psql [ options ] [ dbname [ user ] ]
psql is a terminal-based front-end to PostgreSQL. It enables you to type in queries interactively, issue them to PostgreSQL, and see the query results. Alternatively, input can be from a file. In addition, it provides a number of meta-commands and various shell-like features to facilitate writing scripts and automating a wide variety of tasks.
psql is a regular PostgreSQL client application. In order to connect to a database you need to know the name of your target database, the hostname and port number of the server and what user name you want to connect as. psql can be told about those parameters via command line options, namely -d, -h, -p, and -U respectively. If an argument is found that does not belong to any option it will be interpreted as the database name (or the user name, if the database name is also given). Not all these options are required, defaults do apply. If you omit the host name psql will connect via a Unix domain socket to a server on the local host. The default port number is compile-time determined. Since the database server uses the same default, you will not have to specify the port in most cases. The default user name is your Unix username, as is the default database name. Note that you can't just connect to any database under any username. Your database administrator should have informed you about your access rights. To save you some typing you can also set the environment variables PGDATABASE, PGHOST, PGPORT and PGUSER to appropriate values.
If the connection could not be made for any reason (e.g., insufficient privileges, postmaster is not running on the server, etc.), psql will return an error and terminate.
In normal operation, psql provides a prompt with the name of the database to which psql is currently connected, followed by the string =>. For example,
$ psql testdb Welcome to psql, the PostgreSQL interactive terminal. Type: \copyright for distribution terms \h for help with SQL commands \? for help on internal slash commands \g or terminate with semicolon to execute query \q to quit testdb=>
At the prompt, the user may type in SQL queries. Ordinarily, input lines are sent to the backend when a query-terminating semicolon is reached. An end of line does not terminate a query! Thus queries can be spread over several lines for clarity. If the query was sent and without error, the query results are displayed on the screen.
Whenever a query is executed, psql also polls for asynchronous notification events generated by LISTEN and NOTIFY.
Anything you enter in psql that begins with an unquoted backslash is a psql meta-command that is processed by psql itself. These commands are what makes psql interesting for administration or scripting. Meta-commands are more commonly called slash or backslash commands.
The format of a psql command is the backslash, followed immediately by a command verb, then any arguments. The arguments are separated from the command verb and each other by any number of whitespace characters.
To include whitespace into an argument you must quote it with a single quote. To include a single quote into such an argument, precede it by a backslash. Anything contained in single quotes is furthermore subject to C-like substitutions for \n (new line), \t (tab), \digits, \0digits, and \0xdigits (the character with the given decimal, octal, or hexadecimal code).
If an unquoted argument begins with a colon (:), it is taken as a variable and the value of the variable is taken as the argument instead.
Arguments that are quoted in "backticks" (`) are taken as a command line that is passed to the shell. The output of the command (with a trailing newline removed) is taken as the argument value. The above escape sequences also apply in backticks.
Some commands take the name of an SQL identifier (such as a table name) as argument. These arguments follow the syntax rules of SQL regarding double quotes: an identifier without double quotes is coerced to lower-case. For all other commands double quotes are not special and will become part of the argument.
Parsing for arguments stops when another unquoted backslash occurs. This is taken as the beginning of a new meta-command. The special sequence \\ (two backslashes) marks the end of arguments and continues parsing SQL queries, if any. That way SQL and psql commands can be freely mixed on a line. But in any case, the arguments of a meta-command cannot continue beyond the end of the line.
The following meta-commands are defined:
If the current table output format is unaligned, switch to aligned. If it is not unaligned, set it to unaligned. This command is kept for backwards compatibility. See \pset for a general solution.
Change the current working directory to directory. Without argument, change to the current user's home directory.
Tip: To print your current working directory, use \!pwd.
Set the title of any tables being printed as the result of a query or unset any such title. This command is equivalent to \pset title title. (The name of this command derives from "caption", as it was previously only used to set the caption in an HTML table.)
Establishes a connection to a new database and/or under a user name. The previous connection is closed. If dbname is - the current database name is assumed.
If username is omitted the current user name is assumed.
As a special rule, \connect without any arguments will connect to the default database as the default user (as you would have gotten by starting psql without any arguments).
If the connection attempt failed (wrong username, access denied, etc.), the previous connection will be kept if and only if psql is in interactive mode. When executing a non-interactive script, processing will immediately stop with an error. This distinction was chosen as a user convenience against typos on the one hand, and a safety mechanism that scripts are not accidentally acting on the wrong database on the other hand.
Performs a frontend (client) copy. This is an operation that runs an SQL COPY command, but instead of the backend's reading or writing the specified file, and consequently requiring backend access and special user privilege, as well as being bound to the file system accessible by the backend, psql reads or writes the file and routes the data between the backend and the local file system.
The syntax of the command is similar to that of the SQL COPY command (see its description for the details). Note that, because of this, special parsing rules apply to the \copy command. In particular, the variable substitution rules and backslash escapes do not apply.
Tip: This operation is not as efficient as the SQL COPY command because all data must pass through the client/server IP or socket connection. For large amounts of data the other technique may be preferable.
Note: Note the difference in interpretation of stdin and stdout between frontend and backend copies: in a frontend copy these always refer to psql's input and output stream. On a backend copy stdin comes from wherever the COPY itself came from (for example, a script run with the -f option), and stdout refers to the query output stream (see \o meta-command below).
Shows the copyright and distribution terms of PostgreSQL.
Shows all columns of relation (which could be a table, view, index, or sequence), their types, and any special attributes such as NOT NULL or defaults, if any. If the relation is, in fact, a table, any defined indices, primary keys, unique constraints and check constraints are also listed. If the relation is a view, the view definition is also shown.
The command form \d+ is identical, but any comments associated with the table columns are shown as well.
Note: If \d is called without any arguments, it is equivalent to \dtvs which will show a list of all tables, views, and sequences. This is purely a convenience measure.
Lists all available aggregate functions, together with the data type they operate on. If pattern (a regular expression) is specified, only matching aggregates are shown.
Shows the descriptions of object (which can be a regular expression), or of all objects if no argument is given. ("Object" covers aggregates, functions, operators, types, relations (tables, views, indexes, sequences, large objects), rules, and triggers.) For example:
=> \dd version Object descriptions Name | What | Description ---------+----------+--------------------------- version | function | PostgreSQL version string (1 row)
Descriptions for objects can be generated with the COMMENT ON SQL command.
Note: PostgreSQL stores the object descriptions in the pg_description system table.
Lists available functions, together with their argument and return types. If pattern (a regular expression) is specified, only matching functions are shown. If the form \df+ is used, additional information about each function, including language and description, is shown.
This is not the actual command name: The letters i, s, t, v, S stand for index, sequence, table, view, and system table, respectively. You can specify any or all of them in any order to obtain a listing of them, together with who the owner is.
If pattern is specified, it is a regular expression that restricts the listing to those objects whose name matches. If one appends a "+" to the command name, each object is listed with its associated description, if any.
This is an alias for \lo_list, which shows a list of large objects.
Lists available operators with their operand and return types. If name is specified, only operators with that name will be shown.
This is an alias for \z which was included for its greater mnemonic value ("display permissions").
Lists all data types or only those that match pattern. The command form \dT+ shows extra information.
Lists all configured users or only those that match pattern.
If filename is specified, the file is edited; after the editor exits, its content is copied back to the query buffer. If no argument is given, the current query buffer is copied to a temporary file which is then edited in the same fashion.
The new query buffer is then re-parsed according to the normal rules of psql, where the whole buffer is treated as a single line. (Thus you cannot make scripts this way. Use \i for that.) This means also that if the query ends with (or rather contains) a semicolon, it is immediately executed. In other cases it will merely wait in the query buffer.
Tip: psql searches the environment variables PSQL_EDITOR, EDITOR, and VISUAL (in that order) for an editor to use. If all of them are unset, /bin/vi is run.
Prints the arguments to the standard output, separated by one space and followed by a newline. This can be useful to intersperse information in the output of scripts. For example:
=> \echo `date` Tue Oct 26 21:40:57 CEST 1999
If the first argument is an unquoted -n the the trailing newline is not written.
Tip: If you use the \o command to redirect your query output you may wish to use \qecho instead of this command.
Sets the client encoding, if you are using multibyte encodings. Without an argument, this command shows the current encoding.
Sets the field separator for unaligned query output. The default is pipe (|). See also \pset for a generic way of setting output options.
Sends the current query input buffer to the backend and optionally saves the output in filename or pipes the output into a separate Unix shell to execute command. A bare \g is virtually equivalent to a semicolon. A \g with argument is a "one-shot" alternative to the \o command.
Give syntax help on the specified SQL command. If command is not specified, then psql will list all the commands for which syntax help is available. If command is an asterisk ("*"), then syntax help on all SQL commands is shown.
Note: To simplify typing, commands that consists of several words do not have to be quoted. Thus it is fine to type \help alter table.
Turns on HTML query output format. If the HTML format is already on, it is switched back to the default aligned text format. This command is for compatibility and convenience, but see \pset about setting other output options.
Reads input from the file filename and executes it as though it had been typed on the keyboard.
Note: If you want to see the lines on the screen as they are read you must set the variable ECHO to all.
List all the databases in the server as well as their owners. Append a "+" to the command name to see any descriptions for the databases as well. If your PostgreSQL installation was compiled with multibyte encoding support, the encoding scheme of each database is shown as well.
Reads the large object with OID loid from the database and writes it to filename. Note that this is subtly different from the server function lo_export, which acts with the permissions of the user that the database server runs as and on the server's file system.
Tip: Use \lo_list to find out the large object's OID.
Note: See the description of the LO_TRANSACTION variable for important information concerning all large object operations.
Stores the file into a PostgreSQL "large object". Optionally, it associates the given comment with the object. Example:
foo=> \lo_import '/home/peter/pictures/photo.xcf' 'a picture of me' lo_import 152801
The response indicates that the large object received object id 152801 which one ought to remember if one wants to access the object ever again. For that reason it is recommended to always associate a human-readable comment with every object. Those can then be seen with the \lo_list command.
Note that this command is subtly different from the server-side lo_import because it acts as the local user on the local file system, rather than the server's user and file system.
Note: See the description of the LO_TRANSACTION variable for important information concerning all large object operations.
Shows a list of all PostgreSQL "large objects" currently stored in the database, along with any comments provided for them.
Deletes the large object with OID loid from the database.
Tip: Use \lo_list to find out the large object's OID.
Note: See the description of the LO_TRANSACTION variable for important information concerning all large object operations.
Saves future query results to the file filename or pipes future results into a separate Unix shell to execute command. If no arguments are specified, the query output will be reset to stdout.
"Query results" includes all tables, command responses, and notices obtained from the database server, as well as output of various backslash commands that query the database (such as \d), but not error messages.
Tip: To intersperse text output in between query results, use \qecho.
Print the current query buffer to the standard output.
This command sets options affecting the output of query result tables. parameter describes which option is to be set. The semantics of value depend thereon.
Adjustable printing options are:
Sets the output format to one of unaligned, aligned, html, or latex. Unique abbreviations are allowed. (That would mean one letter is enough.)
"Unaligned" writes all fields of a tuple on a line, separated by the currently active field separator. This is intended to create output that might be intended to be read in by other programs (tab-separated, comma-separated). "Aligned" mode is the standard, human-readable, nicely formatted text output that is default. The "HTML" and "LaTeX" modes put out tables that are intended to be included in documents using the respective mark-up language. They are not complete documents! (This might not be so dramatic in HTML, but in LaTeX you must have a complete document wrapper.)
The second argument must be a number. In general, the higher the number the more borders and lines the tables will have, but this depends on the particular format. In HTML mode, this will translate directly into the border=... attribute, in the others only values 0 (no border), 1 (internal dividing lines), and 2 (table frame) make sense.
Toggles between regular and expanded format. When expanded format is enabled, all output has two columns with the field name on the left and the data on the right. This mode is useful if the data wouldn't fit on the screen in the normal "horizontal" mode.
Expanded mode is supported by all four output modes.
The second argument is a string that should be printed whenever a field is null. The default is not to print anything, which can easily be mistaken for, say, an empty string. Thus, one might choose to write \pset null '(null)'.
Specifies the field separator to be used in unaligned output mode. That way one can create, for example, tab- or comma-separated output, which other programs might prefer. To set a tab as field separator, type \pset fieldsep '\t'. The default field separator is '|' (a "pipe" symbol).
Toggles the display of the default footer (x rows).
Specifies the record (line) separator to use in unaligned output mode. The default is a newline character.
Toggles between tuples only and full display. Full display may show extra information such as column headers, titles, and various footers. In tuples only mode, only actual table data is shown.
Sets the table title for any subsequently printed tables. This can be used to give your output descriptive tags. If no argument is given, the title is unset.
Note: This formerly only affected HTML mode. You can now set titles in any output format.
Allows you to specify any attributes to be placed inside the HTML table tag. This could for example be cellpadding or bgcolor. Note that you probably don't want to specify border here, as that is already taken care of by \pset border.
Toggles the list of a pager to do table output. If the environment variable PAGER is set, the output is piped to the specified program. Otherwise more is used.
In any case, psql only uses the pager if it seems appropriate. That means among other things that the output is to a terminal and that the table would normally not fit on the screen. Because of the modular nature of the printing routines it is not always possible to predict the number of lines that will actually be printed. For that reason psql might not appear very discriminating about when to use the pager and when not to.
Illustrations on how these different formats look can be seen in the Examples section.
Tip: There are various shortcut commands for \pset. See \a, \C, \H, \t, \T, and \x.
Note: It is an error to call \pset without arguments. In the future this call might show the current status of all printing options.
Quit the psql program.
This command is identical to \echo except that all output will be written to the query output channel, as set by \o.
Resets (clears) the query buffer.
Print or save the command line history to filename. If filename is omitted, the history is written to the standard output. This option is only available if psql is configured to use the GNU history library.
Note: In the current version, it is no longer necessary to save the command history, since that will be done automatically on program termination. The history is also loaded automatically every time psql starts up.
Sets the internal variable name to value or, if more than one value is given, to the concatenation of all of them. If no second argument is given, the variable is just set with no value. To unset a variable, use the \unset command.
Valid variable names can contain characters, digits, and underscores. See the section about psql variables for details.
Although you are welcome to set any variable to anything you want, psql treats several variables as special. They are documented in the section about variables.
Note: This command is totally separate from the SQL command SET.
Toggles the display of output column name headings and row count footer. This command is equivalent to \pset tuples_only and is provided for convenience.
Allows you to specify options to be placed within the table tag in HTML tabular output mode. This command is equivalent to \pset tableattr table_options.
Outputs the current query buffer to the file filename or pipes it to the Unix command command.
Toggles extended row format mode. As such it is equivalent to \pset expanded.
Produces a list of all tables in the database with their appropriate access permissions listed. If an argument is given it is taken as a regular expression which limits the listing to those tables which match it.
test=> \z Access permissions for database "test" Relation | Access permissions ----------+------------------------------------- my_table | {"=r","joe=arwR", "group staff=ar"} (1 row )
Read this as follows:
"=r": PUBLIC has read (SELECT) permission on the table.
"joe=arwR": User joe has read, write (UPDATE, DELETE), "append" (INSERT) permissions, and permission to create rules on the table.
"group staff=ar": Group staff has SELECT and INSERT permission.
The commands GRANT and REVOKE are used to set access permissions.
Escapes to a separate Unix shell or executes the Unix command command. The arguments are not further interpreted, the shell will see them as is.
Get help information about the backslash ("\") commands.
If so configured, psql understands both standard Unix short options, and GNU-style long options. The latter are not available on all systems.
Print all the lines to the screen as they are read. This is more useful for script processing rather than interactive mode. This is equivalent to setting the variable ECHO to all.
Switches to unaligned output mode. (The default output mode is otherwise aligned.)
Specifies that psql is to execute one query string, query, and then exit. This is useful in shell scripts.
query must be either a query string that is completely parseable by the backend (i.e., it contains no psql specific features), or it is a single backslash command. Thus you cannot mix SQL and psql meta-commands. To achieve that, you could pipe the string into psql, like this: echo "\x \\ select * from foo;" | psql.
Specifies the name of the database to connect to. This is equivalent to specifying dbname as the first non-option argument on the command line.
Show all queries that are sent to the backend. This is equivalent to setting the variable ECHO to queries.
Echoes the actual queries generated by \d and other backslash commands. You can use this if you wish to include similar functionality into your own programs. This is equivalent to setting the variable ECHO_HIDDEN from within psql.
Use the file filename as the source of queries instead of reading queries interactively. After the file is processed, psql terminates. This is in many ways equivalent to the internal command \i.
If filename is - (hyphen), then standard input is read.
Using this option is subtly different from writing psql < filename. In general, both will do what you expect, but using -f enables some nice features such as error messages with line numbers. There is also a slight chance that using this option will reduce the start-up overhead. On the other hand, the variant using the shell's input redirection is (in theory) guaranteed to yield exactly the same output that you would have gotten had you entered everything by hand.
Use separator as the field separator. This is equivalent to \pset fieldsep or \f.
Specifies the host name of the machine on which the postmaster is running. If host begins with a slash, it is used as the directory for the unix domain socket.
Turns on HTML tabular output. This is equivalent to \pset format html or the \H command.
Lists all available databases, then exits. Other non-connection options are ignored. This is similar to the internal command \list.
Put all query output into file filename. This is equivalent to the command \o.
Specifies the TCP/IP port or, by omission, the local Unix domain socket file extension on which the postmaster is listening for connections. Defaults to the value of the PGPORT environment variable or, if not set, to the port specified at compile time, usually 5432.
Allows you to specify printing options in the style of \pset on the command line. Note that here you have to separate name and value with an equal sign instead of a space. Thus to set the output format to LaTeX, you could write -P format=latex.
Specifies that psql should do its work quietly. By default, it prints welcome messages and various informational output. If this option is used, none of this happens. This is useful with the -c option. Within psql you can also set the QUIET variable to achieve the same effect.
Use separator as the record separator. This is equivalent to the \pset recordsep command.
Run in single-step mode. That means the user is prompted before each query is sent to the backend, with the option to cancel execution as well. Use this to debug scripts.
Runs in single-line mode where a newline terminates a query, as a semicolon does.
Note: This mode is provided for those who insist on it, but you are not necessarily encouraged to use it. In particular, if you mix SQL and meta-commands on a line the order of execution might not always be clear to the inexperienced user.
Turn off printing of column names and result row count footers, etc. It is completely equivalent to the \t meta-command.
Allows you to specify options to be placed within the HTML table tag. See \pset for details.
Makes psql prompt for the user name and password before connecting to the database.
This option is deprecated, as it is conceptually flawed. (Prompting for a non-default user name and prompting for a password because the backend requires it are really two different things.) You are encouraged to look at the -U and -W options instead.
Connects to the database as the user username instead of the default. (You must have permission to do so, of course.)
Performs a variable assignment, like the \set internal command. Note that you must separate name and value, if any, by an equal sign on the command line. To unset a variable, leave off the equal sign. To just set a variable without a value, use the equal sign but leave off the value. These assignments are done during a very early stage of start-up, so variables reserved for internal purposes might get overwritten later.
Shows the psql version.
Requests that psql should prompt for a password before connecting to a database. This will remain set for the entire session, even if you change the database connection with the meta-command \connect.
In the current version, psql automatically issues a password prompt whenever the backend requests password authentication. Because this is currently based on a hack, the automatic recognition might mysteriously fail, hence this option to force a prompt. If no password prompt is issued and the backend requires password authentication the connection attempt will fail.
Turns on extended row format mode. This is equivalent to the command \x.
Do not read the start-up file ~/.psqlrc.
Shows help about psql command line arguments.
psql provides variable substitution features similar to common Unix command shells. This feature is new and not very sophisticated, yet, but there are plans to expand it in the future. Variables are simply name/value pairs, where the value can be any string of any length. To set variables, use the psql meta-command \set:
testdb=> \set foo bar
sets the variable "foo" to the value "bar". To retrieve the content of the variable, precede the name with a colon and use it as the argument of any slash command:
testdb=> \echo :foo bar
Note: The arguments of \set are subject to the same substitution rules as with other commands. Thus you can construct interesting references such as \set :foo 'something' and get "soft links" or "variable variables" of Perl or PHP fame, respectively. Unfortunately (or fortunately?), there is no way to do anything useful with these constructs. On the other hand, \set bar :foo is a perfectly valid way to copy a variable.
If you call \set without a second argument, the variable is simply set, but has no value. To unset (or delete) a variable, use the command \unset.
psql's internal variable names can consist of letters, numbers, and underscores in any order and any number of them. A number of regular variables are treated specially by psql. They indicate certain option settings that can be changed at runtime by altering the value of the variable or represent some state of the application. Although you can use these variables for any other purpose, this is not recommended, as the program behavior might grow really strange really quickly. By convention, all specially treated variables consist of all upper-case letters (and possibly numbers and underscores). To ensure maximum compatibility in the future, avoid such variables. A list of all specially treated variables follows.
The name of the database you are currently connected to. This is set every time you connect to a database (including program start-up), but can be unset.
If set to "all", all lines entered or from a script are written to the standard output before they are parsed or executed. To specify this on program start-up, use the switch -a. If set to "queries", psql merely prints all queries as they are sent to the backend. The option for this is -e.
When this variable is set and a backslash command queries the database, the query is first shown. This way you can study the PostgreSQL internals and provide similar functionality in your own programs. If you set the variable to the value "noexec", the queries are just shown but are not actually sent to the backend and executed.
The current client multibyte encoding. If you are not set up to use multibyte characters, this variable will always contain "SQL_ASCII".
If this variable is set to ignorespace, lines which begin with a space are not entered into the history list. If set to a value of ignoredups, lines matching the previous history line are not entered. A value of ignoreboth combines the two options. If unset, or if set to any other value than those above, all lines read in interactive mode are saved on the history list.
Note: This feature was shamelessly plagiarized from bash.
The number of commands to store in the command history. The default value is 500.
Note: This feature was shamelessly plagiarized from bash.
The database server host you are currently connected to. This is set every time you connect to a database (including program start-up), but can be unset.
If unset, sending an EOF character (usually Control-D) to an interactive session of psql will terminate the application. If set to a numeric value, that many EOF characters are ignored before the application terminates. If the variable is set but has no numeric value, the default is 10.
Note: This feature was shamelessly plagiarized from bash.
The value of the last affected oid, as returned from an INSERT or lo_insert command. This variable is only guaranteed to be valid until after the result of the next SQL command has been displayed.
If you use the PostgreSQL large object interface to specially store data that does not fit into one tuple, all the operations must be contained in a transaction block. (See the documentation of the large object interface for more information.) Since psql has no way to tell if you already have a transaction in progress when you call one of its internal commands (\lo_export, \lo_import, \lo_unlink) it must take some arbitrary action. This action could either be to roll back any transaction that might already be in progress, or to commit any such transaction, or to do nothing at all. In the last case you must provide your own BEGIN TRANSACTION/COMMIT block or the results will be unpredictable (usually resulting in the desired action's not being performed in any case).
To choose what you want to do you set this variable to one of "rollback", "commit", or "nothing". The default is to roll back the transaction. If you just want to load one or a few objects this is fine. However, if you intend to transfer many large objects, it might be advisable to provide one explicit transaction block around all commands.
By default, if non-interactive scripts encounter an error, such as a malformed SQL query or internal meta-command, processing continues. This has been the traditional behavior of psql but it is sometimes not desirable. If this variable is set, script processing will immediately terminate. If the script was called from another script it will terminate in the same fashion. If the outermost script was not called from an interactive psql session but rather using the -f option, psql will return error code 3, to distinguish this case from fatal error conditions (error code 1).
The database server port to which you are currently connected. This is set every time you connect to a database (including program start-up), but can be unset.
These specify what the prompt psql issues is supposed to look like. See "Prompting" below.
This variable is equivalent to the command line option -q. It is probably not too useful in interactive mode.
This variable is set by the command line option -S. You can unset or reset it at run time.
This variable is equivalent to the command line option -s.
The database user you are currently connected as. This is set every time you connect to a database (including program start-up), but can be unset.
An additional useful feature of psql variables is that you can substitute ("interpolate") them into regular SQL statements. The syntax for this is again to prepend the variable name with a colon (:).
testdb=> \set foo 'my_table' testdb=> SELECT * FROM :foo;
would then query the table my_table. The value of the variable is copied literally, so it can even contain unbalanced quotes or backslash commands. You must make sure that it makes sense where you put it. Variable interpolation will not be performed into quoted SQL entities.
A popular application of this facility is to refer to the last inserted OID in subsequent statements to build a foreign key scenario. Another possible use of this mechanism is to copy the contents of a file into a field. First load the file into a variable and then proceed as above.
testdb=> \set content '\'' `cat my_file.txt` '\'' testdb=> INSERT INTO my_table VALUES (:content);
One possible problem with this approach is that my_file.txt might contain single quotes. These need to be escaped so that they don't cause a syntax error when the third line is processed. This could be done with the program sed:
testdb=> \set content '\'' `sed -e "s/'/\\\\\\'/g" < my_file.txt` '\''
Observe the correct number of backslashes (6)! You can resolve it this way: After psql has parsed this line, it passes sed -e "s/'/\\\'/g" < my_file.txt to the shell. The shell will do its own thing inside the double quotes and execute sed with the arguments -e and s/'/\\'/g. When sed parses this it will replace the two backslashes with a single one and then do the substitution. Perhaps at one point you thought it was great that all Unix commands use the same escape character. And this is ignoring the fact that you might have to escape all backslashes as well because SQL text constants are also subject to certain interpretations. In that case you might be better off preparing the file externally.
Since colons may legally appear in queries, the following rule applies: If the variable is not set, the character sequence "colon+name" is not changed. In any case you can escape a colon with a backslash to protect it from interpretation. (The colon syntax for variables is standard SQL for embedded query languages, such as ecpg. The colon syntax for array slices and type casts are PostgreSQL extensions, hence the conflict.)
The prompts psql issues can be customized to your preference. The three variables PROMPT1, PROMPT2, and PROMPT3 contain strings and special escape sequences that describe the appearance of the prompt. Prompt 1 is the normal prompt that is issued when psql requests a new query. Prompt 2 is issued when more input is expected during query input because the query was not terminated with a semicolon or a quote was not closed. Prompt 3 is issued when you run an SQL COPY command and you are expected to type in the tuples on the terminal.
The value of the respective prompt variable is printed literally, except where a percent sign ("%") is encountered. Depending on the next character, certain other text is substituted instead. Defined substitutions are:
The full hostname (with domain name) of the database server, or [local] if the connection is over a Unix domain socket, or [local:/dir/name], if the Unix domain socket is not at the compiled in default location.
The hostname of the database server, truncated after the first dot, or [local] if the connection is over a Unix domain socket.
The port number at which the database server is listening.
The username you are connected as (not your local system user name).
The name of the current database.
Like %/, but the output is "~" (tilde) if the database is your default database.
If the current user is a database superuser, then a "#", otherwise a ">".
In prompt 1 normally "=", but "^" if in single-line mode, and "!" if the session is disconnected from the database (which can happen if \connect fails). In prompt 2 the sequence is replaced by "-", "*", a single quote, or a double quote, depending on whether psql expects more input because the query wasn't terminated yet, because you are inside a /* ... */ comment, or because you are inside a quote. In prompt 3 the sequence doesn't resolve to anything.
If digits starts with 0x the rest of the characters are interpreted as a hexadecimal digit and the character with the corresponding code is substituted. If the first digit is 0 the characters are interpreted as on octal number and the corresponding character is substituted. Otherwise a decimal number is assumed.
The value of the psql, variable name. See the section "Variables" for details.
The output of command, similar to ordinary "back-tick" substitution.
To insert a percent sign into your prompt, write %%. The default prompts are equivalent to '%/%R%# ' for prompts 1 and 2, and '>> ' for prompt 3.
Note: This feature was shamelessly plagiarized from tcsh.
psql returns 0 to the shell if it finished normally, 1 if a fatal error of its own (out of memory, file not found) occurs, 2 if the connection to the backend went bad and the session is not interactive, and 3 if an error occurred in a script and the variable ON_ERROR_STOP was set.
Before starting up, psql attempts to read and execute commands from the file $HOME/.psqlrc. It could be used to set up the client or the server to taste (using the \set and SET commands).
psql supports the readline and history libraries for convenient line editing and retrieval. The command history is stored in a file named .psql_history in your home directory and is reloaded when psql starts up. Tab-completion is also supported, although the completion logic makes no claim to be an SQL parser. When available, psql is automatically built to use these features. If for some reason you do not like the tab completion, you can turn if off by putting this in a file named .inputrc in your home directory:
$if psql set disable-completion on $endif
(This is not a psql but a readline feature. Read its documentation for further details.)
If you have the readline library installed but psql does not seem to use it, you must make sure that PostgreSQL's top-level configure script finds it. configure needs to find both the library libreadline.a (or a shared library equivalent) and the header files readline.h and history.h (or readline/readline.h and readline/history.h) in appropriate directories. If you have the library and header files installed in an obscure place you must tell configure about them, for example:
$ ./configure --with-includes=/opt/gnu/include --with-libs=/opt/gnu/lib ...
Then you have to recompile psql (not necessarily the entire code tree).
The GNU readline library can be obtained from the GNU project's FTP server at ftp://ftp.gnu.org.
Note: This section only shows a few examples specific to psql. If you want to learn SQL or get familiar with PostgreSQL, you might wish to read the Tutorial that is included in the distribution.
The first example shows how to spread a query over several lines of input. Notice the changing prompt:
testdb=> CREATE TABLE my_table ( testdb(> first integer not null default 0, testdb(> second text testdb-> ); CREATE
Now look at the table definition again:
testdb=> \d my_table Table "my_table" Attribute | Type | Modifier -----------+---------+-------------------- first | integer | not null default 0 second | text |
At this point you decide to change the prompt to something more interesting:
testdb=> \set PROMPT1 '%n@%m %~%R%# ' peter@localhost testdb=>
Let's assume you have filled the table with data and want to take a look at it:
peter@localhost testdb=> SELECT * FROM my_table; first | second -------+-------- 1 | one 2 | two 3 | three 4 | four (4 rows)
You can make this table look differently by using the \pset command:
peter@localhost testdb=> \pset border 2 Border style is 2. peter@localhost testdb=> SELECT * FROM my_table; +-------+--------+ | first | second | +-------+--------+ | 1 | one | | 2 | two | | 3 | three | | 4 | four | +-------+--------+ (4 rows) peter@localhost testdb=> \pset border 0 Border style is 0. peter@localhost testdb=> SELECT * FROM my_table; first second ----- ------ 1 one 2 two 3 three 4 four (4 rows) peter@localhost testdb=> \pset border 1 Border style is 1. peter@localhost testdb=> \pset format unaligned Output format is unaligned. peter@localhost testdb=> \pset fieldsep "," Field separator is ",". peter@localhost testdb=> \pset tuples_only Showing only tuples. peter@localhost testdb=> SELECT second, first FROM my_table; one,1 two,2 three,3 four,4
Alternatively, use the short commands:
peter@localhost testdb=> \a \t \x Output format is aligned. Tuples only is off. Expanded display is on. peter@localhost testdb=> SELECT * FROM my_table; -[ RECORD 1 ]- first | 1 second | one -[ RECORD 2 ]- first | 2 second | two -[ RECORD 3 ]- first | 3 second | three -[ RECORD 4 ]- first | 4 second | four
In some earlier life psql allowed the first argument to start directly after the (single-letter) command. For compatibility this is still supported to some extent but I am not going to explain the details here as this use is discouraged. But if you get strange messages, keep this in mind. For example
testdb=> \foo Field separator is "oo",
which is perhaps not what one would expect.
psql only works smoothly with servers of the same version. That does not mean other combinations will fail outright, but subtle and not-so-subtle problems might come up.
Pressing Control-C during a "copy in" (data sent to the server) doesn't show the most ideal of behaviors. If you get a message such as "COPY state must be terminated first", simply reset the connection by entering \c - -.