PostgreSQL Source Code  git master
execExpr.h File Reference
#include "executor/nodeAgg.h"
#include "nodes/execnodes.h"
#include "nodes/miscnodes.h"
Include dependency graph for execExpr.h:
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Data Structures

struct  ExprEvalRowtypeCache
 
struct  ExprEvalStep
 
struct  SubscriptingRefState
 
struct  SubscriptExecSteps
 
struct  JsonConstructorExprState
 

Macros

#define EEO_FLAG_INTERPRETER_INITIALIZED   (1 << 1)
 
#define EEO_FLAG_DIRECT_THREADED   (1 << 2)
 

Typedefs

typedef void(* ExecEvalSubroutine) (ExprState *state, struct ExprEvalStep *op, ExprContext *econtext)
 
typedef bool(* ExecEvalBoolSubroutine) (ExprState *state, struct ExprEvalStep *op, ExprContext *econtext)
 
typedef struct ExprEvalRowtypeCache ExprEvalRowtypeCache
 
typedef enum ExprEvalOp ExprEvalOp
 
typedef struct ExprEvalStep ExprEvalStep
 
typedef struct SubscriptingRefState SubscriptingRefState
 
typedef struct SubscriptExecSteps SubscriptExecSteps
 
typedef struct JsonConstructorExprState JsonConstructorExprState
 

Enumerations

enum  ExprEvalOp {
  EEOP_DONE , EEOP_INNER_FETCHSOME , EEOP_OUTER_FETCHSOME , EEOP_SCAN_FETCHSOME ,
  EEOP_INNER_VAR , EEOP_OUTER_VAR , EEOP_SCAN_VAR , EEOP_INNER_SYSVAR ,
  EEOP_OUTER_SYSVAR , EEOP_SCAN_SYSVAR , EEOP_WHOLEROW , EEOP_ASSIGN_INNER_VAR ,
  EEOP_ASSIGN_OUTER_VAR , EEOP_ASSIGN_SCAN_VAR , EEOP_ASSIGN_TMP , EEOP_ASSIGN_TMP_MAKE_RO ,
  EEOP_CONST , EEOP_FUNCEXPR , EEOP_FUNCEXPR_STRICT , EEOP_FUNCEXPR_FUSAGE ,
  EEOP_FUNCEXPR_STRICT_FUSAGE , EEOP_BOOL_AND_STEP_FIRST , EEOP_BOOL_AND_STEP , EEOP_BOOL_AND_STEP_LAST ,
  EEOP_BOOL_OR_STEP_FIRST , EEOP_BOOL_OR_STEP , EEOP_BOOL_OR_STEP_LAST , EEOP_BOOL_NOT_STEP ,
  EEOP_QUAL , EEOP_JUMP , EEOP_JUMP_IF_NULL , EEOP_JUMP_IF_NOT_NULL ,
  EEOP_JUMP_IF_NOT_TRUE , EEOP_NULLTEST_ISNULL , EEOP_NULLTEST_ISNOTNULL , EEOP_NULLTEST_ROWISNULL ,
  EEOP_NULLTEST_ROWISNOTNULL , EEOP_BOOLTEST_IS_TRUE , EEOP_BOOLTEST_IS_NOT_TRUE , EEOP_BOOLTEST_IS_FALSE ,
  EEOP_BOOLTEST_IS_NOT_FALSE , EEOP_PARAM_EXEC , EEOP_PARAM_EXTERN , EEOP_PARAM_CALLBACK ,
  EEOP_CASE_TESTVAL , EEOP_MAKE_READONLY , EEOP_IOCOERCE , EEOP_IOCOERCE_SAFE ,
  EEOP_DISTINCT , EEOP_NOT_DISTINCT , EEOP_NULLIF , EEOP_SQLVALUEFUNCTION ,
  EEOP_CURRENTOFEXPR , EEOP_NEXTVALUEEXPR , EEOP_ARRAYEXPR , EEOP_ARRAYCOERCE ,
  EEOP_ROW , EEOP_ROWCOMPARE_STEP , EEOP_ROWCOMPARE_FINAL , EEOP_MINMAX ,
  EEOP_FIELDSELECT , EEOP_FIELDSTORE_DEFORM , EEOP_FIELDSTORE_FORM , EEOP_SBSREF_SUBSCRIPTS ,
  EEOP_SBSREF_OLD , EEOP_SBSREF_ASSIGN , EEOP_SBSREF_FETCH , EEOP_DOMAIN_TESTVAL ,
  EEOP_DOMAIN_NOTNULL , EEOP_DOMAIN_CHECK , EEOP_CONVERT_ROWTYPE , EEOP_SCALARARRAYOP ,
  EEOP_HASHED_SCALARARRAYOP , EEOP_XMLEXPR , EEOP_JSON_CONSTRUCTOR , EEOP_IS_JSON ,
  EEOP_JSONEXPR_PATH , EEOP_JSONEXPR_COERCION , EEOP_JSONEXPR_COERCION_FINISH , EEOP_AGGREF ,
  EEOP_GROUPING_FUNC , EEOP_WINDOW_FUNC , EEOP_MERGE_SUPPORT_FUNC , EEOP_SUBPLAN ,
  EEOP_AGG_STRICT_DESERIALIZE , EEOP_AGG_DESERIALIZE , EEOP_AGG_STRICT_INPUT_CHECK_ARGS , EEOP_AGG_STRICT_INPUT_CHECK_NULLS ,
  EEOP_AGG_PLAIN_PERGROUP_NULLCHECK , EEOP_AGG_PLAIN_TRANS_INIT_STRICT_BYVAL , EEOP_AGG_PLAIN_TRANS_STRICT_BYVAL , EEOP_AGG_PLAIN_TRANS_BYVAL ,
  EEOP_AGG_PLAIN_TRANS_INIT_STRICT_BYREF , EEOP_AGG_PLAIN_TRANS_STRICT_BYREF , EEOP_AGG_PLAIN_TRANS_BYREF , EEOP_AGG_PRESORTED_DISTINCT_SINGLE ,
  EEOP_AGG_PRESORTED_DISTINCT_MULTI , EEOP_AGG_ORDERED_TRANS_DATUM , EEOP_AGG_ORDERED_TRANS_TUPLE , EEOP_LAST
}
 

Functions

 StaticAssertDecl (sizeof(ExprEvalStep)<=64, "size of ExprEvalStep exceeds 64 bytes")
 
void ExprEvalPushStep (ExprState *es, const ExprEvalStep *s)
 
void ExecReadyInterpretedExpr (ExprState *state)
 
ExprEvalOp ExecEvalStepOp (ExprState *state, ExprEvalStep *op)
 
Datum ExecInterpExprStillValid (ExprState *state, ExprContext *econtext, bool *isNull)
 
void CheckExprStillValid (ExprState *state, ExprContext *econtext)
 
void ExecEvalFuncExprFusage (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalFuncExprStrictFusage (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalParamExec (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalParamExtern (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalCoerceViaIOSafe (ExprState *state, ExprEvalStep *op)
 
void ExecEvalSQLValueFunction (ExprState *state, ExprEvalStep *op)
 
void ExecEvalCurrentOfExpr (ExprState *state, ExprEvalStep *op)
 
void ExecEvalNextValueExpr (ExprState *state, ExprEvalStep *op)
 
void ExecEvalRowNull (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalRowNotNull (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalArrayExpr (ExprState *state, ExprEvalStep *op)
 
void ExecEvalArrayCoerce (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalRow (ExprState *state, ExprEvalStep *op)
 
void ExecEvalMinMax (ExprState *state, ExprEvalStep *op)
 
void ExecEvalFieldSelect (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalFieldStoreDeForm (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalFieldStoreForm (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalConvertRowtype (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalScalarArrayOp (ExprState *state, ExprEvalStep *op)
 
void ExecEvalHashedScalarArrayOp (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalConstraintNotNull (ExprState *state, ExprEvalStep *op)
 
void ExecEvalConstraintCheck (ExprState *state, ExprEvalStep *op)
 
void ExecEvalXmlExpr (ExprState *state, ExprEvalStep *op)
 
void ExecEvalJsonConstructor (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalJsonIsPredicate (ExprState *state, ExprEvalStep *op)
 
int ExecEvalJsonExprPath (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalJsonCoercion (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalJsonCoercionFinish (ExprState *state, ExprEvalStep *op)
 
void ExecEvalGroupingFunc (ExprState *state, ExprEvalStep *op)
 
void ExecEvalMergeSupportFunc (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalSubPlan (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalWholeRowVar (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalSysVar (ExprState *state, ExprEvalStep *op, ExprContext *econtext, TupleTableSlot *slot)
 
void ExecAggInitGroup (AggState *aggstate, AggStatePerTrans pertrans, AggStatePerGroup pergroup, ExprContext *aggcontext)
 
Datum ExecAggCopyTransValue (AggState *aggstate, AggStatePerTrans pertrans, Datum newValue, bool newValueIsNull, Datum oldValue, bool oldValueIsNull)
 
bool ExecEvalPreOrderedDistinctSingle (AggState *aggstate, AggStatePerTrans pertrans)
 
bool ExecEvalPreOrderedDistinctMulti (AggState *aggstate, AggStatePerTrans pertrans)
 
void ExecEvalAggOrderedTransDatum (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 
void ExecEvalAggOrderedTransTuple (ExprState *state, ExprEvalStep *op, ExprContext *econtext)
 

Macro Definition Documentation

◆ EEO_FLAG_DIRECT_THREADED

#define EEO_FLAG_DIRECT_THREADED   (1 << 2)

Definition at line 31 of file execExpr.h.

◆ EEO_FLAG_INTERPRETER_INITIALIZED

#define EEO_FLAG_INTERPRETER_INITIALIZED   (1 << 1)

Definition at line 29 of file execExpr.h.

Typedef Documentation

◆ ExecEvalBoolSubroutine

typedef bool(* ExecEvalBoolSubroutine) (ExprState *state, struct ExprEvalStep *op, ExprContext *econtext)

Definition at line 39 of file execExpr.h.

◆ ExecEvalSubroutine

typedef void(* ExecEvalSubroutine) (ExprState *state, struct ExprEvalStep *op, ExprContext *econtext)

Definition at line 34 of file execExpr.h.

◆ ExprEvalOp

typedef enum ExprEvalOp ExprEvalOp

◆ ExprEvalRowtypeCache

◆ ExprEvalStep

typedef struct ExprEvalStep ExprEvalStep

◆ JsonConstructorExprState

◆ SubscriptExecSteps

◆ SubscriptingRefState

Enumeration Type Documentation

◆ ExprEvalOp

enum ExprEvalOp
Enumerator
EEOP_DONE 
EEOP_INNER_FETCHSOME 
EEOP_OUTER_FETCHSOME 
EEOP_SCAN_FETCHSOME 
EEOP_INNER_VAR 
EEOP_OUTER_VAR 
EEOP_SCAN_VAR 
EEOP_INNER_SYSVAR 
EEOP_OUTER_SYSVAR 
EEOP_SCAN_SYSVAR 
EEOP_WHOLEROW 
EEOP_ASSIGN_INNER_VAR 
EEOP_ASSIGN_OUTER_VAR 
EEOP_ASSIGN_SCAN_VAR 
EEOP_ASSIGN_TMP 
EEOP_ASSIGN_TMP_MAKE_RO 
EEOP_CONST 
EEOP_FUNCEXPR 
EEOP_FUNCEXPR_STRICT 
EEOP_FUNCEXPR_FUSAGE 
EEOP_FUNCEXPR_STRICT_FUSAGE 
EEOP_BOOL_AND_STEP_FIRST 
EEOP_BOOL_AND_STEP 
EEOP_BOOL_AND_STEP_LAST 
EEOP_BOOL_OR_STEP_FIRST 
EEOP_BOOL_OR_STEP 
EEOP_BOOL_OR_STEP_LAST 
EEOP_BOOL_NOT_STEP 
EEOP_QUAL 
EEOP_JUMP 
EEOP_JUMP_IF_NULL 
EEOP_JUMP_IF_NOT_NULL 
EEOP_JUMP_IF_NOT_TRUE 
EEOP_NULLTEST_ISNULL 
EEOP_NULLTEST_ISNOTNULL 
EEOP_NULLTEST_ROWISNULL 
EEOP_NULLTEST_ROWISNOTNULL 
EEOP_BOOLTEST_IS_TRUE 
EEOP_BOOLTEST_IS_NOT_TRUE 
EEOP_BOOLTEST_IS_FALSE 
EEOP_BOOLTEST_IS_NOT_FALSE 
EEOP_PARAM_EXEC 
EEOP_PARAM_EXTERN 
EEOP_PARAM_CALLBACK 
EEOP_CASE_TESTVAL 
EEOP_MAKE_READONLY 
EEOP_IOCOERCE 
EEOP_IOCOERCE_SAFE 
EEOP_DISTINCT 
EEOP_NOT_DISTINCT 
EEOP_NULLIF 
EEOP_SQLVALUEFUNCTION 
EEOP_CURRENTOFEXPR 
EEOP_NEXTVALUEEXPR 
EEOP_ARRAYEXPR 
EEOP_ARRAYCOERCE 
EEOP_ROW 
EEOP_ROWCOMPARE_STEP 
EEOP_ROWCOMPARE_FINAL 
EEOP_MINMAX 
EEOP_FIELDSELECT 
EEOP_FIELDSTORE_DEFORM 
EEOP_FIELDSTORE_FORM 
EEOP_SBSREF_SUBSCRIPTS 
EEOP_SBSREF_OLD 
EEOP_SBSREF_ASSIGN 
EEOP_SBSREF_FETCH 
EEOP_DOMAIN_TESTVAL 
EEOP_DOMAIN_NOTNULL 
EEOP_DOMAIN_CHECK 
EEOP_CONVERT_ROWTYPE 
EEOP_SCALARARRAYOP 
EEOP_HASHED_SCALARARRAYOP 
EEOP_XMLEXPR 
EEOP_JSON_CONSTRUCTOR 
EEOP_IS_JSON 
EEOP_JSONEXPR_PATH 
EEOP_JSONEXPR_COERCION 
EEOP_JSONEXPR_COERCION_FINISH 
EEOP_AGGREF 
EEOP_GROUPING_FUNC 
EEOP_WINDOW_FUNC 
EEOP_MERGE_SUPPORT_FUNC 
EEOP_SUBPLAN 
EEOP_AGG_STRICT_DESERIALIZE 
EEOP_AGG_DESERIALIZE 
EEOP_AGG_STRICT_INPUT_CHECK_ARGS 
EEOP_AGG_STRICT_INPUT_CHECK_NULLS 
EEOP_AGG_PLAIN_PERGROUP_NULLCHECK 
EEOP_AGG_PLAIN_TRANS_INIT_STRICT_BYVAL 
EEOP_AGG_PLAIN_TRANS_STRICT_BYVAL 
EEOP_AGG_PLAIN_TRANS_BYVAL 
EEOP_AGG_PLAIN_TRANS_INIT_STRICT_BYREF 
EEOP_AGG_PLAIN_TRANS_STRICT_BYREF 
EEOP_AGG_PLAIN_TRANS_BYREF 
EEOP_AGG_PRESORTED_DISTINCT_SINGLE 
EEOP_AGG_PRESORTED_DISTINCT_MULTI 
EEOP_AGG_ORDERED_TRANS_DATUM 
EEOP_AGG_ORDERED_TRANS_TUPLE 
EEOP_LAST 

Definition at line 66 of file execExpr.h.

67 {
68  /* entire expression has been evaluated completely, return */
69  EEOP_DONE,
70 
71  /* apply slot_getsomeattrs on corresponding tuple slot */
75 
76  /* compute non-system Var value */
80 
81  /* compute system Var value */
85 
86  /* compute wholerow Var */
88 
89  /*
90  * Compute non-system Var value, assign it into ExprState's resultslot.
91  * These are not used if a CheckVarSlotCompatibility() check would be
92  * needed.
93  */
97 
98  /* assign ExprState's resvalue/resnull to a column of its resultslot */
100  /* ditto, applying MakeExpandedObjectReadOnly() */
102 
103  /* evaluate Const value */
104  EEOP_CONST,
105 
106  /*
107  * Evaluate function call (including OpExprs etc). For speed, we
108  * distinguish in the opcode whether the function is strict and/or
109  * requires usage stats tracking.
110  */
115 
116  /*
117  * Evaluate boolean AND expression, one step per subexpression. FIRST/LAST
118  * subexpressions are special-cased for performance. Since AND always has
119  * at least two subexpressions, FIRST and LAST never apply to the same
120  * subexpression.
121  */
125 
126  /* similarly for boolean OR expression */
130 
131  /* evaluate boolean NOT expression */
133 
134  /* simplified version of BOOL_AND_STEP for use by ExecQual() */
135  EEOP_QUAL,
136 
137  /* unconditional jump to another step */
138  EEOP_JUMP,
139 
140  /* conditional jumps based on current result value */
144 
145  /* perform NULL tests for scalar values */
148 
149  /* perform NULL tests for row values */
152 
153  /* evaluate a BooleanTest expression */
158 
159  /* evaluate PARAM_EXEC/EXTERN parameters */
163 
164  /* return CaseTestExpr value */
166 
167  /* apply MakeExpandedObjectReadOnly() to target value */
169 
170  /* evaluate assorted special-purpose expression types */
175  EEOP_NULLIF,
181  EEOP_ROW,
182 
183  /*
184  * Compare two individual elements of each of two compared ROW()
185  * expressions. Skip to ROWCOMPARE_FINAL if elements are not equal.
186  */
188 
189  /* evaluate boolean value based on previous ROWCOMPARE_STEP operations */
191 
192  /* evaluate GREATEST() or LEAST() */
193  EEOP_MINMAX,
194 
195  /* evaluate FieldSelect expression */
197 
198  /*
199  * Deform tuple before evaluating new values for individual fields in a
200  * FieldStore expression.
201  */
203 
204  /*
205  * Form the new tuple for a FieldStore expression. Individual fields will
206  * have been evaluated into columns of the tuple deformed by the preceding
207  * DEFORM step.
208  */
210 
211  /* Process container subscripts; possibly short-circuit result to NULL */
213 
214  /*
215  * Compute old container element/slice when a SubscriptingRef assignment
216  * expression contains SubscriptingRef/FieldStore subexpressions. Value is
217  * accessed using the CaseTest mechanism.
218  */
220 
221  /* compute new value for SubscriptingRef assignment expression */
223 
224  /* compute element/slice for SubscriptingRef fetch expression */
226 
227  /* evaluate value for CoerceToDomainValue */
229 
230  /* evaluate a domain's NOT NULL constraint */
232 
233  /* evaluate a single domain CHECK constraint */
235 
236  /* evaluate assorted special-purpose expression types */
240  EEOP_XMLEXPR,
242  EEOP_IS_JSON,
246  EEOP_AGGREF,
250  EEOP_SUBPLAN,
251 
252  /* aggregation related nodes */
268 
269  /* non-existent operation, used e.g. to check array lengths */
270  EEOP_LAST
271 } ExprEvalOp;
ExprEvalOp
Definition: execExpr.h:67
@ EEOP_ASSIGN_TMP
Definition: execExpr.h:99
@ EEOP_SUBPLAN
Definition: execExpr.h:250
@ EEOP_CONVERT_ROWTYPE
Definition: execExpr.h:237
@ EEOP_FUNCEXPR_STRICT_FUSAGE
Definition: execExpr.h:114
@ EEOP_ARRAYEXPR
Definition: execExpr.h:179
@ EEOP_JSONEXPR_PATH
Definition: execExpr.h:243
@ EEOP_NOT_DISTINCT
Definition: execExpr.h:174
@ EEOP_DOMAIN_TESTVAL
Definition: execExpr.h:228
@ EEOP_PARAM_EXTERN
Definition: execExpr.h:161
@ EEOP_IOCOERCE_SAFE
Definition: execExpr.h:172
@ EEOP_BOOL_AND_STEP
Definition: execExpr.h:123
@ EEOP_WHOLEROW
Definition: execExpr.h:87
@ EEOP_JSONEXPR_COERCION_FINISH
Definition: execExpr.h:245
@ EEOP_AGGREF
Definition: execExpr.h:246
@ EEOP_INNER_VAR
Definition: execExpr.h:77
@ EEOP_AGG_PLAIN_PERGROUP_NULLCHECK
Definition: execExpr.h:257
@ EEOP_ROWCOMPARE_FINAL
Definition: execExpr.h:190
@ EEOP_AGG_STRICT_DESERIALIZE
Definition: execExpr.h:253
@ EEOP_IOCOERCE
Definition: execExpr.h:171
@ EEOP_GROUPING_FUNC
Definition: execExpr.h:247
@ EEOP_DOMAIN_CHECK
Definition: execExpr.h:234
@ EEOP_BOOLTEST_IS_NOT_FALSE
Definition: execExpr.h:157
@ EEOP_NEXTVALUEEXPR
Definition: execExpr.h:178
@ EEOP_DONE
Definition: execExpr.h:69
@ EEOP_AGG_PLAIN_TRANS_BYREF
Definition: execExpr.h:263
@ EEOP_QUAL
Definition: execExpr.h:135
@ EEOP_AGG_PRESORTED_DISTINCT_MULTI
Definition: execExpr.h:265
@ EEOP_AGG_PLAIN_TRANS_BYVAL
Definition: execExpr.h:260
@ EEOP_SCAN_VAR
Definition: execExpr.h:79
@ EEOP_BOOL_NOT_STEP
Definition: execExpr.h:132
@ EEOP_ASSIGN_SCAN_VAR
Definition: execExpr.h:96
@ EEOP_SCAN_SYSVAR
Definition: execExpr.h:84
@ EEOP_SCALARARRAYOP
Definition: execExpr.h:238
@ EEOP_DOMAIN_NOTNULL
Definition: execExpr.h:231
@ EEOP_WINDOW_FUNC
Definition: execExpr.h:248
@ EEOP_INNER_FETCHSOME
Definition: execExpr.h:72
@ EEOP_NULLTEST_ROWISNOTNULL
Definition: execExpr.h:151
@ EEOP_ASSIGN_OUTER_VAR
Definition: execExpr.h:95
@ EEOP_ROW
Definition: execExpr.h:181
@ EEOP_MAKE_READONLY
Definition: execExpr.h:168
@ EEOP_FIELDSTORE_FORM
Definition: execExpr.h:209
@ EEOP_SBSREF_SUBSCRIPTS
Definition: execExpr.h:212
@ EEOP_SBSREF_FETCH
Definition: execExpr.h:225
@ EEOP_FUNCEXPR_STRICT
Definition: execExpr.h:112
@ EEOP_NULLIF
Definition: execExpr.h:175
@ EEOP_CURRENTOFEXPR
Definition: execExpr.h:177
@ EEOP_INNER_SYSVAR
Definition: execExpr.h:82
@ EEOP_ASSIGN_TMP_MAKE_RO
Definition: execExpr.h:101
@ EEOP_CONST
Definition: execExpr.h:104
@ EEOP_BOOL_OR_STEP_LAST
Definition: execExpr.h:129
@ EEOP_JSONEXPR_COERCION
Definition: execExpr.h:244
@ EEOP_BOOL_OR_STEP_FIRST
Definition: execExpr.h:127
@ EEOP_XMLEXPR
Definition: execExpr.h:240
@ EEOP_AGG_STRICT_INPUT_CHECK_NULLS
Definition: execExpr.h:256
@ EEOP_SBSREF_ASSIGN
Definition: execExpr.h:222
@ EEOP_OUTER_SYSVAR
Definition: execExpr.h:83
@ EEOP_ASSIGN_INNER_VAR
Definition: execExpr.h:94
@ EEOP_BOOL_OR_STEP
Definition: execExpr.h:128
@ EEOP_OUTER_FETCHSOME
Definition: execExpr.h:73
@ EEOP_AGG_STRICT_INPUT_CHECK_ARGS
Definition: execExpr.h:255
@ EEOP_NULLTEST_ROWISNULL
Definition: execExpr.h:150
@ EEOP_BOOLTEST_IS_TRUE
Definition: execExpr.h:154
@ EEOP_FUNCEXPR
Definition: execExpr.h:111
@ EEOP_NULLTEST_ISNOTNULL
Definition: execExpr.h:147
@ EEOP_ROWCOMPARE_STEP
Definition: execExpr.h:187
@ EEOP_MERGE_SUPPORT_FUNC
Definition: execExpr.h:249
@ EEOP_AGG_DESERIALIZE
Definition: execExpr.h:254
@ EEOP_LAST
Definition: execExpr.h:270
@ EEOP_DISTINCT
Definition: execExpr.h:173
@ EEOP_JUMP_IF_NOT_TRUE
Definition: execExpr.h:143
@ EEOP_FUNCEXPR_FUSAGE
Definition: execExpr.h:113
@ EEOP_AGG_PRESORTED_DISTINCT_SINGLE
Definition: execExpr.h:264
@ EEOP_BOOL_AND_STEP_FIRST
Definition: execExpr.h:122
@ EEOP_JUMP
Definition: execExpr.h:138
@ EEOP_PARAM_CALLBACK
Definition: execExpr.h:162
@ EEOP_BOOL_AND_STEP_LAST
Definition: execExpr.h:124
@ EEOP_AGG_ORDERED_TRANS_DATUM
Definition: execExpr.h:266
@ EEOP_SBSREF_OLD
Definition: execExpr.h:219
@ EEOP_SQLVALUEFUNCTION
Definition: execExpr.h:176
@ EEOP_JUMP_IF_NOT_NULL
Definition: execExpr.h:142
@ EEOP_AGG_PLAIN_TRANS_STRICT_BYREF
Definition: execExpr.h:262
@ EEOP_FIELDSTORE_DEFORM
Definition: execExpr.h:202
@ EEOP_BOOLTEST_IS_FALSE
Definition: execExpr.h:156
@ EEOP_BOOLTEST_IS_NOT_TRUE
Definition: execExpr.h:155
@ EEOP_AGG_PLAIN_TRANS_INIT_STRICT_BYVAL
Definition: execExpr.h:258
@ EEOP_PARAM_EXEC
Definition: execExpr.h:160
@ EEOP_JSON_CONSTRUCTOR
Definition: execExpr.h:241
@ EEOP_AGG_PLAIN_TRANS_STRICT_BYVAL
Definition: execExpr.h:259
@ EEOP_NULLTEST_ISNULL
Definition: execExpr.h:146
@ EEOP_MINMAX
Definition: execExpr.h:193
@ EEOP_JUMP_IF_NULL
Definition: execExpr.h:141
@ EEOP_ARRAYCOERCE
Definition: execExpr.h:180
@ EEOP_FIELDSELECT
Definition: execExpr.h:196
@ EEOP_CASE_TESTVAL
Definition: execExpr.h:165
@ EEOP_AGG_PLAIN_TRANS_INIT_STRICT_BYREF
Definition: execExpr.h:261
@ EEOP_HASHED_SCALARARRAYOP
Definition: execExpr.h:239
@ EEOP_OUTER_VAR
Definition: execExpr.h:78
@ EEOP_AGG_ORDERED_TRANS_TUPLE
Definition: execExpr.h:267
@ EEOP_SCAN_FETCHSOME
Definition: execExpr.h:74
@ EEOP_IS_JSON
Definition: execExpr.h:242

Function Documentation

◆ CheckExprStillValid()

void CheckExprStillValid ( ExprState state,
ExprContext econtext 
)

Definition at line 1923 of file execExprInterp.c.

1924 {
1925  TupleTableSlot *innerslot;
1926  TupleTableSlot *outerslot;
1927  TupleTableSlot *scanslot;
1928 
1929  innerslot = econtext->ecxt_innertuple;
1930  outerslot = econtext->ecxt_outertuple;
1931  scanslot = econtext->ecxt_scantuple;
1932 
1933  for (int i = 0; i < state->steps_len; i++)
1934  {
1935  ExprEvalStep *op = &state->steps[i];
1936 
1937  switch (ExecEvalStepOp(state, op))
1938  {
1939  case EEOP_INNER_VAR:
1940  {
1941  int attnum = op->d.var.attnum;
1942 
1943  CheckVarSlotCompatibility(innerslot, attnum + 1, op->d.var.vartype);
1944  break;
1945  }
1946 
1947  case EEOP_OUTER_VAR:
1948  {
1949  int attnum = op->d.var.attnum;
1950 
1951  CheckVarSlotCompatibility(outerslot, attnum + 1, op->d.var.vartype);
1952  break;
1953  }
1954 
1955  case EEOP_SCAN_VAR:
1956  {
1957  int attnum = op->d.var.attnum;
1958 
1959  CheckVarSlotCompatibility(scanslot, attnum + 1, op->d.var.vartype);
1960  break;
1961  }
1962  default:
1963  break;
1964  }
1965  }
1966 }
static void CheckVarSlotCompatibility(TupleTableSlot *slot, int attnum, Oid vartype)
ExprEvalOp ExecEvalStepOp(ExprState *state, ExprEvalStep *op)
int i
Definition: isn.c:73
int16 attnum
Definition: pg_attribute.h:74
TupleTableSlot * ecxt_innertuple
Definition: execnodes.h:257
TupleTableSlot * ecxt_scantuple
Definition: execnodes.h:255
TupleTableSlot * ecxt_outertuple
Definition: execnodes.h:259
union ExprEvalStep::@54 d
struct ExprEvalStep::@54::@56 var
Definition: regguts.h:323

References attnum, CheckVarSlotCompatibility(), ExprContext::ecxt_innertuple, ExprContext::ecxt_outertuple, ExprContext::ecxt_scantuple, EEOP_INNER_VAR, EEOP_OUTER_VAR, EEOP_SCAN_VAR, ExecEvalStepOp(), i, and ExprEvalStep::op.

Referenced by ExecInterpExprStillValid(), and ExecRunCompiledExpr().

◆ ExecAggCopyTransValue()

Datum ExecAggCopyTransValue ( AggState aggstate,
AggStatePerTrans  pertrans,
Datum  newValue,
bool  newValueIsNull,
Datum  oldValue,
bool  oldValueIsNull 
)

Definition at line 4960 of file execExprInterp.c.

4963 {
4964  Assert(newValue != oldValue);
4965 
4966  if (!newValueIsNull)
4967  {
4969  if (DatumIsReadWriteExpandedObject(newValue,
4970  false,
4971  pertrans->transtypeLen) &&
4972  MemoryContextGetParent(DatumGetEOHP(newValue)->eoh_context) == CurrentMemoryContext)
4973  /* do nothing */ ;
4974  else
4975  newValue = datumCopy(newValue,
4976  pertrans->transtypeByVal,
4977  pertrans->transtypeLen);
4978  }
4979  else
4980  {
4981  /*
4982  * Ensure that AggStatePerGroup->transValue ends up being 0, so
4983  * callers can safely compare newValue/oldValue without having to
4984  * check their respective nullness.
4985  */
4986  newValue = (Datum) 0;
4987  }
4988 
4989  if (!oldValueIsNull)
4990  {
4991  if (DatumIsReadWriteExpandedObject(oldValue,
4992  false,
4993  pertrans->transtypeLen))
4994  DeleteExpandedObject(oldValue);
4995  else
4996  pfree(DatumGetPointer(oldValue));
4997  }
4998 
4999  return newValue;
5000 }
#define Assert(condition)
Definition: c.h:858
Datum datumCopy(Datum value, bool typByVal, int typLen)
Definition: datum.c:132
ExpandedObjectHeader * DatumGetEOHP(Datum d)
Definition: expandeddatum.c:29
void DeleteExpandedObject(Datum d)
#define DatumIsReadWriteExpandedObject(d, isnull, typlen)
void pfree(void *pointer)
Definition: mcxt.c:1520
MemoryContext CurrentMemoryContext
Definition: mcxt.c:143
MemoryContext MemoryContextGetParent(MemoryContext context)
Definition: mcxt.c:731
uintptr_t Datum
Definition: postgres.h:64
static Pointer DatumGetPointer(Datum X)
Definition: postgres.h:312
MemoryContextSwitchTo(old_ctx)
ExprContext * curaggcontext
Definition: execnodes.h:2478
MemoryContext ecxt_per_tuple_memory
Definition: execnodes.h:263

References Assert, AggState::curaggcontext, CurrentMemoryContext, datumCopy(), DatumGetEOHP(), DatumGetPointer(), DatumIsReadWriteExpandedObject, DeleteExpandedObject(), ExprContext::ecxt_per_tuple_memory, MemoryContextGetParent(), MemoryContextSwitchTo(), ExprEvalStep::pertrans, pfree(), AggStatePerTransData::transtypeByVal, and AggStatePerTransData::transtypeLen.

Referenced by advance_transition_function(), and ExecAggPlainTransByRef().

◆ ExecAggInitGroup()

void ExecAggInitGroup ( AggState aggstate,
AggStatePerTrans  pertrans,
AggStatePerGroup  pergroup,
ExprContext aggcontext 
)

Definition at line 4907 of file execExprInterp.c.

4909 {
4910  FunctionCallInfo fcinfo = pertrans->transfn_fcinfo;
4911  MemoryContext oldContext;
4912 
4913  /*
4914  * We must copy the datum into aggcontext if it is pass-by-ref. We do not
4915  * need to pfree the old transValue, since it's NULL. (We already checked
4916  * that the agg's input type is binary-compatible with its transtype, so
4917  * straight copy here is OK.)
4918  */
4919  oldContext = MemoryContextSwitchTo(aggcontext->ecxt_per_tuple_memory);
4920  pergroup->transValue = datumCopy(fcinfo->args[1].value,
4921  pertrans->transtypeByVal,
4922  pertrans->transtypeLen);
4923  pergroup->transValueIsNull = false;
4924  pergroup->noTransValue = false;
4925  MemoryContextSwitchTo(oldContext);
4926 }
FunctionCallInfo transfn_fcinfo
Definition: nodeAgg.h:170
NullableDatum args[FLEXIBLE_ARRAY_MEMBER]
Definition: fmgr.h:95
Datum value
Definition: postgres.h:75

References ExprEvalStep::aggcontext, FunctionCallInfoBaseData::args, datumCopy(), ExprContext::ecxt_per_tuple_memory, MemoryContextSwitchTo(), AggStatePerGroupData::noTransValue, ExprEvalStep::pertrans, AggStatePerTransData::transfn_fcinfo, AggStatePerTransData::transtypeByVal, AggStatePerTransData::transtypeLen, AggStatePerGroupData::transValue, AggStatePerGroupData::transValueIsNull, and NullableDatum::value.

Referenced by ExecInterpExpr().

◆ ExecEvalAggOrderedTransDatum()

void ExecEvalAggOrderedTransDatum ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 5099 of file execExprInterp.c.

5101 {
5102  AggStatePerTrans pertrans = op->d.agg_trans.pertrans;
5103  int setno = op->d.agg_trans.setno;
5104 
5105  tuplesort_putdatum(pertrans->sortstates[setno],
5106  *op->resvalue, *op->resnull);
5107 }
Tuplesortstate ** sortstates
Definition: nodeAgg.h:162
Datum * resvalue
Definition: execExpr.h:284
bool * resnull
Definition: execExpr.h:285
struct ExprEvalStep::@54::@97 agg_trans
void tuplesort_putdatum(Tuplesortstate *state, Datum val, bool isNull)

References ExprEvalStep::op, ExprEvalStep::pertrans, ExprEvalStep::setno, AggStatePerTransData::sortstates, and tuplesort_putdatum().

Referenced by ExecInterpExpr().

◆ ExecEvalAggOrderedTransTuple()

void ExecEvalAggOrderedTransTuple ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 5113 of file execExprInterp.c.

5115 {
5116  AggStatePerTrans pertrans = op->d.agg_trans.pertrans;
5117  int setno = op->d.agg_trans.setno;
5118 
5119  ExecClearTuple(pertrans->sortslot);
5120  pertrans->sortslot->tts_nvalid = pertrans->numInputs;
5121  ExecStoreVirtualTuple(pertrans->sortslot);
5122  tuplesort_puttupleslot(pertrans->sortstates[setno], pertrans->sortslot);
5123 }
TupleTableSlot * ExecStoreVirtualTuple(TupleTableSlot *slot)
Definition: execTuples.c:1639
TupleTableSlot * sortslot
Definition: nodeAgg.h:141
AttrNumber tts_nvalid
Definition: tuptable.h:120
void tuplesort_puttupleslot(Tuplesortstate *state, TupleTableSlot *slot)
static TupleTableSlot * ExecClearTuple(TupleTableSlot *slot)
Definition: tuptable.h:454

References ExecClearTuple(), ExecStoreVirtualTuple(), AggStatePerTransData::numInputs, ExprEvalStep::op, ExprEvalStep::pertrans, ExprEvalStep::setno, AggStatePerTransData::sortslot, AggStatePerTransData::sortstates, TupleTableSlot::tts_nvalid, and tuplesort_puttupleslot().

Referenced by ExecInterpExpr().

◆ ExecEvalArrayCoerce()

void ExecEvalArrayCoerce ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 3047 of file execExprInterp.c.

3048 {
3049  Datum arraydatum;
3050 
3051  /* NULL array -> NULL result */
3052  if (*op->resnull)
3053  return;
3054 
3055  arraydatum = *op->resvalue;
3056 
3057  /*
3058  * If it's binary-compatible, modify the element type in the array header,
3059  * but otherwise leave the array as we received it.
3060  */
3061  if (op->d.arraycoerce.elemexprstate == NULL)
3062  {
3063  /* Detoast input array if necessary, and copy in any case */
3064  ArrayType *array = DatumGetArrayTypePCopy(arraydatum);
3065 
3066  ARR_ELEMTYPE(array) = op->d.arraycoerce.resultelemtype;
3067  *op->resvalue = PointerGetDatum(array);
3068  return;
3069  }
3070 
3071  /*
3072  * Use array_map to apply the sub-expression to each array element.
3073  */
3074  *op->resvalue = array_map(arraydatum,
3075  op->d.arraycoerce.elemexprstate,
3076  econtext,
3077  op->d.arraycoerce.resultelemtype,
3078  op->d.arraycoerce.amstate);
3079 }
#define DatumGetArrayTypePCopy(X)
Definition: array.h:262
#define ARR_ELEMTYPE(a)
Definition: array.h:292
Datum array_map(Datum arrayd, ExprState *exprstate, ExprContext *econtext, Oid retType, ArrayMapState *amstate)
Definition: arrayfuncs.c:3194
static Datum PointerGetDatum(const void *X)
Definition: postgres.h:322
struct ExprEvalStep::@54::@74 arraycoerce

References ARR_ELEMTYPE, array_map(), DatumGetArrayTypePCopy, ExprEvalStep::op, and PointerGetDatum().

Referenced by ExecInterpExpr().

◆ ExecEvalArrayExpr()

void ExecEvalArrayExpr ( ExprState state,
ExprEvalStep op 
)

Definition at line 2833 of file execExprInterp.c.

2834 {
2835  ArrayType *result;
2836  Oid element_type = op->d.arrayexpr.elemtype;
2837  int nelems = op->d.arrayexpr.nelems;
2838  int ndims = 0;
2839  int dims[MAXDIM];
2840  int lbs[MAXDIM];
2841 
2842  /* Set non-null as default */
2843  *op->resnull = false;
2844 
2845  if (!op->d.arrayexpr.multidims)
2846  {
2847  /* Elements are presumably of scalar type */
2848  Datum *dvalues = op->d.arrayexpr.elemvalues;
2849  bool *dnulls = op->d.arrayexpr.elemnulls;
2850 
2851  /* setup for 1-D array of the given length */
2852  ndims = 1;
2853  dims[0] = nelems;
2854  lbs[0] = 1;
2855 
2856  result = construct_md_array(dvalues, dnulls, ndims, dims, lbs,
2857  element_type,
2858  op->d.arrayexpr.elemlength,
2859  op->d.arrayexpr.elembyval,
2860  op->d.arrayexpr.elemalign);
2861  }
2862  else
2863  {
2864  /* Must be nested array expressions */
2865  int nbytes = 0;
2866  int nitems;
2867  int outer_nelems = 0;
2868  int elem_ndims = 0;
2869  int *elem_dims = NULL;
2870  int *elem_lbs = NULL;
2871  bool firstone = true;
2872  bool havenulls = false;
2873  bool haveempty = false;
2874  char **subdata;
2875  bits8 **subbitmaps;
2876  int *subbytes;
2877  int *subnitems;
2878  int32 dataoffset;
2879  char *dat;
2880  int iitem;
2881 
2882  subdata = (char **) palloc(nelems * sizeof(char *));
2883  subbitmaps = (bits8 **) palloc(nelems * sizeof(bits8 *));
2884  subbytes = (int *) palloc(nelems * sizeof(int));
2885  subnitems = (int *) palloc(nelems * sizeof(int));
2886 
2887  /* loop through and get data area from each element */
2888  for (int elemoff = 0; elemoff < nelems; elemoff++)
2889  {
2890  Datum arraydatum;
2891  bool eisnull;
2892  ArrayType *array;
2893  int this_ndims;
2894 
2895  arraydatum = op->d.arrayexpr.elemvalues[elemoff];
2896  eisnull = op->d.arrayexpr.elemnulls[elemoff];
2897 
2898  /* temporarily ignore null subarrays */
2899  if (eisnull)
2900  {
2901  haveempty = true;
2902  continue;
2903  }
2904 
2905  array = DatumGetArrayTypeP(arraydatum);
2906 
2907  /* run-time double-check on element type */
2908  if (element_type != ARR_ELEMTYPE(array))
2909  ereport(ERROR,
2910  (errcode(ERRCODE_DATATYPE_MISMATCH),
2911  errmsg("cannot merge incompatible arrays"),
2912  errdetail("Array with element type %s cannot be "
2913  "included in ARRAY construct with element type %s.",
2914  format_type_be(ARR_ELEMTYPE(array)),
2915  format_type_be(element_type))));
2916 
2917  this_ndims = ARR_NDIM(array);
2918  /* temporarily ignore zero-dimensional subarrays */
2919  if (this_ndims <= 0)
2920  {
2921  haveempty = true;
2922  continue;
2923  }
2924 
2925  if (firstone)
2926  {
2927  /* Get sub-array details from first member */
2928  elem_ndims = this_ndims;
2929  ndims = elem_ndims + 1;
2930  if (ndims <= 0 || ndims > MAXDIM)
2931  ereport(ERROR,
2932  (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED),
2933  errmsg("number of array dimensions (%d) exceeds the maximum allowed (%d)",
2934  ndims, MAXDIM)));
2935 
2936  elem_dims = (int *) palloc(elem_ndims * sizeof(int));
2937  memcpy(elem_dims, ARR_DIMS(array), elem_ndims * sizeof(int));
2938  elem_lbs = (int *) palloc(elem_ndims * sizeof(int));
2939  memcpy(elem_lbs, ARR_LBOUND(array), elem_ndims * sizeof(int));
2940 
2941  firstone = false;
2942  }
2943  else
2944  {
2945  /* Check other sub-arrays are compatible */
2946  if (elem_ndims != this_ndims ||
2947  memcmp(elem_dims, ARR_DIMS(array),
2948  elem_ndims * sizeof(int)) != 0 ||
2949  memcmp(elem_lbs, ARR_LBOUND(array),
2950  elem_ndims * sizeof(int)) != 0)
2951  ereport(ERROR,
2952  (errcode(ERRCODE_ARRAY_SUBSCRIPT_ERROR),
2953  errmsg("multidimensional arrays must have array "
2954  "expressions with matching dimensions")));
2955  }
2956 
2957  subdata[outer_nelems] = ARR_DATA_PTR(array);
2958  subbitmaps[outer_nelems] = ARR_NULLBITMAP(array);
2959  subbytes[outer_nelems] = ARR_SIZE(array) - ARR_DATA_OFFSET(array);
2960  nbytes += subbytes[outer_nelems];
2961  /* check for overflow of total request */
2962  if (!AllocSizeIsValid(nbytes))
2963  ereport(ERROR,
2964  (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED),
2965  errmsg("array size exceeds the maximum allowed (%d)",
2966  (int) MaxAllocSize)));
2967  subnitems[outer_nelems] = ArrayGetNItems(this_ndims,
2968  ARR_DIMS(array));
2969  havenulls |= ARR_HASNULL(array);
2970  outer_nelems++;
2971  }
2972 
2973  /*
2974  * If all items were null or empty arrays, return an empty array;
2975  * otherwise, if some were and some weren't, raise error. (Note: we
2976  * must special-case this somehow to avoid trying to generate a 1-D
2977  * array formed from empty arrays. It's not ideal...)
2978  */
2979  if (haveempty)
2980  {
2981  if (ndims == 0) /* didn't find any nonempty array */
2982  {
2983  *op->resvalue = PointerGetDatum(construct_empty_array(element_type));
2984  return;
2985  }
2986  ereport(ERROR,
2987  (errcode(ERRCODE_ARRAY_SUBSCRIPT_ERROR),
2988  errmsg("multidimensional arrays must have array "
2989  "expressions with matching dimensions")));
2990  }
2991 
2992  /* setup for multi-D array */
2993  dims[0] = outer_nelems;
2994  lbs[0] = 1;
2995  for (int i = 1; i < ndims; i++)
2996  {
2997  dims[i] = elem_dims[i - 1];
2998  lbs[i] = elem_lbs[i - 1];
2999  }
3000 
3001  /* check for subscript overflow */
3002  nitems = ArrayGetNItems(ndims, dims);
3003  ArrayCheckBounds(ndims, dims, lbs);
3004 
3005  if (havenulls)
3006  {
3007  dataoffset = ARR_OVERHEAD_WITHNULLS(ndims, nitems);
3008  nbytes += dataoffset;
3009  }
3010  else
3011  {
3012  dataoffset = 0; /* marker for no null bitmap */
3013  nbytes += ARR_OVERHEAD_NONULLS(ndims);
3014  }
3015 
3016  result = (ArrayType *) palloc0(nbytes);
3017  SET_VARSIZE(result, nbytes);
3018  result->ndim = ndims;
3019  result->dataoffset = dataoffset;
3020  result->elemtype = element_type;
3021  memcpy(ARR_DIMS(result), dims, ndims * sizeof(int));
3022  memcpy(ARR_LBOUND(result), lbs, ndims * sizeof(int));
3023 
3024  dat = ARR_DATA_PTR(result);
3025  iitem = 0;
3026  for (int i = 0; i < outer_nelems; i++)
3027  {
3028  memcpy(dat, subdata[i], subbytes[i]);
3029  dat += subbytes[i];
3030  if (havenulls)
3031  array_bitmap_copy(ARR_NULLBITMAP(result), iitem,
3032  subbitmaps[i], 0,
3033  subnitems[i]);
3034  iitem += subnitems[i];
3035  }
3036  }
3037 
3038  *op->resvalue = PointerGetDatum(result);
3039 }
#define ARR_NDIM(a)
Definition: array.h:290
#define ARR_DATA_PTR(a)
Definition: array.h:322
#define MAXDIM
Definition: array.h:75
#define ARR_NULLBITMAP(a)
Definition: array.h:300
#define ARR_OVERHEAD_WITHNULLS(ndims, nitems)
Definition: array.h:312
#define DatumGetArrayTypeP(X)
Definition: array.h:261
#define ARR_SIZE(a)
Definition: array.h:289
#define ARR_OVERHEAD_NONULLS(ndims)
Definition: array.h:310
#define ARR_DATA_OFFSET(a)
Definition: array.h:316
#define ARR_DIMS(a)
Definition: array.h:294
#define ARR_HASNULL(a)
Definition: array.h:291
#define ARR_LBOUND(a)
Definition: array.h:296
ArrayType * construct_empty_array(Oid elmtype)
Definition: arrayfuncs.c:3561
ArrayType * construct_md_array(Datum *elems, bool *nulls, int ndims, int *dims, int *lbs, Oid elmtype, int elmlen, bool elmbyval, char elmalign)
Definition: arrayfuncs.c:3475
void array_bitmap_copy(bits8 *destbitmap, int destoffset, const bits8 *srcbitmap, int srcoffset, int nitems)
Definition: arrayfuncs.c:4947
int ArrayGetNItems(int ndim, const int *dims)
Definition: arrayutils.c:57
void ArrayCheckBounds(int ndim, const int *dims, const int *lb)
Definition: arrayutils.c:117
signed int int32
Definition: c.h:494
uint8 bits8
Definition: c.h:513
int errdetail(const char *fmt,...)
Definition: elog.c:1203
int errcode(int sqlerrcode)
Definition: elog.c:857
int errmsg(const char *fmt,...)
Definition: elog.c:1070
#define ERROR
Definition: elog.h:39
#define ereport(elevel,...)
Definition: elog.h:149
char * format_type_be(Oid type_oid)
Definition: format_type.c:343
#define nitems(x)
Definition: indent.h:31
void * palloc0(Size size)
Definition: mcxt.c:1346
void * palloc(Size size)
Definition: mcxt.c:1316
#define AllocSizeIsValid(size)
Definition: memutils.h:42
#define MaxAllocSize
Definition: memutils.h:40
unsigned int Oid
Definition: postgres_ext.h:31
Oid elemtype
Definition: array.h:97
int ndim
Definition: array.h:95
int32 dataoffset
Definition: array.h:96
struct ExprEvalStep::@54::@73 arrayexpr
#define SET_VARSIZE(PTR, len)
Definition: varatt.h:305

References AllocSizeIsValid, ARR_DATA_OFFSET, ARR_DATA_PTR, ARR_DIMS, ARR_ELEMTYPE, ARR_HASNULL, ARR_LBOUND, ARR_NDIM, ARR_NULLBITMAP, ARR_OVERHEAD_NONULLS, ARR_OVERHEAD_WITHNULLS, ARR_SIZE, array_bitmap_copy(), ArrayCheckBounds(), ArrayGetNItems(), construct_empty_array(), construct_md_array(), ArrayType::dataoffset, DatumGetArrayTypeP, ExprEvalStep::element_type, ArrayType::elemtype, ereport, errcode(), errdetail(), errmsg(), ERROR, format_type_be(), i, MaxAllocSize, MAXDIM, ArrayType::ndim, ExprEvalStep::nelems, nitems, ExprEvalStep::op, palloc(), palloc0(), PointerGetDatum(), and SET_VARSIZE.

Referenced by ExecInterpExpr().

◆ ExecEvalCoerceViaIOSafe()

void ExecEvalCoerceViaIOSafe ( ExprState state,
ExprEvalStep op 
)

Definition at line 2567 of file execExprInterp.c.

2568 {
2569  char *str;
2570 
2571  /* call output function (similar to OutputFunctionCall) */
2572  if (*op->resnull)
2573  {
2574  /* output functions are not called on nulls */
2575  str = NULL;
2576  }
2577  else
2578  {
2579  FunctionCallInfo fcinfo_out;
2580 
2581  fcinfo_out = op->d.iocoerce.fcinfo_data_out;
2582  fcinfo_out->args[0].value = *op->resvalue;
2583  fcinfo_out->args[0].isnull = false;
2584 
2585  fcinfo_out->isnull = false;
2586  str = DatumGetCString(FunctionCallInvoke(fcinfo_out));
2587 
2588  /* OutputFunctionCall assumes result isn't null */
2589  Assert(!fcinfo_out->isnull);
2590  }
2591 
2592  /* call input function (similar to InputFunctionCallSafe) */
2593  if (!op->d.iocoerce.finfo_in->fn_strict || str != NULL)
2594  {
2595  FunctionCallInfo fcinfo_in;
2596 
2597  fcinfo_in = op->d.iocoerce.fcinfo_data_in;
2598  fcinfo_in->args[0].value = PointerGetDatum(str);
2599  fcinfo_in->args[0].isnull = *op->resnull;
2600  /* second and third arguments are already set up */
2601 
2602  /* ErrorSaveContext must be present. */
2603  Assert(IsA(fcinfo_in->context, ErrorSaveContext));
2604 
2605  fcinfo_in->isnull = false;
2606  *op->resvalue = FunctionCallInvoke(fcinfo_in);
2607 
2608  if (SOFT_ERROR_OCCURRED(fcinfo_in->context))
2609  {
2610  *op->resnull = true;
2611  *op->resvalue = (Datum) 0;
2612  return;
2613  }
2614 
2615  /* Should get null result if and only if str is NULL */
2616  if (str == NULL)
2617  Assert(*op->resnull);
2618  else
2619  Assert(!*op->resnull);
2620  }
2621 }
#define FunctionCallInvoke(fcinfo)
Definition: fmgr.h:172
const char * str
#define SOFT_ERROR_OCCURRED(escontext)
Definition: miscnodes.h:52
#define IsA(nodeptr, _type_)
Definition: nodes.h:158
static char * DatumGetCString(Datum X)
Definition: postgres.h:335
struct ExprEvalStep::@54::@70 iocoerce
fmNodePtr context
Definition: fmgr.h:88
bool isnull
Definition: postgres.h:77

References FunctionCallInfoBaseData::args, Assert, FunctionCallInfoBaseData::context, DatumGetCString(), FunctionCallInvoke, IsA, FunctionCallInfoBaseData::isnull, NullableDatum::isnull, ExprEvalStep::op, PointerGetDatum(), SOFT_ERROR_OCCURRED, str, and NullableDatum::value.

Referenced by ExecInterpExpr().

◆ ExecEvalConstraintCheck()

void ExecEvalConstraintCheck ( ExprState state,
ExprEvalStep op 
)

Definition at line 3854 of file execExprInterp.c.

3855 {
3856  if (!*op->d.domaincheck.checknull &&
3857  !DatumGetBool(*op->d.domaincheck.checkvalue))
3858  errsave((Node *) op->d.domaincheck.escontext,
3859  (errcode(ERRCODE_CHECK_VIOLATION),
3860  errmsg("value for domain %s violates check constraint \"%s\"",
3861  format_type_be(op->d.domaincheck.resulttype),
3862  op->d.domaincheck.constraintname),
3863  errdomainconstraint(op->d.domaincheck.resulttype,
3864  op->d.domaincheck.constraintname)));
3865 }
int errdomainconstraint(Oid datatypeOid, const char *conname)
Definition: domains.c:431
#define errsave(context,...)
Definition: elog.h:260
static bool DatumGetBool(Datum X)
Definition: postgres.h:90
struct ExprEvalStep::@54::@83 domaincheck
Definition: nodes.h:129

References DatumGetBool(), errcode(), errdomainconstraint(), errmsg(), errsave, format_type_be(), and ExprEvalStep::op.

Referenced by ExecInterpExpr().

◆ ExecEvalConstraintNotNull()

void ExecEvalConstraintNotNull ( ExprState state,
ExprEvalStep op 
)

Definition at line 3840 of file execExprInterp.c.

3841 {
3842  if (*op->resnull)
3843  errsave((Node *) op->d.domaincheck.escontext,
3844  (errcode(ERRCODE_NOT_NULL_VIOLATION),
3845  errmsg("domain %s does not allow null values",
3846  format_type_be(op->d.domaincheck.resulttype)),
3847  errdatatype(op->d.domaincheck.resulttype)));
3848 }
int errdatatype(Oid datatypeOid)
Definition: domains.c:407

References errcode(), errdatatype(), errmsg(), errsave, format_type_be(), and ExprEvalStep::op.

Referenced by ExecInterpExpr().

◆ ExecEvalConvertRowtype()

void ExecEvalConvertRowtype ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 3360 of file execExprInterp.c.

3361 {
3362  HeapTuple result;
3363  Datum tupDatum;
3364  HeapTupleHeader tuple;
3365  HeapTupleData tmptup;
3366  TupleDesc indesc,
3367  outdesc;
3368  bool changed = false;
3369 
3370  /* NULL in -> NULL out */
3371  if (*op->resnull)
3372  return;
3373 
3374  tupDatum = *op->resvalue;
3375  tuple = DatumGetHeapTupleHeader(tupDatum);
3376 
3377  /*
3378  * Lookup tupdescs if first time through or if type changes. We'd better
3379  * pin them since type conversion functions could do catalog lookups and
3380  * hence cause cache invalidation.
3381  */
3382  indesc = get_cached_rowtype(op->d.convert_rowtype.inputtype, -1,
3383  op->d.convert_rowtype.incache,
3384  &changed);
3385  IncrTupleDescRefCount(indesc);
3386  outdesc = get_cached_rowtype(op->d.convert_rowtype.outputtype, -1,
3387  op->d.convert_rowtype.outcache,
3388  &changed);
3389  IncrTupleDescRefCount(outdesc);
3390 
3391  /*
3392  * We used to be able to assert that incoming tuples are marked with
3393  * exactly the rowtype of indesc. However, now that ExecEvalWholeRowVar
3394  * might change the tuples' marking to plain RECORD due to inserting
3395  * aliases, we can only make this weak test:
3396  */
3397  Assert(HeapTupleHeaderGetTypeId(tuple) == indesc->tdtypeid ||
3398  HeapTupleHeaderGetTypeId(tuple) == RECORDOID);
3399 
3400  /* if first time through, or after change, initialize conversion map */
3401  if (changed)
3402  {
3403  MemoryContext old_cxt;
3404 
3405  /* allocate map in long-lived memory context */
3406  old_cxt = MemoryContextSwitchTo(econtext->ecxt_per_query_memory);
3407 
3408  /* prepare map from old to new attribute numbers */
3409  op->d.convert_rowtype.map = convert_tuples_by_name(indesc, outdesc);
3410 
3411  MemoryContextSwitchTo(old_cxt);
3412  }
3413 
3414  /* Following steps need a HeapTuple not a bare HeapTupleHeader */
3415  tmptup.t_len = HeapTupleHeaderGetDatumLength(tuple);
3416  tmptup.t_data = tuple;
3417 
3418  if (op->d.convert_rowtype.map != NULL)
3419  {
3420  /* Full conversion with attribute rearrangement needed */
3421  result = execute_attr_map_tuple(&tmptup, op->d.convert_rowtype.map);
3422  /* Result already has appropriate composite-datum header fields */
3423  *op->resvalue = HeapTupleGetDatum(result);
3424  }
3425  else
3426  {
3427  /*
3428  * The tuple is physically compatible as-is, but we need to insert the
3429  * destination rowtype OID in its composite-datum header field, so we
3430  * have to copy it anyway. heap_copy_tuple_as_datum() is convenient
3431  * for this since it will both make the physical copy and insert the
3432  * correct composite header fields. Note that we aren't expecting to
3433  * have to flatten any toasted fields: the input was a composite
3434  * datum, so it shouldn't contain any. So heap_copy_tuple_as_datum()
3435  * is overkill here, but its check for external fields is cheap.
3436  */
3437  *op->resvalue = heap_copy_tuple_as_datum(&tmptup, outdesc);
3438  }
3439 
3440  DecrTupleDescRefCount(indesc);
3441  DecrTupleDescRefCount(outdesc);
3442 }
static TupleDesc get_cached_rowtype(Oid type_id, int32 typmod, ExprEvalRowtypeCache *rowcache, bool *changed)
#define DatumGetHeapTupleHeader(X)
Definition: fmgr.h:295
static Datum HeapTupleGetDatum(const HeapTupleData *tuple)
Definition: funcapi.h:230
Datum heap_copy_tuple_as_datum(HeapTuple tuple, TupleDesc tupleDesc)
Definition: heaptuple.c:1080
#define HeapTupleHeaderGetTypeId(tup)
Definition: htup_details.h:456
#define HeapTupleHeaderGetDatumLength(tup)
Definition: htup_details.h:450
MemoryContext ecxt_per_query_memory
Definition: execnodes.h:262
struct ExprEvalStep::@54::@84 convert_rowtype
uint32 t_len
Definition: htup.h:64
HeapTupleHeader t_data
Definition: htup.h:68
Oid tdtypeid
Definition: tupdesc.h:82
TupleConversionMap * convert_tuples_by_name(TupleDesc indesc, TupleDesc outdesc)
Definition: tupconvert.c:102
HeapTuple execute_attr_map_tuple(HeapTuple tuple, TupleConversionMap *map)
Definition: tupconvert.c:154
void DecrTupleDescRefCount(TupleDesc tupdesc)
Definition: tupdesc.c:406
void IncrTupleDescRefCount(TupleDesc tupdesc)
Definition: tupdesc.c:388

References Assert, convert_tuples_by_name(), DatumGetHeapTupleHeader, DecrTupleDescRefCount(), ExprContext::ecxt_per_query_memory, execute_attr_map_tuple(), get_cached_rowtype(), heap_copy_tuple_as_datum(), HeapTupleGetDatum(), HeapTupleHeaderGetDatumLength, HeapTupleHeaderGetTypeId, IncrTupleDescRefCount(), MemoryContextSwitchTo(), ExprEvalStep::op, HeapTupleData::t_data, HeapTupleData::t_len, and TupleDescData::tdtypeid.

Referenced by ExecInterpExpr().

◆ ExecEvalCurrentOfExpr()

void ExecEvalCurrentOfExpr ( ExprState state,
ExprEvalStep op 
)

Definition at line 2694 of file execExprInterp.c.

2695 {
2696  ereport(ERROR,
2697  (errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
2698  errmsg("WHERE CURRENT OF is not supported for this table type")));
2699 }

References ereport, errcode(), errmsg(), and ERROR.

Referenced by ExecInterpExpr().

◆ ExecEvalFieldSelect()

void ExecEvalFieldSelect ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 3161 of file execExprInterp.c.

3162 {
3163  AttrNumber fieldnum = op->d.fieldselect.fieldnum;
3164  Datum tupDatum;
3165  HeapTupleHeader tuple;
3166  Oid tupType;
3167  int32 tupTypmod;
3168  TupleDesc tupDesc;
3169  Form_pg_attribute attr;
3170  HeapTupleData tmptup;
3171 
3172  /* NULL record -> NULL result */
3173  if (*op->resnull)
3174  return;
3175 
3176  tupDatum = *op->resvalue;
3177 
3178  /* We can special-case expanded records for speed */
3180  {
3182 
3183  Assert(erh->er_magic == ER_MAGIC);
3184 
3185  /* Extract record's TupleDesc */
3186  tupDesc = expanded_record_get_tupdesc(erh);
3187 
3188  /*
3189  * Find field's attr record. Note we don't support system columns
3190  * here: a datum tuple doesn't have valid values for most of the
3191  * interesting system columns anyway.
3192  */
3193  if (fieldnum <= 0) /* should never happen */
3194  elog(ERROR, "unsupported reference to system column %d in FieldSelect",
3195  fieldnum);
3196  if (fieldnum > tupDesc->natts) /* should never happen */
3197  elog(ERROR, "attribute number %d exceeds number of columns %d",
3198  fieldnum, tupDesc->natts);
3199  attr = TupleDescAttr(tupDesc, fieldnum - 1);
3200 
3201  /* Check for dropped column, and force a NULL result if so */
3202  if (attr->attisdropped)
3203  {
3204  *op->resnull = true;
3205  return;
3206  }
3207 
3208  /* Check for type mismatch --- possible after ALTER COLUMN TYPE? */
3209  /* As in CheckVarSlotCompatibility, we should but can't check typmod */
3210  if (op->d.fieldselect.resulttype != attr->atttypid)
3211  ereport(ERROR,
3212  (errcode(ERRCODE_DATATYPE_MISMATCH),
3213  errmsg("attribute %d has wrong type", fieldnum),
3214  errdetail("Table has type %s, but query expects %s.",
3215  format_type_be(attr->atttypid),
3216  format_type_be(op->d.fieldselect.resulttype))));
3217 
3218  /* extract the field */
3219  *op->resvalue = expanded_record_get_field(erh, fieldnum,
3220  op->resnull);
3221  }
3222  else
3223  {
3224  /* Get the composite datum and extract its type fields */
3225  tuple = DatumGetHeapTupleHeader(tupDatum);
3226 
3227  tupType = HeapTupleHeaderGetTypeId(tuple);
3228  tupTypmod = HeapTupleHeaderGetTypMod(tuple);
3229 
3230  /* Lookup tupdesc if first time through or if type changes */
3231  tupDesc = get_cached_rowtype(tupType, tupTypmod,
3232  &op->d.fieldselect.rowcache, NULL);
3233 
3234  /*
3235  * Find field's attr record. Note we don't support system columns
3236  * here: a datum tuple doesn't have valid values for most of the
3237  * interesting system columns anyway.
3238  */
3239  if (fieldnum <= 0) /* should never happen */
3240  elog(ERROR, "unsupported reference to system column %d in FieldSelect",
3241  fieldnum);
3242  if (fieldnum > tupDesc->natts) /* should never happen */
3243  elog(ERROR, "attribute number %d exceeds number of columns %d",
3244  fieldnum, tupDesc->natts);
3245  attr = TupleDescAttr(tupDesc, fieldnum - 1);
3246 
3247  /* Check for dropped column, and force a NULL result if so */
3248  if (attr->attisdropped)
3249  {
3250  *op->resnull = true;
3251  return;
3252  }
3253 
3254  /* Check for type mismatch --- possible after ALTER COLUMN TYPE? */
3255  /* As in CheckVarSlotCompatibility, we should but can't check typmod */
3256  if (op->d.fieldselect.resulttype != attr->atttypid)
3257  ereport(ERROR,
3258  (errcode(ERRCODE_DATATYPE_MISMATCH),
3259  errmsg("attribute %d has wrong type", fieldnum),
3260  errdetail("Table has type %s, but query expects %s.",
3261  format_type_be(attr->atttypid),
3262  format_type_be(op->d.fieldselect.resulttype))));
3263 
3264  /* heap_getattr needs a HeapTuple not a bare HeapTupleHeader */
3265  tmptup.t_len = HeapTupleHeaderGetDatumLength(tuple);
3266  tmptup.t_data = tuple;
3267 
3268  /* extract the field */
3269  *op->resvalue = heap_getattr(&tmptup,
3270  fieldnum,
3271  tupDesc,
3272  op->resnull);
3273  }
3274 }
int16 AttrNumber
Definition: attnum.h:21
#define elog(elevel,...)
Definition: elog.h:224
static Datum expanded_record_get_field(ExpandedRecordHeader *erh, int fnumber, bool *isnull)
#define ER_MAGIC
static TupleDesc expanded_record_get_tupdesc(ExpandedRecordHeader *erh)
static Datum heap_getattr(HeapTuple tup, int attnum, TupleDesc tupleDesc, bool *isnull)
Definition: htup_details.h:792
#define HeapTupleHeaderGetTypMod(tup)
Definition: htup_details.h:466
FormData_pg_attribute * Form_pg_attribute
Definition: pg_attribute.h:209
struct ExprEvalStep::@54::@79 fieldselect
#define TupleDescAttr(tupdesc, i)
Definition: tupdesc.h:92
#define VARATT_IS_EXTERNAL_EXPANDED(PTR)
Definition: varatt.h:298

References Assert, DatumGetEOHP(), DatumGetHeapTupleHeader, DatumGetPointer(), elog, ER_MAGIC, ExpandedRecordHeader::er_magic, ereport, errcode(), errdetail(), errmsg(), ERROR, expanded_record_get_field(), expanded_record_get_tupdesc(), ExprEvalStep::fieldnum, format_type_be(), get_cached_rowtype(), heap_getattr(), HeapTupleHeaderGetDatumLength, HeapTupleHeaderGetTypeId, HeapTupleHeaderGetTypMod, TupleDescData::natts, ExprEvalStep::op, HeapTupleData::t_data, HeapTupleData::t_len, TupleDescAttr, and VARATT_IS_EXTERNAL_EXPANDED.

Referenced by ExecInterpExpr().

◆ ExecEvalFieldStoreDeForm()

void ExecEvalFieldStoreDeForm ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 3286 of file execExprInterp.c.

3287 {
3288  if (*op->resnull)
3289  {
3290  /* Convert null input tuple into an all-nulls row */
3291  memset(op->d.fieldstore.nulls, true,
3292  op->d.fieldstore.ncolumns * sizeof(bool));
3293  }
3294  else
3295  {
3296  /*
3297  * heap_deform_tuple needs a HeapTuple not a bare HeapTupleHeader. We
3298  * set all the fields in the struct just in case.
3299  */
3300  Datum tupDatum = *op->resvalue;
3301  HeapTupleHeader tuphdr;
3302  HeapTupleData tmptup;
3303  TupleDesc tupDesc;
3304 
3305  tuphdr = DatumGetHeapTupleHeader(tupDatum);
3306  tmptup.t_len = HeapTupleHeaderGetDatumLength(tuphdr);
3307  ItemPointerSetInvalid(&(tmptup.t_self));
3308  tmptup.t_tableOid = InvalidOid;
3309  tmptup.t_data = tuphdr;
3310 
3311  /*
3312  * Lookup tupdesc if first time through or if type changes. Because
3313  * we don't pin the tupdesc, we must not do this lookup until after
3314  * doing DatumGetHeapTupleHeader: that could do database access while
3315  * detoasting the datum.
3316  */
3317  tupDesc = get_cached_rowtype(op->d.fieldstore.fstore->resulttype, -1,
3318  op->d.fieldstore.rowcache, NULL);
3319 
3320  /* Check that current tupdesc doesn't have more fields than allocated */
3321  if (unlikely(tupDesc->natts > op->d.fieldstore.ncolumns))
3322  elog(ERROR, "too many columns in composite type %u",
3323  op->d.fieldstore.fstore->resulttype);
3324 
3325  heap_deform_tuple(&tmptup, tupDesc,
3326  op->d.fieldstore.values,
3327  op->d.fieldstore.nulls);
3328  }
3329 }
#define unlikely(x)
Definition: c.h:311
void heap_deform_tuple(HeapTuple tuple, TupleDesc tupleDesc, Datum *values, bool *isnull)
Definition: heaptuple.c:1345
static void ItemPointerSetInvalid(ItemPointerData *pointer)
Definition: itemptr.h:184
#define InvalidOid
Definition: postgres_ext.h:36
struct ExprEvalStep::@54::@80 fieldstore
ItemPointerData t_self
Definition: htup.h:65
Oid t_tableOid
Definition: htup.h:66

References DatumGetHeapTupleHeader, elog, ERROR, get_cached_rowtype(), heap_deform_tuple(), HeapTupleHeaderGetDatumLength, InvalidOid, ItemPointerSetInvalid(), TupleDescData::natts, ExprEvalStep::op, HeapTupleData::t_data, HeapTupleData::t_len, HeapTupleData::t_self, HeapTupleData::t_tableOid, and unlikely.

Referenced by ExecInterpExpr().

◆ ExecEvalFieldStoreForm()

void ExecEvalFieldStoreForm ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 3336 of file execExprInterp.c.

3337 {
3338  TupleDesc tupDesc;
3339  HeapTuple tuple;
3340 
3341  /* Lookup tupdesc (should be valid already) */
3342  tupDesc = get_cached_rowtype(op->d.fieldstore.fstore->resulttype, -1,
3343  op->d.fieldstore.rowcache, NULL);
3344 
3345  tuple = heap_form_tuple(tupDesc,
3346  op->d.fieldstore.values,
3347  op->d.fieldstore.nulls);
3348 
3349  *op->resvalue = HeapTupleGetDatum(tuple);
3350  *op->resnull = false;
3351 }
HeapTuple heap_form_tuple(TupleDesc tupleDescriptor, const Datum *values, const bool *isnull)
Definition: heaptuple.c:1116

References get_cached_rowtype(), heap_form_tuple(), HeapTupleGetDatum(), and ExprEvalStep::op.

Referenced by ExecInterpExpr().

◆ ExecEvalFuncExprFusage()

void ExecEvalFuncExprFusage ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 2440 of file execExprInterp.c.

2442 {
2443  FunctionCallInfo fcinfo = op->d.func.fcinfo_data;
2444  PgStat_FunctionCallUsage fcusage;
2445  Datum d;
2446 
2447  pgstat_init_function_usage(fcinfo, &fcusage);
2448 
2449  fcinfo->isnull = false;
2450  d = op->d.func.fn_addr(fcinfo);
2451  *op->resvalue = d;
2452  *op->resnull = fcinfo->isnull;
2453 
2454  pgstat_end_function_usage(&fcusage, true);
2455 }
void pgstat_init_function_usage(FunctionCallInfo fcinfo, PgStat_FunctionCallUsage *fcu)
void pgstat_end_function_usage(PgStat_FunctionCallUsage *fcu, bool finalize)
struct ExprEvalStep::@54::@61 func

References ExprEvalStep::d, FunctionCallInfoBaseData::isnull, ExprEvalStep::op, pgstat_end_function_usage(), and pgstat_init_function_usage().

Referenced by ExecInterpExpr().

◆ ExecEvalFuncExprStrictFusage()

void ExecEvalFuncExprStrictFusage ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 2461 of file execExprInterp.c.

2463 {
2464 
2465  FunctionCallInfo fcinfo = op->d.func.fcinfo_data;
2466  PgStat_FunctionCallUsage fcusage;
2467  NullableDatum *args = fcinfo->args;
2468  int nargs = op->d.func.nargs;
2469  Datum d;
2470 
2471  /* strict function, so check for NULL args */
2472  for (int argno = 0; argno < nargs; argno++)
2473  {
2474  if (args[argno].isnull)
2475  {
2476  *op->resnull = true;
2477  return;
2478  }
2479  }
2480 
2481  pgstat_init_function_usage(fcinfo, &fcusage);
2482 
2483  fcinfo->isnull = false;
2484  d = op->d.func.fn_addr(fcinfo);
2485  *op->resvalue = d;
2486  *op->resnull = fcinfo->isnull;
2487 
2488  pgstat_end_function_usage(&fcusage, true);
2489 }

References generate_unaccent_rules::args, FunctionCallInfoBaseData::args, ExprEvalStep::d, ExprEvalStep::isnull, FunctionCallInfoBaseData::isnull, ExprEvalStep::nargs, ExprEvalStep::op, pgstat_end_function_usage(), and pgstat_init_function_usage().

Referenced by ExecInterpExpr().

◆ ExecEvalGroupingFunc()

void ExecEvalGroupingFunc ( ExprState state,
ExprEvalStep op 
)

Definition at line 4579 of file execExprInterp.c.

4580 {
4581  AggState *aggstate = castNode(AggState, state->parent);
4582  int result = 0;
4583  Bitmapset *grouped_cols = aggstate->grouped_cols;
4584  ListCell *lc;
4585 
4586  foreach(lc, op->d.grouping_func.clauses)
4587  {
4588  int attnum = lfirst_int(lc);
4589 
4590  result <<= 1;
4591 
4592  if (!bms_is_member(attnum, grouped_cols))
4593  result |= 1;
4594  }
4595 
4596  *op->resvalue = Int32GetDatum(result);
4597  *op->resnull = false;
4598 }
bool bms_is_member(int x, const Bitmapset *a)
Definition: bitmapset.c:510
#define castNode(_type_, nodeptr)
Definition: nodes.h:176
#define lfirst_int(lc)
Definition: pg_list.h:173
static Datum Int32GetDatum(int32 X)
Definition: postgres.h:212
Bitmapset * grouped_cols
Definition: execnodes.h:2487
struct ExprEvalStep::@54::@90 grouping_func

References attnum, bms_is_member(), castNode, AggState::grouped_cols, Int32GetDatum(), lfirst_int, and ExprEvalStep::op.

Referenced by ExecInterpExpr().

◆ ExecEvalHashedScalarArrayOp()

void ExecEvalHashedScalarArrayOp ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 3658 of file execExprInterp.c.

3659 {
3660  ScalarArrayOpExprHashTable *elements_tab = op->d.hashedscalararrayop.elements_tab;
3661  FunctionCallInfo fcinfo = op->d.hashedscalararrayop.fcinfo_data;
3662  bool inclause = op->d.hashedscalararrayop.inclause;
3663  bool strictfunc = op->d.hashedscalararrayop.finfo->fn_strict;
3664  Datum scalar = fcinfo->args[0].value;
3665  bool scalar_isnull = fcinfo->args[0].isnull;
3666  Datum result;
3667  bool resultnull;
3668  bool hashfound;
3669 
3670  /* We don't setup a hashed scalar array op if the array const is null. */
3671  Assert(!*op->resnull);
3672 
3673  /*
3674  * If the scalar is NULL, and the function is strict, return NULL; no
3675  * point in executing the search.
3676  */
3677  if (fcinfo->args[0].isnull && strictfunc)
3678  {
3679  *op->resnull = true;
3680  return;
3681  }
3682 
3683  /* Build the hash table on first evaluation */
3684  if (elements_tab == NULL)
3685  {
3686  ScalarArrayOpExpr *saop;
3687  int16 typlen;
3688  bool typbyval;
3689  char typalign;
3690  int nitems;
3691  bool has_nulls = false;
3692  char *s;
3693  bits8 *bitmap;
3694  int bitmask;
3695  MemoryContext oldcontext;
3696  ArrayType *arr;
3697 
3698  saop = op->d.hashedscalararrayop.saop;
3699 
3700  arr = DatumGetArrayTypeP(*op->resvalue);
3701  nitems = ArrayGetNItems(ARR_NDIM(arr), ARR_DIMS(arr));
3702 
3704  &typlen,
3705  &typbyval,
3706  &typalign);
3707 
3708  oldcontext = MemoryContextSwitchTo(econtext->ecxt_per_query_memory);
3709 
3710  elements_tab = (ScalarArrayOpExprHashTable *)
3711  palloc0(offsetof(ScalarArrayOpExprHashTable, hash_fcinfo_data) +
3713  op->d.hashedscalararrayop.elements_tab = elements_tab;
3714  elements_tab->op = op;
3715 
3716  fmgr_info(saop->hashfuncid, &elements_tab->hash_finfo);
3717  fmgr_info_set_expr((Node *) saop, &elements_tab->hash_finfo);
3718 
3720  &elements_tab->hash_finfo,
3721  1,
3722  saop->inputcollid,
3723  NULL,
3724  NULL);
3725 
3726  /*
3727  * Create the hash table sizing it according to the number of elements
3728  * in the array. This does assume that the array has no duplicates.
3729  * If the array happens to contain many duplicate values then it'll
3730  * just mean that we sized the table a bit on the large side.
3731  */
3732  elements_tab->hashtab = saophash_create(CurrentMemoryContext, nitems,
3733  elements_tab);
3734 
3735  MemoryContextSwitchTo(oldcontext);
3736 
3737  s = (char *) ARR_DATA_PTR(arr);
3738  bitmap = ARR_NULLBITMAP(arr);
3739  bitmask = 1;
3740  for (int i = 0; i < nitems; i++)
3741  {
3742  /* Get array element, checking for NULL. */
3743  if (bitmap && (*bitmap & bitmask) == 0)
3744  {
3745  has_nulls = true;
3746  }
3747  else
3748  {
3749  Datum element;
3750 
3751  element = fetch_att(s, typbyval, typlen);
3752  s = att_addlength_pointer(s, typlen, s);
3753  s = (char *) att_align_nominal(s, typalign);
3754 
3755  saophash_insert(elements_tab->hashtab, element, &hashfound);
3756  }
3757 
3758  /* Advance bitmap pointer if any. */
3759  if (bitmap)
3760  {
3761  bitmask <<= 1;
3762  if (bitmask == 0x100)
3763  {
3764  bitmap++;
3765  bitmask = 1;
3766  }
3767  }
3768  }
3769 
3770  /*
3771  * Remember if we had any nulls so that we know if we need to execute
3772  * non-strict functions with a null lhs value if no match is found.
3773  */
3774  op->d.hashedscalararrayop.has_nulls = has_nulls;
3775  }
3776 
3777  /* Check the hash to see if we have a match. */
3778  hashfound = NULL != saophash_lookup(elements_tab->hashtab, scalar);
3779 
3780  /* the result depends on if the clause is an IN or NOT IN clause */
3781  if (inclause)
3782  result = BoolGetDatum(hashfound); /* IN */
3783  else
3784  result = BoolGetDatum(!hashfound); /* NOT IN */
3785 
3786  resultnull = false;
3787 
3788  /*
3789  * If we didn't find a match in the array, we still might need to handle
3790  * the possibility of null values. We didn't put any NULLs into the
3791  * hashtable, but instead marked if we found any when building the table
3792  * in has_nulls.
3793  */
3794  if (!hashfound && op->d.hashedscalararrayop.has_nulls)
3795  {
3796  if (strictfunc)
3797  {
3798 
3799  /*
3800  * We have nulls in the array so a non-null lhs and no match must
3801  * yield NULL.
3802  */
3803  result = (Datum) 0;
3804  resultnull = true;
3805  }
3806  else
3807  {
3808  /*
3809  * Execute function will null rhs just once.
3810  *
3811  * The hash lookup path will have scribbled on the lhs argument so
3812  * we need to set it up also (even though we entered this function
3813  * with it already set).
3814  */
3815  fcinfo->args[0].value = scalar;
3816  fcinfo->args[0].isnull = scalar_isnull;
3817  fcinfo->args[1].value = (Datum) 0;
3818  fcinfo->args[1].isnull = true;
3819 
3820  result = op->d.hashedscalararrayop.finfo->fn_addr(fcinfo);
3821  resultnull = fcinfo->isnull;
3822 
3823  /*
3824  * Reverse the result for NOT IN clauses since the above function
3825  * is the equality function and we need not-equals.
3826  */
3827  if (!inclause)
3828  result = !result;
3829  }
3830  }
3831 
3832  *op->resvalue = result;
3833  *op->resnull = resultnull;
3834 }
signed short int16
Definition: c.h:493
void fmgr_info(Oid functionId, FmgrInfo *finfo)
Definition: fmgr.c:127
#define SizeForFunctionCallInfo(nargs)
Definition: fmgr.h:102
#define InitFunctionCallInfoData(Fcinfo, Flinfo, Nargs, Collation, Context, Resultinfo)
Definition: fmgr.h:150
#define fmgr_info_set_expr(expr, finfo)
Definition: fmgr.h:135
void get_typlenbyvalalign(Oid typid, int16 *typlen, bool *typbyval, char *typalign)
Definition: lsyscache.c:2271
char typalign
Definition: pg_type.h:176
static Datum BoolGetDatum(bool X)
Definition: postgres.h:102
static chr element(struct vars *v, const chr *startp, const chr *endp)
Definition: regc_locale.c:376
struct ExprEvalStep::@54::@86 hashedscalararrayop
FunctionCallInfoBaseData hash_fcinfo_data
struct ExprEvalStep * op
#define att_align_nominal(cur_offset, attalign)
Definition: tupmacs.h:129
#define att_addlength_pointer(cur_offset, attlen, attptr)
Definition: tupmacs.h:157
static Datum fetch_att(const void *T, bool attbyval, int attlen)
Definition: tupmacs.h:52

References FunctionCallInfoBaseData::args, ARR_DATA_PTR, ARR_DIMS, ARR_ELEMTYPE, ARR_NDIM, ARR_NULLBITMAP, ArrayGetNItems(), Assert, att_addlength_pointer, att_align_nominal, BoolGetDatum(), CurrentMemoryContext, DatumGetArrayTypeP, ExprContext::ecxt_per_query_memory, element(), ExprEvalStep::elements_tab, fetch_att(), fmgr_info(), fmgr_info_set_expr, get_typlenbyvalalign(), ExprEvalStep::has_nulls, ScalarArrayOpExprHashTable::hash_fcinfo_data, ScalarArrayOpExprHashTable::hash_finfo, ScalarArrayOpExprHashTable::hashtab, i, ExprEvalStep::inclause, InitFunctionCallInfoData, FunctionCallInfoBaseData::isnull, NullableDatum::isnull, MemoryContextSwitchTo(), nitems, ScalarArrayOpExprHashTable::op, ExprEvalStep::op, palloc0(), ExprEvalStep::saop, SizeForFunctionCallInfo, typalign, ExprEvalStep::typbyval, ExprEvalStep::typlen, and NullableDatum::value.

Referenced by ExecInterpExpr().

◆ ExecEvalJsonCoercion()

void ExecEvalJsonCoercion ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 4538 of file execExprInterp.c.

4540 {
4541  ErrorSaveContext *escontext = op->d.jsonexpr_coercion.escontext;
4542 
4543  *op->resvalue = json_populate_type(*op->resvalue, JSONBOID,
4544  op->d.jsonexpr_coercion.targettype,
4545  op->d.jsonexpr_coercion.targettypmod,
4546  &op->d.jsonexpr_coercion.json_populate_type_cache,
4547  econtext->ecxt_per_query_memory,
4548  op->resnull, (Node *) escontext);
4549 }
Datum json_populate_type(Datum json_val, Oid json_type, Oid typid, int32 typmod, void **cache, MemoryContext mcxt, bool *isnull, Node *escontext)
Definition: jsonfuncs.c:3335
struct ExprEvalStep::@54::@100 jsonexpr_coercion

References ExprContext::ecxt_per_query_memory, ExprEvalStep::escontext, json_populate_type(), and ExprEvalStep::op.

Referenced by ExecInterpExpr().

◆ ExecEvalJsonCoercionFinish()

void ExecEvalJsonCoercionFinish ( ExprState state,
ExprEvalStep op 
)

Definition at line 4557 of file execExprInterp.c.

4558 {
4559  JsonExprState *jsestate = op->d.jsonexpr.jsestate;
4560 
4561  if (SOFT_ERROR_OCCURRED(&jsestate->escontext))
4562  {
4563  *op->resvalue = (Datum) 0;
4564  *op->resnull = true;
4565  jsestate->error.value = BoolGetDatum(true);
4566  }
4567 }
struct ExprEvalStep::@54::@99 jsonexpr
NullableDatum error
Definition: execnodes.h:1041
ErrorSaveContext escontext
Definition: execnodes.h:1082

References BoolGetDatum(), JsonExprState::error, JsonExprState::escontext, ExprEvalStep::jsestate, ExprEvalStep::op, SOFT_ERROR_OCCURRED, and NullableDatum::value.

Referenced by ExecInterpExpr().

◆ ExecEvalJsonConstructor()

void ExecEvalJsonConstructor ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 4089 of file execExprInterp.c.

4091 {
4092  Datum res;
4093  JsonConstructorExprState *jcstate = op->d.json_constructor.jcstate;
4094  JsonConstructorExpr *ctor = jcstate->constructor;
4095  bool is_jsonb = ctor->returning->format->format_type == JS_FORMAT_JSONB;
4096  bool isnull = false;
4097 
4098  if (ctor->type == JSCTOR_JSON_ARRAY)
4099  res = (is_jsonb ?
4101  json_build_array_worker) (jcstate->nargs,
4102  jcstate->arg_values,
4103  jcstate->arg_nulls,
4104  jcstate->arg_types,
4105  jcstate->constructor->absent_on_null);
4106  else if (ctor->type == JSCTOR_JSON_OBJECT)
4107  res = (is_jsonb ?
4109  json_build_object_worker) (jcstate->nargs,
4110  jcstate->arg_values,
4111  jcstate->arg_nulls,
4112  jcstate->arg_types,
4113  jcstate->constructor->absent_on_null,
4114  jcstate->constructor->unique);
4115  else if (ctor->type == JSCTOR_JSON_SCALAR)
4116  {
4117  if (jcstate->arg_nulls[0])
4118  {
4119  res = (Datum) 0;
4120  isnull = true;
4121  }
4122  else
4123  {
4124  Datum value = jcstate->arg_values[0];
4125  Oid outfuncid = jcstate->arg_type_cache[0].outfuncid;
4126  JsonTypeCategory category = (JsonTypeCategory)
4127  jcstate->arg_type_cache[0].category;
4128 
4129  if (is_jsonb)
4130  res = datum_to_jsonb(value, category, outfuncid);
4131  else
4132  res = datum_to_json(value, category, outfuncid);
4133  }
4134  }
4135  else if (ctor->type == JSCTOR_JSON_PARSE)
4136  {
4137  if (jcstate->arg_nulls[0])
4138  {
4139  res = (Datum) 0;
4140  isnull = true;
4141  }
4142  else
4143  {
4144  Datum value = jcstate->arg_values[0];
4145  text *js = DatumGetTextP(value);
4146 
4147  if (is_jsonb)
4148  res = jsonb_from_text(js, true);
4149  else
4150  {
4151  (void) json_validate(js, true, true);
4152  res = value;
4153  }
4154  }
4155  }
4156  else
4157  elog(ERROR, "invalid JsonConstructorExpr type %d", ctor->type);
4158 
4159  *op->resvalue = res;
4160  *op->resnull = isnull;
4161 }
#define DatumGetTextP(X)
Definition: fmgr.h:332
static struct @155 value
if(TABLE==NULL||TABLE_index==NULL)
Definition: isn.c:77
Datum json_build_array_worker(int nargs, const Datum *args, const bool *nulls, const Oid *types, bool absent_on_null)
Definition: json.c:1321
Datum json_build_object_worker(int nargs, const Datum *args, const bool *nulls, const Oid *types, bool absent_on_null, bool unique_keys)
Definition: json.c:1208
Datum datum_to_json(Datum val, JsonTypeCategory tcategory, Oid outfuncoid)
Definition: json.c:754
bool json_validate(text *json, bool check_unique_keys, bool throw_error)
Definition: json.c:1650
Datum jsonb_from_text(text *js, bool unique_keys)
Definition: jsonb.c:147
Datum jsonb_build_array_worker(int nargs, const Datum *args, const bool *nulls, const Oid *types, bool absent_on_null)
Definition: jsonb.c:1210
Datum jsonb_build_object_worker(int nargs, const Datum *args, const bool *nulls, const Oid *types, bool absent_on_null, bool unique_keys)
Definition: jsonb.c:1125
Datum datum_to_jsonb(Datum val, JsonTypeCategory tcategory, Oid outfuncoid)
Definition: jsonb.c:1112
JsonTypeCategory
Definition: jsonfuncs.h:69
@ JS_FORMAT_JSONB
Definition: primnodes.h:1640
@ JSCTOR_JSON_PARSE
Definition: primnodes.h:1690
@ JSCTOR_JSON_OBJECT
Definition: primnodes.h:1686
@ JSCTOR_JSON_SCALAR
Definition: primnodes.h:1691
@ JSCTOR_JSON_ARRAY
Definition: primnodes.h:1687
struct ExprEvalStep::@54::@88 json_constructor
JsonConstructorExpr * constructor
Definition: execExpr.h:764
struct JsonConstructorExprState::@101 * arg_type_cache
JsonReturning * returning
Definition: primnodes.h:1706
JsonConstructorType type
Definition: primnodes.h:1702
JsonFormatType format_type
Definition: primnodes.h:1651
JsonFormat * format
Definition: primnodes.h:1663
Definition: c.h:687

References JsonConstructorExpr::absent_on_null, JsonConstructorExprState::arg_nulls, JsonConstructorExprState::arg_type_cache, JsonConstructorExprState::arg_types, JsonConstructorExprState::arg_values, JsonConstructorExprState::category, JsonConstructorExprState::constructor, datum_to_json(), datum_to_jsonb(), DatumGetTextP, elog, ERROR, JsonReturning::format, JsonFormat::format_type, if(), ExprEvalStep::isnull, ExprEvalStep::jcstate, JS_FORMAT_JSONB, JSCTOR_JSON_ARRAY, JSCTOR_JSON_OBJECT, JSCTOR_JSON_PARSE, JSCTOR_JSON_SCALAR, json_build_array_worker(), json_build_object_worker(), json_validate(), jsonb_build_array_worker(), jsonb_build_object_worker(), jsonb_from_text(), JsonConstructorExprState::nargs, ExprEvalStep::op, JsonConstructorExprState::outfuncid, res, JsonConstructorExpr::returning, JsonConstructorExpr::type, JsonConstructorExpr::unique, and value.

Referenced by ExecInterpExpr().

◆ ExecEvalJsonExprPath()

int ExecEvalJsonExprPath ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 4267 of file execExprInterp.c.

4269 {
4270  JsonExprState *jsestate = op->d.jsonexpr.jsestate;
4271  JsonExpr *jsexpr = jsestate->jsexpr;
4272  Datum item;
4273  JsonPath *path;
4274  bool throw_error = jsexpr->on_error->btype == JSON_BEHAVIOR_ERROR;
4275  bool error = false,
4276  empty = false;
4277  int jump_eval_coercion = jsestate->jump_eval_coercion;
4278  char *val_string = NULL;
4279 
4280  item = jsestate->formatted_expr.value;
4281  path = DatumGetJsonPathP(jsestate->pathspec.value);
4282 
4283  /* Set error/empty to false. */
4284  memset(&jsestate->error, 0, sizeof(NullableDatum));
4285  memset(&jsestate->empty, 0, sizeof(NullableDatum));
4286 
4287  /*
4288  * Also reset ErrorSaveContext contents for the next row. Since we don't
4289  * set details_wanted, we don't need to also reset error_data, which would
4290  * be NULL anyway.
4291  */
4292  Assert(!jsestate->escontext.details_wanted &&
4293  jsestate->escontext.error_data == NULL);
4294  jsestate->escontext.error_occurred = false;
4295 
4296  switch (jsexpr->op)
4297  {
4298  case JSON_EXISTS_OP:
4299  {
4300  bool exists = JsonPathExists(item, path,
4301  !throw_error ? &error : NULL,
4302  jsestate->args);
4303 
4304  if (!error)
4305  {
4306  *op->resvalue = BoolGetDatum(exists);
4307  *op->resnull = false;
4308  }
4309  }
4310  break;
4311 
4312  case JSON_QUERY_OP:
4313  *op->resvalue = JsonPathQuery(item, path, jsexpr->wrapper, &empty,
4314  !throw_error ? &error : NULL,
4315  jsestate->args,
4316  jsexpr->column_name);
4317 
4318  *op->resnull = (DatumGetPointer(*op->resvalue) == NULL);
4319 
4320  /* Handle OMIT QUOTES. */
4321  if (!*op->resnull && jsexpr->omit_quotes)
4322  {
4324 
4325  /*
4326  * Pass the string as a text value to the cast expression if
4327  * one present. If not, use the input function call below to
4328  * do the coercion.
4329  */
4330  if (jump_eval_coercion >= 0)
4331  *op->resvalue =
4334  }
4335  break;
4336 
4337  case JSON_VALUE_OP:
4338  {
4339  JsonbValue *jbv = JsonPathValue(item, path, &empty,
4340  !throw_error ? &error : NULL,
4341  jsestate->args,
4342  jsexpr->column_name);
4343 
4344  if (jbv == NULL)
4345  {
4346  /* Will be coerced with coercion_expr, if any. */
4347  *op->resvalue = (Datum) 0;
4348  *op->resnull = true;
4349  }
4350  else if (!error && !empty)
4351  {
4352  if (jsexpr->returning->typid == JSONOID ||
4353  jsexpr->returning->typid == JSONBOID)
4354  {
4357  }
4358  else
4359  {
4361 
4362  /*
4363  * Pass the string as a text value to the cast
4364  * expression if one present. If not, use the input
4365  * function call below to do the coercion.
4366  */
4368  if (jump_eval_coercion >= 0)
4370  }
4371  }
4372  break;
4373  }
4374 
4375  /* JSON_TABLE_OP can't happen here */
4376 
4377  default:
4378  elog(ERROR, "unrecognized SQL/JSON expression op %d",
4379  (int) jsexpr->op);
4380  return false;
4381  }
4382 
4383  /*
4384  * Coerce the result value to the RETURNING type by calling its input
4385  * function.
4386  */
4387  if (!*op->resnull && jsexpr->use_io_coercion)
4388  {
4389  FunctionCallInfo fcinfo;
4390 
4391  Assert(jump_eval_coercion == -1);
4392  fcinfo = jsestate->input_fcinfo;
4393  Assert(fcinfo != NULL);
4394  Assert(val_string != NULL);
4395  fcinfo->args[0].value = PointerGetDatum(val_string);
4396  fcinfo->args[0].isnull = *op->resnull;
4397 
4398  /*
4399  * Second and third arguments are already set up in
4400  * ExecInitJsonExpr().
4401  */
4402 
4403  fcinfo->isnull = false;
4404  *op->resvalue = FunctionCallInvoke(fcinfo);
4405  if (SOFT_ERROR_OCCURRED(&jsestate->escontext))
4406  error = true;
4407  }
4408 
4409  /* Handle ON EMPTY. */
4410  if (empty)
4411  {
4412  *op->resvalue = (Datum) 0;
4413  *op->resnull = true;
4414  if (jsexpr->on_empty)
4415  {
4416  if (jsexpr->on_empty->btype != JSON_BEHAVIOR_ERROR)
4417  {
4418  jsestate->empty.value = BoolGetDatum(true);
4419  Assert(jsestate->jump_empty >= 0);
4420  return jsestate->jump_empty;
4421  }
4422  }
4423  else if (jsexpr->on_error->btype != JSON_BEHAVIOR_ERROR)
4424  {
4425  jsestate->error.value = BoolGetDatum(true);
4426  Assert(!throw_error && jsestate->jump_error >= 0);
4427  return jsestate->jump_error;
4428  }
4429 
4430  if (jsexpr->column_name)
4431  ereport(ERROR,
4432  errcode(ERRCODE_NO_SQL_JSON_ITEM),
4433  errmsg("no SQL/JSON item found for specified path of column \"%s\"",
4434  jsexpr->column_name));
4435  else
4436  ereport(ERROR,
4437  errcode(ERRCODE_NO_SQL_JSON_ITEM),
4438  errmsg("no SQL/JSON item found for specified path"));
4439  }
4440 
4441  /*
4442  * ON ERROR. Wouldn't get here if the behavior is ERROR, because they
4443  * would have already been thrown.
4444  */
4445  if (error)
4446  {
4447  Assert(!throw_error && jsestate->jump_error >= 0);
4448  *op->resvalue = (Datum) 0;
4449  *op->resnull = true;
4450  jsestate->error.value = BoolGetDatum(true);
4451  return jsestate->jump_error;
4452  }
4453 
4454  return jump_eval_coercion >= 0 ? jump_eval_coercion : jsestate->jump_end;
4455 }
static char * ExecGetJsonValueItemString(JsonbValue *item, bool *resnull)
#define DirectFunctionCall1(func, arg1)
Definition: fmgr.h:642
char * val_string
Definition: informix.c:675
Datum jsonb_out(PG_FUNCTION_ARGS)
Definition: jsonb.c:108
char * JsonbUnquote(Jsonb *jb)
Definition: jsonb.c:2166
static Jsonb * DatumGetJsonbP(Datum d)
Definition: jsonb.h:374
static Datum JsonbPGetDatum(const Jsonb *p)
Definition: jsonb.h:386
Jsonb * JsonbValueToJsonb(JsonbValue *val)
Definition: jsonb_util.c:92
static JsonPath * DatumGetJsonPathP(Datum d)
Definition: jsonpath.h:35
bool JsonPathExists(Datum jb, JsonPath *jp, bool *error, List *vars)
Datum JsonPathQuery(Datum jb, JsonPath *jp, JsonWrapper wrapper, bool *empty, bool *error, List *vars, const char *column_name)
JsonbValue * JsonPathValue(Datum jb, JsonPath *jp, bool *empty, bool *error, List *vars, const char *column_name)
@ JSON_BEHAVIOR_ERROR
Definition: primnodes.h:1762
@ JSON_QUERY_OP
Definition: primnodes.h:1799
@ JSON_EXISTS_OP
Definition: primnodes.h:1798
@ JSON_VALUE_OP
Definition: primnodes.h:1800
static void error(void)
Definition: sql-dyntest.c:147
bool details_wanted
Definition: miscnodes.h:47
ErrorData * error_data
Definition: miscnodes.h:48
bool error_occurred
Definition: miscnodes.h:46
JsonBehaviorType btype
Definition: primnodes.h:1786
int jump_eval_coercion
Definition: execnodes.h:1059
NullableDatum empty
Definition: execnodes.h:1044
FunctionCallInfo input_fcinfo
Definition: execnodes.h:1073
JsonExpr * jsexpr
Definition: execnodes.h:1022
NullableDatum pathspec
Definition: execnodes.h:1028
NullableDatum formatted_expr
Definition: execnodes.h:1025
char * column_name
Definition: primnodes.h:1815
JsonBehavior * on_empty
Definition: primnodes.h:1835
bool use_io_coercion
Definition: primnodes.h:1848
JsonReturning * returning
Definition: primnodes.h:1828
JsonWrapper wrapper
Definition: primnodes.h:1852
JsonExprOp op
Definition: primnodes.h:1813
JsonBehavior * on_error
Definition: primnodes.h:1836
bool omit_quotes
Definition: primnodes.h:1855
Datum textin(PG_FUNCTION_ARGS)
Definition: varlena.c:579

References FunctionCallInfoBaseData::args, JsonExprState::args, Assert, BoolGetDatum(), JsonBehavior::btype, JsonExpr::column_name, DatumGetCString(), DatumGetJsonbP(), DatumGetJsonPathP(), DatumGetPointer(), ErrorSaveContext::details_wanted, DirectFunctionCall1, elog, JsonExprState::empty, ereport, errcode(), errmsg(), JsonExprState::error, ERROR, error(), ErrorSaveContext::error_data, ErrorSaveContext::error_occurred, JsonExprState::escontext, ExecGetJsonValueItemString(), JsonExprState::formatted_expr, FunctionCallInvoke, JsonExprState::input_fcinfo, FunctionCallInfoBaseData::isnull, NullableDatum::isnull, ExprEvalStep::jsestate, JsonExprState::jsexpr, JSON_BEHAVIOR_ERROR, JSON_EXISTS_OP, JSON_QUERY_OP, JSON_VALUE_OP, jsonb_out(), JsonbPGetDatum(), JsonbUnquote(), JsonbValueToJsonb(), JsonPathExists(), JsonPathQuery(), JsonPathValue(), JsonExprState::jump_empty, JsonExprState::jump_end, JsonExprState::jump_error, JsonExprState::jump_eval_coercion, JsonExpr::omit_quotes, JsonExpr::on_empty, JsonExpr::on_error, ExprEvalStep::op, JsonExpr::op, JsonExprState::pathspec, PointerGetDatum(), JsonExpr::returning, SOFT_ERROR_OCCURRED, textin(), JsonReturning::typid, JsonExpr::use_io_coercion, val_string, NullableDatum::value, and JsonExpr::wrapper.

Referenced by ExecInterpExpr().

◆ ExecEvalJsonIsPredicate()

void ExecEvalJsonIsPredicate ( ExprState state,
ExprEvalStep op 
)

Definition at line 4167 of file execExprInterp.c.

4168 {
4169  JsonIsPredicate *pred = op->d.is_json.pred;
4170  Datum js = *op->resvalue;
4171  Oid exprtype;
4172  bool res;
4173 
4174  if (*op->resnull)
4175  {
4176  *op->resvalue = BoolGetDatum(false);
4177  return;
4178  }
4179 
4180  exprtype = exprType(pred->expr);
4181 
4182  if (exprtype == TEXTOID || exprtype == JSONOID)
4183  {
4184  text *json = DatumGetTextP(js);
4185 
4186  if (pred->item_type == JS_TYPE_ANY)
4187  res = true;
4188  else
4189  {
4190  switch (json_get_first_token(json, false))
4191  {
4193  res = pred->item_type == JS_TYPE_OBJECT;
4194  break;
4196  res = pred->item_type == JS_TYPE_ARRAY;
4197  break;
4198  case JSON_TOKEN_STRING:
4199  case JSON_TOKEN_NUMBER:
4200  case JSON_TOKEN_TRUE:
4201  case JSON_TOKEN_FALSE:
4202  case JSON_TOKEN_NULL:
4203  res = pred->item_type == JS_TYPE_SCALAR;
4204  break;
4205  default:
4206  res = false;
4207  break;
4208  }
4209  }
4210 
4211  /*
4212  * Do full parsing pass only for uniqueness check or for JSON text
4213  * validation.
4214  */
4215  if (res && (pred->unique_keys || exprtype == TEXTOID))
4216  res = json_validate(json, pred->unique_keys, false);
4217  }
4218  else if (exprtype == JSONBOID)
4219  {
4220  if (pred->item_type == JS_TYPE_ANY)
4221  res = true;
4222  else
4223  {
4224  Jsonb *jb = DatumGetJsonbP(js);
4225 
4226  switch (pred->item_type)
4227  {
4228  case JS_TYPE_OBJECT:
4229  res = JB_ROOT_IS_OBJECT(jb);
4230  break;
4231  case JS_TYPE_ARRAY:
4232  res = JB_ROOT_IS_ARRAY(jb) && !JB_ROOT_IS_SCALAR(jb);
4233  break;
4234  case JS_TYPE_SCALAR:
4235  res = JB_ROOT_IS_ARRAY(jb) && JB_ROOT_IS_SCALAR(jb);
4236  break;
4237  default:
4238  res = false;
4239  break;
4240  }
4241  }
4242 
4243  /* Key uniqueness check is redundant for jsonb */
4244  }
4245  else
4246  res = false;
4247 
4248  *op->resvalue = BoolGetDatum(res);
4249 }
@ JSON_TOKEN_FALSE
Definition: jsonapi.h:31
@ JSON_TOKEN_TRUE
Definition: jsonapi.h:30
@ JSON_TOKEN_NULL
Definition: jsonapi.h:32
@ JSON_TOKEN_OBJECT_START
Definition: jsonapi.h:24
@ JSON_TOKEN_NUMBER
Definition: jsonapi.h:23
@ JSON_TOKEN_STRING
Definition: jsonapi.h:22
@ JSON_TOKEN_ARRAY_START
Definition: jsonapi.h:26
#define JB_ROOT_IS_OBJECT(jbp_)
Definition: jsonb.h:221
#define JB_ROOT_IS_ARRAY(jbp_)
Definition: jsonb.h:222
#define JB_ROOT_IS_SCALAR(jbp_)
Definition: jsonb.h:220
JsonTokenType json_get_first_token(text *json, bool throw_error)
Definition: jsonfuncs.c:5926
Oid exprType(const Node *expr)
Definition: nodeFuncs.c:42
@ JS_TYPE_ANY
Definition: primnodes.h:1718
@ JS_TYPE_ARRAY
Definition: primnodes.h:1720
@ JS_TYPE_OBJECT
Definition: primnodes.h:1719
@ JS_TYPE_SCALAR
Definition: primnodes.h:1721
struct ExprEvalStep::@54::@98 is_json
JsonValueType item_type
Definition: primnodes.h:1733
Definition: jsonb.h:213

References BoolGetDatum(), DatumGetJsonbP(), DatumGetTextP, JsonIsPredicate::expr, exprType(), JsonIsPredicate::item_type, JB_ROOT_IS_ARRAY, JB_ROOT_IS_OBJECT, JB_ROOT_IS_SCALAR, JS_TYPE_ANY, JS_TYPE_ARRAY, JS_TYPE_OBJECT, JS_TYPE_SCALAR, json_get_first_token(), JSON_TOKEN_ARRAY_START, JSON_TOKEN_FALSE, JSON_TOKEN_NULL, JSON_TOKEN_NUMBER, JSON_TOKEN_OBJECT_START, JSON_TOKEN_STRING, JSON_TOKEN_TRUE, json_validate(), ExprEvalStep::op, ExprEvalStep::pred, res, and JsonIsPredicate::unique_keys.

Referenced by ExecInterpExpr().

◆ ExecEvalMergeSupportFunc()

void ExecEvalMergeSupportFunc ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 4606 of file execExprInterp.c.

4608 {
4609  ModifyTableState *mtstate = castNode(ModifyTableState, state->parent);
4610  MergeActionState *relaction = mtstate->mt_merge_action;
4611 
4612  if (!relaction)
4613  elog(ERROR, "no merge action in progress");
4614 
4615  /* Return the MERGE action ("INSERT", "UPDATE", or "DELETE") */
4616  switch (relaction->mas_action->commandType)
4617  {
4618  case CMD_INSERT:
4619  *op->resvalue = PointerGetDatum(cstring_to_text_with_len("INSERT", 6));
4620  *op->resnull = false;
4621  break;
4622  case CMD_UPDATE:
4623  *op->resvalue = PointerGetDatum(cstring_to_text_with_len("UPDATE", 6));
4624  *op->resnull = false;
4625  break;
4626  case CMD_DELETE:
4627  *op->resvalue = PointerGetDatum(cstring_to_text_with_len("DELETE", 6));
4628  *op->resnull = false;
4629  break;
4630  case CMD_NOTHING:
4631  elog(ERROR, "unexpected merge action: DO NOTHING");
4632  break;
4633  default:
4634  elog(ERROR, "unrecognized commandType: %d",
4635  (int) relaction->mas_action->commandType);
4636  }
4637 }
@ CMD_INSERT
Definition: nodes.h:267
@ CMD_DELETE
Definition: nodes.h:268
@ CMD_UPDATE
Definition: nodes.h:266
@ CMD_NOTHING
Definition: nodes.h:272
MergeAction * mas_action
Definition: execnodes.h:425
CmdType commandType
Definition: primnodes.h:2009
MergeActionState * mt_merge_action
Definition: execnodes.h:1403
text * cstring_to_text_with_len(const char *s, int len)
Definition: varlena.c:196

References castNode, CMD_DELETE, CMD_INSERT, CMD_NOTHING, CMD_UPDATE, MergeAction::commandType, cstring_to_text_with_len(), elog, ERROR, MergeActionState::mas_action, ModifyTableState::mt_merge_action, ExprEvalStep::op, and PointerGetDatum().

Referenced by ExecInterpExpr().

◆ ExecEvalMinMax()

void ExecEvalMinMax ( ExprState state,
ExprEvalStep op 
)

Definition at line 3108 of file execExprInterp.c.

3109 {
3110  Datum *values = op->d.minmax.values;
3111  bool *nulls = op->d.minmax.nulls;
3112  FunctionCallInfo fcinfo = op->d.minmax.fcinfo_data;
3113  MinMaxOp operator = op->d.minmax.op;
3114 
3115  /* set at initialization */
3116  Assert(fcinfo->args[0].isnull == false);
3117  Assert(fcinfo->args[1].isnull == false);
3118 
3119  /* default to null result */
3120  *op->resnull = true;
3121 
3122  for (int off = 0; off < op->d.minmax.nelems; off++)
3123  {
3124  /* ignore NULL inputs */
3125  if (nulls[off])
3126  continue;
3127 
3128  if (*op->resnull)
3129  {
3130  /* first nonnull input, adopt value */
3131  *op->resvalue = values[off];
3132  *op->resnull = false;
3133  }
3134  else
3135  {
3136  int cmpresult;
3137 
3138  /* apply comparison function */
3139  fcinfo->args[0].value = *op->resvalue;
3140  fcinfo->args[1].value = values[off];
3141 
3142  fcinfo->isnull = false;
3143  cmpresult = DatumGetInt32(FunctionCallInvoke(fcinfo));
3144  if (fcinfo->isnull) /* probably should not happen */
3145  continue;
3146 
3147  if (cmpresult > 0 && operator == IS_LEAST)
3148  *op->resvalue = values[off];
3149  else if (cmpresult < 0 && operator == IS_GREATEST)
3150  *op->resvalue = values[off];
3151  }
3152  }
3153 }
static Datum values[MAXATTR]
Definition: bootstrap.c:152
static int32 DatumGetInt32(Datum X)
Definition: postgres.h:202
MinMaxOp
Definition: primnodes.h:1501
@ IS_LEAST
Definition: primnodes.h:1503
@ IS_GREATEST
Definition: primnodes.h:1502
struct ExprEvalStep::@54::@78 minmax

References FunctionCallInfoBaseData::args, Assert, DatumGetInt32(), FunctionCallInvoke, IS_GREATEST, IS_LEAST, FunctionCallInfoBaseData::isnull, NullableDatum::isnull, ExprEvalStep::nulls, ExprEvalStep::op, NullableDatum::value, and values.

Referenced by ExecInterpExpr().

◆ ExecEvalNextValueExpr()

void ExecEvalNextValueExpr ( ExprState state,
ExprEvalStep op 
)

Definition at line 2705 of file execExprInterp.c.

2706 {
2707  int64 newval = nextval_internal(op->d.nextvalueexpr.seqid, false);
2708 
2709  switch (op->d.nextvalueexpr.seqtypid)
2710  {
2711  case INT2OID:
2712  *op->resvalue = Int16GetDatum((int16) newval);
2713  break;
2714  case INT4OID:
2715  *op->resvalue = Int32GetDatum((int32) newval);
2716  break;
2717  case INT8OID:
2718  *op->resvalue = Int64GetDatum((int64) newval);
2719  break;
2720  default:
2721  elog(ERROR, "unsupported sequence type %u",
2722  op->d.nextvalueexpr.seqtypid);
2723  }
2724  *op->resnull = false;
2725 }
int64 nextval_internal(Oid relid, bool check_permissions)
Definition: sequence.c:616
Datum Int64GetDatum(int64 X)
Definition: fmgr.c:1807
#define newval
static Datum Int16GetDatum(int16 X)
Definition: postgres.h:172
struct ExprEvalStep::@54::@72 nextvalueexpr

References elog, ERROR, Int16GetDatum(), Int32GetDatum(), Int64GetDatum(), newval, nextval_internal(), and ExprEvalStep::op.

Referenced by ExecInterpExpr().

◆ ExecEvalParamExec()

void ExecEvalParamExec ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 2498 of file execExprInterp.c.

2499 {
2500  ParamExecData *prm;
2501 
2502  prm = &(econtext->ecxt_param_exec_vals[op->d.param.paramid]);
2503  if (unlikely(prm->execPlan != NULL))
2504  {
2505  /* Parameter not evaluated yet, so go do it */
2506  ExecSetParamPlan(prm->execPlan, econtext);
2507  /* ExecSetParamPlan should have processed this param... */
2508  Assert(prm->execPlan == NULL);
2509  }
2510  *op->resvalue = prm->value;
2511  *op->resnull = prm->isnull;
2512 }
void ExecSetParamPlan(SubPlanState *node, ExprContext *econtext)
Definition: nodeSubplan.c:1092
ParamExecData * ecxt_param_exec_vals
Definition: execnodes.h:266
struct ExprEvalStep::@54::@66 param
bool isnull
Definition: params.h:150
Datum value
Definition: params.h:149
void * execPlan
Definition: params.h:148

References Assert, ExprContext::ecxt_param_exec_vals, ParamExecData::execPlan, ExecSetParamPlan(), ParamExecData::isnull, ExprEvalStep::op, unlikely, and ParamExecData::value.

Referenced by ExecInterpExpr().

◆ ExecEvalParamExtern()

void ExecEvalParamExtern ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 2520 of file execExprInterp.c.

2521 {
2522  ParamListInfo paramInfo = econtext->ecxt_param_list_info;
2523  int paramId = op->d.param.paramid;
2524 
2525  if (likely(paramInfo &&
2526  paramId > 0 && paramId <= paramInfo->numParams))
2527  {
2528  ParamExternData *prm;
2529  ParamExternData prmdata;
2530 
2531  /* give hook a chance in case parameter is dynamic */
2532  if (paramInfo->paramFetch != NULL)
2533  prm = paramInfo->paramFetch(paramInfo, paramId, false, &prmdata);
2534  else
2535  prm = &paramInfo->params[paramId - 1];
2536 
2537  if (likely(OidIsValid(prm->ptype)))
2538  {
2539  /* safety check in case hook did something unexpected */
2540  if (unlikely(prm->ptype != op->d.param.paramtype))
2541  ereport(ERROR,
2542  (errcode(ERRCODE_DATATYPE_MISMATCH),
2543  errmsg("type of parameter %d (%s) does not match that when preparing the plan (%s)",
2544  paramId,
2545  format_type_be(prm->ptype),
2546  format_type_be(op->d.param.paramtype))));
2547  *op->resvalue = prm->value;
2548  *op->resnull = prm->isnull;
2549  return;
2550  }
2551  }
2552 
2553  ereport(ERROR,
2554  (errcode(ERRCODE_UNDEFINED_OBJECT),
2555  errmsg("no value found for parameter %d", paramId)));
2556 }
#define likely(x)
Definition: c.h:310
#define OidIsValid(objectId)
Definition: c.h:775
ParamListInfo ecxt_param_list_info
Definition: execnodes.h:267
bool isnull
Definition: params.h:93
Datum value
Definition: params.h:92
ParamExternData params[FLEXIBLE_ARRAY_MEMBER]
Definition: params.h:125
ParamFetchHook paramFetch
Definition: params.h:112

References ExprContext::ecxt_param_list_info, ereport, errcode(), errmsg(), ERROR, format_type_be(), ParamExternData::isnull, likely, OidIsValid, ExprEvalStep::op, ParamListInfoData::paramFetch, ParamListInfoData::params, ParamExternData::ptype, unlikely, and ParamExternData::value.

Referenced by ExecInterpExpr().

◆ ExecEvalPreOrderedDistinctMulti()

bool ExecEvalPreOrderedDistinctMulti ( AggState aggstate,
AggStatePerTrans  pertrans 
)

Definition at line 5052 of file execExprInterp.c.

5053 {
5054  ExprContext *tmpcontext = aggstate->tmpcontext;
5055  bool isdistinct = false; /* for now */
5056  TupleTableSlot *save_outer;
5057  TupleTableSlot *save_inner;
5058 
5059  for (int i = 0; i < pertrans->numTransInputs; i++)
5060  {
5061  pertrans->sortslot->tts_values[i] = pertrans->transfn_fcinfo->args[i + 1].value;
5062  pertrans->sortslot->tts_isnull[i] = pertrans->transfn_fcinfo->args[i + 1].isnull;
5063  }
5064 
5065  ExecClearTuple(pertrans->sortslot);
5066  pertrans->sortslot->tts_nvalid = pertrans->numInputs;
5067  ExecStoreVirtualTuple(pertrans->sortslot);
5068 
5069  /* save the previous slots before we overwrite them */
5070  save_outer = tmpcontext->ecxt_outertuple;
5071  save_inner = tmpcontext->ecxt_innertuple;
5072 
5073  tmpcontext->ecxt_outertuple = pertrans->sortslot;
5074  tmpcontext->ecxt_innertuple = pertrans->uniqslot;
5075 
5076  if (!pertrans->haslast ||
5077  !ExecQual(pertrans->equalfnMulti, tmpcontext))
5078  {
5079  if (pertrans->haslast)
5080  ExecClearTuple(pertrans->uniqslot);
5081 
5082  pertrans->haslast = true;
5083  ExecCopySlot(pertrans->uniqslot, pertrans->sortslot);
5084 
5085  isdistinct = true;
5086  }
5087 
5088  /* restore the original slots */
5089  tmpcontext->ecxt_outertuple = save_outer;
5090  tmpcontext->ecxt_innertuple = save_inner;
5091 
5092  return isdistinct;
5093 }
static bool ExecQual(ExprState *state, ExprContext *econtext)
Definition: executor.h:413
ExprState * equalfnMulti
Definition: nodeAgg.h:116
TupleTableSlot * uniqslot
Definition: nodeAgg.h:142
ExprContext * tmpcontext
Definition: execnodes.h:2476
bool * tts_isnull
Definition: tuptable.h:127
Datum * tts_values
Definition: tuptable.h:125
static TupleTableSlot * ExecCopySlot(TupleTableSlot *dstslot, TupleTableSlot *srcslot)
Definition: tuptable.h:509

References FunctionCallInfoBaseData::args, ExprContext::ecxt_innertuple, ExprContext::ecxt_outertuple, AggStatePerTransData::equalfnMulti, ExecClearTuple(), ExecCopySlot(), ExecQual(), ExecStoreVirtualTuple(), AggStatePerTransData::haslast, i, NullableDatum::isnull, AggStatePerTransData::numInputs, AggStatePerTransData::numTransInputs, ExprEvalStep::pertrans, AggStatePerTransData::sortslot, AggState::tmpcontext, AggStatePerTransData::transfn_fcinfo, TupleTableSlot::tts_isnull, TupleTableSlot::tts_nvalid, TupleTableSlot::tts_values, AggStatePerTransData::uniqslot, and NullableDatum::value.

Referenced by ExecInterpExpr().

◆ ExecEvalPreOrderedDistinctSingle()

bool ExecEvalPreOrderedDistinctSingle ( AggState aggstate,
AggStatePerTrans  pertrans 
)

Definition at line 5009 of file execExprInterp.c.

5010 {
5011  Datum value = pertrans->transfn_fcinfo->args[1].value;
5012  bool isnull = pertrans->transfn_fcinfo->args[1].isnull;
5013 
5014  if (!pertrans->haslast ||
5015  pertrans->lastisnull != isnull ||
5016  (!isnull && !DatumGetBool(FunctionCall2Coll(&pertrans->equalfnOne,
5017  pertrans->aggCollation,
5018  pertrans->lastdatum, value))))
5019  {
5020  if (pertrans->haslast && !pertrans->inputtypeByVal &&
5021  !pertrans->lastisnull)
5022  pfree(DatumGetPointer(pertrans->lastdatum));
5023 
5024  pertrans->haslast = true;
5025  if (!isnull)
5026  {
5027  MemoryContext oldContext;
5028 
5030 
5031  pertrans->lastdatum = datumCopy(value, pertrans->inputtypeByVal,
5032  pertrans->inputtypeLen);
5033 
5034  MemoryContextSwitchTo(oldContext);
5035  }
5036  else
5037  pertrans->lastdatum = (Datum) 0;
5038  pertrans->lastisnull = isnull;
5039  return true;
5040  }
5041 
5042  return false;
5043 }
Datum FunctionCall2Coll(FmgrInfo *flinfo, Oid collation, Datum arg1, Datum arg2)
Definition: fmgr.c:1149
FmgrInfo equalfnOne
Definition: nodeAgg.h:115

References AggStatePerTransData::aggCollation, FunctionCallInfoBaseData::args, AggState::curaggcontext, datumCopy(), DatumGetBool(), DatumGetPointer(), ExprContext::ecxt_per_tuple_memory, AggStatePerTransData::equalfnOne, FunctionCall2Coll(), AggStatePerTransData::haslast, AggStatePerTransData::inputtypeByVal, AggStatePerTransData::inputtypeLen, ExprEvalStep::isnull, NullableDatum::isnull, AggStatePerTransData::lastdatum, AggStatePerTransData::lastisnull, MemoryContextSwitchTo(), ExprEvalStep::pertrans, pfree(), AggStatePerTransData::transfn_fcinfo, NullableDatum::value, and value.

Referenced by ExecInterpExpr().

◆ ExecEvalRow()

void ExecEvalRow ( ExprState state,
ExprEvalStep op 
)

Definition at line 3088 of file execExprInterp.c.

3089 {
3090  HeapTuple tuple;
3091 
3092  /* build tuple from evaluated field values */
3093  tuple = heap_form_tuple(op->d.row.tupdesc,
3094  op->d.row.elemvalues,
3095  op->d.row.elemnulls);
3096 
3097  *op->resvalue = HeapTupleGetDatum(tuple);
3098  *op->resnull = false;
3099 }
struct ExprEvalStep::@54::@75 row

References heap_form_tuple(), HeapTupleGetDatum(), and ExprEvalStep::op.

Referenced by ExecInterpExpr().

◆ ExecEvalRowNotNull()

void ExecEvalRowNotNull ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 2740 of file execExprInterp.c.

2741 {
2742  ExecEvalRowNullInt(state, op, econtext, false);
2743 }
static void ExecEvalRowNullInt(ExprState *state, ExprEvalStep *op, ExprContext *econtext, bool checkisnull)

References ExecEvalRowNullInt(), and ExprEvalStep::op.

Referenced by ExecInterpExpr().

◆ ExecEvalRowNull()

void ExecEvalRowNull ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 2731 of file execExprInterp.c.

2732 {
2733  ExecEvalRowNullInt(state, op, econtext, true);
2734 }

References ExecEvalRowNullInt(), and ExprEvalStep::op.

Referenced by ExecInterpExpr().

◆ ExecEvalScalarArrayOp()

void ExecEvalScalarArrayOp ( ExprState state,
ExprEvalStep op 
)

Definition at line 3455 of file execExprInterp.c.

3456 {
3457  FunctionCallInfo fcinfo = op->d.scalararrayop.fcinfo_data;
3458  bool useOr = op->d.scalararrayop.useOr;
3459  bool strictfunc = op->d.scalararrayop.finfo->fn_strict;
3460  ArrayType *arr;
3461  int nitems;
3462  Datum result;
3463  bool resultnull;
3464  int16 typlen;
3465  bool typbyval;
3466  char typalign;
3467  char *s;
3468  bits8 *bitmap;
3469  int bitmask;
3470 
3471  /*
3472  * If the array is NULL then we return NULL --- it's not very meaningful
3473  * to do anything else, even if the operator isn't strict.
3474  */
3475  if (*op->resnull)
3476  return;
3477 
3478  /* Else okay to fetch and detoast the array */
3479  arr = DatumGetArrayTypeP(*op->resvalue);
3480 
3481  /*
3482  * If the array is empty, we return either FALSE or TRUE per the useOr
3483  * flag. This is correct even if the scalar is NULL; since we would
3484  * evaluate the operator zero times, it matters not whether it would want
3485  * to return NULL.
3486  */
3487  nitems = ArrayGetNItems(ARR_NDIM(arr), ARR_DIMS(arr));
3488  if (nitems <= 0)
3489  {
3490  *op->resvalue = BoolGetDatum(!useOr);
3491  *op->resnull = false;
3492  return;
3493  }
3494 
3495  /*
3496  * If the scalar is NULL, and the function is strict, return NULL; no
3497  * point in iterating the loop.
3498  */
3499  if (fcinfo->args[0].isnull && strictfunc)
3500  {
3501  *op->resnull = true;
3502  return;
3503  }
3504 
3505  /*
3506  * We arrange to look up info about the element type only once per series
3507  * of calls, assuming the element type doesn't change underneath us.
3508  */
3509  if (op->d.scalararrayop.element_type != ARR_ELEMTYPE(arr))
3510  {
3512  &op->d.scalararrayop.typlen,
3513  &op->d.scalararrayop.typbyval,
3514  &op->d.scalararrayop.typalign);
3515  op->d.scalararrayop.element_type = ARR_ELEMTYPE(arr);
3516  }
3517 
3518  typlen = op->d.scalararrayop.typlen;
3519  typbyval = op->d.scalararrayop.typbyval;
3520  typalign = op->d.scalararrayop.typalign;
3521 
3522  /* Initialize result appropriately depending on useOr */
3523  result = BoolGetDatum(!useOr);
3524  resultnull = false;
3525 
3526  /* Loop over the array elements */
3527  s = (char *) ARR_DATA_PTR(arr);
3528  bitmap = ARR_NULLBITMAP(arr);
3529  bitmask = 1;
3530 
3531  for (int i = 0; i < nitems; i++)
3532  {
3533  Datum elt;
3534  Datum thisresult;
3535 
3536  /* Get array element, checking for NULL */
3537  if (bitmap && (*bitmap & bitmask) == 0)
3538  {
3539  fcinfo->args[1].value = (Datum) 0;
3540  fcinfo->args[1].isnull = true;
3541  }
3542  else
3543  {
3544  elt = fetch_att(s, typbyval, typlen);
3545  s = att_addlength_pointer(s, typlen, s);
3546  s = (char *) att_align_nominal(s, typalign);
3547  fcinfo->args[1].value = elt;
3548  fcinfo->args[1].isnull = false;
3549  }
3550 
3551  /* Call comparison function */
3552  if (fcinfo->args[1].isnull && strictfunc)
3553  {
3554  fcinfo->isnull = true;
3555  thisresult = (Datum) 0;
3556  }
3557  else
3558  {
3559  fcinfo->isnull = false;
3560  thisresult = op->d.scalararrayop.fn_addr(fcinfo);
3561  }
3562 
3563  /* Combine results per OR or AND semantics */
3564  if (fcinfo->isnull)
3565  resultnull = true;
3566  else if (useOr)
3567  {
3568  if (DatumGetBool(thisresult))
3569  {
3570  result = BoolGetDatum(true);
3571  resultnull = false;
3572  break; /* needn't look at any more elements */
3573  }
3574  }
3575  else
3576  {
3577  if (!DatumGetBool(thisresult))
3578  {
3579  result = BoolGetDatum(false);
3580  resultnull = false;
3581  break; /* needn't look at any more elements */
3582  }
3583  }
3584 
3585  /* advance bitmap pointer if any */
3586  if (bitmap)
3587  {
3588  bitmask <<= 1;
3589  if (bitmask == 0x100)
3590  {
3591  bitmap++;
3592  bitmask = 1;
3593  }
3594  }
3595  }
3596 
3597  *op->resvalue = result;
3598  *op->resnull = resultnull;
3599 }
struct ExprEvalStep::@54::@85 scalararrayop

References FunctionCallInfoBaseData::args, ARR_DATA_PTR, ARR_DIMS, ARR_ELEMTYPE, ARR_NDIM, ARR_NULLBITMAP, ArrayGetNItems(), att_addlength_pointer, att_align_nominal, BoolGetDatum(), DatumGetArrayTypeP, DatumGetBool(), fetch_att(), get_typlenbyvalalign(), i, FunctionCallInfoBaseData::isnull, NullableDatum::isnull, nitems, ExprEvalStep::op, typalign, ExprEvalStep::typbyval, ExprEvalStep::typlen, ExprEvalStep::useOr, and NullableDatum::value.

Referenced by ExecInterpExpr().

◆ ExecEvalSQLValueFunction()

void ExecEvalSQLValueFunction ( ExprState state,
ExprEvalStep op 
)

Definition at line 2627 of file execExprInterp.c.

2628 {
2629  LOCAL_FCINFO(fcinfo, 0);
2630  SQLValueFunction *svf = op->d.sqlvaluefunction.svf;
2631 
2632  *op->resnull = false;
2633 
2634  /*
2635  * Note: current_schema() can return NULL. current_user() etc currently
2636  * cannot, but might as well code those cases the same way for safety.
2637  */
2638  switch (svf->op)
2639  {
2640  case SVFOP_CURRENT_DATE:
2642  break;
2643  case SVFOP_CURRENT_TIME:
2644  case SVFOP_CURRENT_TIME_N:
2646  break;
2650  break;
2651  case SVFOP_LOCALTIME:
2652  case SVFOP_LOCALTIME_N:
2654  break;
2655  case SVFOP_LOCALTIMESTAMP:
2658  break;
2659  case SVFOP_CURRENT_ROLE:
2660  case SVFOP_CURRENT_USER:
2661  case SVFOP_USER:
2662  InitFunctionCallInfoData(*fcinfo, NULL, 0, InvalidOid, NULL, NULL);
2663  *op->resvalue = current_user(fcinfo);
2664  *op->resnull = fcinfo->isnull;
2665  break;
2666  case SVFOP_SESSION_USER:
2667  InitFunctionCallInfoData(*fcinfo, NULL, 0, InvalidOid, NULL, NULL);
2668  *op->resvalue = session_user(fcinfo);
2669  *op->resnull = fcinfo->isnull;
2670  break;
2671  case SVFOP_CURRENT_CATALOG:
2672  InitFunctionCallInfoData(*fcinfo, NULL, 0, InvalidOid, NULL, NULL);
2673  *op->resvalue = current_database(fcinfo);
2674  *op->resnull = fcinfo->isnull;
2675  break;
2676  case SVFOP_CURRENT_SCHEMA:
2677  InitFunctionCallInfoData(*fcinfo, NULL, 0, InvalidOid, NULL, NULL);
2678  *op->resvalue = current_schema(fcinfo);
2679  *op->resnull = fcinfo->isnull;
2680  break;
2681  }
2682 }
Datum current_database(PG_FUNCTION_ARGS)
Definition: misc.c:195
Timestamp GetSQLLocalTimestamp(int32 typmod)
Definition: timestamp.c:1686
TimestampTz GetSQLCurrentTimestamp(int32 typmod)
Definition: timestamp.c:1672
TimeTzADT * GetSQLCurrentTime(int32 typmod)
Definition: date.c:342
TimeADT GetSQLLocalTime(int32 typmod)
Definition: date.c:362
DateADT GetSQLCurrentDate(void)
Definition: date.c:309
static Datum DateADTGetDatum(DateADT X)
Definition: date.h:72
static Datum TimeTzADTPGetDatum(const TimeTzADT *X)
Definition: date.h:84
static Datum TimeADTGetDatum(TimeADT X)
Definition: date.h:78
#define LOCAL_FCINFO(name, nargs)
Definition: fmgr.h:110
Datum current_user(PG_FUNCTION_ARGS)
Definition: name.c:263
Datum session_user(PG_FUNCTION_ARGS)
Definition: name.c:269
Datum current_schema(PG_FUNCTION_ARGS)
Definition: name.c:279
@ SVFOP_CURRENT_CATALOG
Definition: primnodes.h:1549
@ SVFOP_LOCALTIME_N
Definition: primnodes.h:1542
@ SVFOP_CURRENT_TIMESTAMP
Definition: primnodes.h:1539
@ SVFOP_LOCALTIME
Definition: primnodes.h:1541
@ SVFOP_CURRENT_TIMESTAMP_N
Definition: primnodes.h:1540
@ SVFOP_CURRENT_ROLE
Definition: primnodes.h:1545
@ SVFOP_USER
Definition: primnodes.h:1547
@ SVFOP_CURRENT_SCHEMA
Definition: primnodes.h:1550
@ SVFOP_LOCALTIMESTAMP_N
Definition: primnodes.h:1544
@ SVFOP_CURRENT_DATE
Definition: primnodes.h:1536
@ SVFOP_CURRENT_TIME_N
Definition: primnodes.h:1538
@ SVFOP_CURRENT_TIME
Definition: primnodes.h:1537
@ SVFOP_LOCALTIMESTAMP
Definition: primnodes.h:1543
@ SVFOP_CURRENT_USER
Definition: primnodes.h:1546
@ SVFOP_SESSION_USER
Definition: primnodes.h:1548
struct ExprEvalStep::@54::@71 sqlvaluefunction
SQLValueFunctionOp op
Definition: primnodes.h:1556
static Datum TimestampTzGetDatum(TimestampTz X)
Definition: timestamp.h:52
static Datum TimestampGetDatum(Timestamp X)
Definition: timestamp.h:46

References current_database(), current_schema(), current_user(), DateADTGetDatum(), GetSQLCurrentDate(), GetSQLCurrentTime(), GetSQLCurrentTimestamp(), GetSQLLocalTime(), GetSQLLocalTimestamp(), InitFunctionCallInfoData, InvalidOid, LOCAL_FCINFO, ExprEvalStep::op, SQLValueFunction::op, session_user(), ExprEvalStep::svf, SVFOP_CURRENT_CATALOG, SVFOP_CURRENT_DATE, SVFOP_CURRENT_ROLE, SVFOP_CURRENT_SCHEMA, SVFOP_CURRENT_TIME, SVFOP_CURRENT_TIME_N, SVFOP_CURRENT_TIMESTAMP, SVFOP_CURRENT_TIMESTAMP_N, SVFOP_CURRENT_USER, SVFOP_LOCALTIME, SVFOP_LOCALTIME_N, SVFOP_LOCALTIMESTAMP, SVFOP_LOCALTIMESTAMP_N, SVFOP_SESSION_USER, SVFOP_USER, TimeADTGetDatum(), TimestampGetDatum(), TimestampTzGetDatum(), TimeTzADTPGetDatum(), and SQLValueFunction::typmod.

Referenced by ExecInterpExpr().

◆ ExecEvalStepOp()

ExprEvalOp ExecEvalStepOp ( ExprState state,
ExprEvalStep op 
)

Definition at line 2410 of file execExprInterp.c.

2411 {
2412 #if defined(EEO_USE_COMPUTED_GOTO)
2413  if (state->flags & EEO_FLAG_DIRECT_THREADED)
2414  {
2415  ExprEvalOpLookup key;
2416  ExprEvalOpLookup *res;
2417 
2418  key.opcode = (void *) op->opcode;
2419  res = bsearch(&key,
2420  reverse_dispatch_table,
2421  EEOP_LAST /* nmembers */ ,
2422  sizeof(ExprEvalOpLookup),
2423  dispatch_compare_ptr);
2424  Assert(res); /* unknown ops shouldn't get looked up */
2425  return res->op;
2426  }
2427 #endif
2428  return (ExprEvalOp) op->opcode;
2429 }
#define EEO_FLAG_DIRECT_THREADED
Definition: execExpr.h:31
intptr_t opcode
Definition: execExpr.h:281

References Assert, EEO_FLAG_DIRECT_THREADED, EEOP_LAST, sort-test::key, ExprEvalStep::op, and res.

Referenced by CheckExprStillValid().

◆ ExecEvalSubPlan()

void ExecEvalSubPlan ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 4643 of file execExprInterp.c.

4644 {
4645  SubPlanState *sstate = op->d.subplan.sstate;
4646 
4647  /* could potentially be nested, so make sure there's enough stack */
4649 
4650  *op->resvalue = ExecSubPlan(sstate, econtext, op->resnull);
4651 }
Datum ExecSubPlan(SubPlanState *node, ExprContext *econtext, bool *isNull)
Definition: nodeSubplan.c:62
void check_stack_depth(void)
Definition: postgres.c:3531
struct ExprEvalStep::@54::@92 subplan

References check_stack_depth(), ExecSubPlan(), ExprEvalStep::op, and ExprEvalStep::sstate.

Referenced by ExecInterpExpr().

◆ ExecEvalSysVar()

void ExecEvalSysVar ( ExprState state,
ExprEvalStep op,
ExprContext econtext,
TupleTableSlot slot 
)

Definition at line 4887 of file execExprInterp.c.

4889 {
4890  Datum d;
4891 
4892  /* slot_getsysattr has sufficient defenses against bad attnums */
4893  d = slot_getsysattr(slot,
4894  op->d.var.attnum,
4895  op->resnull);
4896  *op->resvalue = d;
4897  /* this ought to be unreachable, but it's cheap enough to check */
4898  if (unlikely(*op->resnull))
4899  elog(ERROR, "failed to fetch attribute from slot");
4900 }
static Datum slot_getsysattr(TupleTableSlot *slot, int attnum, bool *isnull)
Definition: tuptable.h:416

References ExprEvalStep::d, elog, ERROR, ExprEvalStep::op, slot_getsysattr(), and unlikely.

Referenced by ExecInterpExpr().

◆ ExecEvalWholeRowVar()

void ExecEvalWholeRowVar ( ExprState state,
ExprEvalStep op,
ExprContext econtext 
)

Definition at line 4660 of file execExprInterp.c.

4661 {
4662  Var *variable = op->d.wholerow.var;
4663  TupleTableSlot *slot;
4664  TupleDesc output_tupdesc;
4665  MemoryContext oldcontext;
4666  HeapTupleHeader dtuple;
4667  HeapTuple tuple;
4668 
4669  /* This was checked by ExecInitExpr */
4670  Assert(variable->varattno == InvalidAttrNumber);
4671 
4672  /* Get the input slot we want */
4673  switch (variable->varno)
4674  {
4675  case INNER_VAR:
4676  /* get the tuple from the inner node */
4677  slot = econtext->ecxt_innertuple;
4678  break;
4679 
4680  case OUTER_VAR:
4681  /* get the tuple from the outer node */
4682  slot = econtext->ecxt_outertuple;
4683  break;
4684 
4685  /* INDEX_VAR is handled by default case */
4686 
4687  default:
4688  /* get the tuple from the relation being scanned */
4689  slot = econtext->ecxt_scantuple;
4690  break;
4691  }
4692 
4693  /* Apply the junkfilter if any */
4694  if (op->d.wholerow.junkFilter != NULL)
4695  slot = ExecFilterJunk(op->d.wholerow.junkFilter, slot);
4696 
4697  /*
4698  * If first time through, obtain tuple descriptor and check compatibility.
4699  *
4700  * XXX: It'd be great if this could be moved to the expression
4701  * initialization phase, but due to using slots that's currently not
4702  * feasible.
4703  */
4704  if (op->d.wholerow.first)
4705  {
4706  /* optimistically assume we don't need slow path */
4707  op->d.wholerow.slow = false;
4708 
4709  /*
4710  * If the Var identifies a named composite type, we must check that
4711  * the actual tuple type is compatible with it.
4712  */
4713  if (variable->vartype != RECORDOID)
4714  {
4715  TupleDesc var_tupdesc;
4716  TupleDesc slot_tupdesc;
4717 
4718  /*
4719  * We really only care about numbers of attributes and data types.
4720  * Also, we can ignore type mismatch on columns that are dropped
4721  * in the destination type, so long as (1) the physical storage
4722  * matches or (2) the actual column value is NULL. Case (1) is
4723  * helpful in some cases involving out-of-date cached plans, while
4724  * case (2) is expected behavior in situations such as an INSERT
4725  * into a table with dropped columns (the planner typically
4726  * generates an INT4 NULL regardless of the dropped column type).
4727  * If we find a dropped column and cannot verify that case (1)
4728  * holds, we have to use the slow path to check (2) for each row.
4729  *
4730  * If vartype is a domain over composite, just look through that
4731  * to the base composite type.
4732  */
4733  var_tupdesc = lookup_rowtype_tupdesc_domain(variable->vartype,
4734  -1, false);
4735 
4736  slot_tupdesc = slot->tts_tupleDescriptor;
4737 
4738  if (var_tupdesc->natts != slot_tupdesc->natts)
4739  ereport(ERROR,
4740  (errcode(ERRCODE_DATATYPE_MISMATCH),
4741  errmsg("table row type and query-specified row type do not match"),
4742  errdetail_plural("Table row contains %d attribute, but query expects %d.",
4743  "Table row contains %d attributes, but query expects %d.",
4744  slot_tupdesc->natts,
4745  slot_tupdesc->natts,
4746  var_tupdesc->natts)));
4747 
4748  for (int i = 0; i < var_tupdesc->natts; i++)
4749  {
4750  Form_pg_attribute vattr = TupleDescAttr(var_tupdesc, i);
4751  Form_pg_attribute sattr = TupleDescAttr(slot_tupdesc, i);
4752 
4753  if (vattr->atttypid == sattr->atttypid)
4754  continue; /* no worries */
4755  if (!vattr->attisdropped)
4756  ereport(ERROR,
4757  (errcode(ERRCODE_DATATYPE_MISMATCH),
4758  errmsg("table row type and query-specified row type do not match"),
4759  errdetail("Table has type %s at ordinal position %d, but query expects %s.",
4760  format_type_be(sattr->atttypid),
4761  i + 1,
4762  format_type_be(vattr->atttypid))));
4763 
4764  if (vattr->attlen != sattr->attlen ||
4765  vattr->attalign != sattr->attalign)
4766  op->d.wholerow.slow = true; /* need to check for nulls */
4767  }
4768 
4769  /*
4770  * Use the variable's declared rowtype as the descriptor for the
4771  * output values. In particular, we *must* absorb any
4772  * attisdropped markings.
4773  */
4774  oldcontext = MemoryContextSwitchTo(econtext->ecxt_per_query_memory);
4775  output_tupdesc = CreateTupleDescCopy(var_tupdesc);
4776  MemoryContextSwitchTo(oldcontext);
4777 
4778  ReleaseTupleDesc(var_tupdesc);
4779  }
4780  else
4781  {
4782  /*
4783  * In the RECORD case, we use the input slot's rowtype as the
4784  * descriptor for the output values, modulo possibly assigning new
4785  * column names below.
4786  */
4787  oldcontext = MemoryContextSwitchTo(econtext->ecxt_per_query_memory);
4788  output_tupdesc = CreateTupleDescCopy(slot->tts_tupleDescriptor);
4789  MemoryContextSwitchTo(oldcontext);
4790 
4791  /*
4792  * It's possible that the input slot is a relation scan slot and
4793  * so is marked with that relation's rowtype. But we're supposed
4794  * to be returning RECORD, so reset to that.
4795  */
4796  output_tupdesc->tdtypeid = RECORDOID;
4797  output_tupdesc->tdtypmod = -1;
4798 
4799  /*
4800  * We already got the correct physical datatype info above, but
4801  * now we should try to find the source RTE and adopt its column
4802  * aliases, since it's unlikely that the input slot has the
4803  * desired names.
4804  *
4805  * If we can't locate the RTE, assume the column names we've got
4806  * are OK. (As of this writing, the only cases where we can't
4807  * locate the RTE are in execution of trigger WHEN clauses, and
4808  * then the Var will have the trigger's relation's rowtype, so its
4809  * names are fine.) Also, if the creator of the RTE didn't bother
4810  * to fill in an eref field, assume our column names are OK. (This
4811  * happens in COPY, and perhaps other places.)
4812  */
4813  if (econtext->ecxt_estate &&
4814  variable->varno <= econtext->ecxt_estate->es_range_table_size)
4815  {
4816  RangeTblEntry *rte = exec_rt_fetch(variable->varno,
4817  econtext->ecxt_estate);
4818 
4819  if (rte->eref)
4820  ExecTypeSetColNames(output_tupdesc, rte->eref->colnames);
4821  }
4822  }
4823 
4824  /* Bless the tupdesc if needed, and save it in the execution state */
4825  op->d.wholerow.tupdesc = BlessTupleDesc(output_tupdesc);
4826 
4827  op->d.wholerow.first = false;
4828  }
4829 
4830  /*
4831  * Make sure all columns of the slot are accessible in the slot's
4832  * Datum/isnull arrays.
4833  */
4834  slot_getallattrs(slot);
4835 
4836  if (op->d.wholerow.slow)
4837  {
4838  /* Check to see if any dropped attributes are non-null */
4839  TupleDesc tupleDesc = slot->tts_tupleDescriptor;
4840  TupleDesc var_tupdesc = op->d.wholerow.tupdesc;
4841 
4842  Assert(var_tupdesc->natts == tupleDesc->natts);
4843 
4844  for (int i = 0; i < var_tupdesc->natts; i++)
4845  {
4846  Form_pg_attribute vattr = TupleDescAttr(var_tupdesc, i);
4847  Form_pg_attribute sattr = TupleDescAttr(tupleDesc, i);
4848 
4849  if (!vattr->attisdropped)
4850  continue; /* already checked non-dropped cols */
4851  if (slot->tts_isnull[i])
4852  continue; /* null is always okay */
4853  if (vattr->attlen != sattr->attlen ||
4854  vattr->attalign != sattr->attalign)
4855  ereport(ERROR,
4856  (errcode(ERRCODE_DATATYPE_MISMATCH),
4857  errmsg("table row type and query-specified row type do not match"),
4858  errdetail("Physical storage mismatch on dropped attribute at ordinal position %d.",
4859  i + 1)));
4860  }
4861  }
4862 
4863  /*
4864  * Build a composite datum, making sure any toasted fields get detoasted.
4865  *
4866  * (Note: it is critical that we not change the slot's state here.)
4867  */
4869  slot->tts_values,
4870  slot->tts_isnull);
4871  dtuple = tuple->t_data;
4872 
4873  /*
4874  * Label the datum with the composite type info we identified before.
4875  *
4876  * (Note: we could skip doing this by passing op->d.wholerow.tupdesc to
4877  * the tuple build step; but that seems a tad risky so let's not.)
4878  */
4879  HeapTupleHeaderSetTypeId(dtuple, op->d.wholerow.tupdesc->tdtypeid);
4880  HeapTupleHeaderSetTypMod(dtuple, op->d.wholerow.tupdesc->tdtypmod);
4881 
4882  *op->resvalue = PointerGetDatum(dtuple);
4883  *op->resnull = false;
4884 }
#define InvalidAttrNumber
Definition: attnum.h:23
int errdetail_plural(const char *fmt_singular, const char *fmt_plural, unsigned long n,...)
Definition: elog.c:1295
TupleTableSlot * ExecFilterJunk(JunkFilter *junkfilter, TupleTableSlot *slot)
Definition: execJunk.c:247
TupleDesc BlessTupleDesc(TupleDesc tupdesc)
Definition: execTuples.c:2158
void ExecTypeSetColNames(TupleDesc typeInfo, List *namesList)
Definition: execTuples.c:2117
static RangeTblEntry * exec_rt_fetch(Index rti, EState *estate)
Definition: executor.h:587
HeapTuple toast_build_flattened_tuple(TupleDesc tupleDesc, Datum *values, bool *isnull)
Definition: heaptoast.c:563
#define HeapTupleHeaderSetTypMod(tup, typmod)
Definition: htup_details.h:471
#define HeapTupleHeaderSetTypeId(tup, typeid)
Definition: htup_details.h:461
#define OUTER_VAR
Definition: primnodes.h:237
#define INNER_VAR
Definition: primnodes.h:236
Index es_range_table_size
Definition: execnodes.h:627
struct EState * ecxt_estate
Definition: execnodes.h:291
struct ExprEvalStep::@54::@57 wholerow
int32 tdtypmod
Definition: tupdesc.h:83
TupleDesc tts_tupleDescriptor
Definition: tuptable.h:123
Definition: primnodes.h:248
TupleDesc CreateTupleDescCopy(TupleDesc tupdesc)
Definition: tupdesc.c:133
#define ReleaseTupleDesc(tupdesc)
Definition: tupdesc.h:122
static void slot_getallattrs(TupleTableSlot *slot)
Definition: tuptable.h:368
TupleDesc lookup_rowtype_tupdesc_domain(Oid type_id, int32 typmod, bool noError)
Definition: typcache.c:1889

References Assert, BlessTupleDesc(), CreateTupleDescCopy(), ExprContext::ecxt_estate, ExprContext::ecxt_innertuple, ExprContext::ecxt_outertuple, ExprContext::ecxt_per_query_memory, ExprContext::ecxt_scantuple, ereport, errcode(), errdetail(), errdetail_plural(), errmsg(), ERROR, EState::es_range_table_size, exec_rt_fetch(), ExecFilterJunk(), ExecTypeSetColNames(), format_type_be(), HeapTupleHeaderSetTypeId, HeapTupleHeaderSetTypMod, i, INNER_VAR, InvalidAttrNumber, lookup_rowtype_tupdesc_domain(), MemoryContextSwitchTo(), TupleDescData::natts, ExprEvalStep::op, OUTER_VAR, PointerGetDatum(), ReleaseTupleDesc, slot_getallattrs(), HeapTupleData::t_data, TupleDescData::tdtypeid, TupleDescData::tdtypmod, toast_build_flattened_tuple(), TupleTableSlot::tts_isnull, TupleTableSlot::tts_tupleDescriptor, TupleTableSlot::tts_values, and TupleDescAttr.

Referenced by ExecInterpExpr().

◆ ExecEvalXmlExpr()

void ExecEvalXmlExpr ( ExprState state,
ExprEvalStep op 
)

Definition at line 3874 of file execExprInterp.c.

3875 {
3876  XmlExpr *xexpr = op->d.xmlexpr.xexpr;
3877  Datum value;
3878 
3879  *op->resnull = true; /* until we get a result */
3880  *op->resvalue = (Datum) 0;
3881 
3882  switch (xexpr->op)
3883  {
3884  case IS_XMLCONCAT:
3885  {
3886  Datum *argvalue = op->d.xmlexpr.argvalue;
3887  bool *argnull = op->d.xmlexpr.argnull;
3888  List *values = NIL;
3889 
3890  for (int i = 0; i < list_length(xexpr->args); i++)
3891  {
3892  if (!argnull[i])
3893  values = lappend(values, DatumGetPointer(argvalue[i]));
3894  }
3895 
3896  if (values != NIL)
3897  {
3899  *op->resnull = false;
3900  }
3901  }
3902  break;
3903 
3904  case IS_XMLFOREST:
3905  {
3906  Datum *argvalue = op->d.xmlexpr.named_argvalue;
3907  bool *argnull = op->d.xmlexpr.named_argnull;
3909  ListCell *lc;
3910  ListCell *lc2;
3911  int i;
3912 
3913  initStringInfo(&buf);
3914 
3915  i = 0;
3916  forboth(lc, xexpr->named_args, lc2, xexpr->arg_names)
3917  {
3918  Expr *e = (Expr *) lfirst(lc);
3919  char *argname = strVal(lfirst(lc2));
3920 
3921  if (!argnull[i])
3922  {
3923  value = argvalue[i];
3924  appendStringInfo(&buf, "<%s>%s</%s>",
3925  argname,
3927  exprType((Node *) e), true),
3928  argname);
3929  *op->resnull = false;
3930  }
3931  i++;
3932  }
3933 
3934  if (!*op->resnull)
3935  {
3936  text *result;
3937 
3938  result = cstring_to_text_with_len(buf.data, buf.len);
3939  *op->resvalue = PointerGetDatum(result);
3940  }
3941 
3942  pfree(buf.data);
3943  }
3944  break;
3945 
3946  case IS_XMLELEMENT:
3947  *op->resvalue = PointerGetDatum(xmlelement(xexpr,
3948  op->d.xmlexpr.named_argvalue,
3949  op->d.xmlexpr.named_argnull,
3950  op->d.xmlexpr.argvalue,
3951  op->d.xmlexpr.argnull));
3952  *op->resnull = false;
3953  break;
3954 
3955  case IS_XMLPARSE:
3956  {
3957  Datum *argvalue = op->d.xmlexpr.argvalue;
3958  bool *argnull = op->d.xmlexpr.argnull;
3959  text *data;
3960  bool preserve_whitespace;
3961 
3962  /* arguments are known to be text, bool */
3963  Assert(list_length(xexpr->args) == 2);
3964 
3965  if (argnull[0])
3966  return;
3967  value = argvalue[0];
3969 
3970  if (argnull[1]) /* probably can't happen */
3971  return;
3972  value = argvalue[1];
3973  preserve_whitespace = DatumGetBool(value);
3974 
3976  xexpr->xmloption,
3977  preserve_whitespace));
3978  *op->resnull = false;
3979  }
3980  break;
3981 
3982  case IS_XMLPI:
3983  {
3984  text *arg;
3985  bool isnull;
3986 
3987  /* optional argument is known to be text */
3988  Assert(list_length(xexpr->args) <= 1);
3989 
3990  if (xexpr->args)
3991  {
3992  isnull = op->d.xmlexpr.argnull[0];
3993  if (isnull)
3994  arg = NULL;
3995  else
3996  arg = DatumGetTextPP(op->d.xmlexpr.argvalue[0]);
3997  }
3998  else
3999  {
4000  arg = NULL;
4001  isnull = false;
4002  }
4003 
4004  *op->resvalue = PointerGetDatum(xmlpi(xexpr->name,
4005  arg,
4006  isnull,
4007  op->resnull));
4008  }
4009  break;
4010 
4011  case IS_XMLROOT:
4012  {
4013  Datum *argvalue = op->d.xmlexpr.argvalue;
4014  bool *argnull = op->d.xmlexpr.argnull;
4015  xmltype *data;
4016  text *version;
4017  int standalone;
4018 
4019  /* arguments are known to be xml, text, int */
4020  Assert(list_length(xexpr->args) == 3);
4021 
4022  if (argnull[0])
4023  return;
4024  data = DatumGetXmlP(argvalue[0]);
4025 
4026  if (argnull[1])
4027  version = NULL;
4028  else
4029  version = DatumGetTextPP(argvalue[1]);
4030 
4031  Assert(!argnull[2]); /* always present */
4032  standalone = DatumGetInt32(argvalue[2]);
4033 
4035  version,
4036  standalone));
4037  *op->resnull = false;
4038  }
4039  break;
4040 
4041  case IS_XMLSERIALIZE:
4042  {
4043  Datum *argvalue = op->d.xmlexpr.argvalue;
4044  bool *argnull = op->d.xmlexpr.argnull;
4045 
4046  /* argument type is known to be xml */
4047  Assert(list_length(xexpr->args) == 1);
4048 
4049  if (argnull[0])
4050  return;
4051  value = argvalue[0];
4052 
4053  *op->resvalue =
4055  xexpr->xmloption,
4056  xexpr->indent));
4057  *op->resnull = false;
4058  }
4059  break;
4060 
4061  case IS_DOCUMENT:
4062  {
4063  Datum *argvalue = op->d.xmlexpr.argvalue;
4064  bool *argnull = op->d.xmlexpr.argnull;
4065 
4066  /* optional argument is known to be xml */
4067  Assert(list_length(xexpr->args) == 1);
4068 
4069  if (argnull[0])
4070  return;
4071  value = argvalue[0];
4072 
4073  *op->resvalue =
4075  *op->resnull = false;
4076  }
4077  break;
4078 
4079  default:
4080  elog(ERROR, "unrecognized XML operation");
4081  break;
4082  }
4083 }
#define DatumGetTextPP(X)
Definition: fmgr.h:292
List * lappend(List *list, void *datum)
Definition: list.c:339
void * arg
const void * data
#define lfirst(lc)
Definition: pg_list.h:172
static int list_length(const List *l)
Definition: pg_list.h:152
#define NIL
Definition: pg_list.h:68
#define forboth(cell1, list1, cell2, list2)
Definition: pg_list.h:518
static char * buf
Definition: pg_test_fsync.c:73
e
Definition: preproc-init.c:82
@ IS_DOCUMENT
Definition: primnodes.h:1587
@ IS_XMLFOREST
Definition: primnodes.h:1582
@ IS_XMLCONCAT
Definition: primnodes.h:1580
@ IS_XMLPI
Definition: primnodes.h:1584
@ IS_XMLPARSE
Definition: primnodes.h:1583
@ IS_XMLSERIALIZE
Definition: primnodes.h:1586
@ IS_XMLROOT
Definition: primnodes.h:1585
@ IS_XMLELEMENT
Definition: primnodes.h:1581
void appendStringInfo(StringInfo str, const char *fmt,...)
Definition: stringinfo.c:97
void initStringInfo(StringInfo str)
Definition: stringinfo.c:59
struct ExprEvalStep::@54::@87 xmlexpr
Definition: pg_list.h:54
List * args
Definition: primnodes.h:1608
bool indent
Definition: primnodes.h:1612
List * named_args
Definition: primnodes.h:1604
XmlExprOp op
Definition: primnodes.h:1600
#define strVal(v)
Definition: value.h:82
xmltype * xmlconcat(List *args)
Definition: xml.c:553
text * xmltotext_with_options(xmltype *data, XmlOptionType xmloption_arg, bool indent)
Definition: xml.c:656
xmltype * xmlparse(text *data, XmlOptionType xmloption_arg, bool preserve_whitespace)
Definition: xml.c:960
bool xml_is_document(xmltype *arg)
Definition: xml.c:1096
xmltype * xmlpi(const char *target, text *arg, bool arg_is_null, bool *result_is_null)
Definition: xml.c:978
char * map_sql_value_to_xml_value(Datum value, Oid type, bool xml_escape_strings)
Definition: xml.c:2413
xmltype * xmlelement(XmlExpr *xexpr, Datum *named_argvalue, bool *named_argnull, Datum *argvalue, bool *argnull)
Definition: xml.c:836
xmltype * xmlroot(xmltype *data, text *version, int standalone)
Definition: xml.c:1030
static xmltype * DatumGetXmlP(Datum X)
Definition: xml.h:51

References appendStringInfo(), arg, ExprEvalStep::argnull, XmlExpr::args, ExprEvalStep::argvalue, Assert, BoolGetDatum(), buf, cstring_to_text_with_len(), data, DatumGetBool(), DatumGetInt32(), DatumGetPointer(), DatumGetTextPP, DatumGetXmlP(), elog, ERROR, exprType(), forboth, i, XmlExpr::indent, initStringInfo(), IS_DOCUMENT, IS_XMLCONCAT, IS_XMLELEMENT, IS_XMLFOREST, IS_XMLPARSE, IS_XMLPI, IS_XMLROOT, IS_XMLSERIALIZE, ExprEvalStep::isnull, lappend(), lfirst, list_length(), map_sql_value_to_xml_value(), XmlExpr::named_args, NIL, ExprEvalStep::op, XmlExpr::op, pfree(), PointerGetDatum(), strVal, value, values, ExprEvalStep::xexpr, xml_is_document(), xmlconcat(), xmlelement(), xmlparse(), xmlpi(), xmlroot(), and xmltotext_with_options().

Referenced by ExecInterpExpr().

◆ ExecInterpExprStillValid()

Datum ExecInterpExprStillValid ( ExprState state,
ExprContext econtext,
bool isNull 
)

Definition at line 1903 of file execExprInterp.c.

1904 {
1905  /*
1906  * First time through, check whether attribute matches Var. Might not be
1907  * ok anymore, due to schema changes.
1908  */
1909  CheckExprStillValid(state, econtext);
1910 
1911  /* skip the check during further executions */
1912  state->evalfunc = (ExprStateEvalFunc) state->evalfunc_private;
1913 
1914  /* and actually execute */
1915  return state->evalfunc(state, econtext, isNull);
1916 }
void CheckExprStillValid(ExprState *state, ExprContext *econtext)
Datum(* ExprStateEvalFunc)(struct ExprState *expression, struct ExprContext *econtext, bool *isNull)
Definition: execnodes.h:70

References CheckExprStillValid().

Referenced by ExecReadyInterpretedExpr().

◆ ExecReadyInterpretedExpr()

void ExecReadyInterpretedExpr ( ExprState state)

Definition at line 236 of file execExprInterp.c.

237 {
238  /* Ensure one-time interpreter setup has been done */
240 
241  /* Simple validity checks on expression */
242  Assert(state->steps_len >= 1);
243  Assert(state->steps[state->steps_len - 1].opcode == EEOP_DONE);
244 
245  /*
246  * Don't perform redundant initialization. This is unreachable in current
247  * cases, but might be hit if there's additional expression evaluation
248  * methods that rely on interpreted execution to work.
249  */
251  return;
252 
253  /*
254  * First time through, check whether attribute matches Var. Might not be
255  * ok anymore, due to schema changes. We do that by setting up a callback
256  * that does checking on the first call, which then sets the evalfunc
257  * callback to the actual method of execution.
258  */
259  state->evalfunc = ExecInterpExprStillValid;
260 
261  /* DIRECT_THREADED should not already be set */
262  Assert((state->flags & EEO_FLAG_DIRECT_THREADED) == 0);
263 
264  /*
265  * There shouldn't be any errors before the expression is fully
266  * initialized, and even if so, it'd lead to the expression being
267  * abandoned. So we can set the flag now and save some code.
268  */
270 
271  /*
272  * Select fast-path evalfuncs for very simple expressions. "Starting up"
273  * the full interpreter is a measurable overhead for these, and these
274  * patterns occur often enough to be worth optimizing.
275  */
276  if (state->steps_len == 3)
277  {
278  ExprEvalOp step0 = state->steps[0].opcode;
279  ExprEvalOp step1 = state->steps[1].opcode;
280 
281  if (step0 == EEOP_INNER_FETCHSOME &&
282  step1 == EEOP_INNER_VAR)
283  {
284  state->evalfunc_private = (void *) ExecJustInnerVar;
285  return;
286  }
287  else if (step0 == EEOP_OUTER_FETCHSOME &&
288  step1 == EEOP_OUTER_VAR)
289  {
290  state->evalfunc_private = (void *) ExecJustOuterVar;
291  return;
292  }
293  else if (step0 == EEOP_SCAN_FETCHSOME &&
294  step1 == EEOP_SCAN_VAR)
295  {
296  state->evalfunc_private = (void *) ExecJustScanVar;
297  return;
298  }
299  else if (step0 == EEOP_INNER_FETCHSOME &&
300  step1 == EEOP_ASSIGN_INNER_VAR)
301  {
302  state->evalfunc_private = (void *) ExecJustAssignInnerVar;
303  return;
304  }
305  else if (step0 == EEOP_OUTER_FETCHSOME &&
306  step1 == EEOP_ASSIGN_OUTER_VAR)
307  {
308  state->evalfunc_private = (void *) ExecJustAssignOuterVar;
309  return;
310  }
311  else if (step0 == EEOP_SCAN_FETCHSOME &&
312  step1 == EEOP_ASSIGN_SCAN_VAR)
313  {
314  state->evalfunc_private = (void *) ExecJustAssignScanVar;
315  return;
316  }
317  else if (step0 == EEOP_CASE_TESTVAL &&
318  step1 == EEOP_FUNCEXPR_STRICT &&
319  state->steps[0].d.casetest.value)
320  {
321  state->evalfunc_private = (void *) ExecJustApplyFuncToCase;
322  return;
323  }
324  }
325  else if (state->steps_len == 2)
326  {
327  ExprEvalOp step0 = state->steps[0].opcode;
328 
329  if (step0 == EEOP_CONST)
330  {
331  state->evalfunc_private = (void *) ExecJustConst;
332  return;
333  }
334  else if (step0 == EEOP_INNER_VAR)
335  {
336  state->evalfunc_private = (void *) ExecJustInnerVarVirt;
337  return;
338  }
339  else if (step0 == EEOP_OUTER_VAR)
340  {
341  state->evalfunc_private = (void *) ExecJustOuterVarVirt;
342  return;
343  }
344  else if (step0 == EEOP_SCAN_VAR)
345  {
346  state->evalfunc_private = (void *) ExecJustScanVarVirt;
347  return;
348  }
349  else if (step0 == EEOP_ASSIGN_INNER_VAR)
350  {
351  state->evalfunc_private = (void *) ExecJustAssignInnerVarVirt;
352  return;
353  }
354  else if (step0 == EEOP_ASSIGN_OUTER_VAR)
355  {
356  state->evalfunc_private = (void *) ExecJustAssignOuterVarVirt;
357  return;
358  }
359  else if (step0 == EEOP_ASSIGN_SCAN_VAR)
360  {
361  state->evalfunc_private = (void *) ExecJustAssignScanVarVirt;
362  return;
363  }
364  }
365 
366 #if defined(EEO_USE_COMPUTED_GOTO)
367 
368  /*
369  * In the direct-threaded implementation, replace each opcode with the
370  * address to jump to. (Use ExecEvalStepOp() to get back the opcode.)
371  */
372  for (int off = 0; off < state->steps_len; off++)
373  {
374  ExprEvalStep *op = &state->steps[off];
375 
376  op->opcode = EEO_OPCODE(op->opcode);
377  }
378 
380 #endif /* EEO_USE_COMPUTED_GOTO */
381 
382  state->evalfunc_private = (void *) ExecInterpExpr;
383 }
static Datum ExecJustAssignInnerVarVirt(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustScanVarVirt(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustApplyFuncToCase(ExprState *state, ExprContext *econtext, bool *isnull)
Datum ExecInterpExprStillValid(ExprState *state, ExprContext *econtext, bool *isNull)
static Datum ExecJustAssignScanVar(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustInnerVarVirt(ExprState *state, ExprContext *econtext, bool *isnull)
static void ExecInitInterpreter(void)
static Datum ExecJustConst(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustOuterVar(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustInnerVar(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustAssignInnerVar(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustAssignScanVarVirt(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustAssignOuterVar(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustAssignOuterVarVirt(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustOuterVarVirt(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecJustScanVar(ExprState *state, ExprContext *econtext, bool *isnull)
static Datum ExecInterpExpr(ExprState *state, ExprContext *econtext, bool *isnull)
#define EEO_OPCODE(opcode)
#define EEO_FLAG_INTERPRETER_INITIALIZED
Definition: execExpr.h:29

References Assert, EEO_FLAG_DIRECT_THREADED, EEO_FLAG_INTERPRETER_INITIALIZED, EEO_OPCODE, EEOP_ASSIGN_INNER_VAR, EEOP_ASSIGN_OUTER_VAR, EEOP_ASSIGN_SCAN_VAR, EEOP_CASE_TESTVAL, EEOP_CONST, EEOP_DONE, EEOP_FUNCEXPR_STRICT, EEOP_INNER_FETCHSOME, EEOP_INNER_VAR, EEOP_OUTER_FETCHSOME, EEOP_OUTER_VAR, EEOP_SCAN_FETCHSOME, EEOP_SCAN_VAR, ExecInitInterpreter(), ExecInterpExpr(), ExecInterpExprStillValid(), ExecJustApplyFuncToCase(), ExecJustAssignInnerVar(), ExecJustAssignInnerVarVirt(), ExecJustAssignOuterVar(), ExecJustAssignOuterVarVirt(), ExecJustAssignScanVar(), ExecJustAssignScanVarVirt(), ExecJustConst(), ExecJustInnerVar(), ExecJustInnerVarVirt(), ExecJustOuterVar(), ExecJustOuterVarVirt(), ExecJustScanVar(), ExecJustScanVarVirt(), and ExprEvalStep::op.

Referenced by ExecReadyExpr().

◆ ExprEvalPushStep()

void ExprEvalPushStep ( ExprState es,
const ExprEvalStep s 
)

Definition at line 2591 of file execExpr.c.

2592 {
2593  if (es->steps_alloc == 0)
2594  {
2595  es->steps_alloc = 16;
2596  es->steps = palloc(sizeof(ExprEvalStep) * es->steps_alloc);
2597  }
2598  else if (es->steps_alloc == es->steps_len)
2599  {
2600  es->steps_alloc *= 2;
2601  es->steps = repalloc(es->steps,
2602  sizeof(ExprEvalStep) * es->steps_alloc);
2603  }
2604 
2605  memcpy(&es->steps[es->steps_len++], s, sizeof(ExprEvalStep));
2606 }
void * repalloc(void *pointer, Size size)
Definition: mcxt.c:1540
struct ExprEvalStep * steps
Definition: execnodes.h:102
int steps_alloc
Definition: execnodes.h:122
int steps_len
Definition: execnodes.h:121

References palloc(), repalloc(), ExprState::steps, ExprState::steps_alloc, and ExprState::steps_len.

Referenced by ExecBuildAggTrans(), ExecBuildAggTransCall(), ExecBuildGroupingEqual(), ExecBuildParamSetEqual(), ExecBuildProjectionInfo(), ExecBuildUpdateProjection(), ExecInitCoerceToDomain(), ExecInitExpr(), ExecInitExprRec(), ExecInitExprWithParams(), ExecInitJsonCoercion(), ExecInitJsonExpr(), ExecInitQual(), ExecInitSubscriptingRef(), ExecPushExprSetupSteps(), and plpgsql_param_compile().

◆ StaticAssertDecl()

StaticAssertDecl ( sizeof(ExprEvalStep)<=  64,
"size of ExprEvalStep exceeds 64 bytes"   
)