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一、数据结构
FuncCandidateList
该结构体存储检索得到的所有可能选中的函数或操作符链表.
/*
* This structure holds a list of possible functions or operators
* found by namespace lookup. Each function/operator is identified
* by OID and by argument types; the list must be pruned by type
* resolution rules that are embodied in the parser, not here.
* See FuncnameGetCandidates's comments for more info.
* 该结构体存储检索得到的所有可能选中的函数或操作符链表.
* 每一个函数/操作符通过OID和参数类型唯一确定,
* 通过集成到分析器中的type resolution rules来确定裁剪该链表(但不是在这里实现)
* 详细可参考FuncnameGetCandidates函数.
*/
typedef struct _FuncCandidateList
{
struct _FuncCandidateList *next;
//用于namespace检索内部使用
int pathpos; /* for internal use of namespace lookup */
//OID
Oid oid; /* the function or operator's OID */
//参数个数
int nargs; /* number of arg types returned */
//variadic array的参数个数
int nvargs; /* number of args to become variadic array */
//默认参数个数
int ndargs; /* number of defaulted args */
//参数位置索引
int *argnumbers; /* args' positional indexes, if named call */
//参数类型
Oid args[FLEXIBLE_ARRAY_MEMBER]; /* arg types */
} *FuncCandidateList;二、源码解读
func_match_argtypes
给定候选函数列表(正确的函数名称/参数个数匹配)和输入数据类型OIDs数组,生成实际可匹配输入数据类型(完全匹配或可转换)的候选函数链表,然后符合条件的候选函数个数.
/* func_match_argtypes()
*
* Given a list of candidate functions (having the right name and number
* of arguments) and an array of input datatype OIDs, produce a shortlist of
* those candidates that actually accept the input datatypes (either exactly
* or by coercion), and return the number of such candidates.
* 给定候选函数列表(正确的函数名称/参数个数匹配)和输入数据类型OIDs数组,
* 生成实际可匹配输入数据类型(完全匹配或可转换)的候选函数链表,然后符合条件的候选函数个数
*
* Note that can_coerce_type will assume that UNKNOWN inputs are coercible to
* anything, so candidates will not be eliminated on that basis.
* can_coerce_type函数假定UNKNOWN输入可转换为任意类型.
*
* NB: okay to modify input list structure, as long as we find at least
* one match. If no match at all, the list must remain unmodified.
* 注意:如果只是找到一个匹配的候选函数,修改输入链表结构是OK的.如无匹配,则链表保持不变.
*/
int
func_match_argtypes(int nargs,
Oid *input_typeids,
FuncCandidateList raw_candidates,
FuncCandidateList *candidates) /* return value */
{
FuncCandidateList current_candidate;//当前候选
FuncCandidateList next_candidate;//下一候选
int ncandidates = 0;
*candidates = NULL;
for (current_candidate = raw_candidates;
current_candidate != NULL;
current_candidate = next_candidate)//遍历候选函数
{
next_candidate = current_candidate->next;
if (can_coerce_type(nargs, input_typeids, current_candidate->args,
COERCION_IMPLICIT))//可匹配输入数据类型(完全匹配或可转换)
{
current_candidate->next = *candidates;
*candidates = current_candidate;
ncandidates++;
}
}
return ncandidates;
} /* func_match_argtypes() */在pg_operator中,输入参数类型与operator的参数类型匹配或可转换,可进入候选函数链表.
三、跟踪分析
测试脚本
create cast(integer as text) with inout as implicit;
select id||'X' from t_cast;
跟踪分析
(gdb) c
Continuing.
Breakpoint 2, oper_select_candidate (nargs=2, input_typeids=0x7ffeb9cca190, candidates=0x13db8a0, operOid=0x7ffeb9cca22c)
at parse_oper.c:330
330 ncandidates = func_match_argtypes(nargs, input_typeids,
(gdb) p *candidates
$1 = {next = 0x13db870, pathpos = 0, oid = 3284, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db8c8}
(gdb) p *candidates->next
$2 = {next = 0x13db840, pathpos = 0, oid = 3681, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db898}
(gdb) p *candidates->next->next
$3 = {next = 0x13db810, pathpos = 0, oid = 3633, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db868}
(gdb) p *candidates->next->next->next
$4 = {next = 0x13db7e0, pathpos = 0, oid = 2780, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db838}
(gdb) p *candidates->next->next->next->next
$5 = {next = 0x13db7b0, pathpos = 0, oid = 374, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db808}
(gdb) p *candidates->next->next->next->next->next
$6 = {next = 0x13db780, pathpos = 0, oid = 349, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db7d8}
(gdb) p *candidates->next->next->next->next->next->next
$7 = {next = 0x13db750, pathpos = 0, oid = 375, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db7a8}
(gdb) p *candidates->next->next->next->next->next->next->next
$8 = {next = 0x13db720, pathpos = 0, oid = 1797, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db778}
(gdb) p *candidates->next->next->next->next->next->next->next->next
$9 = {next = 0x13db6f0, pathpos = 0, oid = 2779, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db748}
(gdb) p *candidates->next->next->next->next->next->next->next->next->next
$10 = {next = 0x13db6c0, pathpos = 0, oid = 654, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db718}
(gdb) p *candidates->next->next->next->next->next->next->next->next->next->next
$11 = {next = 0x0, pathpos = 0, oid = 2018, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db6e8}
(gdb) p *candidates->next->next->next->next->next->next->next->next->next->next->next
Cannot access memory at address 0x0
(gdb) n
334 if (ncandidates == 0)
(gdb)
339 if (ncandidates == 1)
(gdb)
349 candidates = func_select_candidate(nargs, input_typeids, candidates);
(gdb) p ncandidates
$12 = 2
(gdb) p *candidates
$13 = {next = 0x13db810, pathpos = 0, oid = 374, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db808}
(gdb) p *candidates->next
$14 = {next = 0x0, pathpos = 0, oid = 2780, nargs = 2, nvargs = 0, ndargs = 0, argnumbers = 0x0, args = 0x13db838}
(gdb) p *candidates->next->next
Cannot access memory at address 0x0
(gdb)感谢各位的阅读,以上就是“PostgreSQL隐式类型转换中使用哪些操作符实现函数”的内容了,经过本文的学习后,相信大家对PostgreSQL隐式类型转换中使用哪些操作符实现函数这一问题有了更深刻的体会,具体使用情况还需要大家实践验证。这里是创新互联,小编将为大家推送更多相关知识点的文章,欢迎关注!
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