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<title>Command Line Shell For SQLite</title>
<tcl>hd_keywords {CLI} {Command Line Interface} {command-line shell} \
     {command-line interface} </tcl>


<p>The SQLite project provides a simple command-line utility named
<b>sqlite3</b> (or <b>sqlite3.exe</b> on windows)
that allows the user to manually enter and execute SQL
statements against an SQLite database.  This document provides a brief
introduction on how to use the <b>sqlite3</b> program.

<tcl>hd_fragment intro</tcl>
<h1>Getting Started</h1>

<p>To start the <b>sqlite3</b> program, just type "sqlite3" optionally
followed by the name the file that holds the SQLite database.  If the 
file does not exist, a new database file with the given name will be
created automatically.  If no database file is specified, a temporary 
database is created, then deleted when the "sqlite3" program exits.

<p>When started, the <b>sqlite3</b> program will show a brief banner
message then prompt you to enter SQL.  Type in SQL statements (terminated
by a semicolon), press "Enter" and the SQL will be executed.</p>

<p>For example, to create a new SQLite database named "ex1" 
with a single table named "tbl1", you might do this:</p>

proc DisplayCode {body} {
  regsub -all {&} [string trim $body] {\&amp;} body
  regsub -all {>} $body {\&gt;} body
  regsub -all {<} $body {\&lt;} body
  regsub -all {\(\(\(} $body {<b>} body
  regsub -all {\)\)\)} $body {</b>} body
  regsub -all {\[\[\[} $body {<i>} body
  regsub -all {\]\]\]} $body {</i>} body
  #regsub -all { } $body {\&nbsp;} body
  #regsub -all \n $body <br>\n body

  #hd_puts {<blockquote><pre>}
  #hd_puts $body
  #hd_puts {</pre></blockquote>}
  hd_puts [CodeBlock $body]

DisplayCode {
$ (((sqlite3 ex1)))
SQLite version 3.8.5 2014-05-29 12:36:14
Enter ".help" for usage hints.
sqlite> (((create table tbl1(one varchar(10), two smallint);)))
sqlite> (((insert into tbl1 values('hello!',10);)))
sqlite> (((insert into tbl1 values('goodbye', 20);)))
sqlite> (((select * from tbl1;)))

<p>You can terminate the sqlite3 program by typing your system
End-Of-File character (usually a Control-D).  Use the interrupt
character (usually a Control-C) to stop a long-running SQL statement.</p>

<p>Make sure you type a semicolon at the end of each SQL command!
The sqlite3 program looks for a semicolon to know when your SQL command is
complete.  If you omit the semicolon, sqlite3 will give you a
continuation prompt and wait for you to enter more text to be
added to the current SQL command.  This feature allows you to
enter SQL commands that span multiple lines.  For example:</p>

<tcl>DisplayCode {
sqlite> (((CREATE TABLE tbl2 ()))
   ...> (((  f1 varchar(30) primary key,)))
   ...> (((  f2 text,)))
   ...> (((  f3 real)))
   ...> ((();)))

<tcl>hd_fragment dblclick</tcl>
<h1>Double-click Startup On Windows</h1>

<p>Windows users can double-click on the <b>sqlite3.exe</b> icon to cause
the command-line shell to pop-up a terminal window running SQLite.  Note,
however, that by default this SQLite session is using an in-memory database,
not a file on disk, and so all changes will be lost when the session exits.
To use a persistent disk file as the database, enter the ".open" command
immediately after the terminal window starts up:

<tcl>DisplayCode {
SQLite version 3.8.5 2014-05-29 12:36:14
Enter ".help" for usage hints.
Connected to a transient in-memory database.
Use ".open FILENAME" to reopen on a persistent database.
sqlite> (((.open ex1.db)))

<p>The example above causes the database file named "ex1.db" to be opened
and used, and created if it does not previously exist.  You might want to
use a full pathname to ensure that the file is in the directory that you
think it is in.  Use forward-slashes as the directory separator character.
In other words use "c:/work/ex1.db", not "c:\work\ex1.db".</p>

<p>Alternatively, you can create a new database using the default in-memory
storage, then save that database into a disk file using the ".save" command:

<tcl>DisplayCode {
SQLite version 3.8.5 2014-05-29 12:36:14
Enter ".help" for usage hints.
Connected to a transient in-memory database.
Use ".open FILENAME" to reopen on a persistent database.
sqlite> [[[... many SQL commands omitted ...]]]
sqlite> (((.save ex1.db)))

<p>Be careful when using the ".save" command as it will overwrite any
preexisting database files having the same name without prompting for
confirmation.  As with the ".open" command, you might want to use a
full pathname with forward-slash directory separators to avoid ambiguity.

<tcl>hd_fragment dotcmd {dot-commands}</tcl>
<h1>Special commands to sqlite3 (dot-commands)</h1>

Most of the time, sqlite3 just reads lines of input and passes them
on to the SQLite library for execution.
But if an input line begins with a dot ("."), then
that line is intercepted and interpreted by the sqlite3 program itself.
These "dot commands" are typically used to change the output format
of queries, or to execute certain prepackaged query statements.

For a listing of the available dot commands, you can enter ".help"
at any time.  For example:

<tcl>DisplayCode {
sqlite> (((.help)))
.auth ON|OFF           Show authorizer callbacks
.backup ?DB? FILE      Backup DB (default "main") to FILE
.bail on|off           Stop after hitting an error.  Default OFF
.binary on|off         Turn binary output on or off.  Default OFF
.changes on|off        Show number of rows changed by SQL
.clone NEWDB           Clone data into NEWDB from the existing database
.databases             List names and files of attached databases
.dbinfo ?DB?           Show status information about the database
.dump ?TABLE? ...      Dump the database in an SQL text format
                         If TABLE specified, only dump tables matching
                         LIKE pattern TABLE.
.echo on|off           Turn command echo on or off
.eqp on|off            Enable or disable automatic EXPLAIN QUERY PLAN
.exit                  Exit this program
.explain ?on|off|auto? Turn EXPLAIN output mode on or off or to automatic
.fullschema            Show schema and the content of sqlite_stat tables
.headers on|off        Turn display of headers on or off
.help                  Show this message
.import FILE TABLE     Import data from FILE into TABLE
.indexes ?TABLE?       Show names of all indexes
                         If TABLE specified, only show indexes for tables
                         matching LIKE pattern TABLE.
.limit ?LIMIT? ?VAL?   Display or change the value of an SQLITE_LIMIT
.load FILE ?ENTRY?     Load an extension library
.log FILE|off          Turn logging on or off.  FILE can be stderr/stdout
.mode MODE ?TABLE?     Set output mode where MODE is one of:
                         ascii    Columns/rows delimited by 0x1F and 0x1E
                         csv      Comma-separated values
                         column   Left-aligned columns.  (See .width)
                         html     HTML <table> code
                         insert   SQL insert statements for TABLE
                         line     One value per line
                         list     Values delimited by .separator strings
                         tabs     Tab-separated values
                         tcl      TCL list elements
.nullvalue STRING      Use STRING in place of NULL values
.once FILENAME         Output for the next SQL command only to FILENAME
.open ?FILENAME?       Close existing database and reopen FILENAME
.output ?FILENAME?     Send output to FILENAME or stdout
.print STRING...       Print literal STRING
.prompt MAIN CONTINUE  Replace the standard prompts
.quit                  Exit this program
.read FILENAME         Execute SQL in FILENAME
.restore ?DB? FILE     Restore content of DB (default "main") from FILE
.save FILE             Write in-memory database into FILE
.scanstats on|off      Turn sqlite3_stmt_scanstatus() metrics on or off
.schema ?TABLE?        Show the CREATE statements
                         If TABLE specified, only show tables matching
                         LIKE pattern TABLE.
.separator COL ?ROW?   Change the column separator and optionally the row
                         separator for both the output mode and .import
.session CMD ...       Create or control sessions
.shell CMD ARGS...     Run CMD ARGS... in a system shell
.show                  Show the current values for various settings
.stats ?on|off?        Show stats or turn stats on or off
.system CMD ARGS...    Run CMD ARGS... in a system shell
.tables ?TABLE?        List names of tables
                         If TABLE specified, only list tables matching
                         LIKE pattern TABLE.
.timeout MS            Try opening locked tables for MS milliseconds
.timer on|off          Turn SQL timer on or off
.trace FILE|off        Output each SQL statement as it is run
.vfsinfo ?AUX?         Information about the top-level VFS
.vfslist               List all available VFSes
.vfsname ?AUX?         Print the name of the VFS stack
.width NUM1 NUM2 ...   Set column widths for "column" mode
                         Negative values right-justify

<tcl>hd_fragment dotrules</tcl>
<h1>Rules for "dot-commands"</h1>

<p>Ordinary SQL statements are free-form, and can be
spread across multiple lines, and can have whitespace and
comments anywhere.  But dot-commands are
more restrictive:

<li>A dot-command must begin with the "." at the left margin
    with no preceding whitespace.
<li>The dot-command must be entirely contained on a single input line.
<li>A dot-command cannot occur in the middle of an ordinary SQL
    statement.  In other words, a dot-command cannot occur at a
    continuation prompt.
<li>Dot-commands do not recognize comments.

<p>And, of course, it is important to remember that the dot-commands
are interpreted by the sqlite3.exe command-line program, not by
SQLite itself.  So none of the dot-commands will work as an argument
to SQLite interfaces like [sqlite3_prepare()] or [sqlite3_exec()].

<tcl>hd_fragment dotmode</tcl>
<h1>Changing Output Formats</h1>

<p>The sqlite3 program is able to show the results of a query
in eight different formats: "csv", "column", "html", "insert",
"line", "list", "tabs", and "tcl".
You can use the ".mode" dot command to switch between these output

<p>The default output mode is "list".  In
list mode, each record of a query result is written on one line of
output and each column within that record is separated by a specific
separator string.  The default separator is a pipe symbol ("|").
List mode is especially useful when you are going to send the output
of a query to another program (such as AWK) for additional processing.</p>

<tcl>DisplayCode {
sqlite> (((.mode list)))
sqlite> (((select * from tbl1;)))

<p>You can use the ".separator" dot command to change the separator
for list mode.  For example, to change the separator to a comma and
a space, you could do this:</p>

<tcl>DisplayCode {
sqlite> (((.separator ", ")))
sqlite> (((select * from tbl1;)))
hello, 10
goodbye, 20

<p>In "line" mode, each column in a row of the database
is shown on a line by itself.  Each line consists of the column
name, an equal sign and the column data.  Successive records are
separated by a blank line.  Here is an example of line mode

<tcl>DisplayCode {
sqlite> (((.mode line)))
sqlite> (((select * from tbl1;)))
one = hello
two = 10

one = goodbye
two = 20

<p>In column mode, each record is shown on a separate line with the
data aligned in columns.  For example:</p>

<tcl>DisplayCode {
sqlite> (((.mode column)))
sqlite> (((select * from tbl1;)))
one         two       
----------  ----------
hello       10        
goodbye     20        

<p>By default, each column is between 1 and 10 characters wide, depending
on the column header name and the width of the first column of data.
Data that is too wide to fit in a column is truncated.  You can
adjust the column widths using the ".width" command.  Like this:</p>

<tcl>DisplayCode {
sqlite> (((.width 12 6)))
sqlite> (((select * from tbl1;)))
one           two   
------------  ------
hello         10    
goodbye       20    

<p>The ".width" command in the example above sets the width of the first
column to 12 and the width of the second column to 6.  All other column
widths were unaltered.  You can gives as many arguments to ".width" as
necessary to specify the widths of as many columns as are in your
query results.</p>

<p>If you specify a column a width of 0, then the column
width is automatically adjusted to be the maximum of three
numbers: 10, the width of the header, and the width of the
first row of data.  This makes the column width self-adjusting.
The default width setting for every column is this 
auto-adjusting 0 value.</p>

<p>You can specify a negative column width to get
right-justified columns.</p>

<p>The column labels that appear on the first two lines of output
can be turned on and off using the ".header" dot command.  In the
examples above, the column labels are on.  To turn them off you
could do this:</p>

<tcl>DisplayCode {
sqlite> (((.header off)))
sqlite> (((select * from tbl1;)))
hello         10    
goodbye       20    

<p>Another useful output mode is "insert".  In insert mode, the output
is formatted to look like SQL INSERT statements.  You can use insert
mode to generate text that can later be used to input data into a 
different database.</p>

<p>When specifying insert mode, you have to give an extra argument
which is the name of the table to be inserted into.  For example:</p>

<tcl>DisplayCode {
sqlite> (((.mode insert new_table)))
sqlite> (((select * from tbl1;)))
INSERT INTO "new_table" VALUES('hello',10);
INSERT INTO "new_table" VALUES('goodbye',20);

<p>The last output mode is "html".  In this mode, sqlite3 writes
the results of the query as an XHTML table.  The beginning
&lt;TABLE&gt; and the ending &lt;/TABLE&gt; are not written, but
all of the intervening &lt;TR&gt;s, &lt;TH&gt;s, and &lt;TD&gt;s
are.  The html output mode is envisioned as being useful for

<tcl>hd_fragment explain {explain dot-command}</tcl>
<p>The ".explain" dot command can be used to set the output mode
to "column" and to set the column widths to values that are reasonable
for looking at the output of an [EXPLAIN] command.

<p>Beginning with [Version 3.11.0], the command-line shell defaults to
"auto-explain" mode, in which the EXPLAIN commands are automatically
detected and the output is automatically formatted.  So the ".explain"
command has become superfluous.

<tcl>hd_fragment dotoutput</tcl>
<h1>Writing results to a file</h1>

<p>By default, sqlite3 sends query results to standard output.  You
can change this using the ".output" and ".once" commands.  Just put 
the name of an output file as an argument to .output and all subsequent
query results will be written to that file.  Or use the .once command
instead of .output and output will only be redirected for the single next
command before returning the console.  Use .output with no arguments to
begin writing to standard output again.  For example:</p>

<tcl>DisplayCode {
sqlite> (((.mode list)))
sqlite> (((.separator |)))
sqlite> (((.output test_file_1.txt)))
sqlite> (((select * from tbl1;)))
sqlite> (((.exit)))
$ (((cat test_file_1.txt)))

<p>If the first character of the ".output" or ".once" filename is a pipe
symbol ("|") then the remaining characters are treated as a command and the
output is sent to that command.  This makes it easy to pipe the results
of a query into some other process.  For example, the 
"open -f" command on a Mac opens a text editor to display the content that
it reads from standard input.  So to see the results of a query
in a text editor, one could type:</p>

<tcl>DisplayCode {
sqlite3> (((.once '|open -f')))
sqlite3> (((SELECT * FROM bigTable;)))

<tcl>hd_fragment fileio {file I/O functions}</tcl>
<h2>File I/O Functions</h2>

<p>The command-line shell adds two [application-defined SQL functions] that
facilitate read content from a file into an table column, and writing the
content of a column into a file, respectively.

<p>The readfile(X) SQL function reads the entire content of the file named
X and returns that content as a BLOB.  This can be used to load content into
a table.  For example:

<tcl>DisplayCode {
sqlite> (((CREATE TABLE images(name TEXT, type TEXT, img BLOB);)))
sqlite> (((INSERT INTO images(name,type,img))))
   ...> (((  VALUES('icon','jpeg',readfile('icon.jpg'));)))

<p>The writefile(X,Y) SQL function write the blob Y into the file named X
and returns the number of bytes written.  Use this function to extract
the content of a single table column into a file.  For example:

<tcl>DisplayCode {
sqlite> (((SELECT writefile('icon.jpg',img) FROM images WHERE name='icon';)))

<p>Note that the readfile(X) and writefile(X,Y) functions are extension
functions and are not built into the core SQLite library.  These routines
are available as a [loadable extension] in the
source file in the [SQLite source code repositories].

<tcl>hd_fragment schema</tcl>
<h1>Querying the database schema</h1>

<p>The sqlite3 program provides several convenience commands that
are useful for looking at the schema of the database.  There is
nothing that these commands do that cannot be done by some other
means.  These commands are provided purely as a shortcut.</p>

<p>For example, to see a list of the tables in the database, you
can enter ".tables".</p>

<tcl>DisplayCode {
sqlite> (((.tables)))

<p>The ".tables" command is similar to setting list mode then
executing the following query:</p>

<tcl>DisplayCode {
SELECT name FROM sqlite_master 
WHERE type IN ('table','view') AND name NOT LIKE 'sqlite_%'
SELECT name FROM sqlite_temp_master 
WHERE type IN ('table','view') 
} </tcl>

<p>In fact, if you look at the source code to the sqlite3 program
(found in the source tree in the file 
you'll find a query very much like the above.</p>

<p>The ".indices" command works in a similar way to list all of
the indices for a particular table.  The ".indices" command takes
a single argument which is the name of the table for which the
indices are desired.  Last, but not least, is the ".schema" command.
With no arguments, the ".schema" command shows the original CREATE TABLE
and CREATE INDEX statements that were used to build the current database.
If you give the name of a table to ".schema", it shows the original
CREATE statement used to make that table and all if its indices.
We have:</p>

<tcl>DisplayCode {
sqlite> (((.schema)))
create table tbl1(one varchar(10), two smallint)
  f1 varchar(30) primary key,
  f2 text,
  f3 real
sqlite> (((.schema tbl2)))
  f1 varchar(30) primary key,
  f2 text,
  f3 real

<p>The ".schema" command accomplishes the same thing as setting
list mode, then entering the following query:</p>

<tcl>DisplayCode {
   (SELECT * FROM sqlite_master UNION ALL
    SELECT * FROM sqlite_temp_master)
WHERE type!='meta'
ORDER BY tbl_name, type DESC, name
} </tcl>

<p>Or, if you give an argument to ".schema" because you only
want the schema for a single table, the query looks like this:</p>

<tcl>DisplayCode {
   (SELECT * FROM sqlite_master UNION ALL
    SELECT * FROM sqlite_temp_master)
WHERE type!='meta' AND sql NOT NULL AND name NOT LIKE 'sqlite_%'
ORDER BY substr(type,2,1), name
} </tcl>

You can supply an argument to the .schema command.  If you do, the
query looks like this:

<tcl>DisplayCode {
   (SELECT * FROM sqlite_master UNION ALL
    SELECT * FROM sqlite_temp_master)
WHERE tbl_name LIKE '%s'
  AND type!='meta' AND sql NOT NULL AND name NOT LIKE 'sqlite_%'
ORDER BY substr(type,2,1), name
} </tcl>

<p>The "%s" in the query is replace by your argument.  This allows you
to view the schema for some subset of the database.</p>

<tcl>DisplayCode {
sqlite> (((.schema %abc%)))

Along these same lines,
the ".table" command also accepts a pattern as its first argument.
If you give an argument to the .table command, a "%" is both
appended and prepended and a LIKE clause is added to the query.
This allows you to list only those tables that match a particular

<p>The ".databases" command shows a list of all databases open in
the current connection.  There will always be at least 2.  The first
one is "main", the original database opened.  The second is "temp",
the database used for temporary tables. There may be additional 
databases listed for databases attached using the ATTACH statement.
The first output column is the name the database is attached with, 
and the second column is the filename of the external file.</p>

<tcl>DisplayCode {
sqlite> (((.databases)))

<tcl>hd_fragment fullschema {the .fullschema dot-command} {.fullschema}</tcl>
<p>The ".fullschema" dot-command works like the ".schema" command in
that it displays the entire database schema.  But ".fullschema" also
includes dumps of the statistics tables "sqlite_stat1", "sqlite_stat3",
and "sqlite_stat4", if they exist.  The ".fullschema" command normally
provides all of the information needed to exactly recreate a query
plan for a specific query.  When reporting suspected problems with
the SQLite query planner to the SQLite development team, developers
are requested to provide the complete ".fullschema" output as part
of the trouble report.  Note that the sqlite_stat3 and sqlite_stat4
tables contain samples of index entries and so might contain sensitive
data, so do not send the ".fullschema" output of a proprietary database
over a public channel.</p>

<tcl>hd_fragment csv {CSV import}</tcl>
<h1>CSV Import</h1>

<p>Use the ".import" command to import CSV (comma separated value) data into
an SQLite table.  The ".import" command takes two arguments which are the
name of the disk file from which CSV data is to be read and the name of the
SQLite table into which the CSV data is to be inserted.

<p>Note that it is important to set the "mode" to "csv" before running the
 ".import" command.  This is necessary to prevent the command-line shell
from trying to interpret the input file text as some other format.

<tcl>DisplayCode {
sqlite> (((.mode csv)))
sqlite> (((.import C:/work/somedata.csv tab1)))

<p>There are two cases to consider:  (1) Table "tab1" does not previously
exist and (2) table "tab1" does already exist.

<p>In the first case, when the table does not previously exist, the table is
automatically created and the content of the first row of the input CSV
file is used to determine the name of all the columns in the table.  In
other words, if the table does not previously exist, the first row of the
CSV file is interpreted to be column names and the actual data starts on
the second row of the CSV file.

<p>For the second case, when the table already exists, every row of the
CSV file, including the first row, is assumed to be actual content.  If
the CSV file contains an initial row of column labels, that row will be
read as data and inserted into the table.  To avoid this, make sure that
table does not previously exist.

<tcl>hd_fragment csvout {CSV export}</tcl>
<h1>CSV Export</h1>

<p>To export an SQLite table (or part of a table) as CSV, simply set
the "mode" to "csv" and then run a query to extract the desired rows
of the table.

<tcl>DisplayCode {
sqlite> (((.header on)))
sqlite> (((.mode csv)))
sqlite> (((.once c:/work/dataout.csv)))
sqlite> (((SELECT * FROM tab1;)))
sqlite> (((.system c:/work/dataout.csv)))

<p>In the example above, the ".header on" line causes column labels to
be printed as the first row of output.  This means that the first row of
the resulting CSV file will contain column labels.  If column labels are
not desired, set ".header off" instead. (The ".header off" setting is
the default and can be omitted if the headers have not been previously
turned on.)

<p>The line ".once <i>FILENAME</i>" causes all query output to go into
the named file instead of being printed on the console.  In the example
above, that line causes the CSV content to be written into a file named

<p>The final line of the example (the ".system c:/work/dataout.csv")
has the same effect as double-clicking on the c:/work/dataout.csv file
in windows.  This will typically bring up a spreadsheet program to display
the CSV file.  That command only works as shown on Windows.  The
equivalent line on a Mac would be ".system open /work/dataout.csv".
On Linux and other unix systems you will need to enter something like
".system libreoffice /work/dataout.csv", substituting your preferred
CSV viewing program for "libreoffice".

<tcl>hd_fragment dump</tcl>
<h1>Converting An Entire Database To An ASCII Text File</h1>

<p>Use the ".dump" command to convert the entire contents of a
database into a single ASCII text file.  This file can be converted
back into a database by piping it back into <b>sqlite3</b>.</p>

<p>A good way to make an archival copy of a database is this:</p>

<tcl>DisplayCode {
$ (((echo '.dump' | sqlite3 ex1 | gzip -c >ex1.dump.gz)))

<p>This generates a file named <b>ex1.dump.gz</b> that contains everything
you need to reconstruct the database at a later time, or on another
machine.  To reconstruct the database, just type:</p>

<tcl>DisplayCode {
$ (((zcat ex1.dump.gz | sqlite3 ex2)))

<p>The text format is pure SQL so you
can also use the .dump command to export an SQLite database
into other popular SQL database engines.  Like this:</p>

<tcl>DisplayCode {
$ (((createdb ex2)))
$ (((sqlite3 ex1 .dump | psql ex2)))

<tcl>hd_fragment dotload</tcl>
<h1>Loading Extensions</h1>

<p>You can add new custom [application-defined SQL functions],
[collating sequences], [virtual tables], and [VFSes] to the command-line
shell at run-time using the ".load" command.  First, convert the
extension in to a DLL or shared library (as described in the
[Run-Time Loadable Extensions] document) then type:

<tcl>DisplayCode {
sqlite> .load /path/to/my_extension

<p>Note that SQLite automatically adds the appropriate extension suffix
(".dll" on windows, ".dylib" on Mac, ".so" on most other unixes) to the
extension filename.  It is generally a good idea to specify the full
pathname of the extension.

<p>SQLite computes the entry point for the extension based on the extension
filename.  To override this choice, simply add the name of the extension
as a second argument to the ".load" command.

<p>Source code for several useful extensions can be found in the
<a href="">ext/misc</a>
subdirectory of the SQLite source tree.  You can use these extensions
as-is, or as a basis for creating your own custom extensions to address
your own particular needs.

<tcl>hd_fragment dotother</tcl>
<h1>Other Dot Commands</h1>

<p>There are many other dot-commands available in the command-line
shell.  See the ".help" command for a complete list for any particular
version and build of SQLite.

<tcl>hd_fragment insh</tcl>
<h1>Using sqlite3 in a shell script</h1>

One way to use sqlite3 in a shell script is to use "echo" or
"cat" to generate a sequence of commands in a file, then invoke sqlite3
while redirecting input from the generated command file.  This
works fine and is appropriate in many circumstances.  But as
an added convenience, sqlite3 allows a single SQL command to be
entered on the command line as a second argument after the
database name.  When the sqlite3 program is launched with two
arguments, the second argument is passed to the SQLite library
for processing, the query results are printed on standard output
in list mode, and the program exits.  This mechanism is designed
to make sqlite3 easy to use in conjunction with programs like
"awk".  For example:</p>

<tcl>DisplayCode {
$ (((sqlite3 ex1 'select * from tbl1' |)))
> ((( awk '{printf "<tr><td>%s<td>%s\n",$1,$2 }')))

<tcl>hd_fragment endsh</tcl>
<h1>Ending shell commands</h1>

SQLite commands are normally terminated by a semicolon.  In the shell 
you can also use the word "GO" (case-insensitive) or a slash character 
"/" on a line by itself to end a command.  These are used by SQL Server 
and Oracle, respectively.  These won't work in <b>sqlite3_exec()</b>, 
because the shell translates these into a semicolon before passing them 
to that function.</p>

<tcl>hd_fragment compiling</tcl>
<h1>Compiling the sqlite3 program from sources</h1>

The source code to the sqlite3 command line interface is in a single
file named "shell.c" which you can
<a href="">
download</a> from the SQLite website.  
[how to compile|Compile] this file (together
with the [amalgamation | sqlite3 library source code]) to generate
the executable.  For example:</p>

<tcl>DisplayCode {
gcc -o sqlite3 shell.c sqlite3.c -ldl -lpthread
} </tcl>