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SQL::Statement::Syntax(3pm)    User Contributed Perl Documentation    SQL::Statement::Syntax(3pm)

NAME
       SQL::Statement::Syntax - documentation of SQL::Statement's SQL Syntax

SYNOPSIS
       See SQL::Statement for usage.

DESCRIPTION
       The SQL::Statement module can be used either from a DBI driver like DBD::CSV or directly.
       The syntax below applies to both situations.  In the case of DBDs, each DBD can implement
       its own sub-dialect so be sure to check the DBD documentation also.

       SQL::Statement is meant primarily as a base class for DBD drivers and as such concentrates
       on a small but useful subset of SQL.  It does *not* in any way pretend to be a complete
       SQL parser for all dialects of SQL.  The module will continue to add new supported syntax,
       and users may also extend the syntax (see "#Extending the SQL syntax").

USAGE
   Default Supported SQL syntax - Summary
       SQL Statements

          CALL <function>
          CREATE [TEMP] TABLE <table> <column_def_clause>
          CREATE [TEMP] TABLE <table> AS <select statement>
          CREATE [TEMP] TABLE <table> AS IMPORT()
          CREATE FUNCTION <user_defined_function> [ NAME <perl_subroutine> ]
          CREATE KEYWORD  <user_defined_keyword>  [ NAME <perl_subroutine> ]
          CREATE OPERATOR <user_defined_operator> [ NAME <perl_subroutine> ]
          CREATE TYPE     <user_defined_type>     [ NAME <perl_subroutine> ]
          DELETE FROM <table> [<where_clause>]
          DROP TABLE [IF EXISTS] <table>
          DROP FUNCTION <function>
          DROP KEYWORD  <keyword>
          DROP OPERATOR <operator>
          DROP TYPE     <type>
          INSERT [INTO] <table> [<column_list>] VALUES <value_list>
          LOAD <user_defined_functions_module>
          SELECT <function>
          SELECT <select_clause>
                 <from_clause>
                 [<where_clause>]
                 [ ORDER BY ocol1 [ASC|DESC], ... ocolN [ASC|DESC]] ]
                 [ GROUP BY gcol1 [, ... gcolN] ]
                 [ LIMIT [start,] length ]
          UPDATE <table> SET <set_clause> [<where_clause>]

       Explicit Join Qualifiers

          NATURAL, INNER, OUTER, LEFT, RIGHT, FULL

       Built-in Functions

          * Aggregate : MIN, MAX, AVG, SUM, COUNT
          * Date/Time : CURRENT_DATE, CURDATE, CURRENT_TIME, CURTIME, CURRENT_TIMESTAMP, NOW,
                        UNIX_TIMESTAMP
          * String    : ASCII, CHAR, BIT_LENGTH, CHARACTER_LENGTH, CHAR_LENGTH, COALESCE,
                        NVL, IFNULL, CONV, CONCAT, DECODE, HEX, OCT, BIN, INSERT, LEFT, RIGHT,
                        LOCATE, POSITION, LOWER, UPPER, LCASE, UCASE, LTRIM, RTRIM, OCTET_LENGTH,
                        REGEX, REPEAT, REPLACE, SOUNDEX, SPACE, SUBSTITUTE, SUBSTRING, SUBSTR,
                        TRANSLATE, TRIM, UNHEX
          * Numeric   : ABS, CEILING, CEIL, FLOOR, ROUND, EXP, LOG, LN, LOG10, MOD, POWER,
                        RAND, SIGN, SQRT, TRUNCATE, TRUNC
          * Trig      : ACOS, ACOSEC, ACOSECH, ACOSH, ACOT, ACOTAN, ACOTANH, ACOTH, ACSC,
                        ACSCH, ASEC, ASECH, ASIN, ASINH, ATAN, ATAN2, ATANH, COS, COSEC,
                        COSECH, COSH, COT, COTAN, COTANH, COTH, CSC, CSCH, DEG2DEG, DEG2GRAD,
                        DEG2RAD, DEGREES, GRAD2DEG, GRAD2GRAD, GRAD2RAD, PI, RAD2DEG, RAD2GRAD,
                        RAD2RAD, RADIANS, SEC, SECH, SIN, SINH, TAN, TANH
          * System    : DBNAME, USERNAME, USER

       Special Utility Functions

         * IMPORT  - imports a table from an external RDBMS or perl structure
         * RUN     - prepares and executes statements in a file of SQL statements

       Operators and Predicates

          = , <> , < , > , <= , >= , IS [NOT] (NULL|TRUE|FALSE) , LIKE , CLIKE , IN , BETWEEN

       Identifiers and Aliases

          * regular identifiers are case insensitive (though see note on table names)
          * delimited identifiers (inside double quotes) are case sensitive
          * column and table aliases are supported

       Concatenation

          * use either ANSI SQL || or the CONCAT() function
          * e.g. these are the same:  {foo || bar} {CONCAT(foo,bar)}

       Comments

          * comments must occur before or after statements, cannot be embedded
          * SQL-style single line -- and C-style multi-line /* */ comments are supported

       NULLs

          * currently NULLs and empty strings are identical in non-ANSI dialect.
          * use {col IS NULL} to find NULLs, not {col=''} (though both may work depending on dialect)

       See below for further details.

   Syntax - Details
       CREATE TABLE

       Creates permanent and in-memory tables.

        CREATE [TEMP] TABLE <table_name> ( <column_definitions> )
        CREATE [TEMP] TABLE <table_name> AS <select statement>
        CREATE [TEMP] TABLE <table_name> AS IMPORT()

       Column definitions are standard SQL column names, types, and constraints, see "Column
       Definitions".

         # create a permanent table
         #
         $dbh->do("CREATE TABLE qux (id INT PRIMARY KEY,word VARCHAR(30))");

       The "AS SELECT" clause creates and populates the new table using the data and column
       structure specified in the select statement.

         # create and populate a table from a query to two other tables
         #
         $dbh->do("CREATE TABLE qux AS SELECT id,word FROM foo NATURAL JOIN bar");

       If the optional keyword TEMP (or its synonym TEMPORARY) is used, the table will be an in-
       memory table, available  for the life of the current database handle or until  a DROP
       TABLE command is issued.

         # create a temporary table
         #
         $dbh->do("CREATE TEMP TABLE qux (id INT PRIMARY KEY,word VARCHAR(30))");

       TEMP tables can be modified with SQL commands but the updates are not automatically
       reflected back to any permanent tables they may be associated with.  To save a TEMP table
       - just use an AS SELECT clause:

        $dbh = DBI->connect( 'dbi:CSV:' );
        $dbh->do("CREATE TEMP TABLE qux_temp AS (id INT, word VARCHAR(30))");
        #
        # ... modify qux_temp with INSERT, UPDATE, DELETE statements, then save it
        #
        $dbh->do("CREATE TABLE qux_permanent AS SELECT * FROM qux_temp");

       Tables, both temporary and permanent may also be created directly from perl arrayrefs and
       from heterogeneous queries to any DBI accessible data source, see the IMPORT() function.

        CREATE [ {LOCAL|GLOBAL} TEMPORARY ] TABLE $table
               (
                  $col_1 $col_type1 $col_constraints1,
                  ...,
                  $col_N $col_typeN $col_constraintsN,
               )
               [ ON COMMIT {DELETE|PRESERVE} ROWS ]

            * col_type must be a valid data type as defined in the
              "valid_data_types" section of the dialect file for the
              current dialect

            * col_constraints may be "PRIMARY KEY" or one or both of
              "UNIQUE" and/or "NOT NULL"

            * IMPORTANT NOTE: temporary tables, data types and column
              constraints are checked for syntax violations but are
              currently otherwise *IGNORED* -- they are recognized by
              the parser, but not by the execution engine

            * The following valid ANSI SQL92 options are not currently
              supported: table constraints, named constraints, check
              constraints, reference constraints, constraint
              attributes, collations, default clauses, domain names as
              data types

       DROP TABLE

        DROP TABLE $table [ RESTRICT | CASCADE ]

            * IMPORTANT NOTE: drop behavior (cascade or restrict) is
              checked for valid syntax but is otherwise *IGNORED* -- it
              is recognized by the parser, but not by the execution
              engine

       INSERT INTO

        INSERT INTO $table [ ( $col1, ..., $colN ) ] VALUES ( $val1, ... $valN )

            * default values are not currently supported
            * inserting from a subquery is not currently supported

       DELETE FROM

        DELETE FROM $table [ WHERE search_condition ]

            * see "search_condition" below

       UPDATE

        UPDATE $table SET $col1 = $val1, ... $colN = $valN [ WHERE search_condition ]

            * default values are not currently supported
            * see "search_condition" below

       SELECT

             SELECT select_clause
               FROM from_clause
            [ WHERE search_condition ]
         [ ORDER BY $ocol1 [ASC|DESC], ... $ocolN [ASC|DESC] ]
            [ LIMIT [start,] length ]

             * select clause ::=
                    [DISTINCT|ALL] *
                  | [DISTINCT|ALL] col1 [,col2, ... colN]
                  | set_function1 [,set_function2, ... set_functionN]

             * set function ::=
                    COUNT ( [ALL] * )
                  | COUNT | MIN | MAX | AVG | SUM ( [DISTINCT|ALL] col_name )

             * from clause ::=
                    table1 [, table2, ... tableN]
                  | table1 NATURAL [join_type] JOIN table2
                  | table1 [join_type] table2 USING (col1,col2, ... colN)
                  | table1 [join_type] JOIN table2 ON table1.colA = table2.colB

             * join type ::=
                    INNER
                  | [OUTER] LEFT | RIGHT | FULL

             * if join_type is not specified, INNER is the default
             * if DISTINCT or ALL is not specified, ALL is the default
             * if start position is omitted from LIMIT clause, position 0 is
               the default
             * ON clauses may only contain equal comparisons and AND combiners
             * self-joins are not currently supported
             * if implicit joins are used, the WHERE clause must contain
               an equijoin condition for each table
             * multiple ANSI joins are not supported; use implicit joins for these
             * this also means that combinations of INNER and non-INNER joins are
               not supported

       SEARCH CONDITION

              [NOT] $val1 $op1 $val1 [ ... AND|OR $valN $opN $valN ]

       OPERATORS

              $op  = |  <> |  < | > | <= | >=
                     | IS [NOT] NULL | IS [NOT] TRUE | IS [NOT] FALSE
                     | LIKE | CLIKE | BETWEEN | IN

         The "CLIKE" operator works exactly the same as the "LIKE"
         operator, but is case insensitive.  For example:

             WHERE foo LIKE 'bar%'   # succeeds if foo is "barbaz"
                                     # fails if foo is "BARBAZ" or "Barbaz"

             WHERE foo CLIKE 'bar%'  # succeeds for "barbaz", "Barbaz", and "BARBAZ"

       BUILT-IN AND USER-DEFINED FUNCTIONS

       There are many built-in functions and you can also create your own new functions from perl
       subroutines.  See SQL::Statement::Functions for documentation of functions.

       Identifiers (table & column names)

       Regular identifiers (table and column names *without* quotes around them) are case
       INSENSITIVE so column foo, fOo, FOO all refer to the same column.  Internally they are
       used in their lower case representation, so do not rely on SQL::Statement retaining your
       case.

       Delimited identifiers (table and column names *with* quotes around them) are case
       SENSITIVE so column "foo", "fOo", "FOO" each refer to different columns.

       A delimited identifier is *never* equal to a regular identifier (so "foo" and foo are two
       different columns).  But do not do that :-).

       Remember thought that, in DBD::CSV if table names are used directly as file names, the
       case sensitivity depends on the OS e.g. on Windows files named foo, FOO, and fOo are the
       same as each other while on Unix they are different.

       Special Utility SQL Functions

       IMPORT()

       Imports the data and structure of a table from an external data source into a permanent or
       temporary table.

        $dbh->do("CREATE TABLE qux AS IMPORT(?)",{},$oracle_sth);

        $dbh->do("CREATE TABLE qux AS IMPORT(?)",{},$AoA);

        $dbh->do("CREATE TABLE qux AS IMPORT(?)",{},$AoH);

       IMPORT() can also be used anywhere that table_names can:

        $sth=$dbh->prepare("
           SELECT * FROM IMPORT(?) AS T1 NATURAL JOIN IMPORT(?) AS T2 WHERE T1.id ...
        ");
        $sth->execute( $pg_sth, $mysql_sth );

       The IMPORT() function imports the data and structure of a table from an external data
       source.  The IMPORT() function is always used with a placeholder parameter which may be 1)
       a prepared and executed statement handle for any DBI accessible data source;  or 2) an AoA
       whose first row is column names and whose succeeding rows are data 3) an AoH.

       The IMPORT() function may be used in the AS clause of a CREATE statement, and in the FROM
       clause of any statement.  When used in a FROM clause, it should be used with a column
       alias e.g. SELECT * FROM IMPORT(?) AS TableA WHERE ...

       You can also write your own IMPORT() functions to treat anything as a data source.  See
       User-Defined Function in SQL::Statement::Functions.

       Examples:

        # create a CSV file from an Oracle query
        #
        $dbh = DBI->connect('dbi:CSV:');
        $oracle_sth = $oracle_dbh->prepare($any_oracle_query);
        $oracle_sth->execute(@params);
        $dbh->do("CREATE TABLE qux AS IMPORT(?)",{},$oracle_sth);

        # create an in-memory table from an AoA
        #
        $dbh      = DBI->connect( 'dbi:File:' );
        $arrayref = [['id','word'],[1,'foo'],[2,'bar'],];
        $dbh->do("CREATE TEMP TABLE qux AS IMPORT(?)",{},$arrayref);

        # query a join of a PostgreSQL table and a MySQL table
        #
        $dbh        = DBI->connect( 'dbi:File:' );
        $pg_dbh     = DBI->connect( ... DBD::pg connect params );
        $mysql_dbh  = DBI->connect( ... DBD::mysql connect params );
        $pg_sth     = $pg_dbh->prepare( ... any pg query );
        $pg_sth     = $pg_dbh->prepare( ... any mysql query );
        #
        $sth=$dbh->prepare("
           SELECT * FROM IMPORT(?) AS T1 NATURAL JOIN IMPORT(?) AS T2
        ");
        $sth->execute( $pg_sth, $mysql_sth );

       RUN()

       Run SQL statements from a user supplied file.  Please Note: this function is experimental,
       please let me know if you have problems.

        RUN( sql_file )

       If the file contains non-SELECT statements such as CREATE and INSERT, use the RUN()
       function with $dbh->do().  For example, this prepares and executes all of the SQL
       statements in a file called "populate.sql":

        $dbh->do(" CALL RUN( 'populate.sql') ");

       If the file contains SELECT statements, the RUN() function may be used anywhere a table
       name may be used, for example, if you have a file called "query.sql" containing "SELECT *
       FROM Employee", then these two lines are exactly the same:

        my $sth = $dbh->prepare(" SELECT * FROM Employee ");

        my $sth = $dbh->prepare(" SELECT * FROM RUN( 'query.sql' ) ");

       If the file contains a statement with placeholders, the values for the placeholders can be
       passed in the call to $sth->execute() as normal. If the query.sql file contains "SELECT
       id,name FROM x WHERE id=?", then these two are the same:

        my $sth = $dbh->prepare(" SELECT id,name FROM x WHERE id=?");
        $sth->execute(64);

        my $sth = $dbh->prepare(" SELECT * FROM RUN( 'query.sql' ) ");
        $sth->execute(64);

       Note This function assumes that the SQL statements in the file are separated by a
       semi-colon+newline combination (/;\n/).  If you wish to use different separators or import
       SQL from a different source, just override the RUN() function with your own user-defined-
       function.

   Further details
       Integers
       Reals   Syntax obvious

       Strings Surrounded by either single quotes; some characters need to be escaped with a
               backslash, in particular the backslash itself (\\), the NULL byte (\0), Line feeds
               (\n), Carriage return (\r), and the quotes (\').

               Note: Quoting "Strings" using double quotes are recognized as quoted identifiers
               (column or table names).

       Parameters
               Parameters represent scalar values, like Integers, Reals and Strings do. However,
               their values are read inside Execute() and not inside Prepare(). Parameters are
               represented by question marks (?).

       Identifiers
               Identifiers are table or column names. Syntactically they consist of alphabetic
               characters, followed by an arbitrary number of alphanumeric characters.
               Identifiers like SELECT, INSERT, INTO, ORDER, BY, WHERE, ... are forbidden and
               reserved for other tokens.  Identifiers are always compared case-insensitively,
               i.e. "select foo from bar" will be evaluated the same as "SELECT FOO FROM BAR"
               ("FOO" will be evaluated as "foo", similar for "BAR").

               Since SQL::Statement is internally using lower cased identifiers (unquoted),
               everytime a wildcard is used, the delivered names of the identifiers are lower
               cased.

Extending SQL syntax using SQL
       The Supported SQL syntax shown above is the default for SQL::Statement but it can be
       extended (or contracted) either on-the-fly or on a permanent basis.  In other words, you
       can modify the SQL syntax accepted as valid by the parser and accepted as executable by
       the executer.  There are two methods for extending the syntax - 1) with SQL commands that
       can be issued directly in SQL::Statement or form a DBD or 2) by subclassing SQL::Parser.

       The following SQL commands modify the default SQL syntax:

         CREATE/DROP FUNCTION
         CREATE/DROP KEYWORD
         CREATE/DROP TYPE
         CREATE/DROP OPERATOR

       A simple example would be a situation in which you have a table named 'TABLE'.  Since
       table is an ANSI reserved key word, by default SQL::Statement will produce an error when
       you attempt to create or access it.  You could put the table name inside double quotes
       since quoted identifiers can validly be reserved words, or you could rename the table.  If
       neither of those are options, you would do this:

         DROP KEYWORD table

       Once that statement is issued, the parser will no longer object to 'table' as a table
       name.  Careful though, if you drop too many keywords you may confuse the parser,
       especially keywords like FROM and WHERE that are central to parsing the statement.

       In the reverse situation, suppose you want to parse some SQL that defines a column as type
       BIG_BLOB.  Since 'BIG_BLOB' is not a recognized ANSI data type, an error will be produced
       by default.  To make the parser treat it as a valid data type, you do this:

        CREATE TYPE big_blob

       Keywords and types are case-insensitive.

       Suppose you are working with some SQL that contains the cosh() function (an Oracle
       function for hyperbolic cosine, whatever that is :-).  The cosh() function is not
       currently implemented in SQL::Statement so the parser would die with an error.  But you
       can easily trick the parser into accepting the function:

        CREATE FUNCTION cosh

       Once the parser has read that CREATE FUNCTION statement, it will no longer object to the
       use of the cosh() function in SQL statements.

       If your only interest is in parsing SQL statements, then "CREATE FUNCTION cosh" is
       sufficient.  But if you actually want to be able to use the cosh() function in executable
       statements, you need to supply a perl subroutine that performs the cosh() function:

         CREATE FUNCTION cosh AS perl_subroutine_name

       The subroutine name can refer to a subroutine in your current script, or to a subroutine
       in any available package.  See SQL::Statement::Functions for details of how to create and
       load functions.

       Functions can be used as  predicates in search clauses, for example:

        SELECT * FROM x WHERE c1=7 AND SOUNDEX(c3,'foo') AND c8='bar'

       In the SQL above, the "SOUNDEX()" function full predicate - it plays the same role as
       "c1=7 or c8='bar'".

       Functions can also serve as predicate operators.  An operator, unlike a full predicate,
       has something on the left and right sides.  An equal sign is an operator, so is LIKE.  If
       you really want to you can get the parser to not accept LIKE as an operator with

        DROP OPERATOR like

       Or, you can invent your own operator.  Suppose you have an operator "REVERSE_OF" that is
       true if the string on its left side when reversed is equal to the string on the right
       side:

         CREATE OPERATOR reverse_of
         SELECT * FROM x WHERE c1=7 AND c3 REVERSE_OF 'foo'

       The operator could just as well have been written as a function:

         CREATE FUNCTION reverse_of
         SELECT * FROM x WHERE c1=7 AND REVERSE_OF(c3,'foo')

       Like functions, if you want to actually execute a user-defined operator as distinct from
       just parsing it, you need to assign the operator to a perl subroutine.  This is done
       exactly like assigning functions:

         CREATE OPERATOR reverse_of AS perl_subroutine_name

Extending SQL syntax using subclasses
       In addition to using the SQL shown above to modify the parser's behavior, you can also
       extend the SQL syntax by subclassing SQL::Parser.  See SQL::Parser for details.

AUTHOR & COPYRIGHT
       Copyright (c) 2005, Jeff Zucker <jzuckerATcpan.org>, all rights reserved.  Copyright (c)
       2009-2020, Jens Rehsack <rehsackATcpan.org>, all rights reserved.

       This document may be freely modified and distributed under the same terms as Perl itself.

perl v5.30.3                                2020-10-23                SQL::Statement::Syntax(3pm)

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