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postgresql/src/backend/utils/adt/jsonb_gin.c
Tom Lane 3ed2005ff5 Introduce macros for typalign and typstorage constants. 
Our usual practice for "poor man's enum" catalog columns is to define
macros for the possible values and use those, not literal constants,
in C code.  But for some reason lost in the mists of time, this was
never done for typalign/attalign or typstorage/attstorage.  It's never
too late to make it better though, so let's do that.

The reason I got interested in this right now is the need to duplicate
some uses of the TYPSTORAGE constants in an upcoming ALTER TYPE patch.
But in general, this sort of change aids greppability and readability,
so it's a good idea even without any specific motivation.

I may have missed a few places that could be converted, and it's even
more likely that pending patches will re-introduce some hard-coded
references.  But that's not fatal --- there's no expectation that
we'd actually change any of these values.  We can clean up stragglers
over time.

Discussion: https://postgr.es/m/16457.1583189537@sss.pgh.pa.us
2020-03-04 10:34:25 -05:00

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/*-------------------------------------------------------------------------
*
* jsonb_gin.c
* GIN support functions for jsonb
*
* Copyright (c) 2014-2020, PostgreSQL Global Development Group
*
* We provide two opclasses for jsonb indexing: jsonb_ops and jsonb_path_ops.
* For their description see json.sgml and comments in jsonb.h.
*
* The operators support, among the others, "jsonb @? jsonpath" and
* "jsonb @@ jsonpath". Expressions containing these operators are easily
* expressed through each other.
*
* jb @? 'path' <=> jb @@ 'EXISTS(path)'
* jb @@ 'expr' <=> jb @? '$ ? (expr)'
*
* Thus, we're going to consider only @@ operator, while regarding @? operator
* the same is true for jb @@ 'EXISTS(path)'.
*
* Result of jsonpath query extraction is a tree, which leaf nodes are index
* entries and non-leaf nodes are AND/OR logical expressions. Basically we
* extract following statements out of jsonpath:
*
* 1) "accessors_chain = const",
* 2) "EXISTS(accessors_chain)".
*
* Accessors chain may consist of .key, [*] and [index] accessors. jsonb_ops
* additionally supports .* and .**.
*
* For now, both jsonb_ops and jsonb_path_ops supports only statements of
* the 1st find. jsonb_ops might also support statements of the 2nd kind,
* but given we have no statistics keys extracted from accessors chain
* are likely non-selective. Therefore, we choose to not confuse optimizer
* and skip statements of the 2nd kind altogether. In future versions that
* might be changed.
*
* In jsonb_ops statement of the 1st kind is split into expression of AND'ed
* keys and const. Sometimes const might be interpreted as both value or key
* in jsonb_ops. Then statement of 1st kind is decomposed into the expression
* below.
*
* key1 AND key2 AND ... AND keyN AND (const_as_value OR const_as_key)
*
* jsonb_path_ops transforms each statement of the 1st kind into single hash
* entry below.
*
* HASH(key1, key2, ... , keyN, const)
*
* Despite statements of the 2nd kind are not supported by both jsonb_ops and
* jsonb_path_ops, EXISTS(path) expressions might be still supported,
* when statements of 1st kind could be extracted out of their filters.
*
* IDENTIFICATION
* src/backend/utils/adt/jsonb_gin.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/gin.h"
#include "access/stratnum.h"
#include "catalog/pg_collation.h"
#include "catalog/pg_type.h"
#include "common/hashfn.h"
#include "miscadmin.h"
#include "utils/builtins.h"
#include "utils/jsonb.h"
#include "utils/jsonpath.h"
#include "utils/varlena.h"
typedef struct PathHashStack
{
uint32 hash;
struct PathHashStack *parent;
} PathHashStack;
/* Buffer for GIN entries */
typedef struct GinEntries
{
Datum *buf;
int count;
int allocated;
} GinEntries;
typedef enum JsonPathGinNodeType
{
JSP_GIN_OR,
JSP_GIN_AND,
JSP_GIN_ENTRY
} JsonPathGinNodeType;
typedef struct JsonPathGinNode JsonPathGinNode;
/* Node in jsonpath expression tree */
struct JsonPathGinNode
{
JsonPathGinNodeType type;
union
{
int nargs; /* valid for OR and AND nodes */
int entryIndex; /* index in GinEntries array, valid for ENTRY
* nodes after entries output */
Datum entryDatum; /* path hash or key name/scalar, valid for
* ENTRY nodes before entries output */
} val;
JsonPathGinNode *args[FLEXIBLE_ARRAY_MEMBER]; /* valid for OR and AND
* nodes */
};
/*
* jsonb_ops entry extracted from jsonpath item. Corresponding path item
* may be: '.key', '.*', '.**', '[index]' or '[*]'.
* Entry type is stored in 'type' field.
*/
typedef struct JsonPathGinPathItem
{
struct JsonPathGinPathItem *parent;
Datum keyName; /* key name (for '.key' path item) or NULL */
JsonPathItemType type; /* type of jsonpath item */
} JsonPathGinPathItem;
/* GIN representation of the extracted json path */
typedef union JsonPathGinPath
{
JsonPathGinPathItem *items; /* list of path items (jsonb_ops) */
uint32 hash; /* hash of the path (jsonb_path_ops) */
} JsonPathGinPath;
typedef struct JsonPathGinContext JsonPathGinContext;
/* Callback, which stores information about path item into JsonPathGinPath */
typedef bool (*JsonPathGinAddPathItemFunc) (JsonPathGinPath *path,
JsonPathItem *jsp);
/*
* Callback, which extracts set of nodes from statement of 1st kind
* (scalar != NULL) or statement of 2nd kind (scalar == NULL).
*/
typedef List *(*JsonPathGinExtractNodesFunc) (JsonPathGinContext *cxt,
JsonPathGinPath path,
JsonbValue *scalar,
List *nodes);
/* Context for jsonpath entries extraction */
struct JsonPathGinContext
{
JsonPathGinAddPathItemFunc add_path_item;
JsonPathGinExtractNodesFunc extract_nodes;
bool lax;
};
static Datum make_text_key(char flag, const char *str, int len);
static Datum make_scalar_key(const JsonbValue *scalarVal, bool is_key);
static JsonPathGinNode *extract_jsp_bool_expr(JsonPathGinContext *cxt,
JsonPathGinPath path, JsonPathItem *jsp, bool not);
/* Initialize GinEntries struct */
static void
init_gin_entries(GinEntries *entries, int preallocated)
{
entries->allocated = preallocated;
entries->buf = preallocated ? palloc(sizeof(Datum) * preallocated) : NULL;
entries->count = 0;
}
/* Add new entry to GinEntries */
static int
add_gin_entry(GinEntries *entries, Datum entry)
{
int id = entries->count;
if (entries->count >= entries->allocated)
{
if (entries->allocated)
{
entries->allocated *= 2;
entries->buf = repalloc(entries->buf,
sizeof(Datum) * entries->allocated);
}
else
{
entries->allocated = 8;
entries->buf = palloc(sizeof(Datum) * entries->allocated);
}
}
entries->buf[entries->count++] = entry;
return id;
}
/*
*
* jsonb_ops GIN opclass support functions
*
*/
Datum
gin_compare_jsonb(PG_FUNCTION_ARGS)
{
text *arg1 = PG_GETARG_TEXT_PP(0);
text *arg2 = PG_GETARG_TEXT_PP(1);
int32 result;
char *a1p,
*a2p;
int len1,
len2;
a1p = VARDATA_ANY(arg1);
a2p = VARDATA_ANY(arg2);
len1 = VARSIZE_ANY_EXHDR(arg1);
len2 = VARSIZE_ANY_EXHDR(arg2);
/* Compare text as bttextcmp does, but always using C collation */
result = varstr_cmp(a1p, len1, a2p, len2, C_COLLATION_OID);
PG_FREE_IF_COPY(arg1, 0);
PG_FREE_IF_COPY(arg2, 1);
PG_RETURN_INT32(result);
}
Datum
gin_extract_jsonb(PG_FUNCTION_ARGS)
{
Jsonb *jb = (Jsonb *) PG_GETARG_JSONB_P(0);
int32 *nentries = (int32 *) PG_GETARG_POINTER(1);
int total = JB_ROOT_COUNT(jb);
JsonbIterator *it;
JsonbValue v;
JsonbIteratorToken r;
GinEntries entries;
/* If the root level is empty, we certainly have no keys */
if (total == 0)
{
*nentries = 0;
PG_RETURN_POINTER(NULL);
}
/* Otherwise, use 2 * root count as initial estimate of result size */
init_gin_entries(&entries, 2 * total);
it = JsonbIteratorInit(&jb->root);
while ((r = JsonbIteratorNext(&it, &v, false)) != WJB_DONE)
{
switch (r)
{
case WJB_KEY:
add_gin_entry(&entries, make_scalar_key(&v, true));
break;
case WJB_ELEM:
/* Pretend string array elements are keys, see jsonb.h */
add_gin_entry(&entries, make_scalar_key(&v, v.type == jbvString));
break;
case WJB_VALUE:
add_gin_entry(&entries, make_scalar_key(&v, false));
break;
default:
/* we can ignore structural items */
break;
}
}
*nentries = entries.count;
PG_RETURN_POINTER(entries.buf);
}
/* Append JsonPathGinPathItem to JsonPathGinPath (jsonb_ops) */
static bool
jsonb_ops__add_path_item(JsonPathGinPath *path, JsonPathItem *jsp)
{
JsonPathGinPathItem *pentry;
Datum keyName;
switch (jsp->type)
{
case jpiRoot:
path->items = NULL; /* reset path */
return true;
case jpiKey:
{
int len;
char *key = jspGetString(jsp, &len);
keyName = make_text_key(JGINFLAG_KEY, key, len);
break;
}
case jpiAny:
case jpiAnyKey:
case jpiAnyArray:
case jpiIndexArray:
keyName = PointerGetDatum(NULL);
break;
default:
/* other path items like item methods are not supported */
return false;
}
pentry = palloc(sizeof(*pentry));
pentry->type = jsp->type;
pentry->keyName = keyName;
pentry->parent = path->items;
path->items = pentry;
return true;
}
/* Combine existing path hash with next key hash (jsonb_path_ops) */
static bool
jsonb_path_ops__add_path_item(JsonPathGinPath *path, JsonPathItem *jsp)
{
switch (jsp->type)
{
case jpiRoot:
path->hash = 0; /* reset path hash */
return true;
case jpiKey:
{
JsonbValue jbv;
jbv.type = jbvString;
jbv.val.string.val = jspGetString(jsp, &jbv.val.string.len);
JsonbHashScalarValue(&jbv, &path->hash);
return true;
}
case jpiIndexArray:
case jpiAnyArray:
return true; /* path hash is unchanged */
default:
/* other items (wildcard paths, item methods) are not supported */
return false;
}
}
static JsonPathGinNode *
make_jsp_entry_node(Datum entry)
{
JsonPathGinNode *node = palloc(offsetof(JsonPathGinNode, args));
node->type = JSP_GIN_ENTRY;
node->val.entryDatum = entry;
return node;
}
static JsonPathGinNode *
make_jsp_entry_node_scalar(JsonbValue *scalar, bool iskey)
{
return make_jsp_entry_node(make_scalar_key(scalar, iskey));
}
static JsonPathGinNode *
make_jsp_expr_node(JsonPathGinNodeType type, int nargs)
{
JsonPathGinNode *node = palloc(offsetof(JsonPathGinNode, args) +
sizeof(node->args[0]) * nargs);
node->type = type;
node->val.nargs = nargs;
return node;
}
static JsonPathGinNode *
make_jsp_expr_node_args(JsonPathGinNodeType type, List *args)
{
JsonPathGinNode *node = make_jsp_expr_node(type, list_length(args));
ListCell *lc;
int i = 0;
foreach(lc, args)
node->args[i++] = lfirst(lc);
return node;
}
static JsonPathGinNode *
make_jsp_expr_node_binary(JsonPathGinNodeType type,
JsonPathGinNode *arg1, JsonPathGinNode *arg2)
{
JsonPathGinNode *node = make_jsp_expr_node(type, 2);
node->args[0] = arg1;
node->args[1] = arg2;
return node;
}
/* Append a list of nodes from the jsonpath (jsonb_ops). */
static List *
jsonb_ops__extract_nodes(JsonPathGinContext *cxt, JsonPathGinPath path,
JsonbValue *scalar, List *nodes)
{
JsonPathGinPathItem *pentry;
if (scalar)
{
JsonPathGinNode *node;
/*
* Append path entry nodes only if scalar is provided. See header
* comment for details.
*/
for (pentry = path.items; pentry; pentry = pentry->parent)
{
if (pentry->type == jpiKey) /* only keys are indexed */
nodes = lappend(nodes, make_jsp_entry_node(pentry->keyName));
}
/* Append scalar node for equality queries. */
if (scalar->type == jbvString)
{
JsonPathGinPathItem *last = path.items;
GinTernaryValue key_entry;
/*
* Assuming that jsonb_ops interprets string array elements as
* keys, we may extract key or non-key entry or even both. In the
* latter case we create OR-node. It is possible in lax mode
* where arrays are automatically unwrapped, or in strict mode for
* jpiAny items.
*/
if (cxt->lax)
key_entry = GIN_MAYBE;
else if (!last) /* root ($) */
key_entry = GIN_FALSE;
else if (last->type == jpiAnyArray || last->type == jpiIndexArray)
key_entry = GIN_TRUE;
else if (last->type == jpiAny)
key_entry = GIN_MAYBE;
else
key_entry = GIN_FALSE;
if (key_entry == GIN_MAYBE)
{
JsonPathGinNode *n1 = make_jsp_entry_node_scalar(scalar, true);
JsonPathGinNode *n2 = make_jsp_entry_node_scalar(scalar, false);
node = make_jsp_expr_node_binary(JSP_GIN_OR, n1, n2);
}
else
{
node = make_jsp_entry_node_scalar(scalar,
key_entry == GIN_TRUE);
}
}
else
{
node = make_jsp_entry_node_scalar(scalar, false);
}
nodes = lappend(nodes, node);
}
return nodes;
}
/* Append a list of nodes from the jsonpath (jsonb_path_ops). */
static List *
jsonb_path_ops__extract_nodes(JsonPathGinContext *cxt, JsonPathGinPath path,
JsonbValue *scalar, List *nodes)
{
if (scalar)
{
/* append path hash node for equality queries */
uint32 hash = path.hash;
JsonbHashScalarValue(scalar, &hash);
return lappend(nodes,
make_jsp_entry_node(UInt32GetDatum(hash)));
}
else
{
/* jsonb_path_ops doesn't support EXISTS queries => nothing to append */
return nodes;
}
}
/*
* Extract a list of expression nodes that need to be AND-ed by the caller.
* Extracted expression is 'path == scalar' if 'scalar' is non-NULL, and
* 'EXISTS(path)' otherwise.
*/
static List *
extract_jsp_path_expr_nodes(JsonPathGinContext *cxt, JsonPathGinPath path,
JsonPathItem *jsp, JsonbValue *scalar)
{
JsonPathItem next;
List *nodes = NIL;
for (;;)
{
switch (jsp->type)
{
case jpiCurrent:
break;
case jpiFilter:
{
JsonPathItem arg;
JsonPathGinNode *filter;
jspGetArg(jsp, &arg);
filter = extract_jsp_bool_expr(cxt, path, &arg, false);
if (filter)
nodes = lappend(nodes, filter);
break;
}
default:
if (!cxt->add_path_item(&path, jsp))
/*
* Path is not supported by the index opclass, return only
* the extracted filter nodes.
*/
return nodes;
break;
}
if (!jspGetNext(jsp, &next))
break;
jsp = &next;
}
/*
* Append nodes from the path expression itself to the already extracted
* list of filter nodes.
*/
return cxt->extract_nodes(cxt, path, scalar, nodes);
}
/*
* Extract an expression node from one of following jsonpath path expressions:
* EXISTS(jsp) (when 'scalar' is NULL)
* jsp == scalar (when 'scalar' is not NULL).
*
* The current path (@) is passed in 'path'.
*/
static JsonPathGinNode *
extract_jsp_path_expr(JsonPathGinContext *cxt, JsonPathGinPath path,
JsonPathItem *jsp, JsonbValue *scalar)
{
/* extract a list of nodes to be AND-ed */
List *nodes = extract_jsp_path_expr_nodes(cxt, path, jsp, scalar);
if (list_length(nodes) <= 0)
/* no nodes were extracted => full scan is needed for this path */
return NULL;
if (list_length(nodes) == 1)
return linitial(nodes); /* avoid extra AND-node */
/* construct AND-node for path with filters */
return make_jsp_expr_node_args(JSP_GIN_AND, nodes);
}
/* Recursively extract nodes from the boolean jsonpath expression. */
static JsonPathGinNode *
extract_jsp_bool_expr(JsonPathGinContext *cxt, JsonPathGinPath path,
JsonPathItem *jsp, bool not)
{
check_stack_depth();
switch (jsp->type)
{
case jpiAnd: /* expr && expr */
case jpiOr: /* expr || expr */
{
JsonPathItem arg;
JsonPathGinNode *larg;
JsonPathGinNode *rarg;
JsonPathGinNodeType type;
jspGetLeftArg(jsp, &arg);
larg = extract_jsp_bool_expr(cxt, path, &arg, not);
jspGetRightArg(jsp, &arg);
rarg = extract_jsp_bool_expr(cxt, path, &arg, not);
if (!larg || !rarg)
{
if (jsp->type == jpiOr)
return NULL;
return larg ? larg : rarg;
}
type = not ^ (jsp->type == jpiAnd) ? JSP_GIN_AND : JSP_GIN_OR;
return make_jsp_expr_node_binary(type, larg, rarg);
}
case jpiNot: /* !expr */
{
JsonPathItem arg;
jspGetArg(jsp, &arg);
/* extract child expression inverting 'not' flag */
return extract_jsp_bool_expr(cxt, path, &arg, !not);
}
case jpiExists: /* EXISTS(path) */
{
JsonPathItem arg;
if (not)
return NULL; /* NOT EXISTS is not supported */
jspGetArg(jsp, &arg);
return extract_jsp_path_expr(cxt, path, &arg, NULL);
}
case jpiNotEqual:
/*
* 'not' == true case is not supported here because '!(path !=
* scalar)' is not equivalent to 'path == scalar' in the general
* case because of sequence comparison semantics: 'path == scalar'
* === 'EXISTS (path, @ == scalar)', '!(path != scalar)' ===
* 'FOR_ALL(path, @ == scalar)'. So, we should translate '!(path
* != scalar)' into GIN query 'path == scalar || EMPTY(path)', but
* 'EMPTY(path)' queries are not supported by the both jsonb
* opclasses. However in strict mode we could omit 'EMPTY(path)'
* part if the path can return exactly one item (it does not
* contain wildcard accessors or item methods like .keyvalue()
* etc.).
*/
return NULL;
case jpiEqual: /* path == scalar */
{
JsonPathItem left_item;
JsonPathItem right_item;
JsonPathItem *path_item;
JsonPathItem *scalar_item;
JsonbValue scalar;
if (not)
return NULL;
jspGetLeftArg(jsp, &left_item);
jspGetRightArg(jsp, &right_item);
if (jspIsScalar(left_item.type))
{
scalar_item = &left_item;
path_item = &right_item;
}
else if (jspIsScalar(right_item.type))
{
scalar_item = &right_item;
path_item = &left_item;
}
else
return NULL; /* at least one operand should be a scalar */
switch (scalar_item->type)
{
case jpiNull:
scalar.type = jbvNull;
break;
case jpiBool:
scalar.type = jbvBool;
scalar.val.boolean = !!*scalar_item->content.value.data;
break;
case jpiNumeric:
scalar.type = jbvNumeric;
scalar.val.numeric =
(Numeric) scalar_item->content.value.data;
break;
case jpiString:
scalar.type = jbvString;
scalar.val.string.val = scalar_item->content.value.data;
scalar.val.string.len =
scalar_item->content.value.datalen;
break;
default:
elog(ERROR, "invalid scalar jsonpath item type: %d",
scalar_item->type);
return NULL;
}
return extract_jsp_path_expr(cxt, path, path_item, &scalar);
}
default:
return NULL; /* not a boolean expression */
}
}
/* Recursively emit all GIN entries found in the node tree */
static void
emit_jsp_gin_entries(JsonPathGinNode *node, GinEntries *entries)
{
check_stack_depth();
switch (node->type)
{
case JSP_GIN_ENTRY:
/* replace datum with its index in the array */
node->val.entryIndex = add_gin_entry(entries, node->val.entryDatum);
break;
case JSP_GIN_OR:
case JSP_GIN_AND:
{
int i;
for (i = 0; i < node->val.nargs; i++)
emit_jsp_gin_entries(node->args[i], entries);
break;
}
}
}
/*
* Recursively extract GIN entries from jsonpath query.
* Root expression node is put into (*extra_data)[0].
*/
static Datum *
extract_jsp_query(JsonPath *jp, StrategyNumber strat, bool pathOps,
int32 *nentries, Pointer **extra_data)
{
JsonPathGinContext cxt;
JsonPathItem root;
JsonPathGinNode *node;
JsonPathGinPath path = {0};
GinEntries entries = {0};
cxt.lax = (jp->header & JSONPATH_LAX) != 0;
if (pathOps)
{
cxt.add_path_item = jsonb_path_ops__add_path_item;
cxt.extract_nodes = jsonb_path_ops__extract_nodes;
}
else
{
cxt.add_path_item = jsonb_ops__add_path_item;
cxt.extract_nodes = jsonb_ops__extract_nodes;
}
jspInit(&root, jp);
node = strat == JsonbJsonpathExistsStrategyNumber
? extract_jsp_path_expr(&cxt, path, &root, NULL)
: extract_jsp_bool_expr(&cxt, path, &root, false);
if (!node)
{
*nentries = 0;
return NULL;
}
emit_jsp_gin_entries(node, &entries);
*nentries = entries.count;
if (!*nentries)
return NULL;
*extra_data = palloc0(sizeof(**extra_data) * entries.count);
**extra_data = (Pointer) node;
return entries.buf;
}
/*
* Recursively execute jsonpath expression.
* 'check' is a bool[] or a GinTernaryValue[] depending on 'ternary' flag.
*/
static GinTernaryValue
execute_jsp_gin_node(JsonPathGinNode *node, void *check, bool ternary)
{
GinTernaryValue res;
GinTernaryValue v;
int i;
switch (node->type)
{
case JSP_GIN_AND:
res = GIN_TRUE;
for (i = 0; i < node->val.nargs; i++)
{
v = execute_jsp_gin_node(node->args[i], check, ternary);
if (v == GIN_FALSE)
return GIN_FALSE;
else if (v == GIN_MAYBE)
res = GIN_MAYBE;
}
return res;
case JSP_GIN_OR:
res = GIN_FALSE;
for (i = 0; i < node->val.nargs; i++)
{
v = execute_jsp_gin_node(node->args[i], check, ternary);
if (v == GIN_TRUE)
return GIN_TRUE;
else if (v == GIN_MAYBE)
res = GIN_MAYBE;
}
return res;
case JSP_GIN_ENTRY:
{
int index = node->val.entryIndex;
if (ternary)
return ((GinTernaryValue *) check)[index];
else
return ((bool *) check)[index] ? GIN_TRUE : GIN_FALSE;
}
default:
elog(ERROR, "invalid jsonpath gin node type: %d", node->type);
return GIN_FALSE; /* keep compiler quiet */
}
}
Datum
gin_extract_jsonb_query(PG_FUNCTION_ARGS)
{
int32 *nentries = (int32 *) PG_GETARG_POINTER(1);
StrategyNumber strategy = PG_GETARG_UINT16(2);
int32 *searchMode = (int32 *) PG_GETARG_POINTER(6);
Datum *entries;
if (strategy == JsonbContainsStrategyNumber)
{
/* Query is a jsonb, so just apply gin_extract_jsonb... */
entries = (Datum *)
DatumGetPointer(DirectFunctionCall2(gin_extract_jsonb,
PG_GETARG_DATUM(0),
PointerGetDatum(nentries)));
/* ...although "contains {}" requires a full index scan */
if (*nentries == 0)
*searchMode = GIN_SEARCH_MODE_ALL;
}
else if (strategy == JsonbExistsStrategyNumber)
{
/* Query is a text string, which we treat as a key */
text *query = PG_GETARG_TEXT_PP(0);
*nentries = 1;
entries = (Datum *) palloc(sizeof(Datum));
entries[0] = make_text_key(JGINFLAG_KEY,
VARDATA_ANY(query),
VARSIZE_ANY_EXHDR(query));
}
else if (strategy == JsonbExistsAnyStrategyNumber ||
strategy == JsonbExistsAllStrategyNumber)
{
/* Query is a text array; each element is treated as a key */
ArrayType *query = PG_GETARG_ARRAYTYPE_P(0);
Datum *key_datums;
bool *key_nulls;
int key_count;
int i,
j;
deconstruct_array(query,
TEXTOID, -1, false, TYPALIGN_INT,
&key_datums, &key_nulls, &key_count);
entries = (Datum *) palloc(sizeof(Datum) * key_count);
for (i = 0, j = 0; i < key_count; i++)
{
/* Nulls in the array are ignored */
if (key_nulls[i])
continue;
entries[j++] = make_text_key(JGINFLAG_KEY,
VARDATA(key_datums[i]),
VARSIZE(key_datums[i]) - VARHDRSZ);
}
*nentries = j;
/* ExistsAll with no keys should match everything */
if (j == 0 && strategy == JsonbExistsAllStrategyNumber)
*searchMode = GIN_SEARCH_MODE_ALL;
}
else if (strategy == JsonbJsonpathPredicateStrategyNumber ||
strategy == JsonbJsonpathExistsStrategyNumber)
{
JsonPath *jp = PG_GETARG_JSONPATH_P(0);
Pointer **extra_data = (Pointer **) PG_GETARG_POINTER(4);
entries = extract_jsp_query(jp, strategy, false, nentries, extra_data);
if (!entries)
*searchMode = GIN_SEARCH_MODE_ALL;
}
else
{
elog(ERROR, "unrecognized strategy number: %d", strategy);
entries = NULL; /* keep compiler quiet */
}
PG_RETURN_POINTER(entries);
}
Datum
gin_consistent_jsonb(PG_FUNCTION_ARGS)
{
bool *check = (bool *) PG_GETARG_POINTER(0);
StrategyNumber strategy = PG_GETARG_UINT16(1);
/* Jsonb *query = PG_GETARG_JSONB_P(2); */
int32 nkeys = PG_GETARG_INT32(3);
Pointer *extra_data = (Pointer *) PG_GETARG_POINTER(4);
bool *recheck = (bool *) PG_GETARG_POINTER(5);
bool res = true;
int32 i;
if (strategy == JsonbContainsStrategyNumber)
{
/*
* We must always recheck, since we can't tell from the index whether
* the positions of the matched items match the structure of the query
* object. (Even if we could, we'd also have to worry about hashed
* keys and the index's failure to distinguish keys from string array
* elements.) However, the tuple certainly doesn't match unless it
* contains all the query keys.
*/
*recheck = true;
for (i = 0; i < nkeys; i++)
{
if (!check[i])
{
res = false;
break;
}
}
}
else if (strategy == JsonbExistsStrategyNumber)
{
/*
* Although the key is certainly present in the index, we must recheck
* because (1) the key might be hashed, and (2) the index match might
* be for a key that's not at top level of the JSON object. For (1),
* we could look at the query key to see if it's hashed and not
* recheck if not, but the index lacks enough info to tell about (2).
*/
*recheck = true;
res = true;
}
else if (strategy == JsonbExistsAnyStrategyNumber)
{
/* As for plain exists, we must recheck */
*recheck = true;
res = true;
}
else if (strategy == JsonbExistsAllStrategyNumber)
{
/* As for plain exists, we must recheck */
*recheck = true;
/* ... but unless all the keys are present, we can say "false" */
for (i = 0; i < nkeys; i++)
{
if (!check[i])
{
res = false;
break;
}
}
}
else if (strategy == JsonbJsonpathPredicateStrategyNumber ||
strategy == JsonbJsonpathExistsStrategyNumber)
{
*recheck = true;
if (nkeys > 0)
{
Assert(extra_data && extra_data[0]);
res = execute_jsp_gin_node((JsonPathGinNode *) extra_data[0], check,
false) != GIN_FALSE;
}
}
else
elog(ERROR, "unrecognized strategy number: %d", strategy);
PG_RETURN_BOOL(res);
}
Datum
gin_triconsistent_jsonb(PG_FUNCTION_ARGS)
{
GinTernaryValue *check = (GinTernaryValue *) PG_GETARG_POINTER(0);
StrategyNumber strategy = PG_GETARG_UINT16(1);
/* Jsonb *query = PG_GETARG_JSONB_P(2); */
int32 nkeys = PG_GETARG_INT32(3);
Pointer *extra_data = (Pointer *) PG_GETARG_POINTER(4);
GinTernaryValue res = GIN_MAYBE;
int32 i;
/*
* Note that we never return GIN_TRUE, only GIN_MAYBE or GIN_FALSE; this
* corresponds to always forcing recheck in the regular consistent
* function, for the reasons listed there.
*/
if (strategy == JsonbContainsStrategyNumber ||
strategy == JsonbExistsAllStrategyNumber)
{
/* All extracted keys must be present */
for (i = 0; i < nkeys; i++)
{
if (check[i] == GIN_FALSE)
{
res = GIN_FALSE;
break;
}
}
}
else if (strategy == JsonbExistsStrategyNumber ||
strategy == JsonbExistsAnyStrategyNumber)
{
/* At least one extracted key must be present */
res = GIN_FALSE;
for (i = 0; i < nkeys; i++)
{
if (check[i] == GIN_TRUE ||
check[i] == GIN_MAYBE)
{
res = GIN_MAYBE;
break;
}
}
}
else if (strategy == JsonbJsonpathPredicateStrategyNumber ||
strategy == JsonbJsonpathExistsStrategyNumber)
{
if (nkeys > 0)
{
Assert(extra_data && extra_data[0]);
res = execute_jsp_gin_node((JsonPathGinNode *) extra_data[0], check,
true);
/* Should always recheck the result */
if (res == GIN_TRUE)
res = GIN_MAYBE;
}
}
else
elog(ERROR, "unrecognized strategy number: %d", strategy);
PG_RETURN_GIN_TERNARY_VALUE(res);
}
/*
*
* jsonb_path_ops GIN opclass support functions
*
* In a jsonb_path_ops index, the GIN keys are uint32 hashes, one per JSON
* value; but the JSON key(s) leading to each value are also included in its
* hash computation. This means we can only support containment queries,
* but the index can distinguish, for example, {"foo": 42} from {"bar": 42}
* since different hashes will be generated.
*
*/
Datum
gin_extract_jsonb_path(PG_FUNCTION_ARGS)
{
Jsonb *jb = PG_GETARG_JSONB_P(0);
int32 *nentries = (int32 *) PG_GETARG_POINTER(1);
int total = JB_ROOT_COUNT(jb);
JsonbIterator *it;
JsonbValue v;
JsonbIteratorToken r;
PathHashStack tail;
PathHashStack *stack;
GinEntries entries;
/* If the root level is empty, we certainly have no keys */
if (total == 0)
{
*nentries = 0;
PG_RETURN_POINTER(NULL);
}
/* Otherwise, use 2 * root count as initial estimate of result size */
init_gin_entries(&entries, 2 * total);
/* We keep a stack of partial hashes corresponding to parent key levels */
tail.parent = NULL;
tail.hash = 0;
stack = &tail;
it = JsonbIteratorInit(&jb->root);
while ((r = JsonbIteratorNext(&it, &v, false)) != WJB_DONE)
{
PathHashStack *parent;
switch (r)
{
case WJB_BEGIN_ARRAY:
case WJB_BEGIN_OBJECT:
/* Push a stack level for this object */
parent = stack;
stack = (PathHashStack *) palloc(sizeof(PathHashStack));
/*
* We pass forward hashes from outer nesting levels so that
* the hashes for nested values will include outer keys as
* well as their own keys.
*
* Nesting an array within another array will not alter
* innermost scalar element hash values, but that seems
* inconsequential.
*/
stack->hash = parent->hash;
stack->parent = parent;
break;
case WJB_KEY:
/* mix this key into the current outer hash */
JsonbHashScalarValue(&v, &stack->hash);
/* hash is now ready to incorporate the value */
break;
case WJB_ELEM:
case WJB_VALUE:
/* mix the element or value's hash into the prepared hash */
JsonbHashScalarValue(&v, &stack->hash);
/* and emit an index entry */
add_gin_entry(&entries, UInt32GetDatum(stack->hash));
/* reset hash for next key, value, or sub-object */
stack->hash = stack->parent->hash;
break;
case WJB_END_ARRAY:
case WJB_END_OBJECT:
/* Pop the stack */
parent = stack->parent;
pfree(stack);
stack = parent;
/* reset hash for next key, value, or sub-object */
if (stack->parent)
stack->hash = stack->parent->hash;
else
stack->hash = 0;
break;
default:
elog(ERROR, "invalid JsonbIteratorNext rc: %d", (int) r);
}
}
*nentries = entries.count;
PG_RETURN_POINTER(entries.buf);
}
Datum
gin_extract_jsonb_query_path(PG_FUNCTION_ARGS)
{
int32 *nentries = (int32 *) PG_GETARG_POINTER(1);
StrategyNumber strategy = PG_GETARG_UINT16(2);
int32 *searchMode = (int32 *) PG_GETARG_POINTER(6);
Datum *entries;
if (strategy == JsonbContainsStrategyNumber)
{
/* Query is a jsonb, so just apply gin_extract_jsonb_path ... */
entries = (Datum *)
DatumGetPointer(DirectFunctionCall2(gin_extract_jsonb_path,
PG_GETARG_DATUM(0),
PointerGetDatum(nentries)));
/* ... although "contains {}" requires a full index scan */
if (*nentries == 0)
*searchMode = GIN_SEARCH_MODE_ALL;
}
else if (strategy == JsonbJsonpathPredicateStrategyNumber ||
strategy == JsonbJsonpathExistsStrategyNumber)
{
JsonPath *jp = PG_GETARG_JSONPATH_P(0);
Pointer **extra_data = (Pointer **) PG_GETARG_POINTER(4);
entries = extract_jsp_query(jp, strategy, true, nentries, extra_data);
if (!entries)
*searchMode = GIN_SEARCH_MODE_ALL;
}
else
{
elog(ERROR, "unrecognized strategy number: %d", strategy);
entries = NULL;
}
PG_RETURN_POINTER(entries);
}
Datum
gin_consistent_jsonb_path(PG_FUNCTION_ARGS)
{
bool *check = (bool *) PG_GETARG_POINTER(0);
StrategyNumber strategy = PG_GETARG_UINT16(1);
/* Jsonb *query = PG_GETARG_JSONB_P(2); */
int32 nkeys = PG_GETARG_INT32(3);
Pointer *extra_data = (Pointer *) PG_GETARG_POINTER(4);
bool *recheck = (bool *) PG_GETARG_POINTER(5);
bool res = true;
int32 i;
if (strategy == JsonbContainsStrategyNumber)
{
/*
* jsonb_path_ops is necessarily lossy, not only because of hash
* collisions but also because it doesn't preserve complete
* information about the structure of the JSON object. Besides, there
* are some special rules around the containment of raw scalars in
* arrays that are not handled here. So we must always recheck a
* match. However, if not all of the keys are present, the tuple
* certainly doesn't match.
*/
*recheck = true;
for (i = 0; i < nkeys; i++)
{
if (!check[i])
{
res = false;
break;
}
}
}
else if (strategy == JsonbJsonpathPredicateStrategyNumber ||
strategy == JsonbJsonpathExistsStrategyNumber)
{
*recheck = true;
if (nkeys > 0)
{
Assert(extra_data && extra_data[0]);
res = execute_jsp_gin_node((JsonPathGinNode *) extra_data[0], check,
false) != GIN_FALSE;
}
}
else
elog(ERROR, "unrecognized strategy number: %d", strategy);
PG_RETURN_BOOL(res);
}
Datum
gin_triconsistent_jsonb_path(PG_FUNCTION_ARGS)
{
GinTernaryValue *check = (GinTernaryValue *) PG_GETARG_POINTER(0);
StrategyNumber strategy = PG_GETARG_UINT16(1);
/* Jsonb *query = PG_GETARG_JSONB_P(2); */
int32 nkeys = PG_GETARG_INT32(3);
Pointer *extra_data = (Pointer *) PG_GETARG_POINTER(4);
GinTernaryValue res = GIN_MAYBE;
int32 i;
if (strategy == JsonbContainsStrategyNumber)
{
/*
* Note that we never return GIN_TRUE, only GIN_MAYBE or GIN_FALSE;
* this corresponds to always forcing recheck in the regular
* consistent function, for the reasons listed there.
*/
for (i = 0; i < nkeys; i++)
{
if (check[i] == GIN_FALSE)
{
res = GIN_FALSE;
break;
}
}
}
else if (strategy == JsonbJsonpathPredicateStrategyNumber ||
strategy == JsonbJsonpathExistsStrategyNumber)
{
if (nkeys > 0)
{
Assert(extra_data && extra_data[0]);
res = execute_jsp_gin_node((JsonPathGinNode *) extra_data[0], check,
true);
/* Should always recheck the result */
if (res == GIN_TRUE)
res = GIN_MAYBE;
}
}
else
elog(ERROR, "unrecognized strategy number: %d", strategy);
PG_RETURN_GIN_TERNARY_VALUE(res);
}
/*
* Construct a jsonb_ops GIN key from a flag byte and a textual representation
* (which need not be null-terminated). This function is responsible
* for hashing overlength text representations; it will add the
* JGINFLAG_HASHED bit to the flag value if it does that.
*/
static Datum
make_text_key(char flag, const char *str, int len)
{
text *item;
char hashbuf[10];
if (len > JGIN_MAXLENGTH)
{
uint32 hashval;
hashval = DatumGetUInt32(hash_any((const unsigned char *) str, len));
snprintf(hashbuf, sizeof(hashbuf), "%08x", hashval);
str = hashbuf;
len = 8;
flag |= JGINFLAG_HASHED;
}
/*
* Now build the text Datum. For simplicity we build a 4-byte-header
* varlena text Datum here, but we expect it will get converted to short
* header format when stored in the index.
*/
item = (text *) palloc(VARHDRSZ + len + 1);
SET_VARSIZE(item, VARHDRSZ + len + 1);
*VARDATA(item) = flag;
memcpy(VARDATA(item) + 1, str, len);
return PointerGetDatum(item);
}
/*
* Create a textual representation of a JsonbValue that will serve as a GIN
* key in a jsonb_ops index. is_key is true if the JsonbValue is a key,
* or if it is a string array element (since we pretend those are keys,
* see jsonb.h).
*/
static Datum
make_scalar_key(const JsonbValue *scalarVal, bool is_key)
{
Datum item;
char *cstr;
switch (scalarVal->type)
{
case jbvNull:
Assert(!is_key);
item = make_text_key(JGINFLAG_NULL, "", 0);
break;
case jbvBool:
Assert(!is_key);
item = make_text_key(JGINFLAG_BOOL,
scalarVal->val.boolean ? "t" : "f", 1);
break;
case jbvNumeric:
Assert(!is_key);
/*
* A normalized textual representation, free of trailing zeroes,
* is required so that numerically equal values will produce equal
* strings.
*
* It isn't ideal that numerics are stored in a relatively bulky
* textual format. However, it's a notationally convenient way of
* storing a "union" type in the GIN B-Tree, and indexing Jsonb
* strings takes precedence.
*/
cstr = numeric_normalize(scalarVal->val.numeric);
item = make_text_key(JGINFLAG_NUM, cstr, strlen(cstr));
pfree(cstr);
break;
case jbvString:
item = make_text_key(is_key ? JGINFLAG_KEY : JGINFLAG_STR,
scalarVal->val.string.val,
scalarVal->val.string.len);
break;
default:
elog(ERROR, "unrecognized jsonb scalar type: %d", scalarVal->type);
item = 0; /* keep compiler quiet */
break;
}
return item;
}
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