AND (c89 AND (c90 AND (c91 AND (c92 AND (c93 AND (c94 AND (c95 AND (c96 AND (c97 AND (c98 AND (c99 AND (c100 AND (c101 AND (c102 AND (c103 AND (c104 AND (c105 AND (c106 AND (c107 AND (c108 AND (c109 AND (c110 AND (c111 AND (c112 AND (c113 AND (c114 AND (c115 AND (c116 AND (c117 AND (c118 AND (c119 AND (c120 AND (c121 AND (c122 AND (c123 AND (c124 AND (c125 AND (c126 AND (c127 AND (c128 AND (c129 AND (c130 AND (c131 AND (c132 AND (c133 AND (c134 AND (c135 AND (c136 AND (c137 AND (c138 AND (c139 AND (c140 AND (c141 AND (c142 AND (c143 AND (c144 AND (c145 AND (c146 AND (c147 AND (c148 AND (c149 AND (c150 AND (c151 AND (c152 AND (c153 AND (c154 AND (c155 AND (c156 AND (c157 AND (c158 AND (c159 AND (c160 AND (c161 AND (c162 AND (c163 AND (c164 AND (c165 AND (c166 AND (c167 AND (c168 AND (c169 AND (c170 AND (c171 AND (c172 AND (c173 AND (c174 AND (c175 AND (c176 AND (c177 AND (c178 AND (c179 AND (c180 AND (c181 AND (c182 AND (c183 AND (c184 AND (c185 AND (c186 AND (c187 AND (c188 AND (c189 AND (c190 AND (c191 AND (c192 AND (c193 AND (c194 AND (c195 AND (c196 AND (c197 AND (c198 AND (c199 AND c200)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))';
} {1 {fts5: parser stack overflow}}









finish_test


























































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# Test that character 0x1A is allowed in fts5 barewords.
#
do_test 11.0 {
  execsql "CREATE VIRTUAL TABLE t4 USING fts5(x, tokenize=\"ascii tokenchars '\x1A'\")"
  execsql "
    INSERT INTO t4 VALUES('a b c \x1A');
    INSERT INTO t4 VALUES('a b c d\x1A');
    INSERT INTO t4 VALUES('a b c \x1Ag');
    INSERT INTO t4 VALUES('a b c d');
  "
} {}

do_test 11.1 {
  execsql "SELECT rowid FROM t4('\x1A')"
} {1}
................................................................................
}
do_test 14.2 { 
  fts5_level_segs ttt 
} {1}

#-------------------------------------------------------------------------
db func rnddoc fts5_rnddoc
do_execsql_test 14.3 {
  CREATE VIRTUAL TABLE x1 USING fts5(x);
  INSERT INTO x1(x1, rank) VALUES('pgsz', 32);

  WITH ii(i) AS ( SELECT 1 UNION ALL SELECT i+1 FROM ii WHERE i<10 )
  INSERT INTO x1 SELECT rnddoc(5) FROM ii;
}

do_execsql_test 14.4 {
  SELECT rowid, x, x1 FROM x1 WHERE x1 MATCH '*reads'
} {0 {} 3}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 15.0 {
  CREATE VIRTUAL TABLE x2 USING fts5(x, prefix=1);
  INSERT INTO x2 VALUES('ab');
}
................................................................................
  CREATE VIRTUAL TABLE x1 USING fts5(a,b,c);
}

do_catchsql_test 19.2 {
  SELECT * FROM x1 WHERE x1 MATCH 'c0 AND (c1 AND (c2 AND (c3 AND (c4 AND (c5 AND (c6 AND (c7 AND (c8 AND (c9 AND (c10 AND (c11 AND (c12 AND (c13 AND (c14 AND (c15 AND (c16 AND (c17 AND (c18 AND (c19 AND (c20 AND (c21 AND (c22 AND (c23 AND (c24 AND (c25 AND (c26 AND (c27 AND (c28 AND (c29 AND (c30 AND (c31 AND (c32 AND (c33 AND (c34 AND (c35 AND (c36 AND (c37 AND (c38 AND (c39 AND (c40 AND (c41 AND (c42 AND (c43 AND (c44 AND (c45 AND (c46 AND (c47 AND (c48 AND (c49 AND (c50 AND (c51 AND (c52 AND (c53 AND (c54 AND (c55 AND (c56 AND (c57 AND (c58 AND (c59 AND (c60 AND (c61 AND (c62 AND (c63 AND (c64 AND (c65 AND (c66 AND (c67 AND (c68 AND (c69 AND (c70 AND (c71 AND (c72 AND (c73 AND (c74 AND (c75 AND (c76 AND (c77 AND (c78 AND (c79 AND (c80 AND (c81 AND (c82 AND (c83 AND (c84 AND (c85 AND (c86 AND (c87 AND (c88 AND (c89 AND (c90 AND (c91 AND (c92 AND (c93 AND (c94 AND (c95 AND (c96 AND (c97 AND (c98 AND (c99 AND (c100 AND (c101 AND (c102 AND (c103 AND (c104 AND (c105 AND (c106 AND (c107 AND (c108 AND (c109 AND (c110 AND (c111 AND (c112 AND (c113 AND (c114 AND (c115 AND (c116 AND (c117 AND (c118 AND (c119 AND (c120 AND (c121 AND (c122 AND (c123 AND (c124 AND (c125 AND (c126 AND (c127 AND (c128 AND (c129 AND (c130 AND (c131 AND (c132 AND (c133 AND (c134 AND (c135 AND (c136 AND (c137 AND (c138 AND (c139 AND (c140 AND (c141 AND (c142 AND (c143 AND (c144 AND (c145 AND (c146 AND (c147 AND (c148 AND (c149 AND (c150 AND (c151 AND (c152 AND (c153 AND (c154 AND (c155 AND (c156 AND (c157 AND (c158 AND (c159 AND (c160 AND (c161 AND (c162 AND (c163 AND (c164 AND (c165 AND (c166 AND (c167 AND (c168 AND (c169 AND (c170 AND (c171 AND (c172 AND (c173 AND (c174 AND (c175 AND (c176 AND (c177 AND (c178 AND (c179 AND (c180 AND (c181 AND (c182 AND (c183 AND (c184 AND (c185 AND (c186 AND (c187 AND (c188 AND (c189 AND (c190 AND (c191 AND (c192 AND (c193 AND (c194 AND (c195 AND (c196 AND (c197 AND (c198 AND (c199 AND c200)))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))))';
} {1 {fts5: parser stack overflow}}

#-------------------------------------------------------------------------
reset_db
breakpoint
do_execsql_test 20.0 {
  CREATE VIRTUAL TABLE x1 USING fts5(x);
  INSERT INTO x1(x1, rank) VALUES('pgsz', 32);
  INSERT INTO x1(rowid, x) VALUES(11111, 'onetwothree');
}
do_test 20.1 {
  for {set i 1} {$i <= 200} {incr i} {
    execsql { INSERT INTO x1(rowid, x) VALUES($i, 'one two three'); }
  }
  execsql { INSERT INTO x1(x1) VALUES('optimize'); }
  execsql { DELETE FROM x1 WHERE rowid = 4; }
} {}
do_execsql_test 20.2 {
  INSERT INTO x1(x1) VALUES('optimize');
  INSERT INTO x1(x1) VALUES('integrity-check');
} {}

#-------------------------------------------------------------------------
reset_db
do_execsql_test 20.0 {
  CREATE VIRTUAL TABLE x1 USING fts5(x);
  INSERT INTO x1(x1, rank) VALUES('pgsz', 32);
  INSERT INTO x1(rowid, x) VALUES(11111, 'onetwothree');
}
do_test 20.1 {
  for {set i 1} {$i <= 200} {incr i} {
    execsql { INSERT INTO x1(rowid, x) VALUES($i, 'one two three'); }
  }
  execsql { INSERT INTO x1(x1) VALUES('optimize'); }
  execsql { DELETE FROM x1 WHERE rowid = 4; }
} {}
do_execsql_test 20.2 {
  INSERT INTO x1(x1) VALUES('optimize');
  INSERT INTO x1(x1) VALUES('integrity-check');
} {}

#-------------------------------------------------------------------------
reset_db
set doc "a b [string repeat x 100000]"
do_execsql_test 21.0 {
  CREATE VIRTUAL TABLE x1 USING fts5(x);
  INSERT INTO x1(rowid, x) VALUES(11111, $doc);
  INSERT INTO x1(rowid, x) VALUES(11112, $doc);
}
do_execsql_test 21.1 {
  INSERT INTO x1(x1) VALUES('integrity-check');
}
do_execsql_test 21.2 {
  SELECT rowid FROM x1($doc);
} {11111 11112}
do_execsql_test 21.3 {
  DELETE FROM x1 WHERE rowid=11111;
  INSERT INTO x1(x1) VALUES('integrity-check');
  SELECT rowid FROM x1($doc);
} {11112}

finish_test

Changes to ext/fts5/test/fts5simple2.test.

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    INSERT INTO t2(rowid, x) VALUES(1, 'a b c');
    INSERT INTO t2(rowid, x) VALUES(456, 'a b c');
    INSERT INTO t2(rowid, x) VALUES(1000, 'a b c');
  COMMIT;
  UPDATE t2 SET x=x;
  DELETE FROM t2;
}




































#db eval {SELECT rowid, fts5_decode_none(rowid, block) aS r FROM t2_data} {puts $r}
  
finish_test








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    INSERT INTO t2(rowid, x) VALUES(1, 'a b c');
    INSERT INTO t2(rowid, x) VALUES(456, 'a b c');
    INSERT INTO t2(rowid, x) VALUES(1000, 'a b c');
  COMMIT;
  UPDATE t2 SET x=x;
  DELETE FROM t2;
}

#-------------------------------------------------------------------------
#
reset_db
do_execsql_test 17.0 {
  CREATE VIRTUAL TABLE t2 USING fts5(x, y);
  BEGIN;
    INSERT INTO t2 VALUES('a aa aaa', 'b bb bbb');
    INSERT INTO t2 VALUES('a aa aaa', 'b bb bbb');
    INSERT INTO t2 VALUES('a aa aaa', 'b bb bbb');
  COMMIT;
}
do_execsql_test 17.1 { SELECT * FROM t2('y:a*') WHERE rowid BETWEEN 10 AND 20 }
do_execsql_test 17.2 {
  BEGIN;
    INSERT INTO t2 VALUES('a aa aaa', 'b bb bbb');
    SELECT * FROM t2('y:a*') WHERE rowid BETWEEN 10 AND 20 ;
}
do_execsql_test 17.3 {
  COMMIT
}

reset_db
do_execsql_test 17.4 {
  CREATE VIRTUAL TABLE t2 USING fts5(x, y);
  BEGIN;
    INSERT INTO t2 VALUES('a aa aaa', 'b bb bbb');
    INSERT INTO t2 VALUES('a aa aaa', 'b bb bbb');
    SELECT * FROM t2('y:a*') WHERE rowid>66;
}
do_execsql_test 17.5 { SELECT * FROM t2('x:b* OR y:a*') }
do_execsql_test 17.5 { COMMIT ; SELECT * FROM t2('x:b* OR y:a*') }
do_execsql_test 17.6 { 
  SELECT * FROM t2('x:b* OR y:a*') WHERE rowid>55
}

#db eval {SELECT rowid, fts5_decode_none(rowid, block) aS r FROM t2_data} {puts $r}
  
finish_test

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do_execsql_test 3.0 {
  CREATE VIRTUAL TABLE x3 USING fts5(one);
  INSERT INTO x3 VALUES('a b c');
  INSERT INTO x3 VALUES('c b a');
  INSERT INTO x3 VALUES('o t t');
  SELECT * FROM x3('x OR y OR z');
}




































finish_test









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do_execsql_test 3.0 {
  CREATE VIRTUAL TABLE x3 USING fts5(one);
  INSERT INTO x3 VALUES('a b c');
  INSERT INTO x3 VALUES('c b a');
  INSERT INTO x3 VALUES('o t t');
  SELECT * FROM x3('x OR y OR z');
}

#-------------------------------------------------------------------------
# Test that a crash occuring when the second or subsequent tokens in a
# phrase matched zero rows has been fixed.
#
do_execsql_test 4.0 {
  CREATE VIRTUAL TABLE t1 USING fts5(x);
  INSERT INTO t1 VALUES('ab');
  INSERT INTO t1 VALUES('cd');
  INSERT INTO t1 VALUES('ab cd');
  INSERT INTO t1 VALUES('ab cdXXX');
  INSERT INTO t1 VALUES('abXXX cd');
}
do_execsql_test 4.1 {
  SELECT * FROM t1('"ab cd" OR "ab cd" *');
} {{ab cd} {ab cdXXX}}
do_execsql_test 4.2 {
  SELECT * FROM t1('"xy zz" OR "ab cd" *');
} {{ab cd} {ab cdXXX}}
do_execsql_test 4.3 {
  SELECT * FROM t1('"xy zz" OR "xy zz" *');
}
do_execsql_test 4.4 {
  SELECT * FROM t1('"ab cd" OR "xy zz" *');
} {{ab cd}}
do_execsql_test 4.5 {
  CREATE VIRTUAL TABLE t2 USING fts5(x);
  INSERT INTO t2 VALUES('ab');
  INSERT INTO t2 VALUES('cd');
  INSERT INTO t2 VALUES('ef');
} 
do_execsql_test 4.6 {
  SELECT * FROM t2('ab + xyz');
}


finish_test

Changes to ext/fts5/test/fts5synonym.test.

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reset_db
fts5_tclnum_register db

foreach {tn expr res} {
  1  {abc}                           {"abc"}
  2  {one}                           {"one"|"i"|"1"}
  3  {3}                             {"3"|"iii"|"three"}
  4  {3*}                            {"3"|"iii"|"three" *}
} {
  do_execsql_test 4.1.$tn {
    SELECT fts5_expr($expr, 'tokenize=tclnum')
  } [list $res]
}

do_execsql_test 4.2.1 {







|







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reset_db
fts5_tclnum_register db

foreach {tn expr res} {
  1  {abc}                           {"abc"}
  2  {one}                           {"one"|"i"|"1"}
  3  {3}                             {"3"|"iii"|"three"}
  4  {3*}                            {"3" *}
} {
  do_execsql_test 4.1.$tn {
    SELECT fts5_expr($expr, 'tokenize=tclnum')
  } [list $res]
}

do_execsql_test 4.2.1 {

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  INSERT INTO e6 VALUES('theAquickBbrownCfoxDjumpedWoverXtheYlazyZdog');
  CREATE VIRTUAL TABLE e7 USING fts5vocab(e6, 'row');
  SELECT term FROM e7;
  ROLLBACK;
} {
  brown dog fox jump lazi over quick the
}








































finish_test









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  INSERT INTO e6 VALUES('theAquickBbrownCfoxDjumpedWoverXtheYlazyZdog');
  CREATE VIRTUAL TABLE e7 USING fts5vocab(e6, 'row');
  SELECT term FROM e7;
  ROLLBACK;
} {
  brown dog fox jump lazi over quick the
}

#-------------------------------------------------------------------------
# Check that the FTS5_TOKENIZE_PREFIX flag is passed to the tokenizer
# implementation.
#
reset_db
proc tcl_create {args} { return "tcl_tokenize" }
sqlite3_fts5_create_tokenizer db tcl tcl_create
set ::flags [list]
proc tcl_tokenize {tflags text} {
  lappend ::flags $tflags
  foreach {w iStart iEnd} [fts5_tokenize_split $text] {
    sqlite3_fts5_token $w $iStart $iEnd
  }
}

do_execsql_test 9.1.1 {
  CREATE VIRTUAL TABLE t1 USING fts5(a, tokenize=tcl);
  INSERT INTO t1 VALUES('abc');
  INSERT INTO t1 VALUES('xyz');
} {}
do_test 9.1.2 { set ::flags } {document document}

set ::flags [list]
do_execsql_test 9.2.1 { SELECT * FROM t1('abc'); } {abc}
do_test 9.2.2 { set ::flags } {query}

set ::flags [list]
do_execsql_test 9.3.1 { SELECT * FROM t1('ab*'); } {abc}
do_test 9.3.2 { set ::flags } {prefixquery}

set ::flags [list]
do_execsql_test 9.4.1 { SELECT * FROM t1('"abc xyz" *'); } {}
do_test 9.4.2 { set ::flags } {prefixquery}

set ::flags [list]
do_execsql_test 9.5.1 { SELECT * FROM t1('"abc xyz*"'); } {}
do_test 9.5.2 { set ::flags } {query}


finish_test

Changes to ext/fts5/test/fts5unicode2.test.

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     the maximum x value.
  }
  3 "ROW" {
     ...returns the value of y on the same [row] that contains 
     the maximum x value.
  }
  4 "rollback" {
     ...[ROLLBACK]. Instead, the pending statement
     will return SQLITE_ABORT upon next access after the [ROLLBACK].
  }
  5 "rOllback" {
     ...[ROLLBACK]. Instead, the pending statement
     will return SQLITE_ABORT upon next access after the [ROLLBACK].
  }
  6 "lang*" {
     Added support for the FTS4 [languageid] option.
  }
} {
  do_test 2.$tn {
    set q [mapdoc $query]







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     the maximum x value.
  }
  3 "ROW" {
     ...returns the value of y on the same [row] that contains 
     the maximum x value.
  }
  4 "rollback" {
     Pending statements no longer block [ROLLBACK]. Instead, the pending
     statement will return SQLITE_ABORT upon...
  }
  5 "rOllback" {
     Pending statements no longer block [ROLLBACK]. Instead, the pending
     statement will return SQLITE_ABORT upon...
  }
  6 "lang*" {
     Added support for the FTS4 [languageid] option.
  }
} {
  do_test 2.$tn {
    set q [mapdoc $query]

Changes to ext/fts5/test/fts5vocab.test.

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} else {
  do_catchsql_test 8.2.2 { 
    SELECT * FROM x1_c 
  } {1 {database disk image is malformed}}
}

sqlite3_fts5_may_be_corrupt 0

}





































finish_test








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} else {
  do_catchsql_test 8.2.2 { 
    SELECT * FROM x1_c 
  } {1 {database disk image is malformed}}
}

sqlite3_fts5_may_be_corrupt 0
}

#-------------------------------------------------------------------------
# Test that both "ORDER BY term" and "ORDER BY term DESC" work.
#
reset_db
do_execsql_test 9.1 {
  CREATE VIRTUAL TABLE x1 USING fts5(x);
  INSERT INTO x1 VALUES('def ABC ghi');
  INSERT INTO x1 VALUES('DEF abc GHI');
}

do_execsql_test 9.2 {
  CREATE VIRTUAL TABLE rrr USING fts5vocab(x1, row);
  SELECT * FROM rrr
} {
  abc 2 2 def 2 2 ghi 2 2
}
do_execsql_test 9.3 {
  SELECT * FROM rrr ORDER BY term ASC
} {
  abc 2 2 def 2 2 ghi 2 2
}
do_execsql_test 9.4 {
  SELECT * FROM rrr ORDER BY term DESC
} {
  ghi 2 2 def 2 2 abc 2 2 
}
do_test 9.5 {
  set e2 [db eval { EXPLAIN SELECT * FROM rrr ORDER BY term ASC }]
  expr [lsearch $e2 SorterSort]<0
} 1
do_test 9.6 {
  set e2 [db eval { EXPLAIN SELECT * FROM rrr ORDER BY term DESC }]
  expr [lsearch $e2 SorterSort]<0
} 0



finish_test

Changes to ext/fts5/tool/fts5txt2db.tcl.

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    {fts5                 "use fts5 (this is the default)"}
    {fts4                 "use fts4"}
    {colsize   "10 10 10" "list of column sizes"}
    {tblname   "t1"       "table name to create"}
    {detail    "full"     "Fts5 detail mode to use"}
    {repeat    1          "Load each file this many times"}
    {prefix    ""         "Fts prefix= option"}

    database
    file...
  } {
  This script is designed to create fts4/5 tables with more than one column.
  The -colsize option should be set to a Tcl list of integer values, one for
  each column in the table. Each value is the number of tokens that will be
  inserted into the column value for each row. For example, setting the -colsize
................................................................................
set cols [create_table]
set sql "INSERT INTO $A(tblname) VALUES(\$R([lindex $cols 0])"
foreach c [lrange $cols 1 end] {
  append sql ", \$R($c)"
}
append sql ")"

db eval BEGIN
  while {$i < $N} {
    foreach c $cols s $A(colsize) {
      set R($c) [lrange $tokens $i [expr $i+$s-1]]
      incr i $s
    }
    db eval $sql
  }
db eval COMMIT










>







 







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    {fts5                 "use fts5 (this is the default)"}
    {fts4                 "use fts4"}
    {colsize   "10 10 10" "list of column sizes"}
    {tblname   "t1"       "table name to create"}
    {detail    "full"     "Fts5 detail mode to use"}
    {repeat    1          "Load each file this many times"}
    {prefix    ""         "Fts prefix= option"}
    {trans     1          "True to use a transaction"}
    database
    file...
  } {
  This script is designed to create fts4/5 tables with more than one column.
  The -colsize option should be set to a Tcl list of integer values, one for
  each column in the table. Each value is the number of tokens that will be
  inserted into the column value for each row. For example, setting the -colsize
................................................................................
set cols [create_table]
set sql "INSERT INTO $A(tblname) VALUES(\$R([lindex $cols 0])"
foreach c [lrange $cols 1 end] {
  append sql ", \$R($c)"
}
append sql ")"

if {$A(trans)} { db eval BEGIN }
  while {$i < $N} {
    foreach c $cols s $A(colsize) {
      set R($c) [lrange $tokens $i [expr $i+$s-1]]
      incr i $s
    }
    db eval $sql
  }
if {$A(trans)} { db eval COMMIT }



Changes to ext/icu/icu.c.

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/*
** Version of sqlite3_free() that is always a function, never a macro.
*/
static void xFree(void *p){
  sqlite3_free(p);
}

































/*
** Compare two UTF-8 strings for equality where the first string is
** a "LIKE" expression. Return true (1) if they are the same and 
** false (0) if they are different.
*/
static int icuLikeCompare(
................................................................................
  const uint8_t *zPattern,   /* LIKE pattern */
  const uint8_t *zString,    /* The UTF-8 string to compare against */
  const UChar32 uEsc         /* The escape character */
){
  static const int MATCH_ONE = (UChar32)'_';
  static const int MATCH_ALL = (UChar32)'%';

  int iPattern = 0;       /* Current byte index in zPattern */
  int iString = 0;        /* Current byte index in zString */

  int prevEscape = 0;     /* True if the previous character was uEsc */

  while( zPattern[iPattern]!=0 ){


    /* Read (and consume) the next character from the input pattern. */
    UChar32 uPattern;
    U8_NEXT_UNSAFE(zPattern, iPattern, uPattern);


    /* There are now 4 possibilities:
    **
    **     1. uPattern is an unescaped match-all character "%",
    **     2. uPattern is an unescaped match-one character "_",
    **     3. uPattern is an unescaped escape character, or
    **     4. uPattern is to be handled as an ordinary character
................................................................................
      /* Case 1. */
      uint8_t c;

      /* Skip any MATCH_ALL or MATCH_ONE characters that follow a
      ** MATCH_ALL. For each MATCH_ONE, skip one character in the 
      ** test string.
      */
      while( (c=zPattern[iPattern]) == MATCH_ALL || c == MATCH_ONE ){
        if( c==MATCH_ONE ){
          if( zString[iString]==0 ) return 0;
          U8_FWD_1_UNSAFE(zString, iString);
        }
        iPattern++;
      }

      if( zPattern[iPattern]==0 ) return 1;

      while( zString[iString] ){
        if( icuLikeCompare(&zPattern[iPattern], &zString[iString], uEsc) ){
          return 1;
        }
        U8_FWD_1_UNSAFE(zString, iString);
      }
      return 0;

    }else if( !prevEscape && uPattern==MATCH_ONE ){
      /* Case 2. */
      if( zString[iString]==0 ) return 0;
      U8_FWD_1_UNSAFE(zString, iString);

    }else if( !prevEscape && uPattern==uEsc){
      /* Case 3. */
      prevEscape = 1;

    }else{
      /* Case 4. */
      UChar32 uString;
      U8_NEXT_UNSAFE(zString, iString, uString);
      uString = u_foldCase(uString, U_FOLD_CASE_DEFAULT);
      uPattern = u_foldCase(uPattern, U_FOLD_CASE_DEFAULT);
      if( uString!=uPattern ){
        return 0;
      }
      prevEscape = 0;
    }
  }

  return zString[iString]==0;
}

/*
** Implementation of the like() SQL function.  This function implements
** the build-in LIKE operator.  The first argument to the function is the
** pattern and the second argument is the string.  So, the SQL statements:
**
................................................................................
** To access ICU "language specific" case mapping, upper() or lower()
** should be invoked with two arguments. The second argument is the name
** of the locale to use. Passing an empty string ("") or SQL NULL value
** as the second argument is the same as invoking the 1 argument version
** of upper() or lower().
**
**     lower('I', 'en_us') -> 'i'
**     lower('I', 'tr_tr') -> 'ı' (small dotless i)
**
** http://www.icu-project.org/userguide/posix.html#case_mappings
*/
static void icuCaseFunc16(sqlite3_context *p, int nArg, sqlite3_value **apArg){
  const UChar *zInput;
  UChar *zOutput;
  int nInput;

  int nOutput;


  UErrorCode status = U_ZERO_ERROR;
  const char *zLocale = 0;

  assert(nArg==1 || nArg==2);

  if( nArg==2 ){
    zLocale = (const char *)sqlite3_value_text(apArg[1]);
  }

  zInput = sqlite3_value_text16(apArg[0]);
  if( !zInput ){
    return;
  }
  nInput = sqlite3_value_bytes16(apArg[0]);


  nOutput = nInput * 2 + 2;
  zOutput = sqlite3_malloc(nOutput);
  if( !zOutput ){
    return;
  }



  if( sqlite3_user_data(p) ){
    u_strToUpper(zOutput, nOutput/2, zInput, nInput/2, zLocale, &status);







  }else{
    u_strToLower(zOutput, nOutput/2, zInput, nInput/2, zLocale, &status);

  }

  if( !U_SUCCESS(status) ){
    icuFunctionError(p, "u_strToLower()/u_strToUpper", status);







    return;
  }

  sqlite3_result_text16(p, zOutput, -1, xFree);

}

/*
** Collation sequence destructor function. The pCtx argument points to
** a UCollator structure previously allocated using ucol_open().
*/
static void icuCollationDel(void *pCtx){
................................................................................
  }
}

/*
** Register the ICU extension functions with database db.
*/
int sqlite3IcuInit(sqlite3 *db){
  struct IcuScalar {
    const char *zName;                        /* Function name */
    int nArg;                                 /* Number of arguments */
    int enc;                                  /* Optimal text encoding */
    void *pContext;                           /* sqlite3_user_data() context */
    void (*xFunc)(sqlite3_context*,int,sqlite3_value**);
  } scalars[] = {

    {"regexp", 2, SQLITE_ANY,          0, icuRegexpFunc},

    {"lower",  1, SQLITE_UTF16,        0, icuCaseFunc16},
    {"lower",  2, SQLITE_UTF16,        0, icuCaseFunc16},
    {"upper",  1, SQLITE_UTF16, (void*)1, icuCaseFunc16},
    {"upper",  2, SQLITE_UTF16, (void*)1, icuCaseFunc16},

    {"lower",  1, SQLITE_UTF8,         0, icuCaseFunc16},
    {"lower",  2, SQLITE_UTF8,         0, icuCaseFunc16},
    {"upper",  1, SQLITE_UTF8,  (void*)1, icuCaseFunc16},
    {"upper",  2, SQLITE_UTF8,  (void*)1, icuCaseFunc16},

    {"like",   2, SQLITE_UTF8,         0, icuLikeFunc},
    {"like",   3, SQLITE_UTF8,         0, icuLikeFunc},

    {"icu_load_collation",  2, SQLITE_UTF8, (void*)db, icuLoadCollation},
  };

  int rc = SQLITE_OK;
  int i;


  for(i=0; rc==SQLITE_OK && i<(int)(sizeof(scalars)/sizeof(scalars[0])); i++){
    struct IcuScalar *p = &scalars[i];
    rc = sqlite3_create_function(
        db, p->zName, p->nArg, p->enc, p->pContext, p->xFunc, 0, 0


    );
  }

  return rc;
}

#if !SQLITE_CORE







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/*
** Version of sqlite3_free() that is always a function, never a macro.
*/
static void xFree(void *p){
  sqlite3_free(p);
}

/*
** This lookup table is used to help decode the first byte of
** a multi-byte UTF8 character. It is copied here from SQLite source
** code file utf8.c.
*/
static const unsigned char icuUtf8Trans1[] = {
  0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
  0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f,
  0x10, 0x11, 0x12, 0x13, 0x14, 0x15, 0x16, 0x17,
  0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f,
  0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
  0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f,
  0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07,
  0x00, 0x01, 0x02, 0x03, 0x00, 0x01, 0x00, 0x00,
};

#define SQLITE_ICU_READ_UTF8(zIn, c)                       \
  c = *(zIn++);                                            \
  if( c>=0xc0 ){                                           \
    c = icuUtf8Trans1[c-0xc0];                             \
    while( (*zIn & 0xc0)==0x80 ){                          \
      c = (c<<6) + (0x3f & *(zIn++));                      \
    }                                                      \
  }

#define SQLITE_ICU_SKIP_UTF8(zIn)                          \
  assert( *zIn );                                          \
  if( *(zIn++)>=0xc0 ){                                    \
    while( (*zIn & 0xc0)==0x80 ){zIn++;}                   \
  }


/*
** Compare two UTF-8 strings for equality where the first string is
** a "LIKE" expression. Return true (1) if they are the same and 
** false (0) if they are different.
*/
static int icuLikeCompare(
................................................................................
  const uint8_t *zPattern,   /* LIKE pattern */
  const uint8_t *zString,    /* The UTF-8 string to compare against */
  const UChar32 uEsc         /* The escape character */
){
  static const int MATCH_ONE = (UChar32)'_';
  static const int MATCH_ALL = (UChar32)'%';




  int prevEscape = 0;     /* True if the previous character was uEsc */


  while( 1 ){

    /* Read (and consume) the next character from the input pattern. */
    UChar32 uPattern;
    SQLITE_ICU_READ_UTF8(zPattern, uPattern);
    if( uPattern==0 ) break;

    /* There are now 4 possibilities:
    **
    **     1. uPattern is an unescaped match-all character "%",
    **     2. uPattern is an unescaped match-one character "_",
    **     3. uPattern is an unescaped escape character, or
    **     4. uPattern is to be handled as an ordinary character
................................................................................
      /* Case 1. */
      uint8_t c;

      /* Skip any MATCH_ALL or MATCH_ONE characters that follow a
      ** MATCH_ALL. For each MATCH_ONE, skip one character in the 
      ** test string.
      */
      while( (c=*zPattern) == MATCH_ALL || c == MATCH_ONE ){
        if( c==MATCH_ONE ){
          if( *zString==0 ) return 0;
          SQLITE_ICU_SKIP_UTF8(zString);
        }
        zPattern++;
      }

      if( *zPattern==0 ) return 1;

      while( *zString ){
        if( icuLikeCompare(zPattern, zString, uEsc) ){
          return 1;
        }
        SQLITE_ICU_SKIP_UTF8(zString);
      }
      return 0;

    }else if( !prevEscape && uPattern==MATCH_ONE ){
      /* Case 2. */
      if( *zString==0 ) return 0;
      SQLITE_ICU_SKIP_UTF8(zString);

    }else if( !prevEscape && uPattern==uEsc){
      /* Case 3. */
      prevEscape = 1;

    }else{
      /* Case 4. */
      UChar32 uString;
      SQLITE_ICU_READ_UTF8(zString, uString);
      uString = u_foldCase(uString, U_FOLD_CASE_DEFAULT);
      uPattern = u_foldCase(uPattern, U_FOLD_CASE_DEFAULT);
      if( uString!=uPattern ){
        return 0;
      }
      prevEscape = 0;
    }
  }

  return *zString==0;
}

/*
** Implementation of the like() SQL function.  This function implements
** the build-in LIKE operator.  The first argument to the function is the
** pattern and the second argument is the string.  So, the SQL statements:
**
................................................................................
** To access ICU "language specific" case mapping, upper() or lower()
** should be invoked with two arguments. The second argument is the name
** of the locale to use. Passing an empty string ("") or SQL NULL value
** as the second argument is the same as invoking the 1 argument version
** of upper() or lower().
**
**     lower('I', 'en_us') -> 'i'
**     lower('I', 'tr_tr') -> '\u131' (small dotless i)
**
** http://www.icu-project.org/userguide/posix.html#case_mappings
*/
static void icuCaseFunc16(sqlite3_context *p, int nArg, sqlite3_value **apArg){
  const UChar *zInput;            /* Pointer to input string */
  UChar *zOutput = 0;             /* Pointer to output buffer */
  int nInput;                     /* Size of utf-16 input string in bytes */
  int nOut;                       /* Size of output buffer in bytes */
  int cnt;

  int bToUpper;                   /* True for toupper(), false for tolower() */
  UErrorCode status;
  const char *zLocale = 0;

  assert(nArg==1 || nArg==2);
  bToUpper = (sqlite3_user_data(p)!=0);
  if( nArg==2 ){
    zLocale = (const char *)sqlite3_value_text(apArg[1]);
  }

  zInput = sqlite3_value_text16(apArg[0]);
  if( !zInput ){
    return;
  }
  nOut = nInput = sqlite3_value_bytes16(apArg[0]);

  if( nOut==0 ){
    sqlite3_result_text16(p, "", 0, SQLITE_STATIC);


    return;
  }

  for(cnt=0; cnt<2; cnt++){
    UChar *zNew = sqlite3_realloc(zOutput, nOut);
    if( zNew==0 ){
      sqlite3_free(zOutput);
      sqlite3_result_error_nomem(p);
      return;
    }
    zOutput = zNew;
    status = U_ZERO_ERROR;
    if( bToUpper ){
      nOut = 2*u_strToUpper(zOutput,nOut/2,zInput,nInput/2,zLocale,&status);
    }else{

      nOut = 2*u_strToLower(zOutput,nOut/2,zInput,nInput/2,zLocale,&status);
    }

    if( U_SUCCESS(status) ){

      sqlite3_result_text16(p, zOutput, nOut, xFree);
    }else if( status==U_BUFFER_OVERFLOW_ERROR ){
      assert( cnt==0 );
      continue;
    }else{
      icuFunctionError(p, bToUpper ? "u_strToUpper" : "u_strToLower", status);
    }
    return;
  }


  assert( 0 );     /* Unreachable */
}

/*
** Collation sequence destructor function. The pCtx argument points to
** a UCollator structure previously allocated using ucol_open().
*/
static void icuCollationDel(void *pCtx){
................................................................................
  }
}

/*
** Register the ICU extension functions with database db.
*/
int sqlite3IcuInit(sqlite3 *db){
  static const struct IcuScalar {
    const char *zName;                        /* Function name */
    unsigned char nArg;                       /* Number of arguments */
    unsigned short enc;                       /* Optimal text encoding */
    unsigned char iContext;                   /* sqlite3_user_data() context */
    void (*xFunc)(sqlite3_context*,int,sqlite3_value**);
  } scalars[] = {
    {"icu_load_collation",  2, SQLITE_UTF8,                1, icuLoadCollation},
    {"regexp", 2, SQLITE_ANY|SQLITE_DETERMINISTIC,         0, icuRegexpFunc},

    {"lower",  1, SQLITE_UTF16|SQLITE_DETERMINISTIC,       0, icuCaseFunc16},
    {"lower",  2, SQLITE_UTF16|SQLITE_DETERMINISTIC,       0, icuCaseFunc16},
    {"upper",  1, SQLITE_UTF16|SQLITE_DETERMINISTIC,       1, icuCaseFunc16},
    {"upper",  2, SQLITE_UTF16|SQLITE_DETERMINISTIC,       1, icuCaseFunc16},

    {"lower",  1, SQLITE_UTF8|SQLITE_DETERMINISTIC,        0, icuCaseFunc16},
    {"lower",  2, SQLITE_UTF8|SQLITE_DETERMINISTIC,        0, icuCaseFunc16},
    {"upper",  1, SQLITE_UTF8|SQLITE_DETERMINISTIC,        1, icuCaseFunc16},
    {"upper",  2, SQLITE_UTF8|SQLITE_DETERMINISTIC,        1, icuCaseFunc16},

    {"like",   2, SQLITE_UTF8|SQLITE_DETERMINISTIC,        0, icuLikeFunc},
    {"like",   3, SQLITE_UTF8|SQLITE_DETERMINISTIC,        0, icuLikeFunc},


  };

  int rc = SQLITE_OK;
  int i;

  
  for(i=0; rc==SQLITE_OK && i<(int)(sizeof(scalars)/sizeof(scalars[0])); i++){
    const struct IcuScalar *p = &scalars[i];
    rc = sqlite3_create_function(
        db, p->zName, p->nArg, p->enc, 
        p->iContext ? (void*)db : (void*)0,
        p->xFunc, 0, 0
    );
  }

  return rc;
}

#if !SQLITE_CORE

Added ext/misc/README.md.

















































































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## Miscellaneous Extensions

This folder contains a collection of smaller loadable extensions.
See <https://www.sqlite.org/loadext.html> for instructions on how
to compile and use loadable extensions.
Each extension in this folder is implemented in a single file of C code.

Each source file contains a description in its header comment.  See the
header comments for details about each extension.  Additional notes are
as follows:

  *  **carray.c** &mdash;  This module implements the
     [carray](https://www.sqlite.org/carray.html) table-valued function.
     It is a good example of how to go about implementing a custom
     [table-valued function](https://www.sqlite.org/vtab.html#tabfunc2).

  *  **dbdump.c** &mdash;  This is not actually a loadable extension, but
     rather a library that implements an approximate equivalent to the
     ".dump" command of the
     [command-line shell](https://www.sqlite.org/cli.html).

  *  **memvfs.c** &mdash;  This file implements a custom
     [VFS](https://www.sqlite.org/vfs.html) that stores an entire database
     file in a single block of RAM.  It serves as a good example of how
     to implement a simple custom VFS.

  *  **rot13.c** &mdash;  This file implements the very simple rot13()
     substitution function.  This file makes a good template for implementing
     new custom SQL functions for SQLite.

  *  **series.c** &mdash;  This is an implementation of the
     "generate_series" [virtual table](https://www.sqlite.org/vtab.html).
     It can make a good template for new custom virtual table implementations.

  *  **shathree.c** &mdash;  An implementation of the sha3() and
     sha3_query() SQL functions.  The file is named "shathree.c" instead
     of "sha3.c" because the default entry point names in SQLite are based
     on the source filename with digits removed, so if we used the name
     "sha3.c" then the entry point would conflict with the prior "sha1.c"
     extension.

Changes to ext/misc/amatch.c.

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  {
    pRule = sqlite3_malloc( sizeof(*pRule) + nFrom + nTo );
    if( pRule==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pRule, 0, sizeof(*pRule));
      pRule->zFrom = &pRule->zTo[nTo+1];
      pRule->nFrom = nFrom;
      memcpy(pRule->zFrom, zFrom, nFrom+1);
      memcpy(pRule->zTo, zTo, nTo+1);
      pRule->nTo = nTo;
      pRule->rCost = rCost;
      pRule->iLang = (int)iLang;
    }
  }

  *ppRule = pRule;
  return rc;
................................................................................
  amatchEncodeInt(pWord->iSeq, pWord->zCost+4);
  pWord->zCost[8] = 0;
}

/* Circumvent compiler warnings about the use of strcpy() by supplying
** our own implementation.
*/
#if defined(__OpenBSD__)
static void amatchStrcpy(char *dest, const char *src){
  while( (*(dest++) = *(src++))!=0 ){}
}
static void amatchStrcat(char *dest, const char *src){
  while( *dest ) dest++;
  amatchStrcpy(dest, src);
}
#else
# define amatchStrcpy strcpy
# define amatchStrcat strcat
#endif


/*
** Add a new amatch_word object to the queue.
**
** If a prior amatch_word object with the same zWord, and nMatch
** already exists, update its rCost (if the new rCost is less) but
** otherwise leave it unchanged.  Do not add a duplicate.
................................................................................
  }
  pWord = sqlite3_malloc( sizeof(*pWord) + nBase + nTail - 1 );
  if( pWord==0 ) return;
  memset(pWord, 0, sizeof(*pWord));
  pWord->rCost = rCost;
  pWord->iSeq = pCur->nWord++;
  amatchWriteCost(pWord);
  pWord->nMatch = nMatch;
  pWord->pNext = pCur->pAllWords;
  pCur->pAllWords = pWord;
  pWord->sCost.zKey = pWord->zCost;
  pWord->sCost.pWord = pWord;
  pOther = amatchAvlInsert(&pCur->pCost, &pWord->sCost);
  assert( pOther==0 ); (void)pOther;
  pWord->sWord.zKey = pWord->zWord;
................................................................................
#ifdef AMATCH_TRACE_1
    printf("PROCESS [%s][%.*s^%s] %d (\"%s\" \"%s\")\n",
       pWord->zWord+2, pWord->nMatch, pCur->zInput, pCur->zInput+pWord->nMatch,
       pWord->rCost, pWord->zWord, pWord->zCost);
#endif
    nWord = (int)strlen(pWord->zWord+2);
    if( nWord+20>nBuf ){
      nBuf = nWord+100;
      zBuf = sqlite3_realloc(zBuf, nBuf);
      if( zBuf==0 ) return SQLITE_NOMEM;
    }
    amatchStrcpy(zBuf, pWord->zWord+2);
    zNext[0] = 0;
    zNextIn[0] = pCur->zInput[pWord->nMatch];
    if( zNextIn[0] ){







|


|







 







<







<
<
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<
<







 







|







 







|







621
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1011
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....
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  {
    pRule = sqlite3_malloc( sizeof(*pRule) + nFrom + nTo );
    if( pRule==0 ){
      rc = SQLITE_NOMEM;
    }else{
      memset(pRule, 0, sizeof(*pRule));
      pRule->zFrom = &pRule->zTo[nTo+1];
      pRule->nFrom = (amatch_len)nFrom;
      memcpy(pRule->zFrom, zFrom, nFrom+1);
      memcpy(pRule->zTo, zTo, nTo+1);
      pRule->nTo = (amatch_len)nTo;
      pRule->rCost = rCost;
      pRule->iLang = (int)iLang;
    }
  }

  *ppRule = pRule;
  return rc;
................................................................................
  amatchEncodeInt(pWord->iSeq, pWord->zCost+4);
  pWord->zCost[8] = 0;
}

/* Circumvent compiler warnings about the use of strcpy() by supplying
** our own implementation.
*/

static void amatchStrcpy(char *dest, const char *src){
  while( (*(dest++) = *(src++))!=0 ){}
}
static void amatchStrcat(char *dest, const char *src){
  while( *dest ) dest++;
  amatchStrcpy(dest, src);
}






/*
** Add a new amatch_word object to the queue.
**
** If a prior amatch_word object with the same zWord, and nMatch
** already exists, update its rCost (if the new rCost is less) but
** otherwise leave it unchanged.  Do not add a duplicate.
................................................................................
  }
  pWord = sqlite3_malloc( sizeof(*pWord) + nBase + nTail - 1 );
  if( pWord==0 ) return;
  memset(pWord, 0, sizeof(*pWord));
  pWord->rCost = rCost;
  pWord->iSeq = pCur->nWord++;
  amatchWriteCost(pWord);
  pWord->nMatch = (short)nMatch;
  pWord->pNext = pCur->pAllWords;
  pCur->pAllWords = pWord;
  pWord->sCost.zKey = pWord->zCost;
  pWord->sCost.pWord = pWord;
  pOther = amatchAvlInsert(&pCur->pCost, &pWord->sCost);
  assert( pOther==0 ); (void)pOther;
  pWord->sWord.zKey = pWord->zWord;
................................................................................
#ifdef AMATCH_TRACE_1
    printf("PROCESS [%s][%.*s^%s] %d (\"%s\" \"%s\")\n",
       pWord->zWord+2, pWord->nMatch, pCur->zInput, pCur->zInput+pWord->nMatch,
       pWord->rCost, pWord->zWord, pWord->zCost);
#endif
    nWord = (int)strlen(pWord->zWord+2);
    if( nWord+20>nBuf ){
      nBuf = (char)(nWord+100);
      zBuf = sqlite3_realloc(zBuf, nBuf);
      if( zBuf==0 ) return SQLITE_NOMEM;
    }
    amatchStrcpy(zBuf, pWord->zWord+2);
    zNext[0] = 0;
    zNextIn[0] = pCur->zInput[pWord->nMatch];
    if( zNextIn[0] ){

Added ext/misc/anycollseq.c.





















































































































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/*
** 2017-04-16
**
** The author disclaims copyright to this source code.  In place of
** a legal notice, here is a blessing:
**
**    May you do good and not evil.
**    May you find forgiveness for yourself and forgive others.
**    May you share freely, never taking more than you give.
**
*************************************************************************
**
** This file implements a run-time loadable extension to SQLite that
** registers a sqlite3_collation_needed() callback to register a fake
** collating function for any unknown collating sequence.  The fake
** collating function works like BINARY.
**
** This extension can be used to load schemas that contain one or more
** unknown collating sequences.
*/
#include "sqlite3ext.h"
SQLITE_EXTENSION_INIT1
#include <string.h>

static int anyCollFunc(
  void *NotUsed,
  int nKey1, const void *pKey1,
  int nKey2, const void *pKey2
){
  int rc, n;
  n = nKey1<nKey2 ? nKey1 : nKey2;
  rc = memcmp(pKey1, pKey2, n);
  if( rc==0 ) rc = nKey1 - nKey2;
  return rc;
}

static void anyCollNeeded(
  void *NotUsed,
  sqlite3 *db,
  int eTextRep,
  const char *zCollName
){
  sqlite3_create_collation(db, zCollName, eTextRep, 0, anyCollFunc); 
}

#ifdef _WIN32
__declspec(dllexport)
#endif
int sqlite3_anycollseq_init(
  sqlite3 *db, 
  char **pzErrMsg, 
  const sqlite3_api_routines *pApi
){
  int rc = SQLITE_OK;
  SQLITE_EXTENSION_INIT2(pApi);
  rc = sqlite3_collation_needed(db, 0, anyCollNeeded);
  return rc;
}

Added ext/misc/carray.c.

























































































































































































































































































































































































































































































































































































































































































































































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/*
** 2016-06-29
**
** The author disclaims copyright to this source code.  In place of
** a legal notice, here is a blessing:
**
**    May you do good and not evil.
**    May you find forgiveness for yourself and forgive others.
**    May you share freely, never taking more than you give.
**
*************************************************************************
**
** This file demonstrates how to create a table-valued-function that
** returns the values in a C-language array.
** Examples:
**
**      SELECT * FROM carray($ptr,5)
**
** The query above returns 5 integers contained in a C-language array
** at the address $ptr.  $ptr is a pointer to the array of integers that
** has been cast to an integer.
**
** There is an optional third parameter to determine the datatype of
** the C-language array.  Allowed values of the third parameter are
** 'int32', 'int64', 'double', 'char*'.  Example:
**
**      SELECT * FROM carray($ptr,10,'char*');
**
** HOW IT WORKS
**
** The carray "function" is really a virtual table with the
** following schema:
**
**     CREATE TABLE carray(
**       value,
**       pointer HIDDEN,
**       count HIDDEN,
**       ctype TEXT HIDDEN
**     );
**
** If the hidden columns "pointer" and "count" are unconstrained, then 
** the virtual table has no rows.  Otherwise, the virtual table interprets
** the integer value of "pointer" as a pointer to the array and "count"
** as the number of elements in the array.  The virtual table steps through
** the array, element by element.
*/
#include "sqlite3ext.h"
SQLITE_EXTENSION_INIT1
#include <assert.h>
#include <string.h>

#ifndef SQLITE_OMIT_VIRTUALTABLE

/*
** Allowed datatypes
*/
#define CARRAY_INT32    0
#define CARRAY_INT64    1
#define CARRAY_DOUBLE   2
#define CARRAY_TEXT     3

/*
** Names of types
*/
static const char *azType[] = { "int32", "int64", "double", "char*" };


/* carray_cursor is a subclass of sqlite3_vtab_cursor which will
** serve as the underlying representation of a cursor that scans
** over rows of the result
*/
typedef struct carray_cursor carray_cursor;
struct carray_cursor {
  sqlite3_vtab_cursor base;  /* Base class - must be first */
  sqlite3_int64 iRowid;      /* The rowid */
  sqlite3_int64 iPtr;        /* Pointer to array of values */
  sqlite3_int64 iCnt;        /* Number of integers in the array */
  unsigned char eType;       /* One of the CARRAY_type values */
};

/*
** The carrayConnect() method is invoked to create a new
** carray_vtab that describes the carray virtual table.
**
** Think of this routine as the constructor for carray_vtab objects.
**
** All this routine needs to do is:
**
**    (1) Allocate the carray_vtab object and initialize all fields.
**
**    (2) Tell SQLite (via the sqlite3_declare_vtab() interface) what the
**        result set of queries against carray will look like.
*/
static int carrayConnect(
  sqlite3 *db,
  void *pAux,
  int argc, const char *const*argv,
  sqlite3_vtab **ppVtab,
  char **pzErr
){
  sqlite3_vtab *pNew;
  int rc;

/* Column numbers */
#define CARRAY_COLUMN_VALUE   0
#define CARRAY_COLUMN_POINTER 1
#define CARRAY_COLUMN_COUNT   2
#define CARRAY_COLUMN_CTYPE   3

  rc = sqlite3_declare_vtab(db,
     "CREATE TABLE x(value,pointer hidden,count hidden,ctype hidden)");
  if( rc==SQLITE_OK ){
    pNew = *ppVtab = sqlite3_malloc( sizeof(*pNew) );
    if( pNew==0 ) return SQLITE_NOMEM;
    memset(pNew, 0, sizeof(*pNew));
  }
  return rc;
}

/*
** This method is the destructor for carray_cursor objects.
*/
static int carrayDisconnect(sqlite3_vtab *pVtab){
  sqlite3_free(pVtab);
  return SQLITE_OK;
}

/*
** Constructor for a new carray_cursor object.
*/
static int carrayOpen(sqlite3_vtab *p, sqlite3_vtab_cursor **ppCursor){
  carray_cursor *pCur;
  pCur = sqlite3_malloc( sizeof(*pCur) );
  if( pCur==0 ) return SQLITE_NOMEM;
  memset(pCur, 0, sizeof(*pCur));
  *ppCursor = &pCur->base;
  return SQLITE_OK;
}

/*
** Destructor for a carray_cursor.
*/
static int carrayClose(sqlite3_vtab_cursor *cur){
  sqlite3_free(cur);
  return SQLITE_OK;
}


/*
** Advance a carray_cursor to its next row of output.
*/
static int carrayNext(sqlite3_vtab_cursor *cur){
  carray_cursor *pCur = (carray_cursor*)cur;
  pCur->iRowid++;
  return SQLITE_OK;
}

/*
** Return values of columns for the row at which the carray_cursor
** is currently pointing.
*/
static int carrayColumn(
  sqlite3_vtab_cursor *cur,   /* The cursor */
  sqlite3_context *ctx,       /* First argument to sqlite3_result_...() */
  int i                       /* Which column to return */
){
  carray_cursor *pCur = (carray_cursor*)cur;
  sqlite3_int64 x = 0;
  switch( i ){
    case CARRAY_COLUMN_POINTER:   x = pCur->iPtr;   break;
    case CARRAY_COLUMN_COUNT:     x = pCur->iCnt;   break;
    case CARRAY_COLUMN_CTYPE: {
      sqlite3_result_text(ctx, azType[pCur->eType], -1, SQLITE_STATIC);
      return SQLITE_OK;
    }
    default: {
      switch( pCur->eType ){
        case CARRAY_INT32: {
          int *p = (int*)pCur->iPtr;
          sqlite3_result_int(ctx, p[pCur->iRowid-1]);
          return SQLITE_OK;
        }
        case CARRAY_INT64: {
          sqlite3_int64 *p = (sqlite3_int64*)pCur->iPtr;
          sqlite3_result_int64(ctx, p[pCur->iRowid-1]);
          return SQLITE_OK;
        }
        case CARRAY_DOUBLE: {
          double *p = (double*)pCur->iPtr;
          sqlite3_result_double(ctx, p[pCur->iRowid-1]);
          return SQLITE_OK;
        }
        case CARRAY_TEXT: {
          const char **p = (const char**)pCur->iPtr;
          sqlite3_result_text(ctx, p[pCur->iRowid-1], -1, SQLITE_TRANSIENT);
          return SQLITE_OK;
        }
      }
    }
  }
  sqlite3_result_int64(ctx, x);
  return SQLITE_OK;
}

/*
** Return the rowid for the current row.  In this implementation, the
** rowid is the same as the output value.
*/
static int carrayRowid(sqlite3_vtab_cursor *cur, sqlite_int64 *pRowid){
  carray_cursor *pCur = (carray_cursor*)cur;
  *pRowid = pCur->iRowid;
  return SQLITE_OK;
}

/*
** Return TRUE if the cursor has been moved off of the last
** row of output.
*/
static int carrayEof(sqlite3_vtab_cursor *cur){
  carray_cursor *pCur = (carray_cursor*)cur;
  return pCur->iRowid>pCur->iCnt;
}

/*
** This method is called to "rewind" the carray_cursor object back
** to the first row of output.
*/
static int carrayFilter(
  sqlite3_vtab_cursor *pVtabCursor, 
  int idxNum, const char *idxStr,
  int argc, sqlite3_value **argv
){
  carray_cursor *pCur = (carray_cursor *)pVtabCursor;
  if( idxNum ){
    pCur->iPtr = sqlite3_value_int64(argv[0]);
    pCur->iCnt = sqlite3_value_int64(argv[1]);
    if( idxNum<3 ){
      pCur->eType = CARRAY_INT32;
    }else{
      unsigned char i;
      const char *zType = (const char*)sqlite3_value_text(argv[2]);
      for(i=0; i<sizeof(azType)/sizeof(azType[0]); i++){
        if( sqlite3_stricmp(zType, azType[i])==0 ) break;
      }
      if( i>=sizeof(azType)/sizeof(azType[0]) ){
        pVtabCursor->pVtab->zErrMsg = sqlite3_mprintf(
          "unknown datatype: %Q", zType);
        return SQLITE_ERROR;
      }else{
        pCur->eType = i;
      }
    }
  }else{
    pCur->iPtr = 0;
    pCur->iCnt = 0;
  }
  pCur->iRowid = 1;
  return SQLITE_OK;
}

/*
** SQLite will invoke this method one or more times while planning a query
** that uses the carray virtual table.  This routine needs to create
** a query plan for each invocation and compute an estimated cost for that
** plan.
**
** In this implementation idxNum is used to represent the
** query plan.  idxStr is unused.
**
** idxNum is 2 if the pointer= and count= constraints exist,
** 3 if the ctype= constraint also exists, and is 0 otherwise.
** If idxNum is 0, then carray becomes an empty table.
*/
static int carrayBestIndex(
  sqlite3_vtab *tab,
  sqlite3_index_info *pIdxInfo
){
  int i;                 /* Loop over constraints */
  int ptrIdx = -1;       /* Index of the pointer= constraint, or -1 if none */
  int cntIdx = -1;       /* Index of the count= constraint, or -1 if none */
  int ctypeIdx = -1;     /* Index of the ctype= constraint, or -1 if none */

  const struct sqlite3_index_constraint *pConstraint;
  pConstraint = pIdxInfo->aConstraint;
  for(i=0; i<pIdxInfo->nConstraint; i++, pConstraint++){
    if( pConstraint->usable==0 ) continue;
    if( pConstraint->op!=SQLITE_INDEX_CONSTRAINT_EQ ) continue;
    switch( pConstraint->iColumn ){
      case CARRAY_COLUMN_POINTER:
        ptrIdx = i;
        break;
      case CARRAY_COLUMN_COUNT:
        cntIdx = i;
        break;
      case CARRAY_COLUMN_CTYPE:
        ctypeIdx = i;
        break;
    }
  }
  if( ptrIdx>=0 && cntIdx>=0 ){
    pIdxInfo->aConstraintUsage[ptrIdx].argvIndex = 1;
    pIdxInfo->aConstraintUsage[ptrIdx].omit = 1;
    pIdxInfo->aConstraintUsage[cntIdx].argvIndex = 2;
    pIdxInfo->aConstraintUsage[cntIdx].omit = 1;
    pIdxInfo->estimatedCost = (double)1;
    pIdxInfo->estimatedRows = 100;
    pIdxInfo->idxNum = 2;
    if( ctypeIdx>=0 ){
      pIdxInfo->aConstraintUsage[ctypeIdx].argvIndex = 3;
      pIdxInfo->aConstraintUsage[ctypeIdx].omit = 1;
      pIdxInfo->idxNum = 3;
    }
  }else{
    pIdxInfo->estimatedCost = (double)2147483647;
    pIdxInfo->estimatedRows = 2147483647;
    pIdxInfo->idxNum = 0;
  }
  return SQLITE_OK;
}

/*
** This following structure defines all the methods for the 
** carray virtual table.
*/
static sqlite3_module carrayModule = {
  0,                         /* iVersion */
  0,                         /* xCreate */
  carrayConnect,             /* xConnect */
  carrayBestIndex,           /* xBestIndex */
  carrayDisconnect,          /* xDisconnect */
  0,                         /* xDestroy */
  carrayOpen,                /* xOpen - open a cursor */
  carrayClose,               /* xClose - close a cursor */
  carrayFilter,              /* xFilter - configure scan constraints */
  carrayNext,                /* xNext - advance a cursor */
  carrayEof,                 /* xEof - check for end of scan */
  carrayColumn,              /* xColumn - read data */
  carrayRowid,               /* xRowid - read data */
  0,                         /* xUpdate */
  0,                         /* xBegin */
  0,                         /* xSync */
  0,                         /* xCommit */
  0,                         /* xRollback */
  0,                         /* xFindMethod */
  0,                         /* xRename */
};

#endif /* SQLITE_OMIT_VIRTUALTABLE */

#ifdef _WIN32
__declspec(dllexport)
#endif
int sqlite3_carray_init(
  sqlite3 *db, 
  char **pzErrMsg, 
  const sqlite3_api_routines *pApi
){
  int rc = SQLITE_OK;
  SQLITE_EXTENSION_INIT2(pApi);
#ifndef SQLITE_OMIT_VIRTUALTABLE
  rc = sqlite3_create_module(db, "carray", &carrayModule, 0);
#endif
  return rc;
}

Added ext/misc/csv.c.











































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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/*
** 2016-05-28
**
** The author disclaims copyright to this source code.  In place of
** a legal notice, here is a blessing:
**
**    May you do good and not evil.
**    May you find forgiveness for yourself and forgive others.
**    May you share freely, never taking more than you give.
**
******************************************************************************
**
** This file contains the implementation of an SQLite virtual table for
** reading CSV files.
**
** Usage:
**
**    .load ./csv
**    CREATE VIRTUAL TABLE temp.csv USING csv(filename=FILENAME);
**    SELECT * FROM csv;
**
** The columns are named "c1", "c2", "c3", ... by default.  But the
** application can define its own CREATE TABLE statement as an additional
** parameter.  For example:
**
**    CREATE VIRTUAL TABLE temp.csv2 USING csv(
**       filename = "../http.log",
**       schema = "CREATE TABLE x(date,ipaddr,url,referrer,userAgent)"
**    );
**
** Instead of specifying a file, the text of the CSV can be loaded using
** the data= parameter.
**
** If the columns=N parameter is supplied, then the CSV file is assumed to have
** N columns.  If the columns parameter is omitted, the CSV file is opened
** as soon as the virtual table is constructed and the first row of the CSV
** is read in order to count the tables.
**
** Some extra debugging features (used for testing virtual tables) are available
** if this module is compiled with -DSQLITE_TEST.
*/
#include <sqlite3ext.h>
SQLITE_EXTENSION_INIT1
#include <string.h>
#include <stdlib.h>
#include <assert.h>
#include <stdarg.h>
#include <ctype.h>
#include <stdio.h>

#ifndef SQLITE_OMIT_VIRTUALTABLE

/*
** A macro to hint to the compiler that a function should not be
** inlined.
*/
#if defined(__GNUC__)
#  define CSV_NOINLINE  __attribute__((noinline))
#elif defined(_MSC_VER) && _MSC_VER>=1310
#  define CSV_NOINLINE  __declspec(noinline)
#else
#  define CSV_NOINLINE
#endif


/* Max size of the error message in a CsvReader */
#define CSV_MXERR 200

/* Size of the CsvReader input buffer */
#define CSV_INBUFSZ 1024

/* A context object used when read a CSV file. */
typedef struct CsvReader CsvReader;
struct CsvReader {
  FILE *in;              /* Read the CSV text from this input stream */
  char *z;               /* Accumulated text for a field */
  int n;                 /* Number of bytes in z */
  int nAlloc;            /* Space allocated for z[] */
  int nLine;             /* Current line number */
  char cTerm;            /* Character that terminated the most recent field */
  size_t iIn;            /* Next unread character in the input buffer */
  size_t nIn;            /* Number of characters in the input buffer */
  char *zIn;             /* The input buffer */
  char zErr[CSV_MXERR];  /* Error message */
};

/* Initialize a CsvReader object */
static void csv_reader_init(CsvReader *p){
  p->in = 0;
  p->z = 0;
  p->n = 0;
  p->nAlloc = 0;
  p->nLine = 0;
  p->nIn = 0;
  p->zIn = 0;
  p->zErr[0] = 0;
}

/* Close and reset a CsvReader object */
static void csv_reader_reset(CsvReader *p){
  if( p->in ){
    fclose(p->in);
    sqlite3_free(p->zIn);
  }
  sqlite3_free(p->z);
  csv_reader_init(p);
}

/* Report an error on a CsvReader */
static void csv_errmsg(CsvReader *p, const char *zFormat, ...){
  va_list ap;
  va_start(ap, zFormat);
  sqlite3_vsnprintf(CSV_MXERR, p->zErr, zFormat, ap);
  va_end(ap);
}

/* Open the file associated with a CsvReader
** Return the number of errors.
*/
static int csv_reader_open(
  CsvReader *p,               /* The reader to open */
  const char *zFilename,      /* Read from this filename */
  const char *zData           /*  ... or use this data */
){
  if( zFilename ){
    p->zIn = sqlite3_malloc( CSV_INBUFSZ );
    if( p->zIn==0 ){
      csv_errmsg(p, "out of memory");
      return 1;
    }
    p->in = fopen(zFilename, "rb");
    if( p->in==0 ){
      csv_reader_reset(p);
      csv_errmsg(p, "cannot open '%s' for reading", zFilename);
      return 1;
    }
  }else{
    assert( p->in==0 );
    p->zIn = (char*)zData;
    p->nIn = strlen(zData);
  }
  return 0;
}

/* The input buffer has overflowed.  Refill the input buffer, then
** return the next character
*/
static CSV_NOINLINE int csv_getc_refill(CsvReader *p){
  size_t got;

  assert( p->iIn>=p->nIn );  /* Only called on an empty input buffer */
  assert( p->in!=0 );        /* Only called if reading froma file */

  got = fread(p->zIn, 1, CSV_INBUFSZ, p->in);
  if( got==0 ) return EOF;
  p->nIn = got;
  p->iIn = 1;
  return p->zIn[0];
}

/* Return the next character of input.  Return EOF at end of input. */
static int csv_getc(CsvReader *p){
  if( p->iIn >= p->nIn ){
    if( p->in!=0 ) return csv_getc_refill(p);
    return EOF;
  }
  return p->zIn[p->iIn++];
}

/* Increase the size of p->z and append character c to the end. 
** Return 0 on success and non-zero if there is an OOM error */
static CSV_NOINLINE int csv_resize_and_append(CsvReader *p, char c){
  char *zNew;
  int nNew = p->nAlloc*2 + 100;
  zNew = sqlite3_realloc64(p->z, nNew);
  if( zNew ){
    p->z = zNew;
    p->nAlloc = nNew;
    p->z[p->n++] = c;
    return 0;
  }else{
    csv_errmsg(p, "out of memory");
    return 1;
  }
}

/* Append a single character to the CsvReader.z[] array.
** Return 0 on success and non-zero if there is an OOM error */
static int csv_append(CsvReader *p, char c){
  if( p->n>=p->nAlloc-1 ) return csv_resize_and_append(p, c);
  p->z[p->n++] = c;
  return 0;
}

/* Read a single field of CSV text.  Compatible with rfc4180 and extended
** with the option of having a separator other than ",".
**
**   +  Input comes from p->in.
**   +  Store results in p->z of length p->n.  Space to hold p->z comes
**      from sqlite3_malloc64().
**   +  Keep track of the line number in p->nLine.
**   +  Store the character that terminates the field in p->cTerm.  Store
**      EOF on end-of-file.
**
** Return "" at EOF.  Return 0 on an OOM error.
*/
static char *csv_read_one_field(CsvReader *p){
  int c;
  p->n = 0;
  c = csv_getc(p);
  if( c==EOF ){
    p->cTerm = EOF;
    return "";
  }
  if( c=='"' ){
    int pc, ppc;
    int startLine = p->nLine;
    pc = ppc = 0;
    while( 1 ){
      c = csv_getc(p);
      if( c<='"' || pc=='"' ){
        if( c=='\n' ) p->nLine++;
        if( c=='"' ){
          if( pc=='"' ){
            pc = 0;
            continue;
          }
        }
        if( (c==',' && pc=='"')
         || (c=='\n' && pc=='"')
         || (c=='\n' && pc=='\r' && ppc=='"')
         || (c==EOF && pc=='"')
        ){
          do{ p->n--; }while( p->z[p->n]!='"' );
          p->cTerm = (char)c;
          break;
        }
        if( pc=='"' && c!='\r' ){
          csv_errmsg(p, "line %d: unescaped %c character", p->nLine, '"');
          break;
        }
        if( c==EOF ){
          csv_errmsg(p, "line %d: unterminated %c-quoted field\n",
                     startLine, '"');
          p->cTerm = (char)c;
          break;
        }
      }
      if( csv_append(p, (char)c) ) return 0;
      ppc = pc;
      pc = c;
    }
  }else{
    while( c>',' || (c!=EOF && c!=',' && c!='\n') ){
      if( csv_append(p, (char)c) ) return 0;
      c = csv_getc(p);
    }
    if( c=='\n' ){
      p->nLine++;
      if( p->n>0 && p->z[p->n-1]=='\r' ) p->n--;
    }
    p->cTerm = (char)c;
  }
  if( p->z ) p->z[p->n] = 0;
  return p->z;
}


/* Forward references to the various virtual table methods implemented
** in this file. */
static int csvtabCreate(sqlite3*, void*, int, const char*const*, 
                           sqlite3_vtab**,char**);
static int csvtabConnect(sqlite3*, void*, int, const char*const*, 
                           sqlite3_vtab**,char**);
static int csvtabBestIndex(sqlite3_vtab*,sqlite3_index_info*);
static int csvtabDisconnect(sqlite3_vtab*);
static int csvtabOpen(sqlite3_vtab*, sqlite3_vtab_cursor**);
static int csvtabClose(sqlite3_vtab_cursor*);
static int csvtabFilter(sqlite3_vtab_cursor*, int idxNum, const char *idxStr,
                          int argc, sqlite3_value **argv);
static int csvtabNext(sqlite3_vtab_cursor*);
static int csvtabEof(sqlite3_vtab_cursor*);
static int csvtabColumn(sqlite3_vtab_cursor*,sqlite3_context*,int);
static int csvtabRowid(sqlite3_vtab_cursor*,sqlite3_int64*);

/* An instance of the CSV virtual table */
typedef struct CsvTable {
  sqlite3_vtab base;              /* Base class.  Must be first */
  char *zFilename;                /* Name of the CSV file */
  char *zData;                    /* Raw CSV data in lieu of zFilename */
  long iStart;                    /* Offset to start of data in zFilename */
  int nCol;                       /* Number of columns in the CSV file */
  unsigned int tstFlags;          /* Bit values used for testing */
} CsvTable;

/* Allowed values for tstFlags */
#define CSVTEST_FIDX  0x0001      /* Pretend that constrained searchs cost less*/

/* A cursor for the CSV virtual table */
typedef struct CsvCursor {
  sqlite3_vtab_cursor base;       /* Base class.  Must be first */
  CsvReader rdr;                  /* The CsvReader object */
  char **azVal;                   /* Value of the current row */
  int *aLen;                      /* Length of each entry */
  sqlite3_int64 iRowid;           /* The current rowid.  Negative for EOF */
} CsvCursor;

/* Transfer error message text from a reader into a CsvTable */
static void csv_xfer_error(CsvTable *pTab, CsvReader *pRdr){
  sqlite3_free(pTab->base.zErrMsg);
  pTab->base.zErrMsg = sqlite3_mprintf("%s", pRdr->zErr);
}

/*
** This method is the destructor fo a CsvTable object.
*/
static int csvtabDisconnect(sqlite3_vtab *pVtab){
  CsvTable *p = (CsvTable*)pVtab;
  sqlite3_free(p->zFilename);
  sqlite3_free(p->zData);
  sqlite3_free(p);
  return SQLITE_OK;
}

/* Skip leading whitespace.  Return a pointer to the first non-whitespace
** character, or to the zero terminator if the string has only whitespace */
static const char *csv_skip_whitespace(const char *z){
  while( isspace((unsigned char)z[0]) ) z++;
  return z;
}

/* Remove trailing whitespace from the end of string z[] */
static void csv_trim_whitespace(char *z){
  size_t n = strlen(z);
  while( n>0 && isspace((unsigned char)z[n]) ) n--;
  z[n] = 0;
}

/* Dequote the string */
static void csv_dequote(char *z){
  int j;
  char cQuote = z[0];
  size_t i, n;

  if( cQuote!='\'' && cQuote!='"' ) return;
  n = strlen(z);
  if( n<2 || z[n-1]!=z[0] ) return;
  for(i=1, j=0; i<n-1; i++){
    if( z[i]==cQuote && z[i+1]==cQuote ) i++;
    z[j++] = z[i];
  }
  z[j] = 0;
}

/* Check to see if the string is of the form:  "TAG = VALUE" with optional
** whitespace before and around tokens.  If it is, return a pointer to the
** first character of VALUE.  If it is not, return NULL.
*/
static const char *csv_parameter(const char *zTag, int nTag, const char *z){
  z = csv_skip_whitespace(z);
  if( strncmp(zTag, z, nTag)!=0 ) return 0;
  z = csv_skip_whitespace(z+nTag);
  if( z[0]!='=' ) return 0;
  return csv_skip_whitespace(z+1);
}

/* Decode a parameter that requires a dequoted string.
**
** Return 1 if the parameter is seen, or 0 if not.  1 is returned
** even if there is an error.  If an error occurs, then an error message
** is left in p->zErr.  If there are no errors, p->zErr[0]==0.
*/
static int csv_string_parameter(
  CsvReader *p,            /* Leave the error message here, if there is one */
  const char *zParam,      /* Parameter we are checking for */
  const char *zArg,        /* Raw text of the virtual table argment */
  char **pzVal             /* Write the dequoted string value here */
){
  const char *zValue;
  zValue = csv_parameter(zParam,(int)strlen(zParam),zArg);
  if( zValue==0 ) return 0;
  p->zErr[0] = 0;
  if( *pzVal ){
    csv_errmsg(p, "more than one '%s' parameter", zParam);
    return 1;
  }
  *pzVal = sqlite3_mprintf("%s", zValue);
  if( *pzVal==0 ){
    csv_errmsg(p, "out of memory");
    return 1;
  }
  csv_trim_whitespace(*pzVal);
  csv_dequote(*pzVal);
  return 1;
}


/* Return 0 if the argument is false and 1 if it is true.  Return -1 if
** we cannot really tell.
*/
static int csv_boolean(const char *z){
  if( sqlite3_stricmp("yes",z)==0
   || sqlite3_stricmp("on",z)==0
   || sqlite3_stricmp("true",z)==0
   || (z[0]=='1' && z[1]==0)
  ){
    return 1;
  }
  if( sqlite3_stricmp("no",z)==0
   || sqlite3_stricmp("off",z)==0
   || sqlite3_stricmp("false",z)==0
   || (z[0]=='0' && z[1]==0)
  ){
    return 0;
  }
  return -1;
}


/*
** Parameters:
**    filename=FILENAME          Name of file containing CSV content
**    data=TEXT                  Direct CSV content.
**    schema=SCHEMA              Alternative CSV schema.
**    header=YES|NO              First row of CSV defines the names of
**                               columns if "yes".  Default "no".
**    columns=N                  Assume the CSV file contains N columns.
**
** Only available if compiled with SQLITE_TEST:
**    
**    testflags=N                Bitmask of test flags.  Optional
**
** If schema= is omitted, then the columns are named "c0", "c1", "c2",
** and so forth.  If columns=N is omitted, then the file is opened and
** the number of columns in the first row is counted to determine the
** column count.  If header=YES, then the first row is skipped.
*/
static int csvtabConnect(
  sqlite3 *db,
  void *pAux,
  int argc, const char *const*argv,
  sqlite3_vtab **ppVtab,
  char **pzErr
){
  CsvTable *pNew = 0;        /* The CsvTable object to construct */
  int bHeader = -1;          /* header= flags.  -1 means not seen yet */
  int rc = SQLITE_OK;        /* Result code from this routine */
  int i, j;                  /* Loop counters */
#ifdef SQLITE_TEST
  int tstFlags = 0;          /* Value for testflags=N parameter */
#endif
  int nCol = -99;            /* Value of the columns= parameter */
  CsvReader sRdr;            /* A CSV file reader used to store an error
                             ** message and/or to count the number of columns */
  static const char *azParam[] = {
     "filename", "data", "schema", 
  };
  char *azPValue[3];         /* Parameter values */
# define CSV_FILENAME (azPValue[0])
# define CSV_DATA     (azPValue[1])
# define CSV_SCHEMA   (azPValue[2])


  assert( sizeof(azPValue)==sizeof(azParam) );
  memset(&sRdr, 0, sizeof(sRdr));
  memset(azPValue, 0, sizeof(azPValue));
  for(i=3; i<argc; i++){
    const char *z = argv[i];
    const char *zValue;
    for(j=0; j<sizeof(azParam)/sizeof(azParam[0]); j++){
      if( csv_string_parameter(&sRdr, azParam[j], z, &azPValue[j]) ) break;
    }
    if( j<sizeof(azParam)/sizeof(azParam[0]) ){
      if( sRdr.zErr[0] ) goto csvtab_connect_error;
    }else
    if( (zValue = csv_parameter("header",6,z))!=0 ){
      int x;
      if( bHeader>=0 ){
        csv_errmsg(&sRdr, "more than one 'header' parameter");
        goto csvtab_connect_error;
      }
      x = csv_boolean(zValue);
      if( x==1 ){
        bHeader = 1;
      }else if( x==0 ){
        bHeader = 0;
      }else{
        csv_errmsg(&sRdr, "unrecognized argument to 'header': %s", zValue);
        goto csvtab_connect_error;
      }
    }else
#ifdef SQLITE_TEST
    if( (zValue = csv_parameter("testflags",9,z))!=0 ){
      tstFlags = (unsigned int)atoi(zValue);
    }else
#endif
    if( (zValue = csv_parameter("columns",7,z))!=0 ){
      if( nCol>0 ){
        csv_errmsg(&sRdr, "more than one 'columns' parameter");
        goto csvtab_connect_error;
      }
      nCol = atoi(zValue);
      if( nCol<=0 ){
        csv_errmsg(&sRdr, "must have at least one column");
        goto csvtab_connect_error;
      }
    }else
    {
      csv_errmsg(&sRdr, "unrecognized parameter '%s'", z);
      goto csvtab_connect_error;
    }
  }
  if( (CSV_FILENAME==0)==(CSV_DATA==0) ){
    csv_errmsg(&sRdr, "must either filename= or data= but not both");
    goto csvtab_connect_error;
  }
  if( nCol<=0 && csv_reader_open(&sRdr, CSV_FILENAME, CSV_DATA) ){
    goto csvtab_connect_error;
  }
  pNew = sqlite3_malloc( sizeof(*pNew) );
  *ppVtab = (sqlite3_vtab*)pNew;
  if( pNew==0 ) goto csvtab_connect_oom;
  memset(pNew, 0, sizeof(*pNew));
  if( nCol>0 ){
    pNew->nCol = nCol;
  }else{
    do{
      const char *z = csv_read_one_field(&sRdr);
      if( z==0 ) goto csvtab_connect_oom;
      pNew->nCol++;
    }while( sRdr.cTerm==',' );
  }
  pNew->zFilename = CSV_FILENAME;  CSV_FILENAME = 0;
  pNew->zData = CSV_DATA;          CSV_DATA = 0;
#ifdef SQLITE_TEST
  pNew->tstFlags = tstFlags;
#endif
  pNew->iStart = bHeader==1 ? ftell(sRdr.in) : 0;
  csv_reader_reset(&sRdr);
  if( CSV_SCHEMA==0 ){
    char *zSep = "";
    CSV_SCHEMA = sqlite3_mprintf("CREATE TABLE x(");
    if( CSV_SCHEMA==0 ) goto csvtab_connect_oom;
    for(i=0; i<pNew->nCol; i++){
      CSV_SCHEMA = sqlite3_mprintf("%z%sc%d TEXT",CSV_SCHEMA, zSep, i);
      zSep = ",";
    }
    CSV_SCHEMA = sqlite3_mprintf("%z);", CSV_SCHEMA);
  }
  rc = sqlite3_declare_vtab(db, CSV_SCHEMA);
  if( rc ) goto csvtab_connect_error;
  for(i=0; i<sizeof(azPValue)/sizeof(azPValue[0]); i++){
    sqlite3_free(azPValue[i]);
  }
  return SQLITE_OK;

csvtab_connect_oom:
  rc = SQLITE_NOMEM;
  csv_errmsg(&sRdr, "out of memory");

csvtab_connect_error:
  if( pNew ) csvtabDisconnect(&pNew->base);
  for(i=0; i<sizeof(azPValue)/sizeof(azPValue[0]); i++){
    sqlite3_free(azPValue[i]);
  }
  if( sRdr.zErr[0] ){
    sqlite3_free(*pzErr);
    *pzErr = sqlite3_mprintf("%s", sRdr.zErr);
  }
  csv_reader_reset(&sRdr);
  if( rc==SQLITE_OK ) rc = SQLITE_ERROR;
  return rc;
}

/*
** Reset the current row content held by a CsvCursor.
*/
static void csvtabCursorRowReset(CsvCursor *pCur){
  CsvTable *pTab = (CsvTable*)pCur->base.pVtab;
  int i;
  for(i=0; i<pTab->nCol; i++){
    sqlite3_free(pCur->azVal[i]);
    pCur->azVal[i] = 0;
    pCur->aLen[i] = 0;
  }
}

/*
** The xConnect and xCreate methods do the same thing, but they must be
** different so that the virtual table is not an eponymous virtual table.
*/
static int csvtabCreate(
  sqlite3 *db,
  void *pAux,
  int argc, const char *const*argv,
  sqlite3_vtab **ppVtab,
  char **pzErr
){
 return csvtabConnect(db, pAux, argc, argv, ppVtab, pzErr);
}

/*
** Destructor for a CsvCursor.
*/
static int csvtabClose(sqlite3_vtab_cursor *cur){
  CsvCursor *pCur = (CsvCursor*)cur;
  csvtabCursorRowReset(pCur);
  csv_reader_reset(&pCur->rdr);
  sqlite3_free(cur);
  return SQLITE_OK;
}

/*
** Constructor for a new CsvTable cursor object.
*/
static int csvtabOpen(sqlite3_vtab *p, sqlite3_vtab_cursor **ppCursor){
  CsvTable *pTab = (CsvTable*)p;
  CsvCursor *pCur;
  size_t nByte;
  nByte = sizeof(*pCur) + (sizeof(char*)+sizeof(int))*pTab->nCol;
  pCur = sqlite3_malloc64( nByte );
  if( pCur==0 ) return SQLITE_NOMEM;
  memset(pCur, 0, nByte);
  pCur->azVal = (char**)&pCur[1];
  pCur->aLen = (int*)&pCur->azVal[pTab->nCol];
  *ppCursor = &pCur->base;
  if( csv_reader_open(&pCur->rdr, pTab->zFilename, pTab->zData) ){
    csv_xfer_error(pTab, &pCur->rdr);
    return SQLITE_ERROR;
  }
  return SQLITE_OK;
}


/*
** Advance a CsvCursor to its next row of input.
** Set the EOF marker if we reach the end of input.
*/
static int csvtabNext(sqlite3_vtab_cursor *cur){
  CsvCursor *pCur = (CsvCursor*)cur;
  CsvTable *pTab = (CsvTable*)cur->pVtab;
  int i = 0;
  char *z;
  do{
    z = csv_read_one_field(&pCur->rdr);
    if( z==0 ){
      csv_xfer_error(pTab, &pCur->rdr);
      break;
    }
    if( i<pTab->nCol ){
      if( pCur->aLen[i] < pCur->rdr.n+1 ){
        char *zNew = sqlite3_realloc64(pCur->azVal[i], pCur->rdr.n+1);
        if( zNew==0 ){
          csv_errmsg(&pCur->rdr, "out of memory");
          csv_xfer_error(pTab, &pCur->rdr);
          break;
        }
        pCur->azVal[i] = zNew;
        pCur->aLen[i] = pCur->rdr.n+1;
      }
      memcpy(pCur->azVal[i], z, pCur->rdr.n+1);
      i++;
    }
  }while( pCur->rdr.cTerm==',' );
  while( i<pTab->nCol ){
    sqlite3_free(pCur->azVal[i]);
    pCur->azVal[i] = 0;
    pCur->aLen[i] = 0;
    i++;
  }
  if( z==0 || pCur->rdr.cTerm==EOF ){
    pCur->iRowid = -1;
  }else{
    pCur->iRowid++;
  }
  return SQLITE_OK;
}

/*
** Return values of columns for the row at which the CsvCursor
** is currently pointing.
*/
static int csvtabColumn(
  sqlite3_vtab_cursor *cur,   /* The cursor */
  sqlite3_context *ctx,       /* First argument to sqlite3_result_...() */
  int i                       /* Which column to return */
){
  CsvCursor *pCur = (CsvCursor*)cur;
  CsvTable *pTab = (CsvTable*)cur->pVtab;
  if( i>=0 && i<pTab->nCol && pCur->azVal[i]!=0 ){
    sqlite3_result_text(ctx, pCur->azVal[i], -1, SQLITE_STATIC);
  }
  return SQLITE_OK;
}

/*
** Return the rowid for the current row.
*/
static int csvtabRowid(sqlite3_vtab_cursor *cur, sqlite_int64 *pRowid){
  CsvCursor *pCur = (CsvCursor*)cur;
  *pRowid = pCur->iRowid;
  return SQLITE_OK;
}

/*
** Return TRUE if the cursor has been moved off of the last
** row of output.
*/
static int csvtabEof(sqlite3_vtab_cursor *cur){
  CsvCursor *pCur = (CsvCursor*)cur;
  return pCur->iRowid<0;
}

/*
** Only a full table scan is supported.  So xFilter simply rewinds to
** the beginning.
*/
static int csvtabFilter(
  sqlite3_vtab_cursor *pVtabCursor, 
  int idxNum, const char *idxStr,
  int argc, sqlite3_value **argv
){
  CsvCursor *pCur = (CsvCursor*)pVtabCursor;
  CsvTable *pTab = (CsvTable*)pVtabCursor->pVtab;
  pCur->iRowid = 0;
  if( pCur->rdr.in==0 ){
    assert( pCur->rdr.zIn==pTab->zData );
    assert( pTab->iStart>=0 );
    assert( (size_t)pTab->iStart<=pCur->rdr.nIn );
    pCur->rdr.iIn = pTab->iStart;
  }else{
    fseek(pCur->rdr.in, pTab->iStart, SEEK_SET);
    pCur->rdr.iIn = 0;
    pCur->rdr.nIn = 0;
  }
  return csvtabNext(pVtabCursor);
}

/*
** Only a forward full table scan is supported.  xBestIndex is mostly
** a no-op.  If CSVTEST_FIDX is set, then the presence of equality
** constraints lowers the estimated cost, which is fiction, but is useful
** for testing certain kinds of virtual table behavior.
*/
static int csvtabBestIndex(
  sqlite3_vtab *tab,
  sqlite3_index_info *pIdxInfo
){
  pIdxInfo->estimatedCost = 1000000;
#ifdef SQLITE_TEST
  if( (((CsvTable*)tab)->tstFlags & CSVTEST_FIDX)!=0 ){
    /* The usual (and sensible) case is to always do a full table scan.
    ** The code in this branch only runs when testflags=1.  This code
    ** generates an artifical and unrealistic plan which is useful
    ** for testing virtual table logic but is not helpful to real applications.
    **
    ** Any ==, LIKE, or GLOB constraint is marked as usable by the virtual
    ** table (even though it is not) and the cost of running the virtual table
    ** is reduced from 1 million to just 10.  The constraints are *not* marked
    ** as omittable, however, so the query planner should still generate a
    ** plan that gives a correct answer, even if they plan is not optimal.
    */
    int i;
    int nConst = 0;
    for(i=0; i<pIdxInfo->nConstraint; i++){
      unsigned char op;
      if( pIdxInfo->aConstraint[i].usable==0 ) continue;
      op = pIdxInfo->aConstraint[i].op;
      if( op==SQLITE_INDEX_CONSTRAINT_EQ 
       || op==SQLITE_INDEX_CONSTRAINT_LIKE
       || op==SQLITE_INDEX_CONSTRAINT_GLOB
      ){
        pIdxInfo->estimatedCost = 10;
        pIdxInfo->aConstraintUsage[nConst].argvIndex = nConst+1;
        nConst++;
      }
    }
  }
#endif
  return SQLITE_OK;
}


static sqlite3_module CsvModule = {
  0,                       /* iVersion */
  csvtabCreate,            /* xCreate */
  csvtabConnect,           /* xConnect */
  csvtabBestIndex,         /* xBestIndex */
  csvtabDisconnect,        /* xDisconnect */
  csvtabDisconnect,        /* xDestroy */
  csvtabOpen,              /* xOpen - open a cursor */
  csvtabClose,             /* xClose - close a cursor */
  csvtabFilter,            /* xFilter - configure scan constraints */
  csvtabNext,              /* xNext - advance a cursor */
  csvtabEof,               /* xEof - check for end of scan */
  csvtabColumn,            /* xColumn - read data */
  csvtabRowid,             /* xRowid - read data */
  0,                       /* xUpdate */
  0,                       /* xBegin */
  0,                       /* xSync */
  0,                       /* xCommit */
  0,                       /* xRollback */
  0,                       /* xFindMethod */
  0,                       /* xRename */
};

#ifdef SQLITE_TEST
/*
** For virtual table testing, make a version of the CSV virtual table
** available that has an xUpdate function.  But the xUpdate always returns
** SQLITE_READONLY since the CSV file is not really writable.
*/
static int csvtabUpdate(sqlite3_vtab *p,int n,sqlite3_value**v,sqlite3_int64*x){
  return SQLITE_READONLY;
}
static sqlite3_module CsvModuleFauxWrite = {
  0,                       /* iVersion */
  csvtabCreate,            /* xCreate */
  csvtabConnect,           /* xConnect */
  csvtabBestIndex,         /* xBestIndex */
  csvtabDisconnect,        /* xDisconnect */
  csvtabDisconnect,        /* xDestroy */
  csvtabOpen,              /* xOpen - open a cursor */
  csvtabClose,             /* xClose - close a cursor */
  csvtabFilter,            /* xFilter - configure scan constraints */
  csvtabNext,              /* xNext - advance a cursor */
  csvtabEof,               /* xEof - check for end of scan */
  csvtabColumn,            /* xColumn - read data */
  csvtabRowid,             /* xRowid - read data */
  csvtabUpdate,            /* xUpdate */
  0,                       /* xBegin */
  0,                       /* xSync */
  0,                       /* xCommit */
  0,                       /* xRollback */
  0,                       /* xFindMethod */
  0,                       /* xRename */
};
#endif /* SQLITE_TEST */

#endif /* !defined(SQLITE_OMIT_VIRTUALTABLE) */


#ifdef _WIN32
__declspec(dllexport)
#endif
/* 
** This routine is called when the extension is loaded.  The new
** CSV virtual table module is registered with the calling database
** connection.
*/
int sqlite3_csv_init(
  sqlite3 *db, 
  char **pzErrMsg, 
  const sqlite3_api_routines *pApi
){
#ifndef SQLITE_OMIT_VIRTUALTABLE	
  int rc;
  SQLITE_EXTENSION_INIT2(pApi);
  rc = sqlite3_create_module(db, "csv", &CsvModule, 0);
#ifdef SQLITE_TEST
  if( rc==SQLITE_OK ){
    rc = sqlite3_create_module(db, "csv_wr", &CsvModuleFauxWrite, 0);
  }
#endif
  return rc;
#else
  return SQLITE_OK;
#endif
}

Added ext/misc/dbdump.c.





























































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































































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/*
** 2016-03-13
**
** The author disclaims copyright to this source code.  In place of
** a legal notice, here is a blessing:
**
**    May you do good and not evil.
**    May you find forgiveness for yourself and forgive others.
**    May you share freely, never taking more than you give.
**
******************************************************************************
**
** This file implements a C-language subroutine that converts the content
** of an SQLite database into UTF-8 text SQL statements that can be used
** to exactly recreate the original database.  ROWID values are preserved.
**
** A prototype of the implemented subroutine is this:
**
**   int sqlite3_db_dump(
**          sqlite3 *db,
**          const char *zSchema,
**          const char *zTable,
**          void (*xCallback)(void*, const char*),
**          void *pArg
**   );
**
** The db parameter is the database connection.  zSchema is the schema within
** that database which is to be dumped.  Usually the zSchema is "main" but
** can also be "temp" or any ATTACH-ed database.  If zTable is not NULL, then
** only the content of that one table is dumped.  If zTable is NULL, then all
** tables are dumped.
**
** The generate text is passed to xCallback() in multiple calls.  The second
** argument to xCallback() is a copy of the pArg parameter.  The first
** argument is some of the output text that this routine generates.  The
** signature to xCallback() is designed to make it compatible with fputs().
**
** The sqlite3_db_dump() subroutine returns SQLITE_OK on success or some error
** code if it encounters a problem.
**
** If this file is compiled with -DDBDUMP_STANDALONE then a "main()" routine
** is included so that this routine becomes a command-line utility.  The
** command-line utility takes two or three arguments which are the name
** of the database file, the schema, and optionally the table, forming the
** first three arguments of a single call to the library routine.
*/
#include "sqlite3.h"
#include <stdarg.h>
#include <string.h>
#include <ctype.h>

/*
** The state of the dump process.
*/
typedef struct DState DState;
struct DState {
  sqlite3 *db;                /* The database connection */
  int nErr;                   /* Number of errors seen so far */
  int rc;                     /* Error code */
  int writableSchema;                    /* True if in writable_schema mode */
  int (*xCallback)(const char*,void*);   /* Send output here */
  void *pArg;                            /* Argument to xCallback() */
};

/*
** A variable length string to which one can append text.
*/
typedef struct DText DText;
struct DText {
  char *z;           /* The text */
  int n;             /* Number of bytes of content in z[] */
  int nAlloc;        /* Number of bytes allocated to z[] */
};

/*
** Initialize and destroy a DText object
*/
static void initText(DText *p){
  memset(p, 0, sizeof(*p));
}
static void freeText(DText *p){
  sqlite3_free(p->z);
  initText(p);
}

/* zIn is either a pointer to a NULL-terminated string in memory obtained
** from malloc(), or a NULL pointer. The string pointed to by zAppend is
** added to zIn, and the result returned in memory obtained from malloc().
** zIn, if it was not NULL, is freed.
**
** If the third argument, quote, is not '\0', then it is used as a
** quote character for zAppend.
*/
static void appendText(DText *p, char const *zAppend, char quote){
  int len;
  int i;
  int nAppend = (int)(strlen(zAppend) & 0x3fffffff);

  len = nAppend+p->n+1;
  if( quote ){
    len += 2;
    for(i=0; i<nAppend; i++){
      if( zAppend[i]==quote ) len++;
    }
  }

  if( p->n+len>=p->nAlloc ){
    char *zNew;
    p->nAlloc = p->nAlloc*2 + len + 20;
    zNew = sqlite3_realloc(p->z, p->nAlloc);
    if( zNew==0 ){
      freeText(p);
      return;
    }
    p->z = zNew;
  }

  if( quote ){
    char *zCsr = p->z+p->n;
    *zCsr++ = quote;
    for(i=0; i<nAppend; i++){
      *zCsr++ = zAppend[i];
      if( zAppend[i]==quote ) *zCsr++ = quote;
    }
    *zCsr++ = quote;
    p->n = (int)(zCsr - p->z);
    *zCsr = '\0';
  }else{
    memcpy(p->z+p->n, zAppend, nAppend);
    p->n += nAppend;
    p->z[p->n] = '\0';
  }
}

/*
** Attempt to determine if identifier zName needs to be quoted, either
** because it contains non-alphanumeric characters, or because it is an
** SQLite keyword.  Be conservative in this estimate:  When in doubt assume
** that quoting is required.
**
** Return '"' if quoting is required.  Return 0 if no quoting is required.
*/
static char quoteChar(const char *zName){
  /* All SQLite keywords, in alphabetical order */
  static const char *azKeywords[] = {
    "ABORT", "ACTION", "ADD", "AFTER", "ALL", "ALTER", "ANALYZE", "AND", "AS",
    "ASC", "ATTACH", "AUTOINCREMENT", "BEFORE", "BEGIN", "BETWEEN", "BY",
    "CASCADE", "CASE", "CAST", "CHECK", "COLLATE", "COLUMN", "COMMIT",
    "CONFLICT", "CONSTRAINT", "CREATE", "CROSS", "CURRENT_DATE",
    "CURRENT_TIME", "CURRENT_TIMESTAMP", "DATABASE", "DEFAULT", "DEFERRABLE",
    "DEFERRED", "DELETE", "DESC", "DETACH", "DISTINCT", "DROP", "EACH",
    "ELSE", "END", "ESCAPE", "EXCEPT", "EXCLUSIVE", "EXISTS", "EXPLAIN",
    "FAIL", "FOR", "FOREIGN", "FROM", "FULL", "GLOB", "GROUP", "HAVING", "IF",
    "IGNORE", "IMMEDIATE", "IN", "INDEX", "INDEXED", "INITIALLY", "INNER",
    "INSERT", "INSTEAD", "INTERSECT", "INTO", "IS", "ISNULL", "JOIN", "KEY",
    "LEFT", "LIKE", "LIMIT", "MATCH", "NATURAL", "NO", "NOT", "NOTNULL",
    "NULL", "OF", "OFFSET", "ON", "OR", "ORDER", "OUTER", "PLAN", "PRAGMA",
    "PRIMARY", "QUERY", "RAISE", "RECURSIVE", "REFERENCES", "REGEXP",
    "REINDEX", "RELEASE", "RENAME", "REPLACE", "RESTRICT", "RIGHT",
    "ROLLBACK", "ROW", "SAVEPOINT", "SELECT", "SET", "TABLE", "TEMP",
    "TEMPORARY", "THEN", "TO", "TRANSACTION", "TRIGGER", "UNION", "UNIQUE",
    "UPDATE", "USING", "VACUUM", "VALUES", "VIEW", "VIRTUAL", "WHEN", "WHERE",
    "WITH", "WITHOUT",
  };
  int i, lwr, upr, mid, c;
  if( !isalpha((unsigned char)zName[0]) && zName[0]!='_' ) return '"';
  for(i=0; zName[i]; i++){
    if( !isalnum((unsigned char)zName[i]) && zName[i]!='_' ) return '"';
  }
  lwr = 0;
  upr = sizeof(azKeywords)/sizeof(azKeywords[0]) - 1;
  while( lwr<=upr ){
    mid = (lwr+upr)/2;
    c = sqlite3_stricmp(azKeywords[mid], zName);
    if( c==0 ) return '"';
    if( c<0 ){
      lwr = mid+1;
    }else{
      upr = mid-1;
    }
  }
  return 0;
}


/*
** Release memory previously allocated by tableColumnList().
*/
static void freeColumnList(char **azCol){
  int i;
  for(i=1; azCol[i]; i++){
    sqlite3_free(azCol[i]);
  }
  /* azCol[0] is a static string */
  sqlite3_free(azCol);
}

/*
** Return a list of pointers to strings which are the names of all
** columns in table zTab.   The memory to hold the names is dynamically
** allocated and must be released by the caller using a subsequent call
** to freeColumnList().
**
** The azCol[0] entry is usually NULL.  However, if zTab contains a rowid
** value that needs to be preserved, then azCol[0] is filled in with the
** name of the rowid column.
**
** The first regular column in the table is azCol[1].  The list is terminated
** by an entry with azCol[i]==0.
*/
static char **tableColumnList(DState *p, const char *zTab){
  char **azCol = 0;
  sqlite3_stmt *pStmt = 0;
  char *zSql;
  int nCol = 0;
  int nAlloc = 0;
  int nPK = 0;       /* Number of PRIMARY KEY columns seen */
  int isIPK = 0;     /* True if one PRIMARY KEY column of type INTEGER */
  int preserveRowid = 1;
  int rc;

  zSql = sqlite3_mprintf("PRAGMA table_info=%Q", zTab);
  if( zSql==0 ) return 0;
  rc = sqlite3_prepare_v2(p->db, zSql, -1, &pStmt, 0);
  sqlite3_free(zSql);
  if( rc ) return 0;
  while( sqlite3_step(pStmt)==SQLITE_ROW ){
    if( nCol>=nAlloc-2 ){
      char **azNew;
      nAlloc = nAlloc*2 + nCol + 10;
      azNew = sqlite3_realloc(azCol, nAlloc*sizeof(azCol[0]));
      if( azNew==0 ) goto col_oom;
      azCol = azNew;
      azCol[0] = 0;
    }
    azCol[++nCol] = sqlite3_mprintf("%s", sqlite3_column_text(pStmt, 1));
    if( azCol[nCol]==0 ) goto col_oom;
    if( sqlite3_column_int(pStmt, 5) ){
      nPK++;
      if( nPK==1
       && sqlite3_stricmp((const char*)sqlite3_column_text(pStmt,2),
                          "INTEGER")==0 
      ){
        isIPK = 1;
      }else{
        isIPK = 0;
      }
    }
  }
  sqlite3_finalize(pStmt);
  pStmt = 0;
  azCol[nCol+1] = 0;

  /* The decision of whether or not a rowid really needs to be preserved
  ** is tricky.  We never need to preserve a rowid for a WITHOUT ROWID table
  ** or a table with an INTEGER PRIMARY KEY.  We are unable to preserve
  ** rowids on tables where the rowid is inaccessible because there are other
  ** columns in the table named "rowid", "_rowid_", and "oid".
  */
  if( isIPK ){
    /* If a single PRIMARY KEY column with type INTEGER was seen, then it
    ** might be an alise for the ROWID.  But it might also be a WITHOUT ROWID
    ** table or a INTEGER PRIMARY KEY DESC column, neither of which are
    ** ROWID aliases.  To distinguish these cases, check to see if
    ** there is a "pk" entry in "PRAGMA index_list".  There will be
    ** no "pk" index if the PRIMARY KEY really is an alias for the ROWID.
    */
    zSql = sqlite3_mprintf("SELECT 1 FROM pragma_index_list(%Q)"
                           " WHERE origin='pk'", zTab);
    if( zSql==0 ) goto col_oom;
    rc = sqlite3_prepare_v2(p->db, zSql, -1, &pStmt, 0);
    sqlite3_free(zSql);
    if( rc ){
      freeColumnList(azCol);
      return 0;
    }
    rc = sqlite3_step(pStmt);
    sqlite3_finalize(pStmt);
    pStmt = 0;
    preserveRowid = rc==SQLITE_ROW;
  }
  if( preserveRowid ){
    /* Only preserve the rowid if we can find a name to use for the
    ** rowid */
    static char *azRowid[] = { "rowid", "_rowid_", "oid" };
    int i, j;
    for(j=0; j<3; j++){
      for(i=1; i<=nCol; i++){
        if( sqlite3_stricmp(azRowid[j],azCol[i])==0 ) break;
      }
      if( i>nCol ){
        /* At this point, we know that azRowid[j] is not the name of any
        ** ordinary column in the table.  Verify that azRowid[j] is a valid
        ** name for the rowid before adding it to azCol[0].  WITHOUT ROWID
        ** tables will fail this last check */
        int rc;
        rc = sqlite3_table_column_metadata(p->db,0,zTab,azRowid[j],0,0,0,0,0);
        if( rc==SQLITE_OK ) azCol[0] = azRowid[j];
        break;
      }
    }
  }
  return azCol;

col_oom:
  sqlite3_finalize(pStmt);
  freeColumnList(azCol);
  p->nErr++;
  p->rc = SQLITE_NOMEM;
  return 0;
}

/*
** Send mprintf-formatted content to the output callback.
*/
static void output_formatted(DState *p, const char *zFormat, ...){
  va_list ap;
  char *z;
  va_start(ap, zFormat);
  z = sqlite3_vmprintf(zFormat, ap);
  va_end(ap);
  p->xCallback(z, p->pArg);
  sqlite3_free(z);
}

/*
** Find a string that is not found anywhere in z[].  Return a pointer
** to that string.
**
** Try to use zA and zB first.  If both of those are already found in z[]
** then make up some string and store it in the buffer zBuf.
*/
static const char *unused_string(
  const char *z,                    /* Result must not appear anywhere in z */
  const char *zA, const char *zB,   /* Try these first */
  char *zBuf                        /* Space to store a generated string */
){
  unsigned i = 0;
  if( strstr(z, zA)==0 ) return zA;
  if( strstr(z, zB)==0 ) return zB;
  do{
    sqlite3_snprintf(20,zBuf,"(%s%u)", zA, i++);
  }while( strstr(z,zBuf)!=0 );
  return zBuf;
}

/*
** Output the given string as a quoted string using SQL quoting conventions.
** Additionallly , escape the "\n" and "\r" characters so that they do not
** get corrupted by end-of-line translation facilities in some operating
** systems.
*/
static void output_quoted_escaped_string(DState *p, const char *z){
  int i;
  char c;
  for(i=0; (c = z[i])!=0 && c!='\'' && c!='\n' && c!='\r'; i++){}
  if( c==0 ){
    output_formatted(p,"'%s'",z);
  }else{
    const char *zNL = 0;
    const char *zCR = 0;
    int nNL = 0;
    int nCR = 0;
    char zBuf1[20], zBuf2[20];
    for(i=0; z[i]; i++){
      if( z[i]=='\n' ) nNL++;
      if( z[i]=='\r' ) nCR++;
    }
    if( nNL ){
      p->xCallback("replace(", p->pArg);
      zNL = unused_string(z, "\\n", "\\012", zBuf1);
    }
    if( nCR ){
      p->xCallback("replace(", p->pArg);
      zCR = unused_string(z, "\\r", "\\015", zBuf2);
    }
    p->xCallback("'", p->pArg);
    while( *z ){
      for(i=0; (c = z[i])!=0 && c!='\n' && c!='\r' && c!='\''; i++){}
      if( c=='\'' ) i++;
      if( i ){
        output_formatted(p, "%.*s",