#include "postgres.h"
#include "catalog/pg_aggregate.h"
#include "catalog/pg_proc.h"
#include "catalog/pg_type.h"
#include "commands/dbcommands.h"
#include "miscadmin.h"
#include "nodes/makefuncs.h"
#include "nodes/nodeFuncs.h"
#include "optimizer/optimizer.h"
#include "parser/analyze.h"
#include "parser/parse_agg.h"
#include "parser/parse_clause.h"
#include "parser/parse_coerce.h"
#include "parser/parse_collate.h"
#include "parser/parse_expr.h"
#include "parser/parse_func.h"
#include "parser/parse_oper.h"
#include "parser/parse_relation.h"
#include "parser/parse_target.h"
#include "parser/parse_type.h"
#include "utils/builtins.h"
#include "utils/date.h"
#include "utils/fmgroids.h"
#include "utils/jsonb.h"
#include "utils/lsyscache.h"
#include "utils/timestamp.h"
#include "utils/xml.h"

Include dependency graph for parse_expr.c:

Functions
static Node *	transformExprRecurse (ParseState pstate, Node expr)

static Node *	transformParamRef (ParseState pstate, ParamRef pref)

static Node *	transformAExprOp (ParseState pstate, A_Expr a)

static Node *	transformAExprOpAny (ParseState pstate, A_Expr a)

static Node *	transformAExprOpAll (ParseState pstate, A_Expr a)

static Node *	transformAExprDistinct (ParseState pstate, A_Expr a)

static Node *	transformAExprNullIf (ParseState pstate, A_Expr a)

static Node *	transformAExprIn (ParseState pstate, A_Expr a)

static Node *	transformAExprBetween (ParseState pstate, A_Expr a)

static Node *	transformMergeSupportFunc (ParseState pstate, MergeSupportFunc f)

static Node *	transformBoolExpr (ParseState pstate, BoolExpr a)

static Node *	transformFuncCall (ParseState pstate, FuncCall fn)

static Node *	transformMultiAssignRef (ParseState pstate, MultiAssignRef maref)

static Node *	transformCaseExpr (ParseState pstate, CaseExpr c)

static Node *	transformSubLink (ParseState pstate, SubLink sublink)

static Node *	transformArrayExpr (ParseState pstate, A_ArrayExpr a, Oid array_type, Oid element_type, int32 typmod)

static Node *	transformRowExpr (ParseState pstate, RowExpr r, bool allowDefault)

static Node *	transformCoalesceExpr (ParseState pstate, CoalesceExpr c)

static Node *	transformMinMaxExpr (ParseState pstate, MinMaxExpr m)

static Node *	transformSQLValueFunction (ParseState pstate, SQLValueFunction svf)

static Node *	transformXmlExpr (ParseState pstate, XmlExpr x)

static Node *	transformXmlSerialize (ParseState pstate, XmlSerialize xs)

static Node *	transformBooleanTest (ParseState pstate, BooleanTest b)

static Node *	transformCurrentOfExpr (ParseState pstate, CurrentOfExpr cexpr)

static Node *	transformColumnRef (ParseState pstate, ColumnRef cref)

static Node *	transformWholeRowRef (ParseState pstate, ParseNamespaceItem nsitem, int sublevels_up, int location)

static Node *	transformIndirection (ParseState pstate, A_Indirection ind)

static Node *	transformTypeCast (ParseState pstate, TypeCast tc)

static Node *	transformCollateClause (ParseState pstate, CollateClause c)

static Node *	transformJsonObjectConstructor (ParseState pstate, JsonObjectConstructor ctor)

static Node *	transformJsonArrayConstructor (ParseState pstate, JsonArrayConstructor ctor)

static Node *	transformJsonArrayQueryConstructor (ParseState pstate, JsonArrayQueryConstructor ctor)

static Node *	transformJsonObjectAgg (ParseState pstate, JsonObjectAgg agg)

static Node *	transformJsonArrayAgg (ParseState pstate, JsonArrayAgg agg)

static Node *	transformJsonIsPredicate (ParseState pstate, JsonIsPredicate pred)

static Node *	transformJsonParseExpr (ParseState pstate, JsonParseExpr expr)

static Node *	transformJsonScalarExpr (ParseState pstate, JsonScalarExpr expr)

static Node *	transformJsonSerializeExpr (ParseState pstate, JsonSerializeExpr expr)

static Node *	transformJsonFuncExpr (ParseState pstate, JsonFuncExpr p)

static void	transformJsonPassingArgs (ParseState pstate, const char constructName, JsonFormatType format, List args, List passing_values, List *passing_names)

static void	coerceJsonExprOutput (ParseState pstate, JsonExpr jsexpr)

static JsonBehavior *	transformJsonBehavior (ParseState pstate, JsonBehavior behavior, JsonBehaviorType default_behavior, JsonReturning *returning)

static Node *	GetJsonBehaviorConst (JsonBehaviorType btype, int location)

static Node *	make_row_comparison_op (ParseState pstate, List opname, List largs, List rargs, int location)

static Node *	make_row_distinct_op (ParseState pstate, List opname, RowExpr lrow, RowExpr rrow, int location)

static Expr *	make_distinct_op (ParseState pstate, List opname, Node ltree, Node rtree, int location)

static Node *	make_nulltest_from_distinct (ParseState pstate, A_Expr distincta, Node *arg)

Node *	transformExpr (ParseState pstate, Node expr, ParseExprKind exprKind)

static void	unknown_attribute (ParseState pstate, Node relref, const char *attname, int location)

static bool	exprIsNullConstant (Node *arg)

const char *	ParseExprKindName (ParseExprKind exprKind)

static Const *	getJsonEncodingConst (JsonFormat *format)

static Node *	makeJsonByteaToTextConversion (Node expr, JsonFormat format, int location)

static Node *	transformJsonValueExpr (ParseState pstate, const char constructName, JsonValueExpr *ve, JsonFormatType default_format, Oid targettype, bool isarg)

static void	checkJsonOutputFormat (ParseState pstate, const JsonFormat format, Oid targettype, bool allow_format_for_non_strings)

static JsonReturning *	transformJsonOutput (ParseState pstate, const JsonOutput output, bool allow_format)

static JsonReturning *	transformJsonConstructorOutput (ParseState pstate, JsonOutput output, List *args)

static Node *	coerceJsonFuncExpr (ParseState pstate, Node expr, const JsonReturning *returning, bool report_error)

static Node *	makeJsonConstructorExpr (ParseState pstate, JsonConstructorType type, List args, Expr fexpr, JsonReturning returning, bool unique, bool absent_on_null, int location)

static Node *	transformJsonAggConstructor (ParseState pstate, JsonAggConstructor agg_ctor, JsonReturning returning, List args, Oid aggfnoid, Oid aggtype, JsonConstructorType ctor_type, bool unique, bool absent_on_null)

static Node *	transformJsonParseArg (ParseState pstate, Node jsexpr, JsonFormat format, Oid exprtype)

static JsonReturning *	transformJsonReturning (ParseState pstate, JsonOutput output, const char *fname)

static bool	ValidJsonBehaviorDefaultExpr (Node expr, void context)

Variables
bool	Transform_null_equals = false

Function Documentation

◆ checkJsonOutputFormat()

static void checkJsonOutputFormat	(	ParseState *	pstate,
		const JsonFormat *	format,
		Oid	targettype,
		bool	allow_format_for_non_strings
	)

static

Definition at line 3440 of file parse_expr.c.

 {
     if (!allow_format_for_non_strings &&
         format->format_type != JS_FORMAT_DEFAULT &&
         (targettype != BYTEAOID &&
          targettype != JSONOID &&
          targettype != JSONBOID))
     {
         char        typcategory;
         bool        typispreferred;
  
         get_type_category_preferred(targettype, &typcategory, &typispreferred);
  
         if (typcategory != TYPCATEGORY_STRING)
             ereport(ERROR,
                     errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
                     parser_errposition(pstate, format->location),
                     errmsg("cannot use JSON format with non-string output types"));
     }
  
     if (format->format_type == JS_FORMAT_JSON)
     {
         JsonEncoding enc = format->encoding != JS_ENC_DEFAULT ?
             format->encoding : JS_ENC_UTF8;
  
         if (targettype != BYTEAOID &&
             format->encoding != JS_ENC_DEFAULT)
             ereport(ERROR,
                     errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
                     parser_errposition(pstate, format->location),
                     errmsg("cannot set JSON encoding for non-bytea output types"));
  
         if (enc != JS_ENC_UTF8)
             ereport(ERROR,
                     errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
                     errmsg("unsupported JSON encoding"),
                     errhint("Only UTF8 JSON encoding is supported."),
                     parser_errposition(pstate, format->location));
     }
 }

References enc, ereport, errcode(), errhint(), errmsg(), ERROR, format, get_type_category_preferred(), JS_ENC_DEFAULT, JS_ENC_UTF8, JS_FORMAT_DEFAULT, JS_FORMAT_JSON, and parser_errposition().

Referenced by transformJsonOutput().

◆ coerceJsonExprOutput()

static void coerceJsonExprOutput	(	ParseState *	pstate,
		JsonExpr *	jsexpr
	)

static

Definition at line 4510 of file parse_expr.c.

 {
     JsonReturning *returning = jsexpr->returning;
     Node       *context_item = jsexpr->formatted_expr;
     int         default_typmod;
     Oid         default_typid;
     bool        omit_quotes =
         jsexpr->op == JSON_QUERY_OP && jsexpr->omit_quotes;
     Node       *coercion_expr = NULL;
  
     Assert(returning);
  
     /*
      * Check for cases where the coercion should be handled at runtime, that
      * is, without using a cast expression.
      */
     if (jsexpr->op == JSON_VALUE_OP)
     {
         /*
          * Use cast expressions for types with typmod and domain types.
          */
         if (returning->typmod == -1 &&
             get_typtype(returning->typid) != TYPTYPE_DOMAIN)
         {
             jsexpr->use_io_coercion = true;
             return;
         }
     }
     else if (jsexpr->op == JSON_QUERY_OP)
     {
         /*
          * Cast functions from jsonb to the following types (jsonb_bool() et
          * al) don't handle errors softly, so coerce either by calling
          * json_populate_type() or the type's input function so that any
          * errors are handled appropriately. The latter only if OMIT QUOTES is
          * true.
          */
         switch (returning->typid)
         {
             case BOOLOID:
             case NUMERICOID:
             case INT2OID:
             case INT4OID:
             case INT8OID:
             case FLOAT4OID:
             case FLOAT8OID:
                 if (jsexpr->omit_quotes)
                     jsexpr->use_io_coercion = true;
                 else
                     jsexpr->use_json_coercion = true;
                 return;
             default:
                 break;
         }
     }
  
     /* Look up a cast expression. */
  
     /*
      * For JSON_VALUE() and for JSON_QUERY() when OMIT QUOTES is true,
      * ExecEvalJsonExprPath() will convert a quote-stripped source value to
      * its text representation, so use TEXTOID as the source type.
      */
     if (omit_quotes || jsexpr->op == JSON_VALUE_OP)
     {
         default_typid = TEXTOID;
         default_typmod = -1;
     }
     else
     {
         default_typid = exprType(context_item);
         default_typmod = exprTypmod(context_item);
     }
  
     if (returning->typid != default_typid ||
         returning->typmod != default_typmod)
     {
         /*
          * We abuse CaseTestExpr here as placeholder to pass the result of
          * jsonpath evaluation as input to the coercion expression.
          */
         CaseTestExpr *placeholder = makeNode(CaseTestExpr);
  
         placeholder->typeId = default_typid;
         placeholder->typeMod = default_typmod;
  
         coercion_expr = coerceJsonFuncExpr(pstate, (Node *) placeholder,
                                            returning, false);
         if (coercion_expr == (Node *) placeholder)
             coercion_expr = NULL;
     }
  
     jsexpr->coercion_expr = coercion_expr;
  
     if (coercion_expr == NULL)
     {
         /*
          * Either no cast was found or coercion is unnecessary but still must
          * convert the string value to the output type.
          */
         if (omit_quotes || jsexpr->op == JSON_VALUE_OP)
             jsexpr->use_io_coercion = true;
         else
             jsexpr->use_json_coercion = true;
     }
  
     Assert(jsexpr->coercion_expr != NULL ||
            (jsexpr->use_io_coercion != jsexpr->use_json_coercion));
 }

References Assert, coerceJsonFuncExpr(), JsonExpr::coercion_expr, exprType(), exprTypmod(), JsonExpr::formatted_expr, get_typtype(), JSON_QUERY_OP, JSON_VALUE_OP, makeNode, JsonExpr::omit_quotes, JsonExpr::op, JsonExpr::returning, CaseTestExpr::typeId, JsonReturning::typid, JsonReturning::typmod, JsonExpr::use_io_coercion, and JsonExpr::use_json_coercion.

Referenced by transformJsonFuncExpr().

◆ coerceJsonFuncExpr()

static Node* coerceJsonFuncExpr	(	ParseState *	pstate,
		Node *	expr,
		const JsonReturning *	returning,
		bool	report_error
	)

static

Definition at line 3580 of file parse_expr.c.

 {
     Node       *res;
     int         location;
     Oid         exprtype = exprType(expr);
  
     /* if output type is not specified or equals to function type, return */
     if (!OidIsValid(returning->typid) || returning->typid == exprtype)
         return expr;
  
     location = exprLocation(expr);
  
     if (location < 0)
         location = returning->format->location;
  
     /* special case for RETURNING bytea FORMAT json */
     if (returning->format->format_type == JS_FORMAT_JSON &&
         returning->typid == BYTEAOID)
     {
         /* encode json text into bytea using pg_convert_to() */
         Node       *texpr = coerce_to_specific_type(pstate, expr, TEXTOID,
                                                     "JSON_FUNCTION");
         Const      *enc = getJsonEncodingConst(returning->format);
         FuncExpr   *fexpr = makeFuncExpr(F_CONVERT_TO, BYTEAOID,
                                          list_make2(texpr, enc),
                                          InvalidOid, InvalidOid,
                                          COERCE_EXPLICIT_CALL);
  
         fexpr->location = location;
  
         return (Node *) fexpr;
     }
  
     /* try to coerce expression to the output type */
     res = coerce_to_target_type(pstate, expr, exprtype,
                                 returning->typid, returning->typmod,
                                 COERCION_EXPLICIT,
                                 COERCE_EXPLICIT_CAST,
                                 location);
  
     if (!res && report_error)
         ereport(ERROR,
                 errcode(ERRCODE_CANNOT_COERCE),
                 errmsg("cannot cast type %s to %s",
                        format_type_be(exprtype),
                        format_type_be(returning->typid)),
                 parser_coercion_errposition(pstate, location, expr));
  
     return res;
 }

References COERCE_EXPLICIT_CALL, COERCE_EXPLICIT_CAST, coerce_to_specific_type(), coerce_to_target_type(), COERCION_EXPLICIT, enc, ereport, errcode(), errmsg(), ERROR, exprLocation(), exprType(), JsonReturning::format, JsonFormat::format_type, format_type_be(), getJsonEncodingConst(), InvalidOid, JS_FORMAT_JSON, list_make2, FuncExpr::location, JsonFormat::location, makeFuncExpr(), OidIsValid, parser_coercion_errposition(), res, JsonReturning::typid, and JsonReturning::typmod.

Referenced by coerceJsonExprOutput(), and makeJsonConstructorExpr().

◆ exprIsNullConstant()

static bool exprIsNullConstant ( Node * arg )

static

Definition at line 911 of file parse_expr.c.

 {
     if (arg && IsA(arg, A_Const))
     {
         A_Const    *con = (A_Const *) arg;
  
         if (con->isnull)
             return true;
     }
     return false;
 }

References arg, IsA, and A_Const::isnull.

Referenced by transformAExprDistinct(), and transformAExprOp().

◆ GetJsonBehaviorConst()

static Node * GetJsonBehaviorConst	(	JsonBehaviorType	btype,
		int	location
	)

static

Definition at line 4744 of file parse_expr.c.

 {
     Datum       val = (Datum) 0;
     Oid         typid = JSONBOID;
     int         len = -1;
     bool        isbyval = false;
     bool        isnull = false;
     Const      *con;
  
     switch (btype)
     {
         case JSON_BEHAVIOR_EMPTY_ARRAY:
             val = DirectFunctionCall1(jsonb_in, CStringGetDatum("[]"));
             break;
  
         case JSON_BEHAVIOR_EMPTY_OBJECT:
             val = DirectFunctionCall1(jsonb_in, CStringGetDatum("{}"));
             break;
  
         case JSON_BEHAVIOR_TRUE:
             val = BoolGetDatum(true);
             typid = BOOLOID;
             len = sizeof(bool);
             isbyval = true;
             break;
  
         case JSON_BEHAVIOR_FALSE:
             val = BoolGetDatum(false);
             typid = BOOLOID;
             len = sizeof(bool);
             isbyval = true;
             break;
  
         case JSON_BEHAVIOR_NULL:
         case JSON_BEHAVIOR_UNKNOWN:
         case JSON_BEHAVIOR_EMPTY:
             val = (Datum) 0;
             isnull = true;
             typid = INT4OID;
             len = sizeof(int32);
             isbyval = true;
             break;
  
             /* These two behavior types are handled by the caller. */
         case JSON_BEHAVIOR_DEFAULT:
         case JSON_BEHAVIOR_ERROR:
             Assert(false);
             break;
  
         default:
             elog(ERROR, "unrecognized SQL/JSON behavior %d", btype);
             break;
     }
  
     con = makeConst(typid, -1, InvalidOid, len, val, isnull, isbyval);
     con->location = location;
  
     return (Node *) con;
 }

References Assert, BoolGetDatum(), CStringGetDatum(), DirectFunctionCall1, elog, ERROR, InvalidOid, JSON_BEHAVIOR_DEFAULT, JSON_BEHAVIOR_EMPTY, JSON_BEHAVIOR_EMPTY_ARRAY, JSON_BEHAVIOR_EMPTY_OBJECT, JSON_BEHAVIOR_ERROR, JSON_BEHAVIOR_FALSE, JSON_BEHAVIOR_NULL, JSON_BEHAVIOR_TRUE, JSON_BEHAVIOR_UNKNOWN, jsonb_in(), len, makeConst(), and val.

Referenced by transformJsonBehavior().

◆ getJsonEncodingConst()

static Const* getJsonEncodingConst ( JsonFormat * format )

static

Definition at line 3217 of file parse_expr.c.

 {
     JsonEncoding encoding;
     const char *enc;
     Name        encname = palloc(sizeof(NameData));
  
     if (!format ||
         format->format_type == JS_FORMAT_DEFAULT ||
         format->encoding == JS_ENC_DEFAULT)
         encoding = JS_ENC_UTF8;
     else
         encoding = format->encoding;
  
     switch (encoding)
     {
         case JS_ENC_UTF16:
             enc = "UTF16";
             break;
         case JS_ENC_UTF32:
             enc = "UTF32";
             break;
         case JS_ENC_UTF8:
             enc = "UTF8";
             break;
         default:
             elog(ERROR, "invalid JSON encoding: %d", encoding);
             break;
     }
  
     namestrcpy(encname, enc);
  
     return makeConst(NAMEOID, -1, InvalidOid, NAMEDATALEN,
                      NameGetDatum(encname), false, false);
 }

References elog, enc, encoding, ERROR, format, InvalidOid, JS_ENC_DEFAULT, JS_ENC_UTF16, JS_ENC_UTF32, JS_ENC_UTF8, JS_FORMAT_DEFAULT, makeConst(), NAMEDATALEN, NameGetDatum(), namestrcpy(), and palloc().

Referenced by coerceJsonFuncExpr(), and makeJsonByteaToTextConversion().

◆ make_distinct_op()

static Expr * make_distinct_op	(	ParseState *	pstate,
		List *	opname,
		Node *	ltree,
		Node *	rtree,
		int	location
	)

static

Definition at line 3054 of file parse_expr.c.

 {
     Expr       *result;
  
     result = make_op(pstate, opname, ltree, rtree,
                      pstate->p_last_srf, location);
     if (((OpExpr *) result)->opresulttype != BOOLOID)
         ereport(ERROR,
                 (errcode(ERRCODE_DATATYPE_MISMATCH),
                  errmsg("IS DISTINCT FROM requires = operator to yield boolean"),
                  parser_errposition(pstate, location)));
     if (((OpExpr *) result)->opretset)
         ereport(ERROR,
                 (errcode(ERRCODE_DATATYPE_MISMATCH),
         /* translator: %s is name of a SQL construct, eg NULLIF */
                  errmsg("%s must not return a set", "IS DISTINCT FROM"),
                  parser_errposition(pstate, location)));
  
     /*
      * We rely on DistinctExpr and OpExpr being same struct
      */
     NodeSetTag(result, T_DistinctExpr);
  
     return result;
 }

References ereport, errcode(), errmsg(), ERROR, make_op(), NodeSetTag, ParseState::p_last_srf, and parser_errposition().

Referenced by make_row_distinct_op(), and transformAExprDistinct().

◆ make_nulltest_from_distinct()

static Node * make_nulltest_from_distinct	(	ParseState *	pstate,
		A_Expr *	distincta,
		Node *	arg
	)

static

Definition at line 3087 of file parse_expr.c.

 {
     NullTest   *nt = makeNode(NullTest);
  
     nt->arg = (Expr *) transformExprRecurse(pstate, arg);
     /* the argument can be any type, so don't coerce it */
     if (distincta->kind == AEXPR_NOT_DISTINCT)
         nt->nulltesttype = IS_NULL;
     else
         nt->nulltesttype = IS_NOT_NULL;
     /* argisrow = false is correct whether or not arg is composite */
     nt->argisrow = false;
     nt->location = distincta->location;
     return (Node *) nt;
 }

References AEXPR_NOT_DISTINCT, arg, NullTest::arg, IS_NOT_NULL, IS_NULL, A_Expr::kind, A_Expr::location, NullTest::location, makeNode, NullTest::nulltesttype, and transformExprRecurse().

Referenced by transformAExprDistinct().

◆ make_row_comparison_op()

static Node * make_row_comparison_op	(	ParseState *	pstate,
		List *	opname,
		List *	largs,
		List *	rargs,
		int	location
	)

static

Definition at line 2808 of file parse_expr.c.

 {
     RowCompareExpr *rcexpr;
     RowCompareType rctype;
     List       *opexprs;
     List       *opnos;
     List       *opfamilies;
     ListCell   *l,
                *r;
     List      **opinfo_lists;
     Bitmapset  *strats;
     int         nopers;
     int         i;
  
     nopers = list_length(largs);
     if (nopers != list_length(rargs))
         ereport(ERROR,
                 (errcode(ERRCODE_SYNTAX_ERROR),
                  errmsg("unequal number of entries in row expressions"),
                  parser_errposition(pstate, location)));
  
     /*
      * We can't compare zero-length rows because there is no principled basis
      * for figuring out what the operator is.
      */
     if (nopers == 0)
         ereport(ERROR,
                 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
                  errmsg("cannot compare rows of zero length"),
                  parser_errposition(pstate, location)));
  
     /*
      * Identify all the pairwise operators, using make_op so that behavior is
      * the same as in the simple scalar case.
      */
     opexprs = NIL;
     forboth(l, largs, r, rargs)
     {
         Node       *larg = (Node *) lfirst(l);
         Node       *rarg = (Node *) lfirst(r);
         OpExpr     *cmp;
  
         cmp = castNode(OpExpr, make_op(pstate, opname, larg, rarg,
                                        pstate->p_last_srf, location));
  
         /*
          * We don't use coerce_to_boolean here because we insist on the
          * operator yielding boolean directly, not via coercion.  If it
          * doesn't yield bool it won't be in any index opfamilies...
          */
         if (cmp->opresulttype != BOOLOID)
             ereport(ERROR,
                     (errcode(ERRCODE_DATATYPE_MISMATCH),
                      errmsg("row comparison operator must yield type boolean, "
                             "not type %s",
                             format_type_be(cmp->opresulttype)),
                      parser_errposition(pstate, location)));
         if (expression_returns_set((Node *) cmp))
             ereport(ERROR,
                     (errcode(ERRCODE_DATATYPE_MISMATCH),
                      errmsg("row comparison operator must not return a set"),
                      parser_errposition(pstate, location)));
         opexprs = lappend(opexprs, cmp);
     }
  
     /*
      * If rows are length 1, just return the single operator.  In this case we
      * don't insist on identifying btree semantics for the operator (but we
      * still require it to return boolean).
      */
     if (nopers == 1)
         return (Node *) linitial(opexprs);
  
     /*
      * Now we must determine which row comparison semantics (= <> < <= > >=)
      * apply to this set of operators.  We look for btree opfamilies
      * containing the operators, and see which interpretations (strategy
      * numbers) exist for each operator.
      */
     opinfo_lists = (List **) palloc(nopers * sizeof(List *));
     strats = NULL;
     i = 0;
     foreach(l, opexprs)
     {
         Oid         opno = ((OpExpr *) lfirst(l))->opno;
         Bitmapset  *this_strats;
         ListCell   *j;
  
         opinfo_lists[i] = get_op_btree_interpretation(opno);
  
         /*
          * convert strategy numbers into a Bitmapset to make the intersection
          * calculation easy.
          */
         this_strats = NULL;
         foreach(j, opinfo_lists[i])
         {
             OpBtreeInterpretation *opinfo = lfirst(j);
  
             this_strats = bms_add_member(this_strats, opinfo->strategy);
         }
         if (i == 0)
             strats = this_strats;
         else
             strats = bms_int_members(strats, this_strats);
         i++;
     }
  
     /*
      * If there are multiple common interpretations, we may use any one of
      * them ... this coding arbitrarily picks the lowest btree strategy
      * number.
      */
     i = bms_next_member(strats, -1);
     if (i < 0)
     {
         /* No common interpretation, so fail */
         ereport(ERROR,
                 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
                  errmsg("could not determine interpretation of row comparison operator %s",
                         strVal(llast(opname))),
                  errhint("Row comparison operators must be associated with btree operator families."),
                  parser_errposition(pstate, location)));
     }
     rctype = (RowCompareType) i;
  
     /*
      * For = and <> cases, we just combine the pairwise operators with AND or
      * OR respectively.
      */
     if (rctype == ROWCOMPARE_EQ)
         return (Node *) makeBoolExpr(AND_EXPR, opexprs, location);
     if (rctype == ROWCOMPARE_NE)
         return (Node *) makeBoolExpr(OR_EXPR, opexprs, location);
  
     /*
      * Otherwise we need to choose exactly which opfamily to associate with
      * each operator.
      */
     opfamilies = NIL;
     for (i = 0; i < nopers; i++)
     {
         Oid         opfamily = InvalidOid;
         ListCell   *j;
  
         foreach(j, opinfo_lists[i])
         {
             OpBtreeInterpretation *opinfo = lfirst(j);
  
             if (opinfo->strategy == rctype)
             {
                 opfamily = opinfo->opfamily_id;
                 break;
             }
         }
         if (OidIsValid(opfamily))
             opfamilies = lappend_oid(opfamilies, opfamily);
         else                    /* should not happen */
             ereport(ERROR,
                     (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
                      errmsg("could not determine interpretation of row comparison operator %s",
                             strVal(llast(opname))),
                      errdetail("There are multiple equally-plausible candidates."),
                      parser_errposition(pstate, location)));
     }
  
     /*
      * Now deconstruct the OpExprs and create a RowCompareExpr.
      *
      * Note: can't just reuse the passed largs/rargs lists, because of
      * possibility that make_op inserted coercion operations.
      */
     opnos = NIL;
     largs = NIL;
     rargs = NIL;
     foreach(l, opexprs)
     {
         OpExpr     *cmp = (OpExpr *) lfirst(l);
  
         opnos = lappend_oid(opnos, cmp->opno);
         largs = lappend(largs, linitial(cmp->args));
         rargs = lappend(rargs, lsecond(cmp->args));
     }
  
     rcexpr = makeNode(RowCompareExpr);
     rcexpr->rctype = rctype;
     rcexpr->opnos = opnos;
     rcexpr->opfamilies = opfamilies;
     rcexpr->inputcollids = NIL; /* assign_expr_collations will fix this */
     rcexpr->largs = largs;
     rcexpr->rargs = rargs;
  
     return (Node *) rcexpr;
 }

References AND_EXPR, bms_add_member(), bms_int_members(), bms_next_member(), castNode, cmp(), ereport, errcode(), errdetail(), errhint(), errmsg(), ERROR, expression_returns_set(), forboth, format_type_be(), get_op_btree_interpretation(), i, InvalidOid, j, lappend(), lappend_oid(), RowCompareExpr::largs, lfirst, linitial, list_length(), llast, lsecond, make_op(), makeBoolExpr(), makeNode, NIL, OidIsValid, OpBtreeInterpretation::opfamily_id, OR_EXPR, ParseState::p_last_srf, palloc(), parser_errposition(), RowCompareExpr::rargs, RowCompareExpr::rctype, ROWCOMPARE_EQ, ROWCOMPARE_NE, OpBtreeInterpretation::strategy, and strVal.

Referenced by transformAExprIn(), transformAExprOp(), and transformSubLink().

◆ make_row_distinct_op()

static Node * make_row_distinct_op	(	ParseState *	pstate,
		List *	opname,
		RowExpr *	lrow,
		RowExpr *	rrow,
		int	location
	)

static

Definition at line 3010 of file parse_expr.c.

 {
     Node       *result = NULL;
     List       *largs = lrow->args;
     List       *rargs = rrow->args;
     ListCell   *l,
                *r;
  
     if (list_length(largs) != list_length(rargs))
         ereport(ERROR,
                 (errcode(ERRCODE_SYNTAX_ERROR),
                  errmsg("unequal number of entries in row expressions"),
                  parser_errposition(pstate, location)));
  
     forboth(l, largs, r, rargs)
     {
         Node       *larg = (Node *) lfirst(l);
         Node       *rarg = (Node *) lfirst(r);
         Node       *cmp;
  
         cmp = (Node *) make_distinct_op(pstate, opname, larg, rarg, location);
         if (result == NULL)
             result = cmp;
         else
             result = (Node *) makeBoolExpr(OR_EXPR,
                                            list_make2(result, cmp),
                                            location);
     }
  
     if (result == NULL)
     {
         /* zero-length rows?  Generate constant FALSE */
         result = makeBoolConst(false, false);
     }
  
     return result;
 }

References RowExpr::args, cmp(), ereport, errcode(), errmsg(), ERROR, forboth, lfirst, list_length(), list_make2, make_distinct_op(), makeBoolConst(), makeBoolExpr(), OR_EXPR, and parser_errposition().

Referenced by transformAExprDistinct().

◆ makeJsonByteaToTextConversion()

static Node* makeJsonByteaToTextConversion	(	Node *	expr,
		JsonFormat *	format,
		int	location
	)

static

Definition at line 3256 of file parse_expr.c.

 {
     Const      *encoding = getJsonEncodingConst(format);
     FuncExpr   *fexpr = makeFuncExpr(F_CONVERT_FROM, TEXTOID,
                                      list_make2(expr, encoding),
                                      InvalidOid, InvalidOid,
                                      COERCE_EXPLICIT_CALL);
  
     fexpr->location = location;
  
     return (Node *) fexpr;
 }

References COERCE_EXPLICIT_CALL, encoding, format, getJsonEncodingConst(), InvalidOid, list_make2, FuncExpr::location, and makeFuncExpr().

Referenced by transformJsonParseArg(), and transformJsonValueExpr().

◆ makeJsonConstructorExpr()

static Node* makeJsonConstructorExpr	(	ParseState *	pstate,
		JsonConstructorType	type,
		List *	args,
		Expr *	fexpr,
		JsonReturning *	returning,
		bool	unique,
		bool	absent_on_null,
		int	location
	)

static

Definition at line 3636 of file parse_expr.c.

 {
     JsonConstructorExpr *jsctor = makeNode(JsonConstructorExpr);
     Node       *placeholder;
     Node       *coercion;
  
     jsctor->args = args;
     jsctor->func = fexpr;
     jsctor->type = type;
     jsctor->returning = returning;
     jsctor->unique = unique;
     jsctor->absent_on_null = absent_on_null;
     jsctor->location = location;
  
     /*
      * Coerce to the RETURNING type and format, if needed.  We abuse
      * CaseTestExpr here as placeholder to pass the result of either
      * evaluating 'fexpr' or whatever is produced by ExecEvalJsonConstructor()
      * that is of type JSON or JSONB to the coercion function.
      */
     if (fexpr)
     {
         CaseTestExpr *cte = makeNode(CaseTestExpr);
  
         cte->typeId = exprType((Node *) fexpr);
         cte->typeMod = exprTypmod((Node *) fexpr);
         cte->collation = exprCollation((Node *) fexpr);
  
         placeholder = (Node *) cte;
     }
     else
     {
         CaseTestExpr *cte = makeNode(CaseTestExpr);
  
         cte->typeId = returning->format->format_type == JS_FORMAT_JSONB ?
             JSONBOID : JSONOID;
         cte->typeMod = -1;
         cte->collation = InvalidOid;
  
         placeholder = (Node *) cte;
     }
  
     coercion = coerceJsonFuncExpr(pstate, placeholder, returning, true);
  
     if (coercion != placeholder)
         jsctor->coercion = (Expr *) coercion;
  
     return (Node *) jsctor;
 }

References JsonConstructorExpr::absent_on_null, generate_unaccent_rules::args, JsonConstructorExpr::args, coerceJsonFuncExpr(), JsonConstructorExpr::coercion, exprCollation(), exprType(), exprTypmod(), JsonReturning::format, JsonFormat::format_type, JsonConstructorExpr::func, InvalidOid, JS_FORMAT_JSONB, JsonConstructorExpr::location, makeNode, JsonConstructorExpr::returning, type, JsonConstructorExpr::type, CaseTestExpr::typeId, and JsonConstructorExpr::unique.

Referenced by transformJsonAggConstructor(), transformJsonArrayConstructor(), transformJsonObjectConstructor(), transformJsonParseExpr(), transformJsonScalarExpr(), and transformJsonSerializeExpr().

◆ ParseExprKindName()

const char* ParseExprKindName ( ParseExprKind exprKind )

Definition at line 3111 of file parse_expr.c.

 {
     switch (exprKind)
     {
         case EXPR_KIND_NONE:
             return "invalid expression context";
         case EXPR_KIND_OTHER:
             return "extension expression";
         case EXPR_KIND_JOIN_ON:
             return "JOIN/ON";
         case EXPR_KIND_JOIN_USING:
             return "JOIN/USING";
         case EXPR_KIND_FROM_SUBSELECT:
             return "sub-SELECT in FROM";
         case EXPR_KIND_FROM_FUNCTION:
             return "function in FROM";
         case EXPR_KIND_WHERE:
             return "WHERE";
         case EXPR_KIND_POLICY:
             return "POLICY";
         case EXPR_KIND_HAVING:
             return "HAVING";
         case EXPR_KIND_FILTER:
             return "FILTER";
         case EXPR_KIND_WINDOW_PARTITION:
             return "window PARTITION BY";
         case EXPR_KIND_WINDOW_ORDER:
             return "window ORDER BY";
         case EXPR_KIND_WINDOW_FRAME_RANGE:
             return "window RANGE";
         case EXPR_KIND_WINDOW_FRAME_ROWS:
             return "window ROWS";
         case EXPR_KIND_WINDOW_FRAME_GROUPS:
             return "window GROUPS";
         case EXPR_KIND_SELECT_TARGET:
             return "SELECT";
         case EXPR_KIND_INSERT_TARGET:
             return "INSERT";
         case EXPR_KIND_UPDATE_SOURCE:
         case EXPR_KIND_UPDATE_TARGET:
             return "UPDATE";
         case EXPR_KIND_MERGE_WHEN:
             return "MERGE WHEN";
         case EXPR_KIND_GROUP_BY:
             return "GROUP BY";
         case EXPR_KIND_ORDER_BY:
             return "ORDER BY";
         case EXPR_KIND_DISTINCT_ON:
             return "DISTINCT ON";
         case EXPR_KIND_LIMIT:
             return "LIMIT";
         case EXPR_KIND_OFFSET:
             return "OFFSET";
         case EXPR_KIND_RETURNING:
         case EXPR_KIND_MERGE_RETURNING:
             return "RETURNING";
         case EXPR_KIND_VALUES:
         case EXPR_KIND_VALUES_SINGLE:
             return "VALUES";
         case EXPR_KIND_CHECK_CONSTRAINT:
         case EXPR_KIND_DOMAIN_CHECK:
             return "CHECK";
         case EXPR_KIND_COLUMN_DEFAULT:
         case EXPR_KIND_FUNCTION_DEFAULT:
             return "DEFAULT";
         case EXPR_KIND_INDEX_EXPRESSION:
             return "index expression";
         case EXPR_KIND_INDEX_PREDICATE:
             return "index predicate";
         case EXPR_KIND_STATS_EXPRESSION:
             return "statistics expression";
         case EXPR_KIND_ALTER_COL_TRANSFORM:
             return "USING";
         case EXPR_KIND_EXECUTE_PARAMETER:
             return "EXECUTE";
         case EXPR_KIND_TRIGGER_WHEN:
             return "WHEN";
         case EXPR_KIND_PARTITION_BOUND:
             return "partition bound";
         case EXPR_KIND_PARTITION_EXPRESSION:
             return "PARTITION BY";
         case EXPR_KIND_CALL_ARGUMENT:
             return "CALL";
         case EXPR_KIND_COPY_WHERE:
             return "WHERE";
         case EXPR_KIND_GENERATED_COLUMN:
             return "GENERATED AS";
         case EXPR_KIND_CYCLE_MARK:
             return "CYCLE";
  
             /*
              * There is intentionally no default: case here, so that the
              * compiler will warn if we add a new ParseExprKind without
              * extending this switch.  If we do see an unrecognized value at
              * runtime, we'll fall through to the "unrecognized" return.
              */
     }
     return "unrecognized expression kind";
 }

References EXPR_KIND_ALTER_COL_TRANSFORM, EXPR_KIND_CALL_ARGUMENT, EXPR_KIND_CHECK_CONSTRAINT, EXPR_KIND_COLUMN_DEFAULT, EXPR_KIND_COPY_WHERE, EXPR_KIND_CYCLE_MARK, EXPR_KIND_DISTINCT_ON, EXPR_KIND_DOMAIN_CHECK, EXPR_KIND_EXECUTE_PARAMETER, EXPR_KIND_FILTER, EXPR_KIND_FROM_FUNCTION, EXPR_KIND_FROM_SUBSELECT, EXPR_KIND_FUNCTION_DEFAULT, EXPR_KIND_GENERATED_COLUMN, EXPR_KIND_GROUP_BY, EXPR_KIND_HAVING, EXPR_KIND_INDEX_EXPRESSION, EXPR_KIND_INDEX_PREDICATE, EXPR_KIND_INSERT_TARGET, EXPR_KIND_JOIN_ON, EXPR_KIND_JOIN_USING, EXPR_KIND_LIMIT, EXPR_KIND_MERGE_RETURNING, EXPR_KIND_MERGE_WHEN, EXPR_KIND_NONE, EXPR_KIND_OFFSET, EXPR_KIND_ORDER_BY, EXPR_KIND_OTHER, EXPR_KIND_PARTITION_BOUND, EXPR_KIND_PARTITION_EXPRESSION, EXPR_KIND_POLICY, EXPR_KIND_RETURNING, EXPR_KIND_SELECT_TARGET, EXPR_KIND_STATS_EXPRESSION, EXPR_KIND_TRIGGER_WHEN, EXPR_KIND_UPDATE_SOURCE, EXPR_KIND_UPDATE_TARGET, EXPR_KIND_VALUES, EXPR_KIND_VALUES_SINGLE, EXPR_KIND_WHERE, EXPR_KIND_WINDOW_FRAME_GROUPS, EXPR_KIND_WINDOW_FRAME_RANGE, EXPR_KIND_WINDOW_FRAME_ROWS, EXPR_KIND_WINDOW_ORDER, and EXPR_KIND_WINDOW_PARTITION.

Referenced by check_agglevels_and_constraints(), check_srf_call_placement(), checkTargetlistEntrySQL92(), findTargetlistEntrySQL92(), and transformWindowFuncCall().

◆ transformAExprBetween()

static Node * transformAExprBetween	(	ParseState *	pstate,
		A_Expr *	a
	)

static

Definition at line 1284 of file parse_expr.c.

 {
     Node       *aexpr;
     Node       *bexpr;
     Node       *cexpr;
     Node       *result;
     Node       *sub1;
     Node       *sub2;
     List       *args;
  
     /* Deconstruct A_Expr into three subexprs */
     aexpr = a->lexpr;
     args = castNode(List, a->rexpr);
     Assert(list_length(args) == 2);
     bexpr = (Node *) linitial(args);
     cexpr = (Node *) lsecond(args);
  
     /*
      * Build the equivalent comparison expression.  Make copies of
      * multiply-referenced subexpressions for safety.  (XXX this is really
      * wrong since it results in multiple runtime evaluations of what may be
      * volatile expressions ...)
      *
      * Ideally we would not use hard-wired operators here but instead use
      * opclasses.  However, mixed data types and other issues make this
      * difficult:
      * http://archives.postgresql.org/pgsql-hackers/2008-08/msg01142.php
      */
     switch (a->kind)
     {
         case AEXPR_BETWEEN:
             args = list_make2(makeSimpleA_Expr(AEXPR_OP, ">=",
                                                aexpr, bexpr,
                                                a->location),
                               makeSimpleA_Expr(AEXPR_OP, "<=",
                                                copyObject(aexpr), cexpr,
                                                a->location));
             result = (Node *) makeBoolExpr(AND_EXPR, args, a->location);
             break;
         case AEXPR_NOT_BETWEEN:
             args = list_make2(makeSimpleA_Expr(AEXPR_OP, "<",
                                                aexpr, bexpr,
                                                a->location),
                               makeSimpleA_Expr(AEXPR_OP, ">",
                                                copyObject(aexpr), cexpr,
                                                a->location));
             result = (Node *) makeBoolExpr(OR_EXPR, args, a->location);
             break;
         case AEXPR_BETWEEN_SYM:
             args = list_make2(makeSimpleA_Expr(AEXPR_OP, ">=",
                                                aexpr, bexpr,
                                                a->location),
                               makeSimpleA_Expr(AEXPR_OP, "<=",
                                                copyObject(aexpr), cexpr,
                                                a->location));
             sub1 = (Node *) makeBoolExpr(AND_EXPR, args, a->location);
             args = list_make2(makeSimpleA_Expr(AEXPR_OP, ">=",
                                                copyObject(aexpr), copyObject(cexpr),
                                                a->location),
                               makeSimpleA_Expr(AEXPR_OP, "<=",
                                                copyObject(aexpr), copyObject(bexpr),
                                                a->location));
             sub2 = (Node *) makeBoolExpr(AND_EXPR, args, a->location);
             args = list_make2(sub1, sub2);
             result = (Node *) makeBoolExpr(OR_EXPR, args, a->location);
             break;
         case AEXPR_NOT_BETWEEN_SYM:
             args = list_make2(makeSimpleA_Expr(AEXPR_OP, "<",
                                                aexpr, bexpr,
                                                a->location),
                               makeSimpleA_Expr(AEXPR_OP, ">",
                                                copyObject(aexpr), cexpr,
                                                a->location));
             sub1 = (Node *) makeBoolExpr(OR_EXPR, args, a->location);
             args = list_make2(makeSimpleA_Expr(AEXPR_OP, "<",
                                                copyObject(aexpr), copyObject(cexpr),
                                                a->location),
                               makeSimpleA_Expr(AEXPR_OP, ">",
                                                copyObject(aexpr), copyObject(bexpr),
                                                a->location));
             sub2 = (Node *) makeBoolExpr(OR_EXPR, args, a->location);
             args = list_make2(sub1, sub2);
             result = (Node *) makeBoolExpr(AND_EXPR, args, a->location);
             break;
         default:
             elog(ERROR, "unrecognized A_Expr kind: %d", a->kind);
             result = NULL;      /* keep compiler quiet */
             break;
     }
  
     return transformExprRecurse(pstate, result);
 }

References a, AEXPR_BETWEEN, AEXPR_BETWEEN_SYM, AEXPR_NOT_BETWEEN, AEXPR_NOT_BETWEEN_SYM, AEXPR_OP, AND_EXPR, generate_unaccent_rules::args, Assert, castNode, copyObject, elog, ERROR, linitial, list_length(), list_make2, lsecond, makeBoolExpr(), makeSimpleA_Expr(), OR_EXPR, and transformExprRecurse().

Node* transformExpr	(	ParseState *	pstate,
		Node *	expr,
		ParseExprKind	exprKind
	)

Functions

Variables

Function Documentation

◆ checkJsonOutputFormat()

◆ coerceJsonExprOutput()

◆ coerceJsonFuncExpr()

◆ exprIsNullConstant()

◆ GetJsonBehaviorConst()

◆ getJsonEncodingConst()

◆ make_distinct_op()

◆ make_nulltest_from_distinct()

◆ make_row_comparison_op()

◆ make_row_distinct_op()

◆ makeJsonByteaToTextConversion()

◆ makeJsonConstructorExpr()

◆ ParseExprKindName()

◆ transformAExprBetween()

◆ transformAExprDistinct()

◆ transformAExprIn()

◆ transformAExprNullIf()

◆ transformAExprOp()

◆ transformAExprOpAll()

◆ transformAExprOpAny()

◆ transformArrayExpr()

◆ transformBooleanTest()

◆ transformBoolExpr()

◆ transformCaseExpr()

◆ transformCoalesceExpr()

◆ transformCollateClause()

◆ transformColumnRef()

◆ transformCurrentOfExpr()

◆ transformExpr()

◆ transformExprRecurse()

◆ transformFuncCall()

◆ transformIndirection()

◆ transformJsonAggConstructor()

◆ transformJsonArrayAgg()

◆ transformJsonArrayConstructor()

◆ transformJsonArrayQueryConstructor()

◆ transformJsonBehavior()

◆ transformJsonConstructorOutput()

◆ transformJsonFuncExpr()

◆ transformJsonIsPredicate()

◆ transformJsonObjectAgg()

◆ transformJsonObjectConstructor()

◆ transformJsonOutput()

◆ transformJsonParseArg()

◆ transformJsonParseExpr()

◆ transformJsonPassingArgs()

◆ transformJsonReturning()

◆ transformJsonScalarExpr()

◆ transformJsonSerializeExpr()

◆ transformJsonValueExpr()

◆ transformMergeSupportFunc()

◆ transformMinMaxExpr()

◆ transformMultiAssignRef()

◆ transformParamRef()

◆ transformRowExpr()

◆ transformSQLValueFunction()

◆ transformSubLink()

◆ transformTypeCast()

◆ transformWholeRowRef()

◆ transformXmlExpr()

◆ transformXmlSerialize()

◆ unknown_attribute()

◆ ValidJsonBehaviorDefaultExpr()

Variable Documentation

◆ Transform_null_equals