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PostgreSQL如何构建表达式解析

发布时间:2021-11-09 09:26:11 来源:亿速云 阅读:405 作者:小新 栏目:关系型数据库

这篇文章主要介绍PostgreSQL如何构建表达式解析,文中介绍的非常详细,具有一定的参考价值,感兴趣的小伙伴们一定要看完!

一、数据结构

EEO_XXX宏定义
opcode分发器宏定义

/*
 * Macros for opcode dispatch.
 * opcode分发器宏定义
 *
 * EEO_SWITCH - just hides the switch if not in use.
 * EEO_SWITCH - 如未使用,则隐藏switch
 * 
 * EEO_CASE - labels the implementation of named expression step type.
 * EEO_CASE - 标签化已命名的表达式步骤类型的实现
 * 
 * EEO_DISPATCH - jump to the implementation of the step type for 'op'.
 * EEO_DISPATCH - 跳到'op'指定的步骤类型的实现
 * 
 * EEO_OPCODE - compute opcode required by used expression evaluation method.
 *            - 通过请求的表达式解析方法计算opcode
 * 
 * EEO_NEXT - increment 'op' and jump to correct next step type.
 *          - 'op'++并跳转到下一个步骤类型
 *
 * EEO_JUMP - jump to the specified step number within the current expression.
 * EEO_JUMP - 在当前表达式中跳转到指定的步骤编号
 */
#if defined(EEO_USE_COMPUTED_GOTO)
//--------------- 定义了EEO_USE_COMPUTED_GOTO
/* struct for jump target -> opcode lookup table */
//跳转target -> opcode搜索表结构体
typedef struct ExprEvalOpLookup
{
    const void *opcode;
    ExprEvalOp  op;
} ExprEvalOpLookup;
/* to make dispatch_table accessible outside ExecInterpExpr() */
static const void **dispatch_table = NULL;
/* jump target -> opcode lookup table */
static ExprEvalOpLookup reverse_dispatch_table[EEOP_LAST];
#define EEO_SWITCH()
#define EEO_CASE(name)      CASE_##name:
#define EEO_DISPATCH()      goto *((void *) op->opcode)
#define EEO_OPCODE(opcode)  ((intptr_t) dispatch_table[opcode])
#else                           /* !EEO_USE_COMPUTED_GOTO */
//--------------- 没有定义EEO_USE_COMPUTED_GOTO
#define EEO_SWITCH()        starteval: switch ((ExprEvalOp) op->opcode)
#define EEO_CASE(name)      case name:
#define EEO_DISPATCH()      goto starteval
#define EEO_OPCODE(opcode)  (opcode)
#endif                          /* EEO_USE_COMPUTED_GOTO */
#define EEO_NEXT() \
    do { \
        op++; \
        EEO_DISPATCH(); \
    } while (0)
#define EEO_JUMP(stepno) \
    do { \
        op = &state->steps[stepno]; \
        EEO_DISPATCH(); \
    } while (0)

ExprState
解析表达式中运行期状态节点

/* Bits in ExprState->flags (see also execExpr.h for private flag bits): */
/* expression is for use with ExecQual() */
#define EEO_FLAG_IS_QUAL                    (1 << 0)
typedef struct ExprState
{
    //节点tag
    Node        tag;
    //EEO_FLAG_IS_QUAL
    uint8       flags;          /* bitmask of EEO_FLAG_* bits, see above */
    /*
     * Storage for result value of a scalar expression, or for individual
     * column results within expressions built by ExecBuildProjectionInfo().
     * 存储scalar expression表达式
     *   和通过ExecBuildProjectionInfo()函数创建的expressions单列的结果.
     */
#define FIELDNO_EXPRSTATE_RESNULL 2
    bool        resnull;
#define FIELDNO_EXPRSTATE_RESVALUE 3
    Datum       resvalue;
    /*
     * If projecting a tuple result, this slot holds the result; else NULL.
     * 如果投影元组结果,该slot存储结果,或者为NULL.
     */
#define FIELDNO_EXPRSTATE_RESULTSLOT 4
    TupleTableSlot *resultslot;
    /*
     * Instructions to compute expression's return value.
     * 计算表达式返回结果的基础"架构"
     */
    struct ExprEvalStep *steps;
    /*
     * Function that actually evaluates the expression.  This can be set to
     * different values depending on the complexity of the expression.
     * 实际解析表达式的函数.
     * 根据表达式的复杂程度,可以设置为不同的值.
     */
    ExprStateEvalFunc evalfunc;
    /* original expression tree, for debugging only */
    //原始的表达式树,仅用于debugging
    Expr       *expr;
    /* private state for an evalfunc */
    //evalfunc的私有状态
    void       *evalfunc_private;
    /*
     * XXX: following fields only needed during "compilation" (ExecInitExpr);
     * could be thrown away afterwards.
     * XXX: 接下来的字段在"compilation" (ExecInitExpr)期间需要,之后可被"扔掉".
     */
    //当前的步数
    int         steps_len;      /* number of steps currently */
    //steps数组已分配的长度
    int         steps_alloc;    /* allocated length of steps array */
    //父PlanState节点(如存在)
    struct PlanState *parent;   /* parent PlanState node, if any */
    //用于编译PARAM_EXTERN节点
    ParamListInfo ext_params;   /* for compiling PARAM_EXTERN nodes */
    //
    Datum      *innermost_caseval;
    bool       *innermost_casenull;
    Datum      *innermost_domainval;
    bool       *innermost_domainnull;
} ExprState;

ExprEvalStep
表达式解析步骤结构体

typedef struct ExprEvalStep
{
    /*
     * Instruction to be executed.  During instruction preparation this is an
     * enum ExprEvalOp, but later it can be changed to some other type, e.g. a
     * pointer for computed goto (that's why it's an intptr_t).
     * 待执行指令.
     * 在指令准备期间这是枚举型的ExprEvalOp,
     *   但后续会被改变为某些其他类型,比如用于goto的指针,因此被定义为intprt_t类型
     */
    intptr_t    opcode;
    /* where to store the result of this step */
    //存储该步骤的结果
    Datum      *resvalue;
    bool       *resnull;
    /*
     * Inline data for the operation.  Inline data is faster to access, but
     * also bloats the size of all instructions.  The union should be kept to
     * no more than 40 bytes on 64-bit systems (so that the entire struct is
     * no more than 64 bytes, a single cacheline on common systems).
     * 操作的内联数据.
     * 内联数据用于更快的访问,但同时会导致指令的盘膨胀.
     * 联合体在64-bit系统上应保持在40字节范围内
     * (因此整个结构体不应大于64字节,普通系统上的单个缓存线大小)
     */
    union
    {
        /* for EEOP_INNER/OUTER/SCAN_FETCHSOME */
        //用于EEOP_INNER/OUTER/SCAN_FETCHSOME
        struct
        {
            /* attribute number up to which to fetch (inclusive) */
            //获取到的属性编号
            int         last_var;
            TupleDesc   known_desc;
        }           fetch;
        /* for EEOP_INNER/OUTER/SCAN_[SYS]VAR[_FIRST] */
        struct
        {
            /* attnum is attr number - 1 for regular VAR ... */
            //attnum是常规VAR的attr number - 1
            /* but it's just the normal (negative) attr number for SYSVAR */
            //对于SYSVAR,该值是常规的attr number
            int         attnum;
            Oid         vartype;    /* type OID of variable */
        }           var;
        /* for EEOP_WHOLEROW */
        struct
        {
            Var        *var;    /* original Var node in plan tree */
            bool        first;  /* first time through, need to initialize? */
            bool        slow;   /* need runtime check for nulls? */
            TupleDesc   tupdesc;    /* descriptor for resulting tuples */
            JunkFilter *junkFilter; /* JunkFilter to remove resjunk cols */
        }           wholerow;
        /* for EEOP_ASSIGN_*_VAR */
        struct
        {
            /* target index in ExprState->resultslot->tts_values/nulls */
            int         resultnum;
            /* source attribute number - 1 */
            int         attnum;
        }           assign_var;
        /* for EEOP_ASSIGN_TMP[_MAKE_RO] */
        struct
        {
            /* target index in ExprState->resultslot->tts_values/nulls */
            int         resultnum;
        }           assign_tmp;
        /* for EEOP_CONST */
        struct
        {
            /* constant's value */
            Datum       value;
            bool        isnull;
        }           constval;
        /* for EEOP_FUNCEXPR_* / NULLIF / DISTINCT */
        //对于EEOP_FUNCEXPR_* / NULLIF / DISTINCT
        struct
        {
            //函数的检索数据
            FmgrInfo   *finfo;  /* function's lookup data */
            //参数信息等
            FunctionCallInfo fcinfo_data;   /* arguments etc */
            /* faster to access without additional indirection: */
            //无需额外的指向,更快速的访问
            PGFunction  fn_addr;    /* actual call address */
            int         nargs;  /* number of arguments */
        }           func;
        /* for EEOP_BOOL_*_STEP */
        struct
        {
            bool       *anynull;    /* track if any input was NULL */
            int         jumpdone;   /* jump here if result determined */
        }           boolexpr;
        /* for EEOP_QUAL */
        struct
        {
            int         jumpdone;   /* jump here on false or null */
        }           qualexpr;
        /* for EEOP_JUMP[_CONDITION] */
        struct
        {
            int         jumpdone;   /* target instruction's index */
        }           jump;
        /* for EEOP_NULLTEST_ROWIS[NOT]NULL */
        struct
        {
            /* cached tupdesc pointer - filled at runtime */
            TupleDesc   argdesc;
        }           nulltest_row;
        /* for EEOP_PARAM_EXEC/EXTERN */
        struct
        {
            int         paramid;    /* numeric ID for parameter */
            Oid         paramtype;  /* OID of parameter's datatype */
        }           param;
        /* for EEOP_PARAM_CALLBACK */
        struct
        {
            ExecEvalSubroutine paramfunc;   /* add-on evaluation subroutine */
            void       *paramarg;   /* private data for same */
            int         paramid;    /* numeric ID for parameter */
            Oid         paramtype;  /* OID of parameter's datatype */
        }           cparam;
        /* for EEOP_CASE_TESTVAL/DOMAIN_TESTVAL */
        struct
        {
            Datum      *value;  /* value to return */
            bool       *isnull;
        }           casetest;
        /* for EEOP_MAKE_READONLY */
        struct
        {
            Datum      *value;  /* value to coerce to read-only */
            bool       *isnull;
        }           make_readonly;
        /* for EEOP_IOCOERCE */
        struct
        {
            /* lookup and call info for source type's output function */
            FmgrInfo   *finfo_out;
            FunctionCallInfo fcinfo_data_out;
            /* lookup and call info for result type's input function */
            FmgrInfo   *finfo_in;
            FunctionCallInfo fcinfo_data_in;
        }           iocoerce;
        /* for EEOP_SQLVALUEFUNCTION */
        struct
        {
            SQLValueFunction *svf;
        }           sqlvaluefunction;
        /* for EEOP_NEXTVALUEEXPR */
        //EEOP_NEXTVALUEEXPR
        struct
        {
            Oid         seqid;
            Oid         seqtypid;
        }           nextvalueexpr;
        /* for EEOP_ARRAYEXPR */
        struct
        {
            Datum      *elemvalues; /* element values get stored here */
            bool       *elemnulls;
            int         nelems; /* length of the above arrays */
            Oid         elemtype;   /* array element type */
            int16       elemlength; /* typlen of the array element type */
            bool        elembyval;  /* is the element type pass-by-value? */
            char        elemalign;  /* typalign of the element type */
            bool        multidims;  /* is array expression multi-D? */
        }           arrayexpr;
        /* for EEOP_ARRAYCOERCE */
        struct
        {
            ExprState  *elemexprstate;  /* null if no per-element work */
            Oid         resultelemtype; /* element type of result array */
            struct ArrayMapState *amstate;  /* workspace for array_map */
        }           arraycoerce;
        /* for EEOP_ROW */
        struct
        {
            TupleDesc   tupdesc;    /* descriptor for result tuples */
            /* workspace for the values constituting the row: */
            Datum      *elemvalues;
            bool       *elemnulls;
        }           row;
        /* for EEOP_ROWCOMPARE_STEP */
        struct
        {
            /* lookup and call data for column comparison function */
            FmgrInfo   *finfo;
            FunctionCallInfo fcinfo_data;
            PGFunction  fn_addr;
            /* target for comparison resulting in NULL */
            int         jumpnull;
            /* target for comparison yielding inequality */
            int         jumpdone;
        }           rowcompare_step;
        /* for EEOP_ROWCOMPARE_FINAL */
        struct
        {
            RowCompareType rctype;
        }           rowcompare_final;
        /* for EEOP_MINMAX */
        struct
        {
            /* workspace for argument values */
            Datum      *values;
            bool       *nulls;
            int         nelems;
            /* is it GREATEST or LEAST? */
            MinMaxOp    op;
            /* lookup and call data for comparison function */
            FmgrInfo   *finfo;
            FunctionCallInfo fcinfo_data;
        }           minmax;
        /* for EEOP_FIELDSELECT */
        struct
        {
            AttrNumber  fieldnum;   /* field number to extract */
            Oid         resulttype; /* field's type */
            /* cached tupdesc pointer - filled at runtime */
            TupleDesc   argdesc;
        }           fieldselect;
        /* for EEOP_FIELDSTORE_DEFORM / FIELDSTORE_FORM */
        struct
        {
            /* original expression node */
            FieldStore *fstore;
            /* cached tupdesc pointer - filled at runtime */
            /* note that a DEFORM and FORM pair share the same tupdesc */
            TupleDesc  *argdesc;
            /* workspace for column values */
            Datum      *values;
            bool       *nulls;
            int         ncolumns;
        }           fieldstore;
        /* for EEOP_ARRAYREF_SUBSCRIPT */
        struct
        {
            /* too big to have inline */
            struct ArrayRefState *state;
            int         off;    /* 0-based index of this subscript */
            bool        isupper;    /* is it upper or lower subscript? */
            int         jumpdone;   /* jump here on null */
        }           arrayref_subscript;
        /* for EEOP_ARRAYREF_OLD / ASSIGN / FETCH */
        struct
        {
            /* too big to have inline */
            struct ArrayRefState *state;
        }           arrayref;
        /* for EEOP_DOMAIN_NOTNULL / DOMAIN_CHECK */
        struct
        {
            /* name of constraint */
            char       *constraintname;
            /* where the result of a CHECK constraint will be stored */
            Datum      *checkvalue;
            bool       *checknull;
            /* OID of domain type */
            Oid         resulttype;
        }           domaincheck;
        /* for EEOP_CONVERT_ROWTYPE */
        struct
        {
            ConvertRowtypeExpr *convert;    /* original expression */
            /* these three fields are filled at runtime: */
            TupleDesc   indesc; /* tupdesc for input type */
            TupleDesc   outdesc;    /* tupdesc for output type */
            TupleConversionMap *map;    /* column mapping */
            bool        initialized;    /* initialized for current types? */
        }           convert_rowtype;
        /* for EEOP_SCALARARRAYOP */
        struct
        {
            /* element_type/typlen/typbyval/typalign are filled at runtime */
            Oid         element_type;   /* InvalidOid if not yet filled */
            bool        useOr;  /* use OR or AND semantics? */
            int16       typlen; /* array element type storage info */
            bool        typbyval;
            char        typalign;
            FmgrInfo   *finfo;  /* function's lookup data */
            FunctionCallInfo fcinfo_data;   /* arguments etc */
            /* faster to access without additional indirection: */
            PGFunction  fn_addr;    /* actual call address */
        }           scalararrayop;
        /* for EEOP_XMLEXPR */
        struct
        {
            XmlExpr    *xexpr;  /* original expression node */
            /* workspace for evaluating named args, if any */
            Datum      *named_argvalue;
            bool       *named_argnull;
            /* workspace for evaluating unnamed args, if any */
            Datum      *argvalue;
            bool       *argnull;
        }           xmlexpr;
        /* for EEOP_AGGREF */
        struct
        {
            /* out-of-line state, modified by nodeAgg.c */
            AggrefExprState *astate;
        }           aggref;
        /* for EEOP_GROUPING_FUNC */
        struct
        {
            AggState   *parent; /* parent Agg */
            List       *clauses;    /* integer list of column numbers */
        }           grouping_func;
        /* for EEOP_WINDOW_FUNC */
        struct
        {
            /* out-of-line state, modified by nodeWindowFunc.c */
            WindowFuncExprState *wfstate;
        }           window_func;
        /* for EEOP_SUBPLAN */
        struct
        {
            /* out-of-line state, created by nodeSubplan.c */
            SubPlanState *sstate;
        }           subplan;
        /* for EEOP_ALTERNATIVE_SUBPLAN */
        struct
        {
            /* out-of-line state, created by nodeSubplan.c */
            AlternativeSubPlanState *asstate;
        }           alternative_subplan;
        /* for EEOP_AGG_*DESERIALIZE */
        struct
        {
            AggState   *aggstate;
            FunctionCallInfo fcinfo_data;
            int         jumpnull;
        }           agg_deserialize;
        /* for EEOP_AGG_STRICT_INPUT_CHECK */
        struct
        {
            bool       *nulls;
            int         nargs;
            int         jumpnull;
        }           agg_strict_input_check;
        /* for EEOP_AGG_INIT_TRANS */
        struct
        {
            AggState   *aggstate;
            AggStatePerTrans pertrans;
            ExprContext *aggcontext;
            int         setno;
            int         transno;
            int         setoff;
            int         jumpnull;
        }           agg_init_trans;
        /* for EEOP_AGG_STRICT_TRANS_CHECK */
        struct
        {
            AggState   *aggstate;
            int         setno;
            int         transno;
            int         setoff;
            int         jumpnull;
        }           agg_strict_trans_check;
        /* for EEOP_AGG_{PLAIN,ORDERED}_TRANS* */
        struct
        {
            AggState   *aggstate;
            AggStatePerTrans pertrans;
            ExprContext *aggcontext;
            int         setno;
            int         transno;
            int         setoff;
        }           agg_trans;
    }           d;
} ExprEvalStep;

ExprEvalOp
ExprEvalSteps的鉴频器,定义哪个操作将被执行并且联合体ExprEvalStep->d中的哪个struct将被使用.

/*
 * Discriminator for ExprEvalSteps.
 * ExprEvalSteps的鉴频器
 *
 * Identifies the operation to be executed and which member in the
 * ExprEvalStep->d union is valid.
 * 定义哪个操作将被执行并且联合体ExprEvalStep->d中的哪个struct将被使用.
 *
 * The order of entries needs to be kept in sync with the dispatch_table[]
 * array in execExprInterp.c:ExecInterpExpr().
 * 条目的排序需要与execExprInterp.c:ExecInterpExpr()中dispatch_table[]数组的元素保持一致
 */
typedef enum ExprEvalOp
{
    /* entire expression has been evaluated completely, return */
    //整个表达式已被解析,返回
    EEOP_DONE,
    /* apply slot_getsomeattrs on corresponding tuple slot */
    //在相应的元组slot上应用了slot_getsomeattrs方法
    EEOP_INNER_FETCHSOME,
    EEOP_OUTER_FETCHSOME,
    EEOP_SCAN_FETCHSOME,
    /* compute non-system Var value */
    //计算非系统Var变量值
    EEOP_INNER_VAR,
    EEOP_OUTER_VAR,
    EEOP_SCAN_VAR,
    /* compute system Var value */
    //计算系统Var变量值
    EEOP_INNER_SYSVAR,
    EEOP_OUTER_SYSVAR,
    EEOP_SCAN_SYSVAR,
    /* compute wholerow Var */
    //计算整行Var
    EEOP_WHOLEROW,
    /*
     * Compute non-system Var value, assign it into ExprState's resultslot.
     * These are not used if a CheckVarSlotCompatibility() check would be
     * needed.
     * 计算非系统Var值,分配到ExprState's的resultslot字段中.
     * 如果CheckVarSlotCompatibility()需要时,这些都不需要.
     */
    EEOP_ASSIGN_INNER_VAR,
    EEOP_ASSIGN_OUTER_VAR,
    EEOP_ASSIGN_SCAN_VAR,
    /* assign ExprState's resvalue/resnull to a column of its resultslot */
    //分配ExprState's resvalue/resnull到该列的resultslot中
    EEOP_ASSIGN_TMP,
    /* ditto, applying MakeExpandedObjectReadOnly() */
    //同上,应用MakeExpandedObjectReadOnly()
    EEOP_ASSIGN_TMP_MAKE_RO,
    /* evaluate Const value */
    //解析常量值
    EEOP_CONST,
    /*
     * Evaluate function call (including OpExprs etc).  For speed, we
     * distinguish in the opcode whether the function is strict and/or
     * requires usage stats tracking.
     * 解析函数调用(包括OpExprs等等).
     * 出于性能的考虑,需要区分opcode是strict函数还是非strict函数,以及是否需要统计跟踪.
     */
    EEOP_FUNCEXPR,
    EEOP_FUNCEXPR_STRICT,
    EEOP_FUNCEXPR_FUSAGE,
    EEOP_FUNCEXPR_STRICT_FUSAGE,
    /*
     * Evaluate boolean AND expression, one step per subexpression. FIRST/LAST
     * subexpressions are special-cased for performance.  Since AND always has
     * at least two subexpressions, FIRST and LAST never apply to the same
     * subexpression.
     * 解析布尔AND表达式,每一个子表达式一个步骤.
     * FIRST/LAST子表达式是性能上的特例.
     * 由于AND通常至少有两个子表达式,FIRST和LAST永远都不会应用在同一个子表达式上.
     */
    EEOP_BOOL_AND_STEP_FIRST,
    EEOP_BOOL_AND_STEP,
    EEOP_BOOL_AND_STEP_LAST,
    /* similarly for boolean OR expression */
    //与布尔OR表达式类似
    EEOP_BOOL_OR_STEP_FIRST,
    EEOP_BOOL_OR_STEP,
    EEOP_BOOL_OR_STEP_LAST,
    /* evaluate boolean NOT expression */
    //解析布尔NOT表达式
    EEOP_BOOL_NOT_STEP,
    /* simplified version of BOOL_AND_STEP for use by ExecQual() */
    //用于ExecQual()中的BOOL_AND_STEP简化版本
    EEOP_QUAL,
    /* unconditional jump to another step */
    //无条件跳转到另外一个步骤
    EEOP_JUMP,
    /* conditional jumps based on current result value */
    //基于当前结果值的条件跳转
    EEOP_JUMP_IF_NULL,
    EEOP_JUMP_IF_NOT_NULL,
    EEOP_JUMP_IF_NOT_TRUE,
    /* perform NULL tests for scalar values */
    //为scalar值执行NULL测试
    EEOP_NULLTEST_ISNULL,
    EEOP_NULLTEST_ISNOTNULL,
    /* perform NULL tests for row values */
    //为行值执行NULL测试
    EEOP_NULLTEST_ROWISNULL,
    EEOP_NULLTEST_ROWISNOTNULL,
    /* evaluate a BooleanTest expression */
    //解析BooleanTest表达式
    EEOP_BOOLTEST_IS_TRUE,
    EEOP_BOOLTEST_IS_NOT_TRUE,
    EEOP_BOOLTEST_IS_FALSE,
    EEOP_BOOLTEST_IS_NOT_FALSE,
    /* evaluate PARAM_EXEC/EXTERN parameters */
    //解析PARAM_EXEC/EXTERN参数
    EEOP_PARAM_EXEC,
    EEOP_PARAM_EXTERN,
    EEOP_PARAM_CALLBACK,
    /* return CaseTestExpr value */
    //返回CaseTestExpr值
    EEOP_CASE_TESTVAL,
    /* apply MakeExpandedObjectReadOnly() to target value */
    //对目标值应用MakeExpandedObjectReadOnly()
    EEOP_MAKE_READONLY,
    /* evaluate assorted special-purpose expression types */
    //解析各种特殊用途的表达式类型
    EEOP_IOCOERCE,
    EEOP_DISTINCT,
    EEOP_NOT_DISTINCT,
    EEOP_NULLIF,
    EEOP_SQLVALUEFUNCTION,
    EEOP_CURRENTOFEXPR,
    EEOP_NEXTVALUEEXPR,
    EEOP_ARRAYEXPR,
    EEOP_ARRAYCOERCE,
    EEOP_ROW,
    /*
     * Compare two individual elements of each of two compared ROW()
     * expressions.  Skip to ROWCOMPARE_FINAL if elements are not equal.
     * 给出两个需要对比的ROW()表达式,两两比较行中的元素.
     * 如果元素不相等,则跳转到ROWCOMPARE_FINAL
     */
    EEOP_ROWCOMPARE_STEP,
    /* evaluate boolean value based on previous ROWCOMPARE_STEP operations */
    //基于上一步的ROWCOMPARE_STEP操作解析布尔值
    EEOP_ROWCOMPARE_FINAL,
    /* evaluate GREATEST() or LEAST() */
    //解析GREATEST()和LEAST()
    EEOP_MINMAX,
    /* evaluate FieldSelect expression */
    //解析FieldSelect表达式
    EEOP_FIELDSELECT,
    /*
     * Deform tuple before evaluating new values for individual fields in a
     * FieldStore expression.
     * 在解析FieldStore表达式中的独立列新值前重构元组
     */
    EEOP_FIELDSTORE_DEFORM,
    /*
     * Form the new tuple for a FieldStore expression.  Individual fields will
     * have been evaluated into columns of the tuple deformed by the preceding
     * DEFORM step.
     * 为FieldStore表达式构成新元组.
     * 单独的字段会解析到元组的列中(行已被上一个步骤EEOP_FIELDSTORE_DEFORM析构)
     */
    EEOP_FIELDSTORE_FORM,
    /* Process an array subscript; short-circuit expression to NULL if NULL */
    //处理数组子脚本.如为NULL则短路表达式为NULL
    EEOP_ARRAYREF_SUBSCRIPT,
    /*
     * Compute old array element/slice when an ArrayRef assignment expression
     * contains ArrayRef/FieldStore subexpressions.  Value is accessed using
     * the CaseTest mechanism.
     * 在ArrayRef分配表达式包含ArrayRef/FieldStore子表达式时计算旧的数组元素/片.
     * 通过CaseTest机制访问Value
     */
    EEOP_ARRAYREF_OLD,
    /* compute new value for ArrayRef assignment expression */
    //为ArrayRef分配118
    EEOP_ARRAYREF_ASSIGN,
    /* compute element/slice for ArrayRef fetch expression */
    //为ArrayRef提取表达式计算element/slice
    EEOP_ARRAYREF_FETCH,
    /* evaluate value for CoerceToDomainValue */
    //为CoerceToDomainValue解析值
    EEOP_DOMAIN_TESTVAL,
    /* evaluate a domain's NOT NULL constraint */
    //解析域 NOT NULL 约束
    EEOP_DOMAIN_NOTNULL,
    /* evaluate a single domain CHECK constraint */
    //解析单个域CHECK约束
    EEOP_DOMAIN_CHECK,
    /* evaluate assorted special-purpose expression types */
    //解析特殊目的的表达式类型
    EEOP_CONVERT_ROWTYPE,
    EEOP_SCALARARRAYOP,
    EEOP_XMLEXPR,
    EEOP_AGGREF,
    EEOP_GROUPING_FUNC,
    EEOP_WINDOW_FUNC,
    EEOP_SUBPLAN,
    EEOP_ALTERNATIVE_SUBPLAN,
    /* aggregation related nodes */
    //聚合相关节点
    EEOP_AGG_STRICT_DESERIALIZE,
    EEOP_AGG_DESERIALIZE,
    EEOP_AGG_STRICT_INPUT_CHECK,
    EEOP_AGG_INIT_TRANS,
    EEOP_AGG_STRICT_TRANS_CHECK,
    EEOP_AGG_PLAIN_TRANS_BYVAL,
    EEOP_AGG_PLAIN_TRANS,
    EEOP_AGG_ORDERED_TRANS_DATUM,
    EEOP_AGG_ORDERED_TRANS_TUPLE,
    /* non-existent operation, used e.g. to check array lengths */
    //不存在的操作,比如用于检测数组长度
    EEOP_LAST
} ExprEvalOp;

二、源码解读

ExecInitIndexScan
初始化Index Scan运行期状态信息,调用ExecAssignScanProjectionInfo->…->ExecBuildProjectionInfo函数构建投影信息.

/* ----------------------------------------------------------------
 *      ExecInitIndexScan
 *
 *      Initializes the index scan's state information, creates
 *      scan keys, and opens the base and index relations.
 *
 *      Note: index scans have 2 sets of state information because
 *            we have to keep track of the base relation and the
 *            index relation.
 * ----------------------------------------------------------------
 */
IndexScanState *
ExecInitIndexScan(IndexScan *node, EState *estate, int eflags)
{
    ...
     /*
     * Initialize result slot, type and projection.
     * 初始化结果slot,类型和投影
     */
    ExecInitResultTupleSlotTL(estate, &indexstate->ss.ps);
    ExecAssignScanProjectionInfo(&indexstate->ss);
    ...
}

ExecBuildProjectionInfo
为给定的econtext中的tlist构建ProjectionInfo,并把结果存储在tuple slot中.(调用者必须确保元组slot与此tlist匹配)
其主要逻辑是:
1.初始化
2.如需要,插入EEOP*_FETCHSOME步骤(调用ExecInitExprSlots)
3.遍历targetList,处理targetList(目标列)中的每一个列
3.1.对于”安全”Var则只需要生成EEOP_ASSIGN*_VAR步骤
3.2对于非”安全”VAr,使用常规办法处理列表达式,调用ExecInitExprRec函数处理,并通过ExprEvalPushStep压步骤
4.压入EEOP_DONE步骤

/*
* ExecAssignScanProjectionInfo
*      Set up projection info for a scan node, if necessary.
* ExecAssignScanProjectionInfo
*      为扫描节点配置投影信息.
*
* We can avoid a projection step if the requested tlist exactly matches
* the underlying tuple type.  If so, we just set ps_ProjInfo to NULL.
* Note that this case occurs not only for simple "SELECT * FROM ...", but
* also in most cases where there are joins or other processing nodes above
* the scan node, because the planner will preferentially generate a matching
* tlist.
* 如果请求的tlist刚好与潜在的tuple类型相匹配,则可以避免投影这一步骤.
* 因此,只需要简单的把ps_ProjInfo设置为NULL即可.
* 注意这种情况不单在"SELECT * FROM ..."时会出现,
*   而且在存在连接或者其他处理节点在扫描节点的上层时也会发生,
* 因为规划器会优先生成匹配的tlist.
*
* The scan slot's descriptor must have been set already.
* 扫描slot的描述符必须已设置.
*/
void
ExecAssignScanProjectionInfo(ScanState *node)
{
   //扫描节点
   Scan       *scan = (Scan *) node->ps.plan;
   //元组描述符
   TupleDesc   tupdesc = node->ss_ScanTupleSlot->tts_tupleDescriptor;
   //执行ExecConditionalAssignProjectionInfo
   ExecConditionalAssignProjectionInfo(&node->ps, tupdesc, scan->scanrelid);
}
/* ----------------
*      ExecConditionalAssignProjectionInfo
*
* as ExecAssignProjectionInfo, but store NULL rather than building projection
* info if no projection is required
* 与ExecAssignProjectionInfo类似,但在不需要投影操作时只需要存储NULL而不是构建投影信息
* ----------------
*/
void
ExecConditionalAssignProjectionInfo(PlanState *planstate, TupleDesc inputDesc,
                                   Index varno)
{
   //正好匹配元组类型,则设计为NULL
   if (tlist_matches_tupdesc(planstate,
                             planstate->plan->targetlist,
                             varno,
                             inputDesc))
       planstate->ps_ProjInfo = NULL;
   else
       //否则执行ExecAssignProjectionInfo
       ExecAssignProjectionInfo(planstate, inputDesc);
}
/* ----------------
*      ExecAssignProjectionInfo
*
* forms the projection information from the node's targetlist
* 通过节点的targetlist构造投影信息.
*
* Notes for inputDesc are same as for ExecBuildProjectionInfo: supply it
* for a relation-scan node, can pass NULL for upper-level nodes
* 注意inputDesc与ExecBuildProjectionInfo的一样:
*   为relation-scan节点提供该描述符,可能为高层的节点传递NULL值
* ----------------
*/
void
ExecAssignProjectionInfo(PlanState *planstate,
                        TupleDesc inputDesc)
{
   //直接调用ExecBuildProjectionInfo
   planstate->ps_ProjInfo =
       ExecBuildProjectionInfo(planstate->plan->targetlist,
                               planstate->ps_ExprContext,
                               planstate->ps_ResultTupleSlot,
                               planstate,
                               inputDesc);
}
/*
*      ExecBuildProjectionInfo
*
* Build a ProjectionInfo node for evaluating the given tlist in the given
* econtext, and storing the result into the tuple slot.  (Caller must have
* ensured that tuple slot has a descriptor matching the tlist!)
* 为给定的econtext中的tlist构建ProjectionInfo,并把结果存储在tuple slot中.
* (调用者必须确保元组slot与此tlist匹配)
*
* inputDesc can be NULL, but if it is not, we check to see whether simple
* Vars in the tlist match the descriptor.  It is important to provide
* inputDesc for relation-scan plan nodes, as a cross check that the relation
* hasn't been changed since the plan was made.  At higher levels of a plan,
* there is no need to recheck.
* inputDesc可以为NULL,但如果不是,检查tlist中的简单Vars是否与描述符匹配.
* 对于relation-scan节点来说,提供inputDesc是十分重要的,
*   交叉检查在plan已生成的情况下relation没有出现变化.
* 而plan更高的层次,则不需要重新检查.
*
* This is implemented by internally building an ExprState that performs the
* whole projection in one go.
* 通过内部构造ExprState(在一轮执行中完成整个投影操作)来实现.
*
* Caution: before PG v10, the targetList was a list of ExprStates; now it
* should be the planner-created targetlist, since we do the compilation here.
* 注意:在PG v10前,targetlist是ExprState链表,现在tlist应该是planner创建的targetlist,
*   如不是则需报错.
*/
ProjectionInfo *
ExecBuildProjectionInfo(List *targetList,
                       ExprContext *econtext,
                       TupleTableSlot *slot,
                       PlanState *parent,
                       TupleDesc inputDesc)
{
   //生成ProjectionInfo节点
   ProjectionInfo *projInfo = makeNode(ProjectionInfo);
   //表达式状态节点
   ExprState  *state;
   //表达式解析步骤
   ExprEvalStep scratch = {0};
   //临时变量
   ListCell   *lc;
   //expr上下文
   projInfo->pi_exprContext = econtext;
   /* We embed ExprState into ProjectionInfo instead of doing extra palloc */
   //集成ExprState到ProjectionInfo中,而不需要另外的palloc
   projInfo->pi_state.tag.type = T_ExprState;
   state = &projInfo->pi_state;
   state->expr = (Expr *) targetList;
   state->parent = parent;
   state->ext_params = NULL;
   state->resultslot = slot;
   /* Insert EEOP_*_FETCHSOME steps as needed */
   //如需要,插入EEOP_*_FETCHSOME步骤
   ExecInitExprSlots(state, (Node *) targetList);
   /* Now compile each tlist column */
   //现在"编译"tlist中的每一个列
   foreach(lc, targetList)
   {
       TargetEntry *tle = lfirst_node(TargetEntry, lc);
       Var        *variable = NULL;
       AttrNumber  attnum = 0;
       bool        isSafeVar = false;
       /*
        * If tlist expression is a safe non-system Var, use the fast-path
        * ASSIGN_*_VAR opcodes.  "Safe" means that we don't need to apply
        * CheckVarSlotCompatibility() during plan startup.  If a source slot
        * was provided, we make the equivalent tests here; if a slot was not
        * provided, we assume that no check is needed because we're dealing
        * with a non-relation-scan-level expression.
        * 如果tlist表达式是安全的非系统Var,使用快速路径ASSIGN_*_VAR opcodes.
        * "Safe"的意思是在计划启动执行时我们不需要应用CheckVarSlotCompatibility().
        * 如果提供了源slot,假定不需要再做检查,因为我们正在处理的是非关系扫描级别的表达式.
        */
       if (tle->expr != NULL &&
           IsA(tle->expr, Var) &&
           ((Var *) tle->expr)->varattno > 0)
       {
           /* Non-system Var, but how safe is it? */
           //非系统Var,但有多安全呢?
           variable = (Var *) tle->expr;
           attnum = variable->varattno;
           if (inputDesc == NULL)
               //无法检查,假定是OK的.
               isSafeVar = true;   /* can't check, just assume OK */
           else if (attnum <= inputDesc->natts)
           {
               //---- 属性编号小于输入的属性个数
               Form_pg_attribute attr = TupleDescAttr(inputDesc, attnum - 1);
               /*
                * If user attribute is dropped or has a type mismatch, don't
                * use ASSIGN_*_VAR.  Instead let the normal expression
                * machinery handle it (which'll possibly error out).
                * 如果用户属性已被清除或者有类型不匹配,不要使用ASSIGN_*_VAR.
                * 让常规的表达式匹配处理这周情况(可能会出现错误)
                */
               if (!attr->attisdropped && variable->vartype == attr->atttypid)
               {
                   isSafeVar = true;
               }
           }
       }
       if (isSafeVar)
       {
           //--- 如为安全的Var
           /* Fast-path: just generate an EEOP_ASSIGN_*_VAR step */
           //Fast-path: 只需要生成EEOP_ASSIGN_*_VAR步骤即可
           switch (variable->varno)
           {
               case INNER_VAR:
                   /* get the tuple from the inner node */
                   //内关系VAR,从inner节点获取元组
                   scratch.opcode = EEOP_ASSIGN_INNER_VAR;
                   break;
               case OUTER_VAR:
                   /* get the tuple from the outer node */
                   //从外关系获取元组
                   scratch.opcode = EEOP_ASSIGN_OUTER_VAR;
                   break;
                   /* INDEX_VAR is handled by default case */
                   //默认: INDEX_VAR
               default:
                   /* get the tuple from the relation being scanned */
                   //从正在扫描的关系中获取元组
                   scratch.opcode = EEOP_ASSIGN_SCAN_VAR;
                   break;
           }
           //EEOP_ASSIGN_*_VAR
           scratch.d.assign_var.attnum = attnum - 1;
           scratch.d.assign_var.resultnum = tle->resno - 1;
           ExprEvalPushStep(state, &scratch);
       }
       else
       {
           /*
            * Otherwise, compile the column expression normally.
            * 否则的话,使用常规办法"编译"列表达式
            *
            * We can't tell the expression to evaluate directly into the
            * result slot, as the result slot (and the exprstate for that
            * matter) can change between executions.  We instead evaluate
            * into the ExprState's resvalue/resnull and then move.
            * 我们不能够直接告知表达式进行解析到结果slot中,
            *   因为结果slot(以及这种情况下的exprstate)在执行期间会出现变化.
            * 我们只需要解析到ExprState's的resvalue/resnull中并进行移动即可.
            */
           ExecInitExprRec(tle->expr, state,
                           &state->resvalue, &state->resnull);
           /*
            * Column might be referenced multiple times in upper nodes, so
            * force value to R/O - but only if it could be an expanded datum.
            * 列可能在高层节点被依赖多次,因此强制值为R/O - 只在可扩展datum时才这样处理
            */
           //d.assign_tmp.resultnum/attnum
           if (get_typlen(exprType((Node *) tle->expr)) == -1)
               scratch.opcode = EEOP_ASSIGN_TMP_MAKE_RO;
           else
               scratch.opcode = EEOP_ASSIGN_TMP;
           scratch.d.assign_tmp.resultnum = tle->resno - 1;
           ExprEvalPushStep(state, &scratch);
       }
   }
   scratch.opcode = EEOP_DONE;
   ExprEvalPushStep(state, &scratch);
   ExecReadyExpr(state);
   //返回投影信息.
   return projInfo;
}

三、跟踪分析

测试脚本

testdb=# select 1+id,c2 from t_expr where id < 3;

调用栈

(gdb) bt
#0  ExecBuildProjectionInfo (targetList=0x1cc7550, econtext=0x1c8f408, slot=0x1c8f710, parent=0x1c8f1f0,
   inputDesc=0x7f8386bb6ab8) at execExpr.c:355
#1  0x00000000006e60d5 in ExecAssignProjectionInfo (planstate=0x1c8f1f0, inputDesc=0x7f8386bb6ab8) at execUtils.c:468
#2  0x00000000006e613c in ExecConditionalAssignProjectionInfo (planstate=0x1c8f1f0, inputDesc=0x7f8386bb6ab8, varno=1)
   at execUtils.c:493
#3  0x00000000006e23f5 in ExecAssignScanProjectionInfo (node=0x1c8f1f0) at execScan.c:240
#4  0x0000000000700afc in ExecInitIndexScan (node=0x1ba8a18, estate=0x1c8efd8, eflags=16) at nodeIndexscan.c:962
#5  0x00000000006e00cc in ExecInitNode (node=0x1ba8a18, estate=0x1c8efd8, eflags=16) at execProcnode.c:217
#6  0x00000000006d6abe in InitPlan (queryDesc=0x1c94aa8, eflags=16) at execMain.c:1046
#7  0x00000000006d58ad in standard_ExecutorStart (queryDesc=0x1c94aa8, eflags=16) at execMain.c:265
#8  0x00000000006d5649 in ExecutorStart (queryDesc=0x1c94aa8, eflags=0) at execMain.c:147
#9  0x00000000008c18d6 in PortalStart (portal=0x1c15608, params=0x0, eflags=0, snapshot=0x0) at pquery.c:520
#10 0x00000000008bbe1b in exec_simple_query (query_string=0x1ba6d78 "select 1+id,c2 from t_expr where id < 3;")
   at postgres.c:1106
#11 0x00000000008c0191 in PostgresMain (argc=1, argv=0x1bd4cb8, dbname=0x1bd4b20 "testdb", username=0x1ba3a98 "xdb")
   at postgres.c:4182
#12 0x000000000081e06c in BackendRun (port=0x1bc8ae0) at postmaster.c:4361
#13 0x000000000081d7df in BackendStartup (port=0x1bc8ae0) at postmaster.c:4033
#14 0x0000000000819bd9 in ServerLoop () at postmaster.c:1706
#15 0x000000000081948f in PostmasterMain (argc=1, argv=0x1ba1a50) at postmaster.c:1379
#16 0x0000000000742931 in main (argc=1, argv=0x1ba1a50) at main.c:228

执行跟踪,进入函数ExecBuildProjectionInfo

(gdb) b ExecBuildProjectionInfo
Breakpoint 1 at 0x6c5377: file execExpr.c, line 355.
(gdb) c
Continuing.
Breakpoint 1, ExecBuildProjectionInfo (targetList=0x1c93498, econtext=0x1c883a8, slot=0x1c887c8, parent=0x1c88190,
   inputDesc=0x1c884a0) at execExpr.c:355
355     ProjectionInfo *projInfo = makeNode(ProjectionInfo);
(gdb)

1.初始化

(gdb) n
357     ExprEvalStep scratch = {0};
(gdb)
360     projInfo->pi_exprContext = econtext;
(gdb)
362     projInfo->pi_state.tag.type = T_ExprState;
(gdb)
363     state = &projInfo->pi_state;
(gdb)
364     state->expr = (Expr *) targetList;
(gdb)
365     state->parent = parent;
(gdb)
366     state->ext_params = NULL;
(gdb)
368     state->resultslot = slot;
(gdb)

查看相关变量

(gdb) p *state
$1 = {tag = {type = T_ExprState}, flags = 0 '\000', resnull = false, resvalue = 0, resultslot = 0x1c8f710, steps = 0x0,
 evalfunc = 0x0, expr = 0x1cc7550, evalfunc_private = 0x0, steps_len = 0, steps_alloc = 0, parent = 0x1c8f1f0,
 ext_params = 0x0, innermost_caseval = 0x0, innermost_casenull = 0x0, innermost_domainval = 0x0,
 innermost_domainnull = 0x0}

目标列链表

(gdb) p targetList
$2 = (List *) 0x1cc7550
(gdb) p *targetList
$3 = {type = T_List, length = 2, head = 0x1cc7528, tail = 0x1cc75e0}

第一个元素是1+id,第二个元素是c2

(gdb) p *(TargetEntry *)targetList->head->data.ptr_value
$7 = {xpr = {type = T_TargetEntry}, expr = 0x1c9a930, resno = 1, resname = 0xbcf498 "?column?", ressortgroupref = 0,
 resorigtbl = 0, resorigcol = 0, resjunk = false}
(gdb) p *(OpExpr *)((TargetEntry *)targetList->head->data.ptr_value)->expr
$9 = {xpr = {type = T_OpExpr}, opno = 551, opfuncid = 177, opresulttype = 23, opretset = false, opcollid = 0,
 inputcollid = 0, args = 0x1c9a878, location = 8}
(gdb) p *(Node *)targetList->head->next->data.ptr_value
$10 = {type = T_TargetEntry}
(gdb) p *(TargetEntry *)targetList->head->next->data.ptr_value
$11 = {xpr = {type = T_TargetEntry}, expr = 0x1c9aa40, resno = 2, resname = 0x1ba7a40 "c2", ressortgroupref = 0,
 resorigtbl = 237600, resorigcol = 2, resjunk = false}

2.如需要,插入EEOP_*_FETCHSOME步骤(调用ExecInitExprSlots)

(gdb) 
371     ExecInitExprSlots(state, (Node *) targetList);

第一个步骤,opcode = 3,即EEOP_SCAN_FETCHSOME

(gdb) n
374     foreach(lc, targetList)
(gdb) p *state
$13 = {tag = {type = T_ExprState}, flags = 0 '\000', resnull = false, resvalue = 0, resultslot = 0x1c8f710,
 steps = 0x1c8f868, evalfunc = 0x0, expr = 0x1cc7550, evalfunc_private = 0x0, steps_len = 1, steps_alloc = 16,
 parent = 0x1c8f1f0, ext_params = 0x0, innermost_caseval = 0x0, innermost_casenull = 0x0, innermost_domainval = 0x0,
 innermost_domainnull = 0x0}
(gdb) p state->steps[0]
$14 = {opcode = 3, resvalue = 0x0, resnull = 0x0, d = {fetch = {last_var = 2, known_desc = 0x0}, var = {attnum = 2,
     vartype = 0}, wholerow = {var = 0x2, first = false, slow = false, tupdesc = 0x0, junkFilter = 0x0}, assign_var = {
     resultnum = 2, attnum = 0}, assign_tmp = {resultnum = 2}, constval = {value = 2, isnull = false}, func = {
     finfo = 0x2, fcinfo_data = 0x0, fn_addr = 0x0, nargs = 0}, boolexpr = {anynull = 0x2, jumpdone = 0}, qualexpr = {
     jumpdone = 2}, jump = {jumpdone = 2}, nulltest_row = {argdesc = 0x2}, param = {paramid = 2, paramtype = 0}, cparam = {
     paramfunc = 0x2, paramarg = 0x0, paramid = 0, paramtype = 0}, casetest = {value = 0x2, isnull = 0x0},
   make_readonly = {value = 0x2, isnull = 0x0}, iocoerce = {finfo_out = 0x2, fcinfo_data_out = 0x0, finfo_in = 0x0,
     fcinfo_data_in = 0x0}, sqlvaluefunction = {svf = 0x2}, nextvalueexpr = {seqid = 2, seqtypid = 0}, arrayexpr = {
     elemvalues = 0x2, elemnulls = 0x0, nelems = 0, elemtype = 0, elemlength = 0, elembyval = false, elemalign = 0 '\000',
     multidims = false}, arraycoerce = {elemexprstate = 0x2, resultelemtype = 0, amstate = 0x0}, row = {tupdesc = 0x2,
     elemvalues = 0x0, elemnulls = 0x0}, rowcompare_step = {finfo = 0x2, fcinfo_data = 0x0, fn_addr = 0x0, jumpnull = 0,
     jumpdone = 0}, rowcompare_final = {rctype = ROWCOMPARE_LE}, minmax = {values = 0x2, nulls = 0x0, nelems = 0,
     op = IS_GREATEST, finfo = 0x0, fcinfo_data = 0x0}, fieldselect = {fieldnum = 2, resulttype = 0, argdesc = 0x0},
   fieldstore = {fstore = 0x2, argdesc = 0x0, values = 0x0, nulls = 0x0, ncolumns = 0}, arrayref_subscript = {state = 0x2,
     off = 0, isupper = false, jumpdone = 0}, arrayref = {state = 0x2}, domaincheck = {
     constraintname = 0x2 <Address 0x2 out of bounds>, checkvalue = 0x0, checknull = 0x0, resulttype = 0},
   convert_rowtype = {convert = 0x2, indesc = 0x0, outdesc = 0x0, map = 0x0, initialized = false}, scalararrayop = {
     element_type = 2, useOr = false, typlen = 0, typbyval = false, typalign = 0 '\000', finfo = 0x0, fcinfo_data = 0x0,
     fn_addr = 0x0}, xmlexpr = {xexpr = 0x2, named_argvalue = 0x0, named_argnull = 0x0, argvalue = 0x0, argnull = 0x0},
   aggref = {astate = 0x2}, grouping_func = {parent = 0x2, clauses = 0x0}, window_func = {wfstate = 0x2}, subplan = {
     sstate = 0x2}, alternative_subplan = {asstate = 0x2}, agg_deserialize = {aggstate = 0x2, fcinfo_data = 0x0,
     jumpnull = 0}, agg_strict_input_check = {nulls = 0x2, nargs = 0, jumpnull = 0}, agg_init_trans = {aggstate = 0x2,
     pertrans = 0x0, aggcontext = 0x0, setno = 0, transno = 0, setoff = 0, jumpnull = 0}, agg_strict_trans_check = {
     aggstate = 0x2, setno = 0, transno = 0, setoff = 0, jumpnull = 0}, agg_trans = {aggstate = 0x2, pertrans = 0x0,
     aggcontext = 0x0, setno = 0, transno = 0, setoff = 0}}}
(gdb)

3.遍历targetList,处理targetList(目标列)中的每一个列
3.1.对于”安全”Var则只需要生成EEOPASSIGN*_VAR步骤
3.2.对于非”安全”VAr,使用常规办法处理列表达式,调用ExecInitExprRec函数处理,并通过ExprEvalPushStep压步骤

(gdb) n
376         TargetEntry *tle = lfirst_node(TargetEntry, lc);
(gdb)
377         Var        *variable = NULL;
(gdb)
378         AttrNumber  attnum = 0;
(gdb)
379         bool        isSafeVar = false;
(gdb)
389         if (tle->expr != NULL &&
(gdb)
390             IsA(tle->expr, Var) &&
(gdb)
389         if (tle->expr != NULL &&
(gdb)
415         if (isSafeVar)
(gdb) p *tle
$15 = {xpr = {type = T_TargetEntry}, expr = 0x1c9a930, resno = 1, resname = 0xbcf498 "?column?", ressortgroupref = 0,
 resorigtbl = 0, resorigcol = 0, resjunk = false}
(gdb) n
452             ExecInitExprRec(tle->expr, state,
(gdb)

进入ExecInitExprRec,Node节点为OpExpr,执行ExprEvalPushStep压入步骤中

(gdb) step
ExecInitExprRec (node=0x1c9a930, state=0x1c8f7d8, resv=0x1c8f7e0, resnull=0x1c8f7dd) at execExpr.c:645
645     ExprEvalStep scratch = {0};
(gdb) n
648     check_stack_depth();
(gdb)
651     Assert(resv != NULL && resnull != NULL);
(gdb)
652     scratch.resvalue = resv;
(gdb)
653     scratch.resnull = resnull;
(gdb)
656     switch (nodeTag(node))
(gdb)
891                 OpExpr     *op = (OpExpr *) node;
(gdb) p *node
$16 = {type = T_OpExpr}
(gdb) n
893                 ExecInitFunc(&scratch, node,
(gdb)
896                 ExprEvalPushStep(state, &scratch);
(gdb)
897                 break;
(gdb)
2122    }
(gdb)
ExecBuildProjectionInfo (targetList=0x1cc7550, econtext=0x1c8f408, slot=0x1c8f710, parent=0x1c8f1f0,
   inputDesc=0x7f8386bb6ab8) at execExpr.c:459
459             if (get_typlen(exprType((Node *) tle->expr)) == -1)
(gdb)
462                 scratch.opcode = EEOP_ASSIGN_TMP;
(gdb)

ExecInitExprRec调用完毕,增加了2个步骤,分别是:
1.opcode = 6,即EEOP_SCAN_VAR
2.opcode = 18,即EEOP_FUNCEXPR_STRICT

(gdb) p *state
$17 = {tag = {type = T_ExprState}, flags = 0 '\000', resnull = false, resvalue = 0, resultslot = 0x1c8f710,
 steps = 0x1c8f868, evalfunc = 0x0, expr = 0x1cc7550, evalfunc_private = 0x0, steps_len = 3, steps_alloc = 16,
 parent = 0x1c8f1f0, ext_params = 0x0, innermost_caseval = 0x0, innermost_casenull = 0x0, innermost_domainval = 0x0,
 innermost_domainnull = 0x0}
(gdb) p state->steps[1]
$18 = {opcode = 6, resvalue = 0x1c8fd00, resnull = 0x1c90019, d = {fetch = {last_var = 0, known_desc = 0x0}, var = {
     attnum = 0, vartype = 23}, wholerow = {var = 0x1700000000, first = false, slow = false, tupdesc = 0x0,
     junkFilter = 0x0}, assign_var = {resultnum = 0, attnum = 23}, assign_tmp = {resultnum = 0}, constval = {
     value = 98784247808, isnull = false}, func = {finfo = 0x1700000000, fcinfo_data = 0x0, fn_addr = 0x0, nargs = 0},
   boolexpr = {anynull = 0x1700000000, jumpdone = 0}, qualexpr = {jumpdone = 0}, jump = {jumpdone = 0}, nulltest_row = {
     argdesc = 0x1700000000}, param = {paramid = 0, paramtype = 23}, cparam = {paramfunc = 0x1700000000, paramarg = 0x0,
     paramid = 0, paramtype = 0}, casetest = {value = 0x1700000000, isnull = 0x0}, make_readonly = {value = 0x1700000000,
     isnull = 0x0}, iocoerce = {finfo_out = 0x1700000000, fcinfo_data_out = 0x0, finfo_in = 0x0, fcinfo_data_in = 0x0},
   sqlvaluefunction = {svf = 0x1700000000}, nextvalueexpr = {seqid = 0, seqtypid = 23}, arrayexpr = {
     elemvalues = 0x1700000000, elemnulls = 0x0, nelems = 0, elemtype = 0, elemlength = 0, elembyval = false,
     elemalign = 0 '\000', multidims = false}, arraycoerce = {elemexprstate = 0x1700000000, resultelemtype = 0,
     amstate = 0x0}, row = {tupdesc = 0x1700000000, elemvalues = 0x0, elemnulls = 0x0}, rowcompare_step = {
     finfo = 0x1700000000, fcinfo_data = 0x0, fn_addr = 0x0, jumpnull = 0, jumpdone = 0}, rowcompare_final = {rctype = 0},
   minmax = {values = 0x1700000000, nulls = 0x0, nelems = 0, op = IS_GREATEST, finfo = 0x0, fcinfo_data = 0x0},
   fieldselect = {fieldnum = 0, resulttype = 23, argdesc = 0x0}, fieldstore = {fstore = 0x1700000000, argdesc = 0x0,
     values = 0x0, nulls = 0x0, ncolumns = 0}, arrayref_subscript = {state = 0x1700000000, off = 0, isupper = false,
     jumpdone = 0}, arrayref = {state = 0x1700000000}, domaincheck = {
     constraintname = 0x1700000000 <Address 0x1700000000 out of bounds>, checkvalue = 0x0, checknull = 0x0,
     resulttype = 0}, convert_rowtype = {convert = 0x1700000000, indesc = 0x0, outdesc = 0x0, map = 0x0,
     initialized = false}, scalararrayop = {element_type = 0, useOr = 23, typlen = 0, typbyval = false,
     typalign = 0 '\000', finfo = 0x0, fcinfo_data = 0x0, fn_addr = 0x0}, xmlexpr = {xexpr = 0x1700000000,
     named_argvalue = 0x0, named_argnull = 0x0, argvalue = 0x0, argnull = 0x0}, aggref = {astate = 0x1700000000},
   grouping_func = {parent = 0x1700000000, clauses = 0x0}, window_func = {wfstate = 0x1700000000}, subplan = {
     sstate = 0x1700000000}, alternative_subplan = {asstate = 0x1700000000}, agg_deserialize = {aggstate = 0x1700000000,
     fcinfo_data = 0x0, jumpnull = 0}, agg_strict_input_check = {nulls = 0x1700000000, nargs = 0, jumpnull = 0},
   agg_init_trans = {aggstate = 0x1700000000, pertrans = 0x0, aggcontext = 0x0, setno = 0, transno = 0, setoff = 0,
     jumpnull = 0}, agg_strict_trans_check = {aggstate = 0x1700000000, setno = 0, transno = 0, setoff = 0, jumpnull = 0},
---Type <return> to continue, or q <return> to quit---
   agg_trans = {aggstate = 0x1700000000, pertrans = 0x0, aggcontext = 0x0, setno = 0, transno = 0, setoff = 0}}}
(gdb) p state->steps[2]
$19 = {opcode = 18, resvalue = 0x1c8f7e0, resnull = 0x1c8f7dd, d = {fetch = {last_var = 29949056, known_desc = 0x1c8fcd8},
   var = {attnum = 29949056, vartype = 0}, wholerow = {var = 0x1c8fc80, first = 216, slow = 252,
     tupdesc = 0x93d60c <int4pl>, junkFilter = 0x2}, assign_var = {resultnum = 29949056, attnum = 0}, assign_tmp = {
     resultnum = 29949056}, constval = {value = 29949056, isnull = 216}, func = {finfo = 0x1c8fc80,
     fcinfo_data = 0x1c8fcd8, fn_addr = 0x93d60c <int4pl>, nargs = 2}, boolexpr = {anynull = 0x1c8fc80,
     jumpdone = 29949144}, qualexpr = {jumpdone = 29949056}, jump = {jumpdone = 29949056}, nulltest_row = {
     argdesc = 0x1c8fc80}, param = {paramid = 29949056, paramtype = 0}, cparam = {paramfunc = 0x1c8fc80,
     paramarg = 0x1c8fcd8, paramid = 9688588, paramtype = 0}, casetest = {value = 0x1c8fc80, isnull = 0x1c8fcd8},
   make_readonly = {value = 0x1c8fc80, isnull = 0x1c8fcd8}, iocoerce = {finfo_out = 0x1c8fc80,
     fcinfo_data_out = 0x1c8fcd8, finfo_in = 0x93d60c <int4pl>, fcinfo_data_in = 0x2}, sqlvaluefunction = {
     svf = 0x1c8fc80}, nextvalueexpr = {seqid = 29949056, seqtypid = 0}, arrayexpr = {elemvalues = 0x1c8fc80,
     elemnulls = 0x1c8fcd8, nelems = 9688588, elemtype = 0, elemlength = 2, elembyval = false, elemalign = 0 '\000',
     multidims = false}, arraycoerce = {elemexprstate = 0x1c8fc80, resultelemtype = 29949144,
     amstate = 0x93d60c <int4pl>}, row = {tupdesc = 0x1c8fc80, elemvalues = 0x1c8fcd8, elemnulls = 0x93d60c <int4pl>},
   rowcompare_step = {finfo = 0x1c8fc80, fcinfo_data = 0x1c8fcd8, fn_addr = 0x93d60c <int4pl>, jumpnull = 2,
     jumpdone = 0}, rowcompare_final = {rctype = 29949056}, minmax = {values = 0x1c8fc80, nulls = 0x1c8fcd8,
     nelems = 9688588, op = IS_GREATEST, finfo = 0x2, fcinfo_data = 0x0}, fieldselect = {fieldnum = -896, resulttype = 0,
     argdesc = 0x1c8fcd8}, fieldstore = {fstore = 0x1c8fc80, argdesc = 0x1c8fcd8, values = 0x93d60c <int4pl>, nulls = 0x2,
     ncolumns = 0}, arrayref_subscript = {state = 0x1c8fc80, off = 29949144, isupper = false, jumpdone = 9688588},
   arrayref = {state = 0x1c8fc80}, domaincheck = {constraintname = 0x1c8fc80 "\f֓", checkvalue = 0x1c8fcd8,
     checknull = 0x93d60c <int4pl>, resulttype = 2}, convert_rowtype = {convert = 0x1c8fc80, indesc = 0x1c8fcd8,
     outdesc = 0x93d60c <int4pl>, map = 0x2, initialized = false}, scalararrayop = {element_type = 29949056,
     useOr = false, typlen = 0, typbyval = 216, typalign = -4 '\374', finfo = 0x93d60c <int4pl>, fcinfo_data = 0x2,
     fn_addr = 0x0}, xmlexpr = {xexpr = 0x1c8fc80, named_argvalue = 0x1c8fcd8, named_argnull = 0x93d60c <int4pl>,
     argvalue = 0x2, argnull = 0x0}, aggref = {astate = 0x1c8fc80}, grouping_func = {parent = 0x1c8fc80,
     clauses = 0x1c8fcd8}, window_func = {wfstate = 0x1c8fc80}, subplan = {sstate = 0x1c8fc80}, alternative_subplan = {
     asstate = 0x1c8fc80}, agg_deserialize = {aggstate = 0x1c8fc80, fcinfo_data = 0x1c8fcd8, jumpnull = 9688588},
---Type <return> to continue, or q <return> to quit---
   agg_strict_input_check = {nulls = 0x1c8fc80, nargs = 29949144, jumpnull = 0}, agg_init_trans = {aggstate = 0x1c8fc80,
     pertrans = 0x1c8fcd8, aggcontext = 0x93d60c <int4pl>, setno = 2, transno = 0, setoff = 0, jumpnull = 0},
   agg_strict_trans_check = {aggstate = 0x1c8fc80, setno = 29949144, transno = 0, setoff = 9688588, jumpnull = 0},
   agg_trans = {aggstate = 0x1c8fc80, pertrans = 0x1c8fcd8, aggcontext = 0x93d60c <int4pl>, setno = 2, transno = 0,
     setoff = 0}}}
(gdb)

压入对应该表达式列的编号,opcode = 14,即EEOP_ASSIGN_TMP

(gdb) n
463             scratch.d.assign_tmp.resultnum = tle->resno - 1;
(gdb)
464             ExprEvalPushStep(state, &scratch);
(gdb)
(gdb)
374     foreach(lc, targetList)
(gdb) p *state
$20 = {tag = {type = T_ExprState}, flags = 0 '\000', resnull = false, resvalue = 0, resultslot = 0x1c8f710,
 steps = 0x1c8f868, evalfunc = 0x0, expr = 0x1cc7550, evalfunc_private = 0x0, steps_len = 4, steps_alloc = 16,
 parent = 0x1c8f1f0, ext_params = 0x0, innermost_caseval = 0x0, innermost_casenull = 0x0, innermost_domainval = 0x0,
 innermost_domainnull = 0x0}
(gdb) p state->steps[3]
$21 = {opcode = 14, resvalue = 0x0, resnull = 0x0, d = {fetch = {last_var = 0, known_desc = 0x0}, var = {attnum = 0,
     vartype = 0}, wholerow = {var = 0x0, first = false, slow = false, tupdesc = 0x0, junkFilter = 0x0}, assign_var = {
     resultnum = 0, attnum = 0}, assign_tmp = {resultnum = 0}, constval = {value = 0, isnull = false}, func = {
     finfo = 0x0, fcinfo_data = 0x0, fn_addr = 0x0, nargs = 0}, boolexpr = {anynull = 0x0, jumpdone = 0}, qualexpr = {
     jumpdone = 0}, jump = {jumpdone = 0}, nulltest_row = {argdesc = 0x0}, param = {paramid = 0, paramtype = 0}, cparam = {
     paramfunc = 0x0, paramarg = 0x0, paramid = 0, paramtype = 0}, casetest = {value = 0x0, isnull = 0x0},
   make_readonly = {value = 0x0, isnull = 0x0}, iocoerce = {finfo_out = 0x0, fcinfo_data_out = 0x0, finfo_in = 0x0,
     fcinfo_data_in = 0x0}, sqlvaluefunction = {svf = 0x0}, nextvalueexpr = {seqid = 0, seqtypid = 0}, arrayexpr = {
     elemvalues = 0x0, elemnulls = 0x0, nelems = 0, elemtype = 0, elemlength = 0, elembyval = false, elemalign = 0 '\000',
     multidims = false}, arraycoerce = {elemexprstate = 0x0, resultelemtype = 0, amstate = 0x0}, row = {tupdesc = 0x0,
     elemvalues = 0x0, elemnulls = 0x0}, rowcompare_step = {finfo = 0x0, fcinfo_data = 0x0, fn_addr = 0x0, jumpnull = 0,
     jumpdone = 0}, rowcompare_final = {rctype = 0}, minmax = {values = 0x0, nulls = 0x0, nelems = 0, op = IS_GREATEST,
     finfo = 0x0, fcinfo_data = 0x0}, fieldselect = {fieldnum = 0, resulttype = 0, argdesc = 0x0}, fieldstore = {
     fstore = 0x0, argdesc = 0x0, values = 0x0, nulls = 0x0, ncolumns = 0}, arrayref_subscript = {state = 0x0, off = 0,
     isupper = false, jumpdone = 0}, arrayref = {state = 0x0}, domaincheck = {constraintname = 0x0, checkvalue = 0x0,
     checknull = 0x0, resulttype = 0}, convert_rowtype = {convert = 0x0, indesc = 0x0, outdesc = 0x0, map = 0x0,
     initialized = false}, scalararrayop = {element_type = 0, useOr = false, typlen = 0, typbyval = false,
     typalign = 0 '\000', finfo = 0x0, fcinfo_data = 0x0, fn_addr = 0x0}, xmlexpr = {xexpr = 0x0, named_argvalue = 0x0,
     named_argnull = 0x0, argvalue = 0x0, argnull = 0x0}, aggref = {astate = 0x0}, grouping_func = {parent = 0x0,
     clauses = 0x0}, window_func = {wfstate = 0x0}, subplan = {sstate = 0x0}, alternative_subplan = {asstate = 0x0},
   agg_deserialize = {aggstate = 0x0, fcinfo_data = 0x0, jumpnull = 0}, agg_strict_input_check = {nulls = 0x0, nargs = 0,
     jumpnull = 0}, agg_init_trans = {aggstate = 0x0, pertrans = 0x0, aggcontext = 0x0, setno = 0, transno = 0,
     setoff = 0, jumpnull = 0}, agg_strict_trans_check = {aggstate = 0x0, setno = 0, transno = 0, setoff = 0,
     jumpnull = 0}, agg_trans = {aggstate = 0x0, pertrans = 0x0, aggcontext = 0x0, setno = 0, transno = 0, setoff = 0}}}
(gdb)

继续处理下一个列,这是一个”安全”列,压入EEOP_ASSIGN_SCAN_VAR步骤

(gdb) n
376         TargetEntry *tle = lfirst_node(TargetEntry, lc);
(gdb)
377         Var        *variable = NULL;
(gdb) p *tle
$22 = {xpr = {type = T_TargetEntry}, expr = 0x1c9aa40, resno = 2, resname = 0x1ba7a40 "c2", ressortgroupref = 0,
 resorigtbl = 237600, resorigcol = 2, resjunk = false}
(gdb) n
378         AttrNumber  attnum = 0;
(gdb)
379         bool        isSafeVar = false;
(gdb)
389         if (tle->expr != NULL &&
(gdb)
390             IsA(tle->expr, Var) &&
(gdb)
389         if (tle->expr != NULL &&
(gdb)
391             ((Var *) tle->expr)->varattno > 0)
(gdb)
390             IsA(tle->expr, Var) &&
(gdb)
394             variable = (Var *) tle->expr;
(gdb)
395             attnum = variable->varattno;
(gdb)
397             if (inputDesc == NULL)
(gdb)
399             else if (attnum <= inputDesc->natts)
(gdb)
401                 Form_pg_attribute attr = TupleDescAttr(inputDesc, attnum - 1);
(gdb)
408                 if (!attr->attisdropped && variable->vartype == attr->atttypid)
(gdb)
410                     isSafeVar = true;
(gdb)
415         if (isSafeVar)
(gdb)
418             switch (variable->varno)
(gdb)
434                     scratch.opcode = EEOP_ASSIGN_SCAN_VAR;
(gdb)
435                     break;
(gdb)
438             scratch.d.assign_var.attnum = attnum - 1;
(gdb)
439             scratch.d.assign_var.resultnum = tle->resno - 1;
(gdb)
440             ExprEvalPushStep(state, &scratch);
(gdb) p *state
$23 = {tag = {type = T_ExprState}, flags = 0 '\000', resnull = false, resvalue = 0, resultslot = 0x1c8f710,
 steps = 0x1c8f868, evalfunc = 0x0, expr = 0x1cc7550, evalfunc_private = 0x0, steps_len = 4, steps_alloc = 16,
 parent = 0x1c8f1f0, ext_params = 0x0, innermost_caseval = 0x0, innermost_casenull = 0x0, innermost_domainval = 0x0,
 innermost_domainnull = 0x0}
(gdb) n
374     foreach(lc, targetList)
(gdb) p *state
$24 = {tag = {type = T_ExprState}, flags = 0 '\000', resnull = false, resvalue = 0, resultslot = 0x1c8f710,
 steps = 0x1c8f868, evalfunc = 0x0, expr = 0x1cc7550, evalfunc_private = 0x0, steps_len = 5, steps_alloc = 16,
 parent = 0x1c8f1f0, ext_params = 0x0, innermost_caseval = 0x0, innermost_casenull = 0x0, innermost_domainval = 0x0,
 innermost_domainnull = 0x0}
(gdb) p state->steps[4]
$25 = {opcode = 13, resvalue = 0x0, resnull = 0x0, d = {fetch = {last_var = 1, known_desc = 0x0}, var = {attnum = 1,
     vartype = 1}, wholerow = {var = 0x100000001, first = false, slow = false, tupdesc = 0x0, junkFilter = 0x0},
   assign_var = {resultnum = 1, attnum = 1}, assign_tmp = {resultnum = 1}, constval = {value = 4294967297,
     isnull = false}, func = {finfo = 0x100000001, fcinfo_data = 0x0, fn_addr = 0x0, nargs = 0}, boolexpr = {
     anynull = 0x100000001, jumpdone = 0}, qualexpr = {jumpdone = 1}, jump = {jumpdone = 1}, nulltest_row = {
     argdesc = 0x100000001}, param = {paramid = 1, paramtype = 1}, cparam = {paramfunc = 0x100000001, paramarg = 0x0,
     paramid = 0, paramtype = 0}, casetest = {value = 0x100000001, isnull = 0x0}, make_readonly = {value = 0x100000001,
     isnull = 0x0}, iocoerce = {finfo_out = 0x100000001, fcinfo_data_out = 0x0, finfo_in = 0x0, fcinfo_data_in = 0x0},
   sqlvaluefunction = {svf = 0x100000001}, nextvalueexpr = {seqid = 1, seqtypid = 1}, arrayexpr = {
     elemvalues = 0x100000001, elemnulls = 0x0, nelems = 0, elemtype = 0, elemlength = 0, elembyval = false,
     elemalign = 0 '\000', multidims = false}, arraycoerce = {elemexprstate = 0x100000001, resultelemtype = 0,
     amstate = 0x0}, row = {tupdesc = 0x100000001, elemvalues = 0x0, elemnulls = 0x0}, rowcompare_step = {
     finfo = 0x100000001, fcinfo_data = 0x0, fn_addr = 0x0, jumpnull = 0, jumpdone = 0}, rowcompare_final = {
     rctype = ROWCOMPARE_LT}, minmax = {values = 0x100000001, nulls = 0x0, nelems = 0, op = IS_GREATEST, finfo = 0x0,
     fcinfo_data = 0x0}, fieldselect = {fieldnum = 1, resulttype = 1, argdesc = 0x0}, fieldstore = {fstore = 0x100000001,
     argdesc = 0x0, values = 0x0, nulls = 0x0, ncolumns = 0}, arrayref_subscript = {state = 0x100000001, off = 0,
     isupper = false, jumpdone = 0}, arrayref = {state = 0x100000001}, domaincheck = {
     constraintname = 0x100000001 <Address 0x100000001 out of bounds>, checkvalue = 0x0, checknull = 0x0, resulttype = 0},
   convert_rowtype = {convert = 0x100000001, indesc = 0x0, outdesc = 0x0, map = 0x0, initialized = false},
   scalararrayop = {element_type = 1, useOr = true, typlen = 0, typbyval = false, typalign = 0 '\000', finfo = 0x0,
     fcinfo_data = 0x0, fn_addr = 0x0}, xmlexpr = {xexpr = 0x100000001, named_argvalue = 0x0, named_argnull = 0x0,
     argvalue = 0x0, argnull = 0x0}, aggref = {astate = 0x100000001}, grouping_func = {parent = 0x100000001,
     clauses = 0x0}, window_func = {wfstate = 0x100000001}, subplan = {sstate = 0x100000001}, alternative_subplan = {
     asstate = 0x100000001}, agg_deserialize = {aggstate = 0x100000001, fcinfo_data = 0x0, jumpnull = 0},
   agg_strict_input_check = {nulls = 0x100000001, nargs = 0, jumpnull = 0}, agg_init_trans = {aggstate = 0x100000001,
     pertrans = 0x0, aggcontext = 0x0, setno = 0, transno = 0, setoff = 0, jumpnull = 0}, agg_strict_trans_check = {
     aggstate = 0x100000001, setno = 0, transno = 0, setoff = 0, jumpnull = 0}, agg_trans = {aggstate = 0x100000001,
---Type <return> to continue, or q <return> to quit---
     pertrans = 0x0, aggcontext = 0x0, setno = 0, transno = 0, setoff = 0}}}
(gdb)

4.压入EEOP_DONE步骤

(gdb) n
468     scratch.opcode = EEOP_DONE;
(gdb)
469     ExprEvalPushStep(state, &scratch);
(gdb)
471     ExecReadyExpr(state);
(gdb) p state->steps[5]
$26 = {opcode = 0, resvalue = 0x0, resnull = 0x0, d = {fetch = {last_var = 1, known_desc = 0x0}, var = {attnum = 1,
     vartype = 1}, wholerow = {var = 0x100000001, first = false, slow = false, tupdesc = 0x0, junkFilter = 0x0},
   assign_var = {resultnum = 1, attnum = 1}, assign_tmp = {resultnum = 1}, constval = {value = 4294967297,
     isnull = false}, func = {finfo = 0x100000001, fcinfo_data = 0x0, fn_addr = 0x0, nargs = 0}, boolexpr = {
     anynull = 0x100000001, jumpdone = 0}, qualexpr = {jumpdone = 1}, jump = {jumpdone = 1}, nulltest_row = {
     argdesc = 0x100000001}, param = {paramid = 1, paramtype = 1}, cparam = {paramfunc = 0x100000001, paramarg = 0x0,
     paramid = 0, paramtype = 0}, casetest = {value = 0x100000001, isnull = 0x0}, make_readonly = {value = 0x100000001,
     isnull = 0x0}, iocoerce = {finfo_out = 0x100000001, fcinfo_data_out = 0x0, finfo_in = 0x0, fcinfo_data_in = 0x0},
   sqlvaluefunction = {svf = 0x100000001}, nextvalueexpr = {seqid = 1, seqtypid = 1}, arrayexpr = {
     elemvalues = 0x100000001, elemnulls = 0x0, nelems = 0, elemtype = 0, elemlength = 0, elembyval = false,
     elemalign = 0 '\000', multidims = false}, arraycoerce = {elemexprstate = 0x100000001, resultelemtype = 0,
     amstate = 0x0}, row = {tupdesc = 0x100000001, elemvalues = 0x0, elemnulls = 0x0}, rowcompare_step = {
     finfo = 0x100000001, fcinfo_data = 0x0, fn_addr = 0x0, jumpnull = 0, jumpdone = 0}, rowcompare_final = {
     rctype = ROWCOMPARE_LT}, minmax = {values = 0x100000001, nulls = 0x0, nelems = 0, op = IS_GREATEST, finfo = 0x0,
     fcinfo_data = 0x0}, fieldselect = {fieldnum = 1, resulttype = 1, argdesc = 0x0}, fieldstore = {fstore = 0x100000001,
     argdesc = 0x0, values = 0x0, nulls = 0x0, ncolumns = 0}, arrayref_subscript = {state = 0x100000001, off = 0,
     isupper = false, jumpdone = 0}, arrayref = {state = 0x100000001}, domaincheck = {
     constraintname = 0x100000001 <Address 0x100000001 out of bounds>, checkvalue = 0x0, checknull = 0x0, resulttype = 0},
   convert_rowtype = {convert = 0x100000001, indesc = 0x0, outdesc = 0x0, map = 0x0, initialized = false},
   scalararrayop = {element_type = 1, useOr = true, typlen = 0, typbyval = false, typalign = 0 '\000', finfo = 0x0,
     fcinfo_data = 0x0, fn_addr = 0x0}, xmlexpr = {xexpr = 0x100000001, named_argvalue = 0x0, named_argnull = 0x0,
     argvalue = 0x0, argnull = 0x0}, aggref = {astate = 0x100000001}, grouping_func = {parent = 0x100000001,
     clauses = 0x0}, window_func = {wfstate = 0x100000001}, subplan = {sstate = 0x100000001}, alternative_subplan = {
     asstate = 0x100000001}, agg_deserialize = {aggstate = 0x100000001, fcinfo_data = 0x0, jumpnull = 0},
   agg_strict_input_check = {nulls = 0x100000001, nargs = 0, jumpnull = 0}, agg_init_trans = {aggstate = 0x100000001,
     pertrans = 0x0, aggcontext = 0x0, setno = 0, transno = 0, setoff = 0, jumpnull = 0}, agg_strict_trans_check = {
     aggstate = 0x100000001, setno = 0, transno = 0, setoff = 0, jumpnull = 0}, agg_trans = {aggstate = 0x100000001,
---Type <return> to continue, or q <return> to quit---
     pertrans = 0x0, aggcontext = 0x0, setno = 0, transno = 0, setoff = 0}}}
(gdb)

结束调用

(gdb) n
473     return projInfo;
(gdb)
474 }
(gdb)
ExecAssignProjectionInfo (planstate=0x1c8f1f0, inputDesc=0x7f8386bb6ab8) at execUtils.c:467
467     planstate->ps_ProjInfo =
(gdb)

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