From 5e45211a64149b3c659b90ff2de6fa982a5a93ed Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sat, 4 May 2024 14:17:33 +0200 Subject: Adding upstream version 15.5. Signed-off-by: Daniel Baumann --- doc/src/sgml/html/functions-json.html | 1781 +++++++++++++++++++++++++++++++++ 1 file changed, 1781 insertions(+) create mode 100644 doc/src/sgml/html/functions-json.html (limited to 'doc/src/sgml/html/functions-json.html') diff --git a/doc/src/sgml/html/functions-json.html b/doc/src/sgml/html/functions-json.html new file mode 100644 index 0000000..5f454a1 --- /dev/null +++ b/doc/src/sgml/html/functions-json.html @@ -0,0 +1,1781 @@ + +9.16. JSON Functions and Operators
9.16. JSON Functions and Operators
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9.16. JSON Functions and Operators

9.16.1. Processing and Creating JSON Data
9.16.2. The SQL/JSON Path Language

+ This section describes: + +

  • + functions and operators for processing and creating JSON data +

  • + the SQL/JSON path language +

+

+ To learn more about the SQL/JSON standard, see + [sqltr-19075-6]. For details on JSON types + supported in PostgreSQL, + see Section 8.14. +

9.16.1. Processing and Creating JSON Data

+ Table 9.45 shows the operators that + are available for use with JSON data types (see Section 8.14). + In addition, the usual comparison operators shown in Table 9.1 are available for + jsonb, though not for json. The comparison + operators follow the ordering rules for B-tree operations outlined in + Section 8.14.4. + See also Section 9.21 for the aggregate + function json_agg which aggregates record + values as JSON, the aggregate function + json_object_agg which aggregates pairs of values + into a JSON object, and their jsonb equivalents, + jsonb_agg and jsonb_object_agg. +

Table 9.45. json and jsonb Operators

+ Operator +

+

+ Description +

+

+ Example(s) +

+ json -> integer + → json +

+

+ jsonb -> integer + → jsonb +

+

+ Extracts n'th element of JSON array + (array elements are indexed from zero, but negative integers count + from the end). +

+

+ '[{"a":"foo"},{"b":"bar"},{"c":"baz"}]'::json -> 2 + → {"c":"baz"} +

+

+ '[{"a":"foo"},{"b":"bar"},{"c":"baz"}]'::json -> -3 + → {"a":"foo"} +

+ json -> text + → json +

+

+ jsonb -> text + → jsonb +

+

+ Extracts JSON object field with the given key. +

+

+ '{"a": {"b":"foo"}}'::json -> 'a' + → {"b":"foo"} +

+ json ->> integer + → text +

+

+ jsonb ->> integer + → text +

+

+ Extracts n'th element of JSON array, + as text. +

+

+ '[1,2,3]'::json ->> 2 + → 3 +

+ json ->> text + → text +

+

+ jsonb ->> text + → text +

+

+ Extracts JSON object field with the given key, as text. +

+

+ '{"a":1,"b":2}'::json ->> 'b' + → 2 +

+ json #> text[] + → json +

+

+ jsonb #> text[] + → jsonb +

+

+ Extracts JSON sub-object at the specified path, where path elements + can be either field keys or array indexes. +

+

+ '{"a": {"b": ["foo","bar"]}}'::json #> '{a,b,1}' + → "bar" +

+ json #>> text[] + → text +

+

+ jsonb #>> text[] + → text +

+

+ Extracts JSON sub-object at the specified path as text. +

+

+ '{"a": {"b": ["foo","bar"]}}'::json #>> '{a,b,1}' + → bar +


Note

+ The field/element/path extraction operators return NULL, rather than + failing, if the JSON input does not have the right structure to match + the request; for example if no such key or array element exists. +

+ Some further operators exist only for jsonb, as shown + in Table 9.46. + Section 8.14.4 + describes how these operators can be used to effectively search indexed + jsonb data. +

Table 9.46. Additional jsonb Operators

+ Operator +

+

+ Description +

+

+ Example(s) +

+ jsonb @> jsonb + → boolean +

+

+ Does the first JSON value contain the second? + (See Section 8.14.3 for details about containment.) +

+

+ '{"a":1, "b":2}'::jsonb @> '{"b":2}'::jsonb + → t +

+ jsonb <@ jsonb + → boolean +

+

+ Is the first JSON value contained in the second? +

+

+ '{"b":2}'::jsonb <@ '{"a":1, "b":2}'::jsonb + → t +

+ jsonb ? text + → boolean +

+

+ Does the text string exist as a top-level key or array element within + the JSON value? +

+

+ '{"a":1, "b":2}'::jsonb ? 'b' + → t +

+

+ '["a", "b", "c"]'::jsonb ? 'b' + → t +

+ jsonb ?| text[] + → boolean +

+

+ Do any of the strings in the text array exist as top-level keys or + array elements? +

+

+ '{"a":1, "b":2, "c":3}'::jsonb ?| array['b', 'd'] + → t +

+ jsonb ?& text[] + → boolean +

+

+ Do all of the strings in the text array exist as top-level keys or + array elements? +

+

+ '["a", "b", "c"]'::jsonb ?& array['a', 'b'] + → t +

+ jsonb || jsonb + → jsonb +

+

+ Concatenates two jsonb values. + Concatenating two arrays generates an array containing all the + elements of each input. Concatenating two objects generates an + object containing the union of their + keys, taking the second object's value when there are duplicate keys. + All other cases are treated by converting a non-array input into a + single-element array, and then proceeding as for two arrays. + Does not operate recursively: only the top-level array or object + structure is merged. +

+

+ '["a", "b"]'::jsonb || '["a", "d"]'::jsonb + → ["a", "b", "a", "d"] +

+

+ '{"a": "b"}'::jsonb || '{"c": "d"}'::jsonb + → {"a": "b", "c": "d"} +

+

+ '[1, 2]'::jsonb || '3'::jsonb + → [1, 2, 3] +

+

+ '{"a": "b"}'::jsonb || '42'::jsonb + → [{"a": "b"}, 42] +

+

+ To append an array to another array as a single entry, wrap it + in an additional layer of array, for example: +

+

+ '[1, 2]'::jsonb || jsonb_build_array('[3, 4]'::jsonb) + → [1, 2, [3, 4]] +

+ jsonb - text + → jsonb +

+

+ Deletes a key (and its value) from a JSON object, or matching string + value(s) from a JSON array. +

+

+ '{"a": "b", "c": "d"}'::jsonb - 'a' + → {"c": "d"} +

+

+ '["a", "b", "c", "b"]'::jsonb - 'b' + → ["a", "c"] +

+ jsonb - text[] + → jsonb +

+

+ Deletes all matching keys or array elements from the left operand. +

+

+ '{"a": "b", "c": "d"}'::jsonb - '{a,c}'::text[] + → {} +

+ jsonb - integer + → jsonb +

+

+ Deletes the array element with specified index (negative + integers count from the end). Throws an error if JSON value + is not an array. +

+

+ '["a", "b"]'::jsonb - 1 + → ["a"] +

+ jsonb #- text[] + → jsonb +

+

+ Deletes the field or array element at the specified path, where path + elements can be either field keys or array indexes. +

+

+ '["a", {"b":1}]'::jsonb #- '{1,b}' + → ["a", {}] +

+ jsonb @? jsonpath + → boolean +

+

+ Does JSON path return any item for the specified JSON value? +

+

+ '{"a":[1,2,3,4,5]}'::jsonb @? '$.a[*] ? (@ > 2)' + → t +

+ jsonb @@ jsonpath + → boolean +

+

+ Returns the result of a JSON path predicate check for the + specified JSON value. Only the first item of the result is taken into + account. If the result is not Boolean, then NULL + is returned. +

+

+ '{"a":[1,2,3,4,5]}'::jsonb @@ '$.a[*] > 2' + → t +


Note

+ The jsonpath operators @? + and @@ suppress the following errors: missing object + field or array element, unexpected JSON item type, datetime and numeric + errors. The jsonpath-related functions described below can + also be told to suppress these types of errors. This behavior might be + helpful when searching JSON document collections of varying structure. +

+ Table 9.47 shows the functions that are + available for constructing json and jsonb values. +

Table 9.47. JSON Creation Functions

+ Function +

+

+ Description +

+

+ Example(s) +

+ + to_json ( anyelement ) + → json +

+

+ + to_jsonb ( anyelement ) + → jsonb +

+

+ Converts any SQL value to json or jsonb. + Arrays and composites are converted recursively to arrays and + objects (multidimensional arrays become arrays of arrays in JSON). + Otherwise, if there is a cast from the SQL data type + to json, the cast function will be used to perform the + conversion;[a] + otherwise, a scalar JSON value is produced. For any scalar other than + a number, a Boolean, or a null value, the text representation will be + used, with escaping as necessary to make it a valid JSON string value. +

+

+ to_json('Fred said "Hi."'::text) + → "Fred said \"Hi.\"" +

+

+ to_jsonb(row(42, 'Fred said "Hi."'::text)) + → {"f1": 42, "f2": "Fred said \"Hi.\""} +

+ + array_to_json ( anyarray [, boolean ] ) + → json +

+

+ Converts an SQL array to a JSON array. The behavior is the same + as to_json except that line feeds will be added + between top-level array elements if the optional boolean parameter is + true. +

+

+ array_to_json('{{1,5},{99,100}}'::int[]) + → [[1,5],[99,100]] +

+ + row_to_json ( record [, boolean ] ) + → json +

+

+ Converts an SQL composite value to a JSON object. The behavior is the + same as to_json except that line feeds will be + added between top-level elements if the optional boolean parameter is + true. +

+

+ row_to_json(row(1,'foo')) + → {"f1":1,"f2":"foo"} +

+ + json_build_array ( VARIADIC "any" ) + → json +

+

+ + jsonb_build_array ( VARIADIC "any" ) + → jsonb +

+

+ Builds a possibly-heterogeneously-typed JSON array out of a variadic + argument list. Each argument is converted as + per to_json or to_jsonb. +

+

+ json_build_array(1, 2, 'foo', 4, 5) + → [1, 2, "foo", 4, 5] +

+ + json_build_object ( VARIADIC "any" ) + → json +

+

+ + jsonb_build_object ( VARIADIC "any" ) + → jsonb +

+

+ Builds a JSON object out of a variadic argument list. By convention, + the argument list consists of alternating keys and values. Key + arguments are coerced to text; value arguments are converted as + per to_json or to_jsonb. +

+

+ json_build_object('foo', 1, 2, row(3,'bar')) + → {"foo" : 1, "2" : {"f1":3,"f2":"bar"}} +

+ + json_object ( text[] ) + → json +

+

+ + jsonb_object ( text[] ) + → jsonb +

+

+ Builds a JSON object out of a text array. The array must have either + exactly one dimension with an even number of members, in which case + they are taken as alternating key/value pairs, or two dimensions + such that each inner array has exactly two elements, which + are taken as a key/value pair. All values are converted to JSON + strings. +

+

+ json_object('{a, 1, b, "def", c, 3.5}') + → {"a" : "1", "b" : "def", "c" : "3.5"} +

+

json_object('{{a, 1}, {b, "def"}, {c, 3.5}}') + → {"a" : "1", "b" : "def", "c" : "3.5"} +

+ json_object ( keys text[], values text[] ) + → json +

+

+ jsonb_object ( keys text[], values text[] ) + → jsonb +

+

+ This form of json_object takes keys and values + pairwise from separate text arrays. Otherwise it is identical to + the one-argument form. +

+

+ json_object('{a,b}', '{1,2}') + → {"a": "1", "b": "2"} +

[a] + For example, the hstore extension has a cast + from hstore to json, so that + hstore values converted via the JSON creation functions + will be represented as JSON objects, not as primitive string values. +


+ Table 9.48 shows the functions that + are available for processing json and jsonb values. +

Table 9.48. JSON Processing Functions

+ Function +

+

+ Description +

+

+ Example(s) +

+ + json_array_elements ( json ) + → setof json +

+

+ + jsonb_array_elements ( jsonb ) + → setof jsonb +

+

+ Expands the top-level JSON array into a set of JSON values. +

+

+ select * from json_array_elements('[1,true, [2,false]]') + → +

+   value
+-----------
+ 1
+ true
+ [2,false]
+

+

+ + json_array_elements_text ( json ) + → setof text +

+

+ + jsonb_array_elements_text ( jsonb ) + → setof text +

+

+ Expands the top-level JSON array into a set of text values. +

+

+ select * from json_array_elements_text('["foo", "bar"]') + → +

+   value
+-----------
+ foo
+ bar
+

+

+ + json_array_length ( json ) + → integer +

+

+ + jsonb_array_length ( jsonb ) + → integer +

+

+ Returns the number of elements in the top-level JSON array. +

+

+ json_array_length('[1,2,3,{"f1":1,"f2":[5,6]},4]') + → 5 +

+

+ jsonb_array_length('[]') + → 0 +

+ + json_each ( json ) + → setof record + ( key text, + value json ) +

+

+ + jsonb_each ( jsonb ) + → setof record + ( key text, + value jsonb ) +

+

+ Expands the top-level JSON object into a set of key/value pairs. +

+

+ select * from json_each('{"a":"foo", "b":"bar"}') + → +

+ key | value
+-----+-------
+ a   | "foo"
+ b   | "bar"
+

+

+ + json_each_text ( json ) + → setof record + ( key text, + value text ) +

+

+ + jsonb_each_text ( jsonb ) + → setof record + ( key text, + value text ) +

+

+ Expands the top-level JSON object into a set of key/value pairs. + The returned values will be of + type text. +

+

+ select * from json_each_text('{"a":"foo", "b":"bar"}') + → +

+ key | value
+-----+-------
+ a   | foo
+ b   | bar
+

+

+ + json_extract_path ( from_json json, VARIADIC path_elems text[] ) + → json +

+

+ + jsonb_extract_path ( from_json jsonb, VARIADIC path_elems text[] ) + → jsonb +

+

+ Extracts JSON sub-object at the specified path. + (This is functionally equivalent to the #> + operator, but writing the path out as a variadic list can be more + convenient in some cases.) +

+

+ json_extract_path('{"f2":{"f3":1},"f4":{"f5":99,"f6":"foo"}}', 'f4', 'f6') + → "foo" +

+ + json_extract_path_text ( from_json json, VARIADIC path_elems text[] ) + → text +

+

+ + jsonb_extract_path_text ( from_json jsonb, VARIADIC path_elems text[] ) + → text +

+

+ Extracts JSON sub-object at the specified path as text. + (This is functionally equivalent to the #>> + operator.) +

+

+ json_extract_path_text('{"f2":{"f3":1},"f4":{"f5":99,"f6":"foo"}}', 'f4', 'f6') + → foo +

+ + json_object_keys ( json ) + → setof text +

+

+ + jsonb_object_keys ( jsonb ) + → setof text +

+

+ Returns the set of keys in the top-level JSON object. +

+

+ select * from json_object_keys('{"f1":"abc","f2":{"f3":"a", "f4":"b"}}') + → +

+ json_object_keys
+------------------
+ f1
+ f2
+

+

+ + json_populate_record ( base anyelement, from_json json ) + → anyelement +

+

+ + jsonb_populate_record ( base anyelement, from_json jsonb ) + → anyelement +

+

+ Expands the top-level JSON object to a row having the composite type + of the base argument. The JSON object + is scanned for fields whose names match column names of the output row + type, and their values are inserted into those columns of the output. + (Fields that do not correspond to any output column name are ignored.) + In typical use, the value of base is just + NULL, which means that any output columns that do + not match any object field will be filled with nulls. However, + if base isn't NULL then + the values it contains will be used for unmatched columns. +

+

+ To convert a JSON value to the SQL type of an output column, the + following rules are applied in sequence: +

  • + A JSON null value is converted to an SQL null in all cases. +

  • + If the output column is of type json + or jsonb, the JSON value is just reproduced exactly. +

  • + If the output column is a composite (row) type, and the JSON value + is a JSON object, the fields of the object are converted to columns + of the output row type by recursive application of these rules. +

  • + Likewise, if the output column is an array type and the JSON value + is a JSON array, the elements of the JSON array are converted to + elements of the output array by recursive application of these + rules. +

  • + Otherwise, if the JSON value is a string, the contents of the + string are fed to the input conversion function for the column's + data type. +

  • + Otherwise, the ordinary text representation of the JSON value is + fed to the input conversion function for the column's data type. +

+

+

+ While the example below uses a constant JSON value, typical use would + be to reference a json or jsonb column + laterally from another table in the query's FROM + clause. Writing json_populate_record in + the FROM clause is good practice, since all of the + extracted columns are available for use without duplicate function + calls. +

+

+ create type subrowtype as (d int, e text); + create type myrowtype as (a int, b text[], c subrowtype); +

+

+ select * from json_populate_record(null::myrowtype, + '{"a": 1, "b": ["2", "a b"], "c": {"d": 4, "e": "a b c"}, "x": "foo"}') + → +

+ a |   b       |      c
+---+-----------+-------------
+ 1 | {2,"a b"} | (4,"a b c")
+

+

+ + json_populate_recordset ( base anyelement, from_json json ) + → setof anyelement +

+

+ + jsonb_populate_recordset ( base anyelement, from_json jsonb ) + → setof anyelement +

+

+ Expands the top-level JSON array of objects to a set of rows having + the composite type of the base argument. + Each element of the JSON array is processed as described above + for json[b]_populate_record. +

+

+ create type twoints as (a int, b int); +

+

+ select * from json_populate_recordset(null::twoints, '[{"a":1,"b":2}, {"a":3,"b":4}]') + → +

+ a | b
+---+---
+ 1 | 2
+ 3 | 4
+

+

+ + json_to_record ( json ) + → record +

+

+ + jsonb_to_record ( jsonb ) + → record +

+

+ Expands the top-level JSON object to a row having the composite type + defined by an AS clause. (As with all functions + returning record, the calling query must explicitly + define the structure of the record with an AS + clause.) The output record is filled from fields of the JSON object, + in the same way as described above + for json[b]_populate_record. Since there is no + input record value, unmatched columns are always filled with nulls. +

+

+ create type myrowtype as (a int, b text); +

+

+ select * from json_to_record('{"a":1,"b":[1,2,3],"c":[1,2,3],"e":"bar","r": {"a": 123, "b": "a b c"}}') as x(a int, b text, c int[], d text, r myrowtype) + → +

+ a |    b    |    c    | d |       r
+---+---------+---------+---+---------------
+ 1 | [1,2,3] | {1,2,3} |   | (123,"a b c")
+

+

+ + json_to_recordset ( json ) + → setof record +

+

+ + jsonb_to_recordset ( jsonb ) + → setof record +

+

+ Expands the top-level JSON array of objects to a set of rows having + the composite type defined by an AS clause. (As + with all functions returning record, the calling query + must explicitly define the structure of the record with + an AS clause.) Each element of the JSON array is + processed as described above + for json[b]_populate_record. +

+

+ select * from json_to_recordset('[{"a":1,"b":"foo"}, {"a":"2","c":"bar"}]') as x(a int, b text) + → +

+ a |  b
+---+-----
+ 1 | foo
+ 2 |
+

+

+ + jsonb_set ( target jsonb, path text[], new_value jsonb [, create_if_missing boolean ] ) + → jsonb +

+

+ Returns target + with the item designated by path + replaced by new_value, or with + new_value added if + create_if_missing is true (which is the + default) and the item designated by path + does not exist. + All earlier steps in the path must exist, or + the target is returned unchanged. + As with the path oriented operators, negative integers that + appear in the path count from the end + of JSON arrays. + If the last path step is an array index that is out of range, + and create_if_missing is true, the new + value is added at the beginning of the array if the index is negative, + or at the end of the array if it is positive. +

+

+ jsonb_set('[{"f1":1,"f2":null},2,null,3]', '{0,f1}', '[2,3,4]', false) + → [{"f1": [2, 3, 4], "f2": null}, 2, null, 3] +

+

+ jsonb_set('[{"f1":1,"f2":null},2]', '{0,f3}', '[2,3,4]') + → [{"f1": 1, "f2": null, "f3": [2, 3, 4]}, 2] +

+ + jsonb_set_lax ( target jsonb, path text[], new_value jsonb [, create_if_missing boolean [, null_value_treatment text ]] ) + → jsonb +

+

+ If new_value is not NULL, + behaves identically to jsonb_set. Otherwise behaves + according to the value + of null_value_treatment which must be one + of 'raise_exception', + 'use_json_null', 'delete_key', or + 'return_target'. The default is + 'use_json_null'. +

+

+ jsonb_set_lax('[{"f1":1,"f2":null},2,null,3]', '{0,f1}', null) + → [{"f1": null, "f2": null}, 2, null, 3] +

+

+ jsonb_set_lax('[{"f1":99,"f2":null},2]', '{0,f3}', null, true, 'return_target') + → [{"f1": 99, "f2": null}, 2] +

+ + jsonb_insert ( target jsonb, path text[], new_value jsonb [, insert_after boolean ] ) + → jsonb +

+

+ Returns target + with new_value inserted. If the item + designated by the path is an array + element, new_value will be inserted before + that item if insert_after is false (which + is the default), or after it + if insert_after is true. If the item + designated by the path is an object + field, new_value will be inserted only if + the object does not already contain that key. + All earlier steps in the path must exist, or + the target is returned unchanged. + As with the path oriented operators, negative integers that + appear in the path count from the end + of JSON arrays. + If the last path step is an array index that is out of range, the new + value is added at the beginning of the array if the index is negative, + or at the end of the array if it is positive. +

+

+ jsonb_insert('{"a": [0,1,2]}', '{a, 1}', '"new_value"') + → {"a": [0, "new_value", 1, 2]} +

+

+ jsonb_insert('{"a": [0,1,2]}', '{a, 1}', '"new_value"', true) + → {"a": [0, 1, "new_value", 2]} +

+ + json_strip_nulls ( json ) + → json +

+

+ + jsonb_strip_nulls ( jsonb ) + → jsonb +

+

+ Deletes all object fields that have null values from the given JSON + value, recursively. Null values that are not object fields are + untouched. +

+

+ json_strip_nulls('[{"f1":1, "f2":null}, 2, null, 3]') + → [{"f1":1},2,null,3] +

+ + jsonb_path_exists ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → boolean +

+

+ Checks whether the JSON path returns any item for the specified JSON + value. + If the vars argument is specified, it must + be a JSON object, and its fields provide named values to be + substituted into the jsonpath expression. + If the silent argument is specified and + is true, the function suppresses the same errors + as the @? and @@ operators do. +

+

+ jsonb_path_exists('{"a":[1,2,3,4,5]}', '$.a[*] ? (@ >= $min && @ <= $max)', '{"min":2, "max":4}') + → t +

+ + jsonb_path_match ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → boolean +

+

+ Returns the result of a JSON path predicate check for the specified + JSON value. Only the first item of the result is taken into account. + If the result is not Boolean, then NULL is returned. + The optional vars + and silent arguments act the same as + for jsonb_path_exists. +

+

+ jsonb_path_match('{"a":[1,2,3,4,5]}', 'exists($.a[*] ? (@ >= $min && @ <= $max))', '{"min":2, "max":4}') + → t +

+ + jsonb_path_query ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → setof jsonb +

+

+ Returns all JSON items returned by the JSON path for the specified + JSON value. + The optional vars + and silent arguments act the same as + for jsonb_path_exists. +

+

+ select * from jsonb_path_query('{"a":[1,2,3,4,5]}', '$.a[*] ? (@ >= $min && @ <= $max)', '{"min":2, "max":4}') + → +

+ jsonb_path_query
+------------------
+ 2
+ 3
+ 4
+

+

+ + jsonb_path_query_array ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → jsonb +

+

+ Returns all JSON items returned by the JSON path for the specified + JSON value, as a JSON array. + The optional vars + and silent arguments act the same as + for jsonb_path_exists. +

+

+ jsonb_path_query_array('{"a":[1,2,3,4,5]}', '$.a[*] ? (@ >= $min && @ <= $max)', '{"min":2, "max":4}') + → [2, 3, 4] +

+ + jsonb_path_query_first ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → jsonb +

+

+ Returns the first JSON item returned by the JSON path for the + specified JSON value. Returns NULL if there are no + results. + The optional vars + and silent arguments act the same as + for jsonb_path_exists. +

+

+ jsonb_path_query_first('{"a":[1,2,3,4,5]}', '$.a[*] ? (@ >= $min && @ <= $max)', '{"min":2, "max":4}') + → 2 +

+ + jsonb_path_exists_tz ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → boolean +

+

+ + jsonb_path_match_tz ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → boolean +

+

+ + jsonb_path_query_tz ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → setof jsonb +

+

+ + jsonb_path_query_array_tz ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → jsonb +

+

+ + jsonb_path_query_first_tz ( target jsonb, path jsonpath [, vars jsonb [, silent boolean ]] ) + → jsonb +

+

+ These functions act like their counterparts described above without + the _tz suffix, except that these functions support + comparisons of date/time values that require timezone-aware + conversions. The example below requires interpretation of the + date-only value 2015-08-02 as a timestamp with time + zone, so the result depends on the current + TimeZone setting. Due to this dependency, these + functions are marked as stable, which means these functions cannot be + used in indexes. Their counterparts are immutable, and so can be used + in indexes; but they will throw errors if asked to make such + comparisons. +

+

+ jsonb_path_exists_tz('["2015-08-01 12:00:00-05"]', '$[*] ? (@.datetime() < "2015-08-02".datetime())') + → t +

+ + jsonb_pretty ( jsonb ) + → text +

+

+ Converts the given JSON value to pretty-printed, indented text. +

+

+ jsonb_pretty('[{"f1":1,"f2":null}, 2]') + → +

+[
+    {
+        "f1": 1,
+        "f2": null
+    },
+    2
+]
+

+

+ + json_typeof ( json ) + → text +

+

+ + jsonb_typeof ( jsonb ) + → text +

+

+ Returns the type of the top-level JSON value as a text string. + Possible types are + object, array, + string, number, + boolean, and null. + (The null result should not be confused + with an SQL NULL; see the examples.) +

+

+ json_typeof('-123.4') + → number +

+

+ json_typeof('null'::json) + → null +

+

+ json_typeof(NULL::json) IS NULL + → t +


9.16.2. The SQL/JSON Path Language

+ SQL/JSON path expressions specify the items to be retrieved + from the JSON data, similar to XPath expressions used + for SQL access to XML. In PostgreSQL, + path expressions are implemented as the jsonpath + data type and can use any elements described in + Section 8.14.7. +

+ JSON query functions and operators + pass the provided path expression to the path engine + for evaluation. If the expression matches the queried JSON data, + the corresponding JSON item, or set of items, is returned. + Path expressions are written in the SQL/JSON path language + and can include arithmetic expressions and functions. +

+ A path expression consists of a sequence of elements allowed + by the jsonpath data type. + The path expression is normally evaluated from left to right, but + you can use parentheses to change the order of operations. + If the evaluation is successful, a sequence of JSON items is produced, + and the evaluation result is returned to the JSON query function + that completes the specified computation. +

+ To refer to the JSON value being queried (the + context item), use the $ variable + in the path expression. It can be followed by one or more + accessor operators, + which go down the JSON structure level by level to retrieve sub-items + of the context item. Each operator that follows deals with the + result of the previous evaluation step. +

+ For example, suppose you have some JSON data from a GPS tracker that you + would like to parse, such as: +

+{
+  "track": {
+    "segments": [
+      {
+        "location":   [ 47.763, 13.4034 ],
+        "start time": "2018-10-14 10:05:14",
+        "HR": 73
+      },
+      {
+        "location":   [ 47.706, 13.2635 ],
+        "start time": "2018-10-14 10:39:21",
+        "HR": 135
+      }
+    ]
+  }
+}
+

+

+ To retrieve the available track segments, you need to use the + .key accessor + operator to descend through surrounding JSON objects: +

+$.track.segments
+

+

+ To retrieve the contents of an array, you typically use the + [*] operator. For example, + the following path will return the location coordinates for all + the available track segments: +

+$.track.segments[*].location
+

+

+ To return the coordinates of the first segment only, you can + specify the corresponding subscript in the [] + accessor operator. Recall that JSON array indexes are 0-relative: +

+$.track.segments[0].location
+

+

+ The result of each path evaluation step can be processed + by one or more jsonpath operators and methods + listed in Section 9.16.2.2. + Each method name must be preceded by a dot. For example, + you can get the size of an array: +

+$.track.segments.size()
+

+ More examples of using jsonpath operators + and methods within path expressions appear below in + Section 9.16.2.2. +

+ When defining a path, you can also use one or more + filter expressions that work similarly to the + WHERE clause in SQL. A filter expression begins with + a question mark and provides a condition in parentheses: + +

+? (condition)
+

+

+ Filter expressions must be written just after the path evaluation step + to which they should apply. The result of that step is filtered to include + only those items that satisfy the provided condition. SQL/JSON defines + three-valued logic, so the condition can be true, false, + or unknown. The unknown value + plays the same role as SQL NULL and can be tested + for with the is unknown predicate. Further path + evaluation steps use only those items for which the filter expression + returned true. +

+ The functions and operators that can be used in filter expressions are + listed in Table 9.50. Within a + filter expression, the @ variable denotes the value + being filtered (i.e., one result of the preceding path step). You can + write accessor operators after @ to retrieve component + items. +

+ For example, suppose you would like to retrieve all heart rate values higher + than 130. You can achieve this using the following expression: +

+$.track.segments[*].HR ? (@ > 130)
+

+

+ To get the start times of segments with such values, you have to + filter out irrelevant segments before returning the start times, so the + filter expression is applied to the previous step, and the path used + in the condition is different: +

+$.track.segments[*] ? (@.HR > 130)."start time"
+

+

+ You can use several filter expressions in sequence, if required. For + example, the following expression selects start times of all segments that + contain locations with relevant coordinates and high heart rate values: +

+$.track.segments[*] ? (@.location[1] < 13.4) ? (@.HR > 130)."start time"
+

+

+ Using filter expressions at different nesting levels is also allowed. + The following example first filters all segments by location, and then + returns high heart rate values for these segments, if available: +

+$.track.segments[*] ? (@.location[1] < 13.4).HR ? (@ > 130)
+

+

+ You can also nest filter expressions within each other: +

+$.track ? (exists(@.segments[*] ? (@.HR > 130))).segments.size()
+

+ This expression returns the size of the track if it contains any + segments with high heart rate values, or an empty sequence otherwise. +

+ PostgreSQL's implementation of the SQL/JSON path + language has the following deviations from the SQL/JSON standard: +

  • + A path expression can be a Boolean predicate, although the SQL/JSON + standard allows predicates only in filters. This is necessary for + implementation of the @@ operator. For example, + the following jsonpath expression is valid in + PostgreSQL: +

    +$.track.segments[*].HR < 70
+

    +

  • + There are minor differences in the interpretation of regular + expression patterns used in like_regex filters, as + described in Section 9.16.2.3. +

9.16.2.1. Strict and Lax Modes

+ When you query JSON data, the path expression may not match the + actual JSON data structure. An attempt to access a non-existent + member of an object or element of an array results in a + structural error. SQL/JSON path expressions have two modes + of handling structural errors: +

  • + lax (default) — the path engine implicitly adapts + the queried data to the specified path. + Any remaining structural errors are suppressed and converted + to empty SQL/JSON sequences. +

  • + strict — if a structural error occurs, an error is raised. +

+ The lax mode facilitates matching of a JSON document structure and path + expression if the JSON data does not conform to the expected schema. + If an operand does not match the requirements of a particular operation, + it can be automatically wrapped as an SQL/JSON array or unwrapped by + converting its elements into an SQL/JSON sequence before performing + this operation. Besides, comparison operators automatically unwrap their + operands in the lax mode, so you can compare SQL/JSON arrays + out-of-the-box. An array of size 1 is considered equal to its sole element. + Automatic unwrapping is not performed only when: +

  • + The path expression contains type() or + size() methods that return the type + and the number of elements in the array, respectively. +

  • + The queried JSON data contain nested arrays. In this case, only + the outermost array is unwrapped, while all the inner arrays + remain unchanged. Thus, implicit unwrapping can only go one + level down within each path evaluation step. +

+

+ For example, when querying the GPS data listed above, you can + abstract from the fact that it stores an array of segments + when using the lax mode: +

+lax $.track.segments.location
+

+

+ In the strict mode, the specified path must exactly match the structure of + the queried JSON document to return an SQL/JSON item, so using this + path expression will cause an error. To get the same result as in + the lax mode, you have to explicitly unwrap the + segments array: +

+strict $.track.segments[*].location
+

+

+ The .** accessor can lead to surprising results + when using the lax mode. For instance, the following query selects every + HR value twice: +

+lax $.**.HR
+

+ This happens because the .** accessor selects both + the segments array and each of its elements, while + the .HR accessor automatically unwraps arrays when + using the lax mode. To avoid surprising results, we recommend using + the .** accessor only in the strict mode. The + following query selects each HR value just once: +

+strict $.**.HR
+

+

9.16.2.2. SQL/JSON Path Operators and Methods

+ Table 9.49 shows the operators and + methods available in jsonpath. Note that while the unary + operators and methods can be applied to multiple values resulting from a + preceding path step, the binary operators (addition etc.) can only be + applied to single values. +

Table 9.49. jsonpath Operators and Methods

+ Operator/Method +

+

+ Description +

+

+ Example(s) +

+ number + number + → number +

+

+ Addition +

+

+ jsonb_path_query('[2]', '$[0] + 3') + → 5 +

+ + number + → number +

+

+ Unary plus (no operation); unlike addition, this can iterate over + multiple values +

+

+ jsonb_path_query_array('{"x": [2,3,4]}', '+ $.x') + → [2, 3, 4] +

+ number - number + → number +

+

+ Subtraction +

+

+ jsonb_path_query('[2]', '7 - $[0]') + → 5 +

+ - number + → number +

+

+ Negation; unlike subtraction, this can iterate over + multiple values +

+

+ jsonb_path_query_array('{"x": [2,3,4]}', '- $.x') + → [-2, -3, -4] +

+ number * number + → number +

+

+ Multiplication +

+

+ jsonb_path_query('[4]', '2 * $[0]') + → 8 +

+ number / number + → number +

+

+ Division +

+

+ jsonb_path_query('[8.5]', '$[0] / 2') + → 4.2500000000000000 +

+ number % number + → number +

+

+ Modulo (remainder) +

+

+ jsonb_path_query('[32]', '$[0] % 10') + → 2 +

+ value . type() + → string +

+

+ Type of the JSON item (see json_typeof) +

+

+ jsonb_path_query_array('[1, "2", {}]', '$[*].type()') + → ["number", "string", "object"] +

+ value . size() + → number +

+

+ Size of the JSON item (number of array elements, or 1 if not an + array) +

+

+ jsonb_path_query('{"m": [11, 15]}', '$.m.size()') + → 2 +

+ value . double() + → number +

+

+ Approximate floating-point number converted from a JSON number or + string +

+

+ jsonb_path_query('{"len": "1.9"}', '$.len.double() * 2') + → 3.8 +

+ number . ceiling() + → number +

+

+ Nearest integer greater than or equal to the given number +

+

+ jsonb_path_query('{"h": 1.3}', '$.h.ceiling()') + → 2 +

+ number . floor() + → number +

+

+ Nearest integer less than or equal to the given number +

+

+ jsonb_path_query('{"h": 1.7}', '$.h.floor()') + → 1 +

+ number . abs() + → number +

+

+ Absolute value of the given number +

+

+ jsonb_path_query('{"z": -0.3}', '$.z.abs()') + → 0.3 +

+ string . datetime() + → datetime_type + (see note) +

+

+ Date/time value converted from a string +

+

+ jsonb_path_query('["2015-8-1", "2015-08-12"]', '$[*] ? (@.datetime() < "2015-08-2".datetime())') + → "2015-8-1" +

+ string . datetime(template) + → datetime_type + (see note) +

+

+ Date/time value converted from a string using the + specified to_timestamp template +

+

+ jsonb_path_query_array('["12:30", "18:40"]', '$[*].datetime("HH24:MI")') + → ["12:30:00", "18:40:00"] +

+ object . keyvalue() + → array +

+

+ The object's key-value pairs, represented as an array of objects + containing three fields: "key", + "value", and "id"; + "id" is a unique identifier of the object the + key-value pair belongs to +

+

+ jsonb_path_query_array('{"x": "20", "y": 32}', '$.keyvalue()') + → [{"id": 0, "key": "x", "value": "20"}, {"id": 0, "key": "y", "value": 32}] +


Note

+ The result type of the datetime() and + datetime(template) + methods can be date, timetz, time, + timestamptz, or timestamp. + Both methods determine their result type dynamically. +

+ The datetime() method sequentially tries to + match its input string to the ISO formats + for date, timetz, time, + timestamptz, and timestamp. It stops on + the first matching format and emits the corresponding data type. +

+ The datetime(template) + method determines the result type according to the fields used in the + provided template string. +

+ The datetime() and + datetime(template) methods + use the same parsing rules as the to_timestamp SQL + function does (see Section 9.8), with three + exceptions. First, these methods don't allow unmatched template + patterns. Second, only the following separators are allowed in the + template string: minus sign, period, solidus (slash), comma, apostrophe, + semicolon, colon and space. Third, separators in the template string + must exactly match the input string. +

+ If different date/time types need to be compared, an implicit cast is + applied. A date value can be cast to timestamp + or timestamptz, timestamp can be cast to + timestamptz, and time to timetz. + However, all but the first of these conversions depend on the current + TimeZone setting, and thus can only be performed + within timezone-aware jsonpath functions. +

+ Table 9.50 shows the available + filter expression elements. +

Table 9.50. jsonpath Filter Expression Elements

+ Predicate/Value +

+

+ Description +

+

+ Example(s) +

+ value == value + → boolean +

+

+ Equality comparison (this, and the other comparison operators, work on + all JSON scalar values) +

+

+ jsonb_path_query_array('[1, "a", 1, 3]', '$[*] ? (@ == 1)') + → [1, 1] +

+

+ jsonb_path_query_array('[1, "a", 1, 3]', '$[*] ? (@ == "a")') + → ["a"] +

+ value != value + → boolean +

+

+ value <> value + → boolean +

+

+ Non-equality comparison +

+

+ jsonb_path_query_array('[1, 2, 1, 3]', '$[*] ? (@ != 1)') + → [2, 3] +

+

+ jsonb_path_query_array('["a", "b", "c"]', '$[*] ? (@ <> "b")') + → ["a", "c"] +

+ value < value + → boolean +

+

+ Less-than comparison +

+

+ jsonb_path_query_array('[1, 2, 3]', '$[*] ? (@ < 2)') + → [1] +

+ value <= value + → boolean +

+

+ Less-than-or-equal-to comparison +

+

+ jsonb_path_query_array('["a", "b", "c"]', '$[*] ? (@ <= "b")') + → ["a", "b"] +

+ value > value + → boolean +

+

+ Greater-than comparison +

+

+ jsonb_path_query_array('[1, 2, 3]', '$[*] ? (@ > 2)') + → [3] +

+ value >= value + → boolean +

+

+ Greater-than-or-equal-to comparison +

+

+ jsonb_path_query_array('[1, 2, 3]', '$[*] ? (@ >= 2)') + → [2, 3] +

+ true + → boolean +

+

+ JSON constant true +

+

+ jsonb_path_query('[{"name": "John", "parent": false}, {"name": "Chris", "parent": true}]', '$[*] ? (@.parent == true)') + → {"name": "Chris", "parent": true} +

+ false + → boolean +

+

+ JSON constant false +

+

+ jsonb_path_query('[{"name": "John", "parent": false}, {"name": "Chris", "parent": true}]', '$[*] ? (@.parent == false)') + → {"name": "John", "parent": false} +

+ null + → value +

+

+ JSON constant null (note that, unlike in SQL, + comparison to null works normally) +

+

+ jsonb_path_query('[{"name": "Mary", "job": null}, {"name": "Michael", "job": "driver"}]', '$[*] ? (@.job == null) .name') + → "Mary" +

+ boolean && boolean + → boolean +

+

+ Boolean AND +

+

+ jsonb_path_query('[1, 3, 7]', '$[*] ? (@ > 1 && @ < 5)') + → 3 +

+ boolean || boolean + → boolean +

+

+ Boolean OR +

+

+ jsonb_path_query('[1, 3, 7]', '$[*] ? (@ < 1 || @ > 5)') + → 7 +

+ ! boolean + → boolean +

+

+ Boolean NOT +

+

+ jsonb_path_query('[1, 3, 7]', '$[*] ? (!(@ < 5))') + → 7 +

+ boolean is unknown + → boolean +

+

+ Tests whether a Boolean condition is unknown. +

+

+ jsonb_path_query('[-1, 2, 7, "foo"]', '$[*] ? ((@ > 0) is unknown)') + → "foo" +

+ string like_regex string [ flag string ] + → boolean +

+

+ Tests whether the first operand matches the regular expression + given by the second operand, optionally with modifications + described by a string of flag characters (see + Section 9.16.2.3). +

+

+ jsonb_path_query_array('["abc", "abd", "aBdC", "abdacb", "babc"]', '$[*] ? (@ like_regex "^ab.*c")') + → ["abc", "abdacb"] +

+

+ jsonb_path_query_array('["abc", "abd", "aBdC", "abdacb", "babc"]', '$[*] ? (@ like_regex "^ab.*c" flag "i")') + → ["abc", "aBdC", "abdacb"] +

+ string starts with string + → boolean +

+

+ Tests whether the second operand is an initial substring of the first + operand. +

+

+ jsonb_path_query('["John Smith", "Mary Stone", "Bob Johnson"]', '$[*] ? (@ starts with "John")') + → "John Smith" +

+ exists ( path_expression ) + → boolean +

+

+ Tests whether a path expression matches at least one SQL/JSON item. + Returns unknown if the path expression would result + in an error; the second example uses this to avoid a no-such-key error + in strict mode. +

+

+ jsonb_path_query('{"x": [1, 2], "y": [2, 4]}', 'strict $.* ? (exists (@ ? (@[*] > 2)))') + → [2, 4] +

+

+ jsonb_path_query_array('{"value": 41}', 'strict $ ? (exists (@.name)) .name') + → [] +


9.16.2.3. SQL/JSON Regular Expressions

+ SQL/JSON path expressions allow matching text to a regular expression + with the like_regex filter. For example, the + following SQL/JSON path query would case-insensitively match all + strings in an array that start with an English vowel: +

+$[*] ? (@ like_regex "^[aeiou]" flag "i")
+

+

+ The optional flag string may include one or more of + the characters + i for case-insensitive match, + m to allow ^ + and $ to match at newlines, + s to allow . to match a newline, + and q to quote the whole pattern (reducing the + behavior to a simple substring match). +

+ The SQL/JSON standard borrows its definition for regular expressions + from the LIKE_REGEX operator, which in turn uses the + XQuery standard. PostgreSQL does not currently support the + LIKE_REGEX operator. Therefore, + the like_regex filter is implemented using the + POSIX regular expression engine described in + Section 9.7.3. This leads to various minor + discrepancies from standard SQL/JSON behavior, which are cataloged in + Section 9.7.3.8. + Note, however, that the flag-letter incompatibilities described there + do not apply to SQL/JSON, as it translates the XQuery flag letters to + match what the POSIX engine expects. +

+ Keep in mind that the pattern argument of like_regex + is a JSON path string literal, written according to the rules given in + Section 8.14.7. This means in particular that any + backslashes you want to use in the regular expression must be doubled. + For example, to match string values of the root document that contain + only digits: +

+$.* ? (@ like_regex "^\\d+$")
+

+

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