-
+
-
+
<application>PL/pgSQL</application> - <acronym>SQL</acronym> Procedural Language
A label is only needed if you want to
- identify the block for use
+ identify the block for use
in an EXIT statement, or to qualify the names of the
variables declared in the block. If a label is given after
END, it must match the label at the block's beginning.
All variables used in a block must be declared in the
- declarations section of the block.
- (The only exception is that the loop variable of a FOR loop
+ declarations section of the block.
+ (The only exceptions are that the loop variable of a FOR loop
iterating over a range of integer values is automatically declared as an
- integer variable.)
+ integer variable, and likewise the loop variable of a FOR loop
+ iterating over a cursor's result is automatically declared as a
+ record variable.)
The DEFAULT clause, if given, specifies the initial value assigned
to the variable when the block is entered. If the DEFAULT clause
is not given then the variable is initialized to the
The CONSTANT option prevents the variable from being assigned to,
so that its value remains constant for the duration of the block.
If NOT NULL
data type, or the variable has a specific size/precision
(like char(20)), the result value will be implicitly
converted by the
PL/pgSQL interpreter using
- the result type's output-function and
+ the result type's output-function and
the variable type's input-function. Note that this could potentially
result in run-time errors generated by the input function, if the
string form of the result value is not acceptable to the input function.
If the STRICT option is given, an error is reported
unless the query produces exactly one row.
-
+
The command string can use parameter values, which are referenced
in the command as $1, $2, etc.
An EXECUTE with a simple constant command string and some
USING parameters, as in the first example above, is
- functionally equivalent to just writing the command directly in
-
PL/pgSQL and allowing replacement of
+ functionally equivalent to just writing the command directly in
+
PL/pgSQL and allowing replacement of
PL/pgSQL variables to happen automatically.
The important difference is that EXECUTE will re-plan
the command on each execution, generating a plan that is specific
not deliver unintended results. For example the WHERE clause
'WHERE key = ' || quote_nullable(keyvalue)
-
+
will never succeed if keyvalue is null, because the
result of using the equality operator = with a null operand
is always null. If you wish null to work like an ordinary key value,
- A SELECT INTO statement sets
- FOUND true if a row is assigned, false if no
- row is returned.
+ A SELECT INTO statement sets
+ FOUND true if a row is assigned, false if no
+ row is returned.
- A PERFORM statement sets FOUND
- true if it produces (and discards) one or more rows, false if
- no row is produced.
+ A PERFORM statement sets FOUND
+ true if it produces (and discards) one or more rows, false if
+ no row is produced.
- UPDATE, INSERT, and DELETE
- statements set FOUND true if at least one
- row is affected, false if no row is affected.
+ UPDATE, INSERT, and DELETE
+ statements set FOUND true if at least one
+ row is affected, false if no row is affected.
- A FETCH statement sets FOUND
- true if it returns a row, false if no row is returned.
+ A FETCH statement sets FOUND
+ true if it returns a row, false if no row is returned.
- A MOVE statement sets FOUND
- true if it successfully repositions the cursor, false otherwise.
+ A MOVE statement sets FOUND
+ true if it successfully repositions the cursor, false otherwise.
- A FOR statement sets FOUND true
- if it iterates one or more times, else false. This applies to
- all three variants of the FOR statement (integer
- FOR loops, record-set FOR loops, and
- dynamic record-set FOR
- loops). FOUND is set this way when the
- FOR loop exits; inside the execution of the loop,
- FOUND is not modified by the
- FOR statement, although it might be changed by the
- execution of other statements within the loop body.
+ A FOR statement sets FOUND true
+ if it iterates one or more times, else false. This applies to
+ all four variants of the FOR statement (integer
+ FOR loops, record-set FOR loops,
+ dynamic record-set FOR loops, and cursor
+ FOR loops).
+ FOUND is set this way when the
+ FOR loop exits; inside the execution of the loop,
+ FOUND is not modified by the
+ FOR statement, although it might be changed by the
+ execution of other statements within the loop body.
important) part of
PL/pgSQL. With PL/pgSQL's control structures,
you can manipulate
PostgreSQL data in a very- flexible and powerful way.
+ flexible and powerful way.
-IF v_count > 0 THEN
+IF v_count > 0 THEN
INSERT INTO users_count (count) VALUES (v_count);
RETURN 't';
ELSE
IF number = 0 THEN
result := 'zero';
-ELSIF number > 0 THEN
+ELSIF number > 0 THEN
result := 'positive';
ELSIF number < 0 THEN
result := 'negative';
-- some computations
EXIT WHEN count > 100;
CONTINUE WHEN count < 50;
- -- some computations for count IN [50 .. 100]
+ -- some computations for count IN [50 .. 100]
END LOOP;
This form of FOR creates a loop that iterates over a range
- of integer values. The variable
+ of integer values. The variable
name is automatically defined as type
integer and exists only inside the loop (any existing
definition of the variable name is ignored within the loop).
The two expressions giving
the lower and upper bound of the range are evaluated once when entering
- the loop. If the BY clause isn't specified the iteration
- step is 1, otherwise it's the value specified in the BY
+ the loop. If the BY clause isn't specified the iteration
+ step is 1, otherwise it's the value specified in the BY
clause, which again is evaluated once on loop entry.
- If REVERSE is specified then the step value is
+ If REVERSE is specified then the step value is
subtracted, rather than added, after each iteration.
rows:
<<label>>
-FOR target IN EXECUTE text_expression USING expression , ... LOOP
+FOR target IN EXECUTE text_expression USING expression , ... LOOP
statements
END LOOP label ;
As with EXECUTE, parameter values can be inserted
into the dynamic command via USING.
+
+ Another way to specify the query whose results should be iterated
+ through is to declare it as a cursor. This is described in
+ .
+
cursor variables while the third uses a bound cursor variable.
+
+ Bound cursors can also be used without explicitly opening them,
+ via the FOR statement described in
+ .
+
+
+
<command>OPEN FOR</command> <replaceable>query</replaceable>
BEGIN;
SELECT reffunc2();
- reffunc2
+ reffunc2
--------------------
<unnamed cursor 1>
(1 row)
+
+
+
Looping Through a Cursor's Result
+
+ There is a variant of the FOR statement that allows
+ iterating through the rows returned by a cursor. The syntax is:
+
+
+ <<label>>
+FOR recordvar IN bound_cursor ( argument_values ) LOOP
+ statements
+END LOOP label ;
+
+
+ The cursor variable must have been bound to some query when it was
+ declared, and it cannot be open already. The
+ FOR statement automatically opens the cursor, and it closes
+ the cursor again when the loop exits. A list of actual argument value
+ expressions must appear if and only if the cursor was declared to take
+ arguments. These values will be substituted in the query, in just
+ the same way as during an OPEN.
+ The variable recordvar is automatically
+ defined as type record and exists only inside the loop (any
+ existing definition of the variable name is ignored within the loop).
+ Each row returned by the cursor is successively assigned to this
+ record variable and the loop body is executed.
+
+
+
Inside the format string, % is replaced by the
next optional argument's string representation. Write
- %% to emit a literal %.
- Arguments can be simple variables or expressions,
+ %% to emit a literal %.
+ Arguments can be simple variables or expressions,
but the format must be a simple string literal.
When a
PL/pgSQL function is called as a
- trigger, several special variables are created automatically in the
+ trigger, several special variables are created automatically in the
top-level block. They are:
TG_WHEN
- Data type text; a string of either
+ Data type text; a string of either
BEFORE or AFTER
depending on the trigger's definition.
Data type name; the name of the table that caused the trigger
- invocation. This is now deprecated, and could disappear in a future
+ invocation. This is now deprecated, and could disappear in a future
release. Use TG_TABLE_NAME instead.
TG_TABLE_NAME
- Data type name; the name of the table that
+ Data type name; the name of the table that
caused the trigger invocation.
TG_TABLE_SCHEMA
- Data type name; the name of the schema of the
+ Data type name; the name of the schema of the
table that caused the trigger invocation.
trigger manager to skip the rest of the operation for this row
(i.e., subsequent triggers are not fired, and the
INSERT/UPDATE/DELETE does not occur
- for this row). If a nonnull
+ for this row). If a nonnull
value is returned then the operation proceeds with that row value.
Returning a row value different from the original value
of NEW alters the row that will be inserted or updated
This example trigger ensures that any insert, update or delete of a row
- in the emp table is recorded (i.e., audited) in the emp_audit table.
- The current time and user name are stamped into the row, together with
+ in the emp table is recorded (i.e., audited) in the emp_audit table.
+ The current time and user name are stamped into the row, together with
the type of operation performed on it.
salary integer
);
-CREATE TABLE emp_audit(
+CREATE TABLE emp_audit(
operation char(1) NOT NULL,
stamp timestamp NOT NULL,
userid text NOT NULL,
One use of triggers is to maintain a summary table
- of another table. The resulting summary can be used in place of the
- original table for certain queries — often with vastly reduced run
+ of another table. The resulting summary can be used in place of the
+ original table for certain queries — often with vastly reduced run
times.
This technique is commonly used in Data Warehousing, where the tables
of measured or observed data (called fact tables) might be extremely large.
The schema detailed here is partly based on the Grocery Store
- example from The Data Warehouse Toolkit
+ example from The Data Warehouse Toolkit
by Ralph Kimball.
ELSIF (TG_OP = 'UPDATE') THEN
-- forbid updates that change the time_key -
- -- (probably not too onerous, as DELETE + INSERT is how most
+ -- (probably not too onerous, as DELETE + INSERT is how most
-- changes will be made).
IF ( OLD.time_key != NEW.time_key) THEN
RAISE EXCEPTION 'Update of time_key : % -> % not allowed', OLD.time_key, NEW.time_key;
amount_cost = amount_cost + delta_amount_cost
WHERE time_key = delta_time_key;
- EXIT insert_update WHEN found;
+ EXIT insert_update WHEN found;
BEGIN
INSERT INTO sales_summary_bytime (
- time_key,
- amount_sold,
- units_sold,
+ time_key,
+ amount_sold,
+ units_sold,
amount_cost)
- VALUES (
+ VALUES (
delta_time_key,
delta_amount_sold,
delta_units_sold,
The
PL/pgSQL interpreter parses the function's source text and produces an internal binary instruction tree the first time the
function is called (within each session). The instruction tree
- fully translates the
+ fully translates the
PL/pgSQL statement structure, but individual
SQL expressions and
SQL commands
used in the function are not translated immediately.
start a new database session so that populate()
will be compiled afresh, before it will work again. You can avoid
this problem by using CREATE OR REPLACE FUNCTION
- when updating the definition of
+ when updating the definition of
my_function, since when a function is
replaced
, its OID is not changed.
- In the case of logfunc2, the
+ In the case of logfunc2, the
PostgreSQL main parser does not know
- what type 'now' should become and therefore
- it returns a data value of type text containing the string
+ what type 'now' should become and therefore
+ it returns a data value of type text containing the string
now. During the ensuing assignment
to the local variable curtime, the
PL/pgSQL interpreter casts this
.
For example:
-a_output := a_output || '' if v_'' ||
- referrer_keys.kind || '' like ''''''''''
- || referrer_keys.key_string || ''''''''''
- then return '''''' || referrer_keys.referrer_type
- || ''''''; end if;'';
+a_output := a_output || '' if v_'' ||
+ referrer_keys.kind || '' like ''''''''''
+ || referrer_keys.key_string || ''''''''''
+ then return '''''' || referrer_keys.referrer_type
+ || ''''''; end if;'';
The value of a_output would then be:
a_output := a_output || $$ if v_$$ || referrer_keys.kind || $$ like '$$
|| referrer_keys.key_string || $$'
- then return '$$ || referrer_keys.referrer_type
- || $$'; end if;$$;
+ then return '$$ || referrer_keys.referrer_type
+ || $$'; end if;$$;
where we assume we only need to put single quote marks into
a_output, because it will be re-quoted before use.
-
- No need for cursors in
PL/pgSQL, just put the- query in the
FOR statement. (See
- linkend="plpgsql-porting-ex2">.)
-
-
-
In
PostgreSQL the function body must be written as
Since there are no packages, there are no package-level variables
- either. This is somewhat annoying. You can keep per-session state
+ either. This is somewhat annoying. You can keep per-session state
in temporary tables instead.
+
+ FOR loops over queries (other than cursors) also work
+ differently: the target variable(s) must have been declared,
+ whereas
PL/SQL always declares them implicitly.+ An advantage of this is that the variable values are still accessible
+ after the loop exits.
+
+
+
+
+ There are various notational differences for the use of cursor
+ variables.
+
+
+
The following procedure grabs rows from a
SELECT statement and builds a large function
with the results in IF statements, for the
- sake of efficiency. Notice particularly the differences in the
- cursor and the FOR loop.
+ sake of efficiency.
This is the Oracle version:
CREATE OR REPLACE PROCEDURE cs_update_referrer_type_proc IS
- CURSOR referrer_keys IS
- SELECT * FROM cs_referrer_keys
+ CURSOR referrer_keys IS
+ SELECT * FROM cs_referrer_keys
ORDER BY try_order;
-
- func_cmd VARCHAR(4000);
-BEGIN
+ func_cmd VARCHAR(4000);
+BEGIN
func_cmd := 'CREATE OR REPLACE FUNCTION cs_find_referrer_type(v_host IN VARCHAR,
- v_domain IN VARCHAR, v_url IN VARCHAR) RETURN VARCHAR IS BEGIN';
+ v_domain IN VARCHAR, v_url IN VARCHAR) RETURN VARCHAR IS BEGIN';
- FOR referrer_key IN referrer_keys LOOP
+ FOR referrer_key IN referrer_keys LOOP
func_cmd := func_cmd ||
' IF v_' || referrer_key.kind
|| ' LIKE ''' || referrer_key.key_string
|| ''' THEN RETURN ''' || referrer_key.referrer_type
- || '''; END IF;';
- END LOOP;
+ || '''; END IF;';
+ END LOOP;
- func_cmd := func_cmd || ' RETURN NULL; END;';
+ func_cmd := func_cmd || ' RETURN NULL; END;';
- EXECUTE IMMEDIATE func_cmd;
-END;
-/
+ EXECUTE IMMEDIATE func_cmd;
+END;
+/
show errors;
CREATE OR REPLACE FUNCTION cs_update_referrer_type_proc() RETURNS void AS $func$
DECLARE
- referrer_key RECORD; -- declare a generic record to be used in a FOR
+ CURSOR referrer_keys IS
+ SELECT * FROM cs_referrer_keys
+ ORDER BY try_order;
func_body text;
func_cmd text;
-BEGIN
+BEGIN
func_body := 'BEGIN';
- -- Notice how we scan through the results of a query in a FOR loop
- -- using the FOR <record> construct.
-
- FOR referrer_key IN SELECT * FROM cs_referrer_keys ORDER BY try_order LOOP
+ FOR referrer_key IN referrer_keys LOOP
func_body := func_body ||
' IF v_' || referrer_key.kind
|| ' LIKE ' || quote_literal(referrer_key.key_string)
|| ' THEN RETURN ' || quote_literal(referrer_key.referrer_type)
|| '; END IF;' ;
- END LOOP;
+ END LOOP;
func_body := func_body || ' RETURN NULL; END;';
func_cmd :=
'CREATE OR REPLACE FUNCTION cs_find_referrer_type(v_host varchar,
v_domain varchar,
- v_url varchar)
+ v_url varchar)
RETURNS varchar AS '
|| quote_literal(func_body)
|| ' LANGUAGE plpgsql;' ;
--
-- instr functions that mimic Oracle's counterpart
-- Syntax: instr(string1, string2, [n], [m]) where [] denotes optional parameters.
---
+--
-- Searches string1 beginning at the nth character for the mth occurrence
-- of string2. If n is negative, search backwards. If m is not passed,
-- assume 1 (search starts at first character).
*
*
* IDENTIFICATION
- * $PostgreSQL: pgsql/src/pl/plpgsql/src/gram.y,v 1.109 2008/04/01 03:51:09 tgl Exp $
+ * $PostgreSQL: pgsql/src/pl/plpgsql/src/gram.y,v 1.110 2008/04/06 23:43:29 tgl Exp $
*
*-------------------------------------------------------------------------
*/
static char *check_label(const char *yytxt);
static void check_labels(const char *start_label,
const char *end_label);
+static PLpgSQL_expr *read_cursor_args(PLpgSQL_var *cursor,
+ int until, const char *expected);
%}
new->body = $4.stmts;
$$ = (PLpgSQL_stmt *) new;
}
- else if ($3->cmd_type == PLPGSQL_STMT_FORS)
- {
- PLpgSQL_stmt_fors *new;
-
- new = (PLpgSQL_stmt_fors *) $3;
- new->label = $1;
- new->body = $4.stmts;
- $$ = (PLpgSQL_stmt *) new;
- }
else
{
- PLpgSQL_stmt_dynfors *new;
+ PLpgSQL_stmt_forq *new;
- Assert($3->cmd_type == PLPGSQL_STMT_DYNFORS);
- new = (PLpgSQL_stmt_dynfors *) $3;
+ Assert($3->cmd_type == PLPGSQL_STMT_FORS ||
+ $3->cmd_type == PLPGSQL_STMT_FORC ||
+ $3->cmd_type == PLPGSQL_STMT_DYNFORS);
+ /* forq is the common supertype of all three */
+ new = (PLpgSQL_stmt_forq *) $3;
new->label = $1;
new->body = $4.stmts;
$$ = (PLpgSQL_stmt *) new;
{
int tok = yylex();
- /* Simple case: EXECUTE is a dynamic FOR loop */
if (tok == K_EXECUTE)
{
+ /* EXECUTE means it's a dynamic FOR loop */
PLpgSQL_stmt_dynfors *new;
PLpgSQL_expr *expr;
int term;
$$ = (PLpgSQL_stmt *) new;
}
+ else if (tok == T_SCALAR &&
+ yylval.scalar->dtype == PLPGSQL_DTYPE_VAR &&
+ ((PLpgSQL_var *) yylval.scalar)->datatype->typoid == REFCURSOROID)
+ {
+ /* It's FOR var IN cursor */
+ PLpgSQL_stmt_forc *new;
+ PLpgSQL_var *cursor = (PLpgSQL_var *) yylval.scalar;
+ char *varname;
+
+ new = (PLpgSQL_stmt_forc *) palloc0(sizeof(PLpgSQL_stmt_forc));
+ new->cmd_type = PLPGSQL_STMT_FORC;
+ new->lineno = $1;
+
+ new->curvar = cursor->varno;
+
+ /* Should have had a single variable name */
+ plpgsql_error_lineno = $2.lineno;
+ if ($2.scalar && $2.row)
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("cursor FOR loop must have just one target variable")));
+
+ /* create loop's private RECORD variable */
+ plpgsql_convert_ident($2.name, &varname, 1);
+ new->rec = plpgsql_build_record(varname,
+ $2.lineno,
+ true);
+
+ /* can't use an unbound cursor this way */
+ if (cursor->cursor_explicit_expr == NULL)
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("cursor FOR loop must use a bound cursor variable")));
+
+ /* collect cursor's parameters if any */
+ new->argquery = read_cursor_args(cursor,
+ K_LOOP,
+ "LOOP");
+
+ $$ = (PLpgSQL_stmt *) new;
+ }
else
{
PLpgSQL_expr *expr1;
}
else
{
- if ($3->cursor_explicit_argrow >= 0)
- {
- char *cp;
-
- tok = yylex();
- if (tok != '(')
- {
- plpgsql_error_lineno = plpgsql_scanner_lineno();
- ereport(ERROR,
- (errcode(ERRCODE_SYNTAX_ERROR),
- errmsg("cursor \"%s\" has arguments",
- $3->refname)));
- }
-
- /*
- * Push back the '(', else read_sql_stmt
- * will complain about unbalanced parens.
- */
- plpgsql_push_back_token(tok);
-
- new->argquery = read_sql_stmt("SELECT ");
-
- /*
- * Now remove the leading and trailing parens,
- * because we want "select 1, 2", not
- * "select (1, 2)".
- */
- cp = new->argquery->query;
-
- if (strncmp(cp, "SELECT", 6) != 0)
- {
- plpgsql_error_lineno = plpgsql_scanner_lineno();
- /* internal error */
- elog(ERROR, "expected \"SELECT (\", got \"%s\"",
- new->argquery->query);
- }
- cp += 6;
- while (*cp == ' ') /* could be more than 1 space here */
- cp++;
- if (*cp != '(')
- {
- plpgsql_error_lineno = plpgsql_scanner_lineno();
- /* internal error */
- elog(ERROR, "expected \"SELECT (\", got \"%s\"",
- new->argquery->query);
- }
- *cp = ' ';
-
- cp += strlen(cp) - 1;
-
- if (*cp != ')')
- yyerror("expected \")\"");
- *cp = '\0';
- }
- else
- {
- tok = yylex();
- if (tok == '(')
- {
- plpgsql_error_lineno = plpgsql_scanner_lineno();
- ereport(ERROR,
- (errcode(ERRCODE_SYNTAX_ERROR),
- errmsg("cursor \"%s\" has no arguments",
- $3->refname)));
- }
-
- if (tok != ';')
- {
- plpgsql_error_lineno = plpgsql_scanner_lineno();
- ereport(ERROR,
- (errcode(ERRCODE_SYNTAX_ERROR),
- errmsg("syntax error at \"%s\"",
- yytext)));
- }
- }
+ /* predefined cursor query, so read args */
+ new->argquery = read_cursor_args($3, ';', ";");
}
$$ = (PLpgSQL_stmt *)new;
}
}
+/*
+ * Read the arguments (if any) for a cursor, followed by the until token
+ *
+ * If cursor has no args, just swallow the until token and return NULL.
+ * If it does have args, we expect to see "( expr [, expr ...] )" followed
+ * by the until token. Consume all that and return a SELECT query that
+ * evaluates the expression(s) (without the outer parens).
+ */
+static PLpgSQL_expr *
+read_cursor_args(PLpgSQL_var *cursor, int until, const char *expected)
+{
+ PLpgSQL_expr *expr;
+ int tok;
+ char *cp;
+
+ tok = yylex();
+ if (cursor->cursor_explicit_argrow < 0)
+ {
+ /* No arguments expected */
+ if (tok == '(')
+ {
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("cursor \"%s\" has no arguments",
+ cursor->refname)));
+ }
+
+ if (tok != until)
+ {
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("syntax error at \"%s\"",
+ yytext)));
+ }
+
+ return NULL;
+ }
+
+ /* Else better provide arguments */
+ if (tok != '(')
+ {
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("cursor \"%s\" has arguments",
+ cursor->refname)));
+ }
+
+ /*
+ * Push back the '(', else plpgsql_read_expression
+ * will complain about unbalanced parens.
+ */
+ plpgsql_push_back_token(tok);
+
+ expr = plpgsql_read_expression(until, expected);
+
+ /*
+ * Now remove the leading and trailing parens,
+ * because we want "SELECT 1, 2", not "SELECT (1, 2)".
+ */
+ cp = expr->query;
+
+ if (strncmp(cp, "SELECT", 6) != 0)
+ {
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ /* internal error */
+ elog(ERROR, "expected \"SELECT (\", got \"%s\"", expr->query);
+ }
+ cp += 6;
+ while (*cp == ' ') /* could be more than 1 space here */
+ cp++;
+ if (*cp != '(')
+ {
+ plpgsql_error_lineno = plpgsql_scanner_lineno();
+ /* internal error */
+ elog(ERROR, "expected \"SELECT (\", got \"%s\"", expr->query);
+ }
+ *cp = ' ';
+
+ cp += strlen(cp) - 1;
+
+ if (*cp != ')')
+ yyerror("expected \")\"");
+ *cp = '\0';
+
+ return expr;
+}
+
+
/* Needed to avoid conflict between different prefix settings: */
#undef yylex
*
*
* IDENTIFICATION
- * $PostgreSQL: pgsql/src/pl/plpgsql/src/pl_comp.c,v 1.123 2008/03/27 03:57:34 tgl Exp $
+ * $PostgreSQL: pgsql/src/pl/plpgsql/src/pl_comp.c,v 1.124 2008/04/06 23:43:29 tgl Exp $
*
*-------------------------------------------------------------------------
*/
errhint("You probably want to use TG_NARGS and TG_ARGV instead.")));
/* Add the record for referencing NEW */
- rec = palloc0(sizeof(PLpgSQL_rec));
- rec->dtype = PLPGSQL_DTYPE_REC;
- rec->refname = pstrdup("new");
- rec->tup = NULL;
- rec->tupdesc = NULL;
- rec->freetup = false;
- plpgsql_adddatum((PLpgSQL_datum *) rec);
- plpgsql_ns_additem(PLPGSQL_NSTYPE_REC, rec->recno, rec->refname);
+ rec = plpgsql_build_record("new", 0, true);
function->new_varno = rec->recno;
/* Add the record for referencing OLD */
- rec = palloc0(sizeof(PLpgSQL_rec));
- rec->dtype = PLPGSQL_DTYPE_REC;
- rec->refname = pstrdup("old");
- rec->tup = NULL;
- rec->tupdesc = NULL;
- rec->freetup = false;
- plpgsql_adddatum((PLpgSQL_datum *) rec);
- plpgsql_ns_additem(PLPGSQL_NSTYPE_REC, rec->recno, rec->refname);
+ rec = plpgsql_build_record("old", 0, true);
function->old_varno = rec->recno;
/* Add the variable tg_name */
}
case PLPGSQL_TTYPE_REC:
{
- /*
- * "record" type -- build a variable-contents record variable
- */
+ /* "record" type -- build a record variable */
PLpgSQL_rec *rec;
- rec = palloc0(sizeof(PLpgSQL_rec));
- rec->dtype = PLPGSQL_DTYPE_REC;
- rec->refname = pstrdup(refname);
- rec->lineno = lineno;
-
- plpgsql_adddatum((PLpgSQL_datum *) rec);
- if (add2namespace)
- plpgsql_ns_additem(PLPGSQL_NSTYPE_REC,
- rec->recno,
- refname);
+ rec = plpgsql_build_record(refname, lineno, add2namespace);
result = (PLpgSQL_variable *) rec;
break;
}
return result;
}
+/*
+ * Build empty named record variable, and optionally add it to namespace
+ */
+PLpgSQL_rec *
+plpgsql_build_record(const char *refname, int lineno, bool add2namespace)
+{
+ PLpgSQL_rec *rec;
+
+ rec = palloc0(sizeof(PLpgSQL_rec));
+ rec->dtype = PLPGSQL_DTYPE_REC;
+ rec->refname = pstrdup(refname);
+ rec->lineno = lineno;
+ rec->tup = NULL;
+ rec->tupdesc = NULL;
+ rec->freetup = false;
+ plpgsql_adddatum((PLpgSQL_datum *) rec);
+ if (add2namespace)
+ plpgsql_ns_additem(PLPGSQL_NSTYPE_REC, rec->recno, rec->refname);
+
+ return rec;
+}
+
/*
* Build a row-variable data structure given the pg_class OID.
*/
*
*
* IDENTIFICATION
- * $PostgreSQL: pgsql/src/pl/plpgsql/src/pl_exec.c,v 1.208 2008/04/01 03:51:09 tgl Exp $
+ * $PostgreSQL: pgsql/src/pl/plpgsql/src/pl_exec.c,v 1.209 2008/04/06 23:43:29 tgl Exp $
*
*-------------------------------------------------------------------------
*/
PLpgSQL_stmt_fori *stmt);
static int exec_stmt_fors(PLpgSQL_execstate *estate,
PLpgSQL_stmt_fors *stmt);
+static int exec_stmt_forc(PLpgSQL_execstate *estate,
+ PLpgSQL_stmt_forc *stmt);
static int exec_stmt_open(PLpgSQL_execstate *estate,
PLpgSQL_stmt_open *stmt);
static int exec_stmt_fetch(PLpgSQL_execstate *estate,
Oid *rettype);
static int exec_run_select(PLpgSQL_execstate *estate,
PLpgSQL_expr *expr, long maxtuples, Portal *portalP);
+static int exec_for_query(PLpgSQL_execstate *estate, PLpgSQL_stmt_forq *stmt,
+ Portal portal, bool prefetch_ok);
+static void eval_expr_params(PLpgSQL_execstate *estate,
+ PLpgSQL_expr *expr, Datum **p_values, char **p_nulls);
static void exec_move_row(PLpgSQL_execstate *estate,
PLpgSQL_rec *rec,
PLpgSQL_row *row,
static void exec_set_found(PLpgSQL_execstate *estate, bool state);
static void plpgsql_create_econtext(PLpgSQL_execstate *estate);
static void free_var(PLpgSQL_var *var);
+static void assign_text_var(PLpgSQL_var *var, const char *str);
static PreparedParamsData *exec_eval_using_params(PLpgSQL_execstate *estate,
List *params);
static void free_params_data(PreparedParamsData *ppd);
state_var = (PLpgSQL_var *)
estate->datums[block->exceptions->sqlstate_varno];
- state_var->value = CStringGetTextDatum(unpack_sql_state(edata->sqlerrcode));
- state_var->freeval = true;
- state_var->isnull = false;
-
errm_var = (PLpgSQL_var *)
estate->datums[block->exceptions->sqlerrm_varno];
- errm_var->value = CStringGetTextDatum(edata->message);
- errm_var->freeval = true;
- errm_var->isnull = false;
+
+ assign_text_var(state_var,
+ unpack_sql_state(edata->sqlerrcode));
+ assign_text_var(errm_var, edata->message);
estate->err_text = NULL;
free_var(state_var);
state_var->value = (Datum) 0;
+ state_var->isnull = true;
free_var(errm_var);
errm_var->value = (Datum) 0;
+ errm_var->isnull = true;
break;
}
}
rc = exec_stmt_fors(estate, (PLpgSQL_stmt_fors *) stmt);
break;
+ case PLPGSQL_STMT_FORC:
+ rc = exec_stmt_forc(estate, (PLpgSQL_stmt_forc *) stmt);
+ break;
+
case PLPGSQL_STMT_EXIT:
rc = exec_stmt_exit(estate, (PLpgSQL_stmt_exit *) stmt);
break;
static int
exec_stmt_fors(PLpgSQL_execstate *estate, PLpgSQL_stmt_fors *stmt)
{
- PLpgSQL_rec *rec = NULL;
- PLpgSQL_row *row = NULL;
- SPITupleTable *tuptab;
Portal portal;
- bool found = false;
- int rc = PLPGSQL_RC_OK;
- int i;
- int n;
-
- /*
- * Determine if we assign to a record or a row
- */
- if (stmt->rec != NULL)
- rec = (PLpgSQL_rec *) (estate->datums[stmt->rec->recno]);
- else if (stmt->row != NULL)
- row = (PLpgSQL_row *) (estate->datums[stmt->row->rowno]);
- else
- elog(ERROR, "unsupported target");
+ int rc;
/*
- * Open the implicit cursor for the statement and fetch the initial 10
- * rows.
+ * Open the implicit cursor for the statement using exec_run_select
*/
exec_run_select(estate, stmt->query, 0, &portal);
- SPI_cursor_fetch(portal, true, 10);
- tuptab = SPI_tuptable;
- n = SPI_processed;
-
/*
- * If the query didn't return any rows, set the target to NULL and return
- * with FOUND = false.
+ * Execute the loop
*/
- if (n == 0)
- exec_move_row(estate, rec, row, NULL, tuptab->tupdesc);
- else
- found = true; /* processed at least one tuple */
+ rc = exec_for_query(estate, (PLpgSQL_stmt_forq *) stmt, portal, true);
/*
- * Now do the loop
+ * Close the implicit cursor
*/
- while (n > 0)
- {
- for (i = 0; i < n; i++)
- {
- /*
- * Assign the tuple to the target
- */
- exec_move_row(estate, rec, row, tuptab->vals[i], tuptab->tupdesc);
+ SPI_cursor_close(portal);
- /*
- * Execute the statements
- */
- rc = exec_stmts(estate, stmt->body);
- if (rc != PLPGSQL_RC_OK)
- {
- if (rc == PLPGSQL_RC_EXIT)
- {
- if (estate->exitlabel == NULL)
- /* unlabelled exit, finish the current loop */
- rc = PLPGSQL_RC_OK;
- else if (stmt->label != NULL &&
- strcmp(stmt->label, estate->exitlabel) == 0)
- {
- /* labelled exit, matches the current stmt's label */
- estate->exitlabel = NULL;
- rc = PLPGSQL_RC_OK;
- }
+ return rc;
+}
- /*
- * otherwise, we processed a labelled exit that does not
- * match the current statement's label, if any: return
- * RC_EXIT so that the EXIT continues to recurse upward.
- */
- }
- else if (rc == PLPGSQL_RC_CONTINUE)
- {
- if (estate->exitlabel == NULL)
- {
- /* anonymous continue, so re-run the current loop */
- rc = PLPGSQL_RC_OK;
- continue;
- }
- else if (stmt->label != NULL &&
- strcmp(stmt->label, estate->exitlabel) == 0)
- {
- /* label matches named continue, so re-run loop */
- rc = PLPGSQL_RC_OK;
- estate->exitlabel = NULL;
- continue;
- }
- /*
- * otherwise, we processed a named continue that does not
- * match the current statement's label, if any: return
- * RC_CONTINUE so that the CONTINUE will propagate up the
- * stack.
- */
- }
+/* ----------
+ * exec_stmt_forc Execute a loop for each row from a cursor.
+ * ----------
+ */
+static int
+exec_stmt_forc(PLpgSQL_execstate *estate, PLpgSQL_stmt_forc *stmt)
+{
+ PLpgSQL_var *curvar;
+ char *curname = NULL;
+ PLpgSQL_expr *query;
+ Portal portal;
+ int rc;
+ Datum *values;
+ char *nulls;
- /*
- * We're aborting the loop, so cleanup and set FOUND. (This
- * code should match the code after the loop.)
- */
- SPI_freetuptable(tuptab);
- SPI_cursor_close(portal);
- exec_set_found(estate, found);
+ /* ----------
+ * Get the cursor variable and if it has an assigned name, check
+ * that it's not in use currently.
+ * ----------
+ */
+ curvar = (PLpgSQL_var *) (estate->datums[stmt->curvar]);
+ if (!curvar->isnull)
+ {
+ curname = TextDatumGetCString(curvar->value);
+ if (SPI_cursor_find(curname) != NULL)
+ ereport(ERROR,
+ (errcode(ERRCODE_DUPLICATE_CURSOR),
+ errmsg("cursor \"%s\" already in use", curname)));
+ }
- return rc;
- }
- }
+ /* ----------
+ * Open the cursor just like an OPEN command
+ *
+ * Note: parser should already have checked that statement supplies
+ * args iff cursor needs them, but we check again to be safe.
+ * ----------
+ */
+ if (stmt->argquery != NULL)
+ {
+ /* ----------
+ * OPEN CURSOR with args. We fake a SELECT ... INTO ...
+ * statement to evaluate the args and put 'em into the
+ * internal row.
+ * ----------
+ */
+ PLpgSQL_stmt_execsql set_args;
- SPI_freetuptable(tuptab);
+ if (curvar->cursor_explicit_argrow < 0)
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("arguments given for cursor without arguments")));
- /*
- * Fetch the next 50 tuples
- */
- SPI_cursor_fetch(portal, true, 50);
- n = SPI_processed;
- tuptab = SPI_tuptable;
+ memset(&set_args, 0, sizeof(set_args));
+ set_args.cmd_type = PLPGSQL_STMT_EXECSQL;
+ set_args.lineno = stmt->lineno;
+ set_args.sqlstmt = stmt->argquery;
+ set_args.into = true;
+ /* XXX historically this has not been STRICT */
+ set_args.row = (PLpgSQL_row *)
+ (estate->datums[curvar->cursor_explicit_argrow]);
+
+ if (exec_stmt_execsql(estate, &set_args) != PLPGSQL_RC_OK)
+ elog(ERROR, "open cursor failed during argument processing");
+ }
+ else
+ {
+ if (curvar->cursor_explicit_argrow >= 0)
+ ereport(ERROR,
+ (errcode(ERRCODE_SYNTAX_ERROR),
+ errmsg("arguments required for cursor")));
}
+ query = curvar->cursor_explicit_expr;
+ Assert(query);
+
+ if (query->plan == NULL)
+ exec_prepare_plan(estate, query, curvar->cursor_options);
+
/*
- * Release last group of tuples
+ * Now build up the values and nulls arguments for SPI_execute_plan()
*/
- SPI_freetuptable(tuptab);
+ eval_expr_params(estate, query, &values, &nulls);
/*
- * Close the implicit cursor
+ * Open the cursor
*/
- SPI_cursor_close(portal);
+ portal = SPI_cursor_open(curname, query->plan, values, nulls,
+ estate->readonly_func);
+ if (portal == NULL)
+ elog(ERROR, "could not open cursor: %s",
+ SPI_result_code_string(SPI_result));
/*
- * Set the FOUND variable to indicate the result of executing the loop
- * (namely, whether we looped one or more times). This must be set here so
- * that it does not interfere with the value of the FOUND variable inside
- * the loop processing itself.
+ * If cursor variable was NULL, store the generated portal name in it
*/
- exec_set_found(estate, found);
+ if (curname == NULL)
+ assign_text_var(curvar, portal->name);
+
+ /*
+ * Execute the loop. We can't prefetch because the cursor is accessible
+ * to the user, for instance via UPDATE WHERE CURRENT OF within the loop.
+ */
+ rc = exec_for_query(estate, (PLpgSQL_stmt_forq *) stmt, portal, false);
+
+ /* ----------
+ * Close portal, and restore cursor variable if it was initially NULL.
+ * ----------
+ */
+ SPI_cursor_close(portal);
+
+ if (curname == NULL)
+ {
+ free_var(curvar);
+ curvar->value = (Datum) 0;
+ curvar->isnull = true;
+ }
+
+ pfree(values);
+ pfree(nulls);
+ if (curname)
+ pfree(curname);
return rc;
}
exec_stmt_execsql(PLpgSQL_execstate *estate,
PLpgSQL_stmt_execsql *stmt)
{
- int i;
Datum *values;
char *nulls;
long tcount;
/*
* Now build up the values and nulls arguments for SPI_execute_plan()
*/
- values = (Datum *) palloc(expr->nparams * sizeof(Datum));
- nulls = (char *) palloc(expr->nparams * sizeof(char));
-
- for (i = 0; i < expr->nparams; i++)
- {
- PLpgSQL_datum *datum = estate->datums[expr->params[i]];
- Oid paramtypeid;
- bool paramisnull;
-
- exec_eval_datum(estate, datum, expr->plan_argtypes[i],
- ¶mtypeid, &values[i], ¶misnull);
- if (paramisnull)
- nulls[i] = 'n';
- else
- nulls[i] = ' ';
- }
+ eval_expr_params(estate, expr, &values, &nulls);
/*
* If we have INTO, then we only need one row back ... but if we have INTO
bool isnull;
Oid restype;
char *querystr;
- PLpgSQL_rec *rec = NULL;
- PLpgSQL_row *row = NULL;
- SPITupleTable *tuptab;
- int n;
Portal portal;
- bool found = false;
-
- /*
- * Determine if we assign to a record or a row
- */
- if (stmt->rec != NULL)
- rec = (PLpgSQL_rec *) (estate->datums[stmt->rec->recno]);
- else if (stmt->row != NULL)
- row = (PLpgSQL_row *) (estate->datums[stmt->row->rowno]);
- else
- elog(ERROR, "unsupported target");
+ int rc;
/*
* Evaluate the string expression after the EXECUTE keyword. It's result
pfree(querystr);
/*
- * Fetch the initial 10 tuples
- */
- SPI_cursor_fetch(portal, true, 10);
- tuptab = SPI_tuptable;
- n = SPI_processed;
-
- /*
- * If the query didn't return any rows, set the target to NULL and return
- * with FOUND = false.
- */
- if (n == 0)
- exec_move_row(estate, rec, row, NULL, tuptab->tupdesc);
- else
- found = true; /* processed at least one tuple */
-
- /*
- * Now do the loop
- */
- while (n > 0)
- {
- int i;
-
- for (i = 0; i < n; i++)
- {
- int rc;
-
- /*
- * Assign the tuple to the target
- */
- exec_move_row(estate, rec, row, tuptab->vals[i], tuptab->tupdesc);
-
- /*
- * Execute the statements
- */
- rc = exec_stmts(estate, stmt->body);
-
- if (rc != PLPGSQL_RC_OK)
- {
- if (rc == PLPGSQL_RC_EXIT)
- {
- if (estate->exitlabel == NULL)
- /* unlabelled exit, finish the current loop */
- rc = PLPGSQL_RC_OK;
- else if (stmt->label != NULL &&
- strcmp(stmt->label, estate->exitlabel) == 0)
- {
- /* labelled exit, matches the current stmt's label */
- estate->exitlabel = NULL;
- rc = PLPGSQL_RC_OK;
- }
-
- /*
- * otherwise, we processed a labelled exit that does not
- * match the current statement's label, if any: return
- * RC_EXIT so that the EXIT continues to recurse upward.
- */
- }
- else if (rc == PLPGSQL_RC_CONTINUE)
- {
- if (estate->exitlabel == NULL)
- /* unlabelled continue, continue the current loop */
- continue;
- else if (stmt->label != NULL &&
- strcmp(stmt->label, estate->exitlabel) == 0)
- {
- /* labelled continue, matches the current stmt's label */
- estate->exitlabel = NULL;
- continue;
- }
-
- /*
- * otherwise, we process a labelled continue that does not
- * match the current statement's label, so propagate
- * RC_CONTINUE upward in the stack.
- */
- }
-
- /*
- * We're aborting the loop, so cleanup and set FOUND. (This
- * code should match the code after the loop.)
- */
- SPI_freetuptable(tuptab);
- SPI_cursor_close(portal);
- exec_set_found(estate, found);
-
- return rc;
- }
- }
-
- SPI_freetuptable(tuptab);
-
- /*
- * Fetch the next 50 tuples
- */
- SPI_cursor_fetch(portal, true, 50);
- n = SPI_processed;
- tuptab = SPI_tuptable;
- }
-
- /*
- * Release last group of tuples
+ * Execute the loop
*/
- SPI_freetuptable(tuptab);
+ rc = exec_for_query(estate, (PLpgSQL_stmt_forq *) stmt, portal, true);
/*
* Close the implicit cursor
*/
SPI_cursor_close(portal);
- /*
- * Set the FOUND variable to indicate the result of executing the loop
- * (namely, whether we looped one or more times). This must be set here so
- * that it does not interfere with the value of the FOUND variable inside
- * the loop processing itself.
- */
- exec_set_found(estate, found);
-
- return PLPGSQL_RC_OK;
+ return rc;
}
static int
exec_stmt_open(PLpgSQL_execstate *estate, PLpgSQL_stmt_open *stmt)
{
- PLpgSQL_var *curvar = NULL;
+ PLpgSQL_var *curvar;
char *curname = NULL;
- PLpgSQL_expr *query = NULL;
+ PLpgSQL_expr *query;
Portal portal;
- int i;
Datum *values;
char *nulls;
bool isnull;
-
/* ----------
* Get the cursor variable and if it has an assigned name, check
* that it's not in use currently.
pfree(querystr);
SPI_freeplan(curplan);
- /* ----------
- * Store the eventually assigned cursor name in the cursor variable
- * ----------
+ /*
+ * If cursor variable was NULL, store the generated portal name in it
*/
- free_var(curvar);
- curvar->value = CStringGetTextDatum(portal->name);
- curvar->isnull = false;
- curvar->freeval = true;
+ if (curname == NULL)
+ assign_text_var(curvar, portal->name);
return PLPGSQL_RC_OK;
}
exec_prepare_plan(estate, query, curvar->cursor_options);
}
- /* ----------
- * Here we go if we have a saved plan where we have to put
- * values into, either from an explicit cursor or from a
- * refcursor opened with OPEN ... FOR SELECT ...;
- * ----------
+ /*
+ * Now build up the values and nulls arguments for SPI_execute_plan()
*/
- values = (Datum *) palloc(query->nparams * sizeof(Datum));
- nulls = (char *) palloc(query->nparams * sizeof(char));
+ eval_expr_params(estate, query, &values, &nulls);
- for (i = 0; i < query->nparams; i++)
- {
- PLpgSQL_datum *datum = estate->datums[query->params[i]];
- Oid paramtypeid;
- bool paramisnull;
-
- exec_eval_datum(estate, datum, query->plan_argtypes[i],
- ¶mtypeid, &values[i], ¶misnull);
- if (paramisnull)
- nulls[i] = 'n';
- else
- nulls[i] = ' ';
- }
-
- /* ----------
+ /*
* Open the cursor
- * ----------
*/
portal = SPI_cursor_open(curname, query->plan, values, nulls,
estate->readonly_func);
elog(ERROR, "could not open cursor: %s",
SPI_result_code_string(SPI_result));
+ /*
+ * If cursor variable was NULL, store the generated portal name in it
+ */
+ if (curname == NULL)
+ assign_text_var(curvar, portal->name);
+
pfree(values);
pfree(nulls);
if (curname)
pfree(curname);
- /* ----------
- * Store the eventually assigned portal name in the cursor variable
- * ----------
- */
- free_var(curvar);
- curvar->value = CStringGetTextDatum(portal->name);
- curvar->isnull = false;
- curvar->freeval = true;
-
return PLPGSQL_RC_OK;
}
exec_run_select(PLpgSQL_execstate *estate,
PLpgSQL_expr *expr, long maxtuples, Portal *portalP)
{
- int i;
Datum *values;
char *nulls;
int rc;
/*
* Now build up the values and nulls arguments for SPI_execute_plan()
*/
- values = (Datum *) palloc(expr->nparams * sizeof(Datum));
- nulls = (char *) palloc(expr->nparams * sizeof(char));
-
- for (i = 0; i < expr->nparams; i++)
- {
- PLpgSQL_datum *datum = estate->datums[expr->params[i]];
- Oid paramtypeid;
- bool paramisnull;
-
- exec_eval_datum(estate, datum, expr->plan_argtypes[i],
- ¶mtypeid, &values[i], ¶misnull);
- if (paramisnull)
- nulls[i] = 'n';
- else
- nulls[i] = ' ';
- }
+ eval_expr_params(estate, expr, &values, &nulls);
/*
* If a portal was requested, put the query into the portal
}
+/*
+ * exec_for_query --- execute body of FOR loop for each row from a portal
+ *
+ * Used by exec_stmt_fors, exec_stmt_forc and exec_stmt_dynfors
+ */
+static int
+exec_for_query(PLpgSQL_execstate *estate, PLpgSQL_stmt_forq *stmt,
+ Portal portal, bool prefetch_ok)
+{
+ PLpgSQL_rec *rec = NULL;
+ PLpgSQL_row *row = NULL;
+ SPITupleTable *tuptab;
+ bool found = false;
+ int rc = PLPGSQL_RC_OK;
+ int n;
+
+ /*
+ * Determine if we assign to a record or a row
+ */
+ if (stmt->rec != NULL)
+ rec = (PLpgSQL_rec *) (estate->datums[stmt->rec->recno]);
+ else if (stmt->row != NULL)
+ row = (PLpgSQL_row *) (estate->datums[stmt->row->rowno]);
+ else
+ elog(ERROR, "unsupported target");
+
+ /*
+ * Fetch the initial tuple(s). If prefetching is allowed then we grab
+ * a few more rows to avoid multiple trips through executor startup
+ * overhead.
+ */
+ SPI_cursor_fetch(portal, true, prefetch_ok ? 10 : 1);
+ tuptab = SPI_tuptable;
+ n = SPI_processed;
+
+ /*
+ * If the query didn't return any rows, set the target to NULL and
+ * fall through with found = false.
+ */
+ if (n <= 0)
+ exec_move_row(estate, rec, row, NULL, tuptab->tupdesc);
+ else
+ found = true; /* processed at least one tuple */
+
+ /*
+ * Now do the loop
+ */
+ while (n > 0)
+ {
+ int i;
+
+ for (i = 0; i < n; i++)
+ {
+ /*
+ * Assign the tuple to the target
+ */
+ exec_move_row(estate, rec, row, tuptab->vals[i], tuptab->tupdesc);
+
+ /*
+ * Execute the statements
+ */
+ rc = exec_stmts(estate, stmt->body);
+
+ if (rc != PLPGSQL_RC_OK)
+ {
+ if (rc == PLPGSQL_RC_EXIT)
+ {
+ if (estate->exitlabel == NULL)
+ {
+ /* unlabelled exit, so exit the current loop */
+ rc = PLPGSQL_RC_OK;
+ }
+ else if (stmt->label != NULL &&
+ strcmp(stmt->label, estate->exitlabel) == 0)
+ {
+ /* label matches this loop, so exit loop */
+ estate->exitlabel = NULL;
+ rc = PLPGSQL_RC_OK;
+ }
+
+ /*
+ * otherwise, we processed a labelled exit that does not
+ * match the current statement's label, if any; return
+ * RC_EXIT so that the EXIT continues to recurse upward.
+ */
+ }
+ else if (rc == PLPGSQL_RC_CONTINUE)
+ {
+ if (estate->exitlabel == NULL)
+ {
+ /* unlabelled continue, so re-run the current loop */
+ rc = PLPGSQL_RC_OK;
+ continue;
+ }
+ else if (stmt->label != NULL &&
+ strcmp(stmt->label, estate->exitlabel) == 0)
+ {
+ /* label matches this loop, so re-run loop */
+ estate->exitlabel = NULL;
+ rc = PLPGSQL_RC_OK;
+ continue;
+ }
+
+ /*
+ * otherwise, we process a labelled continue that does not
+ * match the current statement's label, if any; return
+ * RC_CONTINUE so that the CONTINUE will propagate up the
+ * stack.
+ */
+ }
+
+ /*
+ * We're aborting the loop. Need a goto to get out of two
+ * levels of loop...
+ */
+ goto loop_exit;
+ }
+ }
+
+ SPI_freetuptable(tuptab);
+
+ /*
+ * Fetch more tuples. If prefetching is allowed, grab 50 at a time.
+ */
+ SPI_cursor_fetch(portal, true, prefetch_ok ? 50 : 1);
+ tuptab = SPI_tuptable;
+ n = SPI_processed;
+ }
+
+loop_exit:
+
+ /*
+ * Release last group of tuples (if any)
+ */
+ SPI_freetuptable(tuptab);
+
+ /*
+ * Set the FOUND variable to indicate the result of executing the loop
+ * (namely, whether we looped one or more times). This must be set last so
+ * that it does not interfere with the value of the FOUND variable inside
+ * the loop processing itself.
+ */
+ exec_set_found(estate, found);
+
+ return rc;
+}
+
+
/* ----------
* exec_eval_simple_expr - Evaluate a simple expression returning
* a Datum by directly calling ExecEvalExpr().
}
+/*
+ * Build up the values and nulls arguments for SPI_execute_plan()
+ */
+static void
+eval_expr_params(PLpgSQL_execstate *estate,
+ PLpgSQL_expr *expr, Datum **p_values, char **p_nulls)
+{
+ Datum *values;
+ char *nulls;
+ int i;
+
+ *p_values = values = (Datum *) palloc(expr->nparams * sizeof(Datum));
+ *p_nulls = nulls = (char *) palloc(expr->nparams * sizeof(char));
+
+ for (i = 0; i < expr->nparams; i++)
+ {
+ PLpgSQL_datum *datum = estate->datums[expr->params[i]];
+ Oid paramtypeid;
+ bool paramisnull;
+
+ exec_eval_datum(estate, datum, expr->plan_argtypes[i],
+ ¶mtypeid, &values[i], ¶misnull);
+ if (paramisnull)
+ nulls[i] = 'n';
+ else
+ nulls[i] = ' ';
+ }
+}
+
+
/* ----------
* exec_move_row Move one tuple's values into a record or row
* ----------
}
}
+/*
+ * free old value of a text variable and assign new value from C string
+ */
+static void
+assign_text_var(PLpgSQL_var *var, const char *str)
+{
+ free_var(var);
+ var->value = CStringGetTextDatum(str);
+ var->isnull = false;
+ var->freeval = true;
+}
+
/*
* exec_eval_using_params --- evaluate params of USING clause
*/
*
*
* IDENTIFICATION
- * $PostgreSQL: pgsql/src/pl/plpgsql/src/pl_funcs.c,v 1.68 2008/04/01 03:51:09 tgl Exp $
+ * $PostgreSQL: pgsql/src/pl/plpgsql/src/pl_funcs.c,v 1.69 2008/04/06 23:43:29 tgl Exp $
*
*-------------------------------------------------------------------------
*/
return _("FOR with integer loop variable");
case PLPGSQL_STMT_FORS:
return _("FOR over SELECT rows");
+ case PLPGSQL_STMT_FORC:
+ return _("FOR over cursor");
case PLPGSQL_STMT_EXIT:
return "EXIT";
case PLPGSQL_STMT_RETURN:
static void dump_while(PLpgSQL_stmt_while *stmt);
static void dump_fori(PLpgSQL_stmt_fori *stmt);
static void dump_fors(PLpgSQL_stmt_fors *stmt);
+static void dump_forc(PLpgSQL_stmt_forc *stmt);
static void dump_exit(PLpgSQL_stmt_exit *stmt);
static void dump_return(PLpgSQL_stmt_return *stmt);
static void dump_return_next(PLpgSQL_stmt_return_next *stmt);
case PLPGSQL_STMT_FORS:
dump_fors((PLpgSQL_stmt_fors *) stmt);
break;
+ case PLPGSQL_STMT_FORC:
+ dump_forc((PLpgSQL_stmt_forc *) stmt);
+ break;
case PLPGSQL_STMT_EXIT:
dump_exit((PLpgSQL_stmt_exit *) stmt);
break;
printf(" ENDFORS\n");
}
+static void
+dump_forc(PLpgSQL_stmt_forc *stmt)
+{
+ dump_ind();
+ printf("FORC %s ", stmt->rec->refname);
+ printf("curvar=%d\n", stmt->curvar);
+
+ dump_indent += 2;
+ if (stmt->argquery != NULL)
+ {
+ dump_ind();
+ printf(" arguments = ");
+ dump_expr(stmt->argquery);
+ printf("\n");
+ }
+ dump_indent -= 2;
+
+ dump_stmts(stmt->body);
+
+ dump_ind();
+ printf(" ENDFORC\n");
+}
+
static void
dump_open(PLpgSQL_stmt_open *stmt)
{
*
*
* IDENTIFICATION
- * $PostgreSQL: pgsql/src/pl/plpgsql/src/plpgsql.h,v 1.96 2008/04/01 03:51:09 tgl Exp $
+ * $PostgreSQL: pgsql/src/pl/plpgsql/src/plpgsql.h,v 1.97 2008/04/06 23:43:29 tgl Exp $
*
*-------------------------------------------------------------------------
*/
PLPGSQL_STMT_WHILE,
PLPGSQL_STMT_FORI,
PLPGSQL_STMT_FORS,
+ PLPGSQL_STMT_FORC,
PLPGSQL_STMT_EXIT,
PLPGSQL_STMT_RETURN,
PLPGSQL_STMT_RETURN_NEXT,
} PLpgSQL_stmt_fori;
+/*
+ * PLpgSQL_stmt_forq represents a FOR statement running over a SQL query.
+ * It is the common supertype of PLpgSQL_stmt_fors, PLpgSQL_stmt_forc
+ * and PLpgSQL_dynfors.
+ */
+typedef struct
+{
+ int cmd_type;
+ int lineno;
+ char *label;
+ PLpgSQL_rec *rec;
+ PLpgSQL_row *row;
+ List *body; /* List of statements */
+} PLpgSQL_stmt_forq;
+
typedef struct
{ /* FOR statement running over SELECT */
int cmd_type;
char *label;
PLpgSQL_rec *rec;
PLpgSQL_row *row;
- PLpgSQL_expr *query;
List *body; /* List of statements */
+ /* end of fields that must match PLpgSQL_stmt_forq */
+ PLpgSQL_expr *query;
} PLpgSQL_stmt_fors;
+typedef struct
+{ /* FOR statement running over cursor */
+ int cmd_type;
+ int lineno;
+ char *label;
+ PLpgSQL_rec *rec;
+ PLpgSQL_row *row;
+ List *body; /* List of statements */
+ /* end of fields that must match PLpgSQL_stmt_forq */
+ int curvar;
+ PLpgSQL_expr *argquery; /* cursor arguments if any */
+} PLpgSQL_stmt_forc;
typedef struct
{ /* FOR statement running over EXECUTE */
char *label;
PLpgSQL_rec *rec;
PLpgSQL_row *row;
- PLpgSQL_expr *query;
List *body; /* List of statements */
+ /* end of fields that must match PLpgSQL_stmt_forq */
+ PLpgSQL_expr *query;
List *params; /* USING expressions */
} PLpgSQL_stmt_dynfors;
extern PLpgSQL_variable *plpgsql_build_variable(const char *refname, int lineno,
PLpgSQL_type *dtype,
bool add2namespace);
+extern PLpgSQL_rec *plpgsql_build_record(const char *refname, int lineno,
+ bool add2namespace);
extern PLpgSQL_condition *plpgsql_parse_err_condition(char *condname);
extern void plpgsql_adddatum(PLpgSQL_datum *new);
extern int plpgsql_add_initdatums(int **varnos);
26
(1 row)
+-- test FOR-over-cursor
+create or replace function forc01() returns void as $$
+declare
+ c cursor(r1 integer, r2 integer)
+ for select * from generate_series(r1,r2) i;
+ c2 cursor
+ for select * from generate_series(41,43) i;
+begin
+ for r in c(5,7) loop
+ raise notice '% from %', r.i, c;
+ end loop;
+ -- again, to test if cursor was closed properly
+ for r in c(9,10) loop
+ raise notice '% from %', r.i, c;
+ end loop;
+ -- and test a parameterless cursor
+ for r in c2 loop
+ raise notice '% from %', r.i, c2;
+ end loop;
+ -- and try it with a hand-assigned name
+ raise notice 'after loop, c2 = %', c2;
+ c2 := 'special_name';
+ for r in c2 loop
+ raise notice '% from %', r.i, c2;
+ end loop;
+ raise notice 'after loop, c2 = %', c2;
+ -- and try it with a generated name
+ -- (which we can't show in the output because it's variable)
+ c2 := null;
+ for r in c2 loop
+ raise notice '%', r.i;
+ end loop;
+ raise notice 'after loop, c2 = %', c2;
+ return;
+end;
+$$ language plpgsql;
+select forc01();
+NOTICE: 5 from c
+NOTICE: 6 from c
+NOTICE: 7 from c
+NOTICE: 9 from c
+NOTICE: 10 from c
+NOTICE: 41 from c2
+NOTICE: 42 from c2
+NOTICE: 43 from c2
+NOTICE: after loop, c2 = c2
+NOTICE: 41 from special_name
+NOTICE: 42 from special_name
+NOTICE: 43 from special_name
+NOTICE: after loop, c2 = special_name
+NOTICE: 41
+NOTICE: 42
+NOTICE: 43
+NOTICE: after loop, c2 =
+ forc01
+--------
+
+(1 row)
+
+-- try updating the cursor's current row
+create temp table forc_test as
+ select n as i, n as j from generate_series(1,10) n;
+create or replace function forc01() returns void as $$
+declare
+ c cursor for select * from forc_test;
+begin
+ for r in c loop
+ raise notice '%, %', r.i, r.j;
+ update forc_test set i = i * 100, j = r.j * 2 where current of c;
+ end loop;
+end;
+$$ language plpgsql;
+select forc01();
+NOTICE: 1, 1
+NOTICE: 2, 2
+NOTICE: 3, 3
+NOTICE: 4, 4
+NOTICE: 5, 5
+NOTICE: 6, 6
+NOTICE: 7, 7
+NOTICE: 8, 8
+NOTICE: 9, 9
+NOTICE: 10, 10
+ forc01
+--------
+
+(1 row)
+
+select * from forc_test;
+ i | j
+------+----
+ 100 | 2
+ 200 | 4
+ 300 | 6
+ 400 | 8
+ 500 | 10
+ 600 | 12
+ 700 | 14
+ 800 | 16
+ 900 | 18
+ 1000 | 20
+(10 rows)
+
+drop function forc01();
+-- fail because cursor has no query bound to it
+create or replace function forc_bad() returns void as $$
+declare
+ c refcursor;
+begin
+ for r in c loop
+ raise notice '%', r.i;
+ end loop;
+end;
+$$ language plpgsql;
+ERROR: cursor FOR loop must use a bound cursor variable
+CONTEXT: compile of PL/pgSQL function "forc_bad" near line 4
$$ language plpgsql;
select exc_using(5, 'foobar');
+
+-- test FOR-over-cursor
+
+create or replace function forc01() returns void as $$
+declare
+ c cursor(r1 integer, r2 integer)
+ for select * from generate_series(r1,r2) i;
+ c2 cursor
+ for select * from generate_series(41,43) i;
+begin
+ for r in c(5,7) loop
+ raise notice '% from %', r.i, c;
+ end loop;
+ -- again, to test if cursor was closed properly
+ for r in c(9,10) loop
+ raise notice '% from %', r.i, c;
+ end loop;
+ -- and test a parameterless cursor
+ for r in c2 loop
+ raise notice '% from %', r.i, c2;
+ end loop;
+ -- and try it with a hand-assigned name
+ raise notice 'after loop, c2 = %', c2;
+ c2 := 'special_name';
+ for r in c2 loop
+ raise notice '% from %', r.i, c2;
+ end loop;
+ raise notice 'after loop, c2 = %', c2;
+ -- and try it with a generated name
+ -- (which we can't show in the output because it's variable)
+ c2 := null;
+ for r in c2 loop
+ raise notice '%', r.i;
+ end loop;
+ raise notice 'after loop, c2 = %', c2;
+ return;
+end;
+$$ language plpgsql;
+
+select forc01();
+
+-- try updating the cursor's current row
+
+create temp table forc_test as
+ select n as i, n as j from generate_series(1,10) n;
+
+create or replace function forc01() returns void as $$
+declare
+ c cursor for select * from forc_test;
+begin
+ for r in c loop
+ raise notice '%, %', r.i, r.j;
+ update forc_test set i = i * 100, j = r.j * 2 where current of c;
+ end loop;
+end;
+$$ language plpgsql;
+
+select forc01();
+
+select * from forc_test;
+
+drop function forc01();
+
+-- fail because cursor has no query bound to it
+
+create or replace function forc_bad() returns void as $$
+declare
+ c refcursor;
+begin
+ for r in c loop
+ raise notice '%', r.i;
+ end loop;
+end;
+$$ language plpgsql;
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