/* Part of SWI-Prolog Author: Jan Wielemaker E-mail: J.Wielemaker@vu.nl WWW: http://www.swi-prolog.org Copyright (c) 2007-2023, University of Amsterdam VU University Amsterdam CWI, Amsterdam SWI-Prolog Solutions b.v. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ :- module(json, [ json_read/2, % +Stream, -JSONTerm json_read/3, % +Stream, -JSONTerm, +Options atom_json_term/3, % ?Atom, ?JSONTerm, +Options json_write/2, % +Stream, +Term json_write/3, % +Stream, +Term, +Options is_json_term/1, % @Term is_json_term/2, % @Term, +Options % Version 7 dict support json_read_dict/2, % +Stream, -Dict json_read_dict/3, % +Stream, -Dict, +Options json_write_dict/2, % +Stream, +Dict json_write_dict/3, % +Stream, +Dict, +Options atom_json_dict/3 % ?Atom, ?JSONDict, +Options ]). :- use_module(library(record)). :- use_module(library(error)). :- use_module(library(option)). :- use_module(library(lists)). :- use_foreign_library(foreign(json)). :- multifile json_write_hook/4, % +Term, +Stream, +State, +Options json_dict_pairs/2. % +Dict, -Pairs :- predicate_options(json_read/3, 3, [ null(ground), true(ground), false(ground), value_string_as(oneof([atom,string])) ]). :- predicate_options(json_write/3, 3, [ indent(nonneg), step(positive_integer), tab(positive_integer), width(nonneg), null(ground), true(ground), false(ground), serialize_unknown(boolean) ]). :- predicate_options(json_read_dict/3, 3, [ tag(atom), default_tag(atom), pass_to(json_read/3, 3) ]). :- predicate_options(json_write_dict/3, 3, [ tag(atom), pass_to(json_write/3, 3) ]). :- predicate_options(is_json_term/2, 2, [ null(ground), true(ground), false(ground) ]). :- predicate_options(atom_json_term/3, 3, [ as(oneof([atom,string,codes])), pass_to(json_read/3, 3), pass_to(json_write/3, 3) ]). /** Reading and writing JSON serialization This module supports reading and writing JSON objects. This library supports two Prolog representations (the _new_ representation is only supported in SWI-Prolog version 7 and later): - The *classical* representation is provided by json_read/3 and json_write/3. This represents a JSON object as json(NameValueList), a JSON string as an atom and the JSON constants =null=, =true= and =false= as @(null), @(true) and @false. - The *new* representation is provided by json_read_dict/3 and json_write_dict/3. This represents a JSON object as a dict, a JSON string as a Prolog string and the JSON constants using the Prolog atoms =null=, =true= and =false=. @author Jan Wielemaker @see http_json.pl links JSON to the HTTP client and server modules. @see json_convert.pl converts JSON Prolog terms to more comfortable terms. */ :- record json_options( null:ground = @(null), true:ground = @(true), false:ground = @(false), end_of_file:ground = error, value_string_as:oneof([atom,string]) = atom, tag:atom = '', default_tag:atom). default_json_dict_options( json_options(null, true, false, error, string, '', _)). /******************************* * MAP TO/FROM TEXT * *******************************/ %! atom_json_term(?Atom, ?JSONTerm, +Options) is det. % % Convert between textual representation and a JSON term. In % _write_ mode (JSONTerm to Atom), the option % % * as(Type) % defines the output type, which is one of `atom` (default), % `string`, `codes` or `chars`. atom_json_term(Atom, Term, Options) :- ground(Atom), !, setup_call_cleanup( open_string(Atom, In), json_read(In, Term, Options), close(In)). atom_json_term(Result, Term, Options) :- select_option(as(Type), Options, Options1, atom), ( type_term(Type, Result, Out) -> true ; must_be(oneof([atom,string,codes,chars]), Type) ), with_output_to(Out, json_write(current_output, Term, Options1)). type_term(atom, Result, atom(Result)). type_term(string, Result, string(Result)). type_term(codes, Result, codes(Result)). type_term(chars, Result, chars(Result)). /******************************* * READING * *******************************/ %! json_read(+Stream, -Term) is det. %! json_read(+Stream, -Term, +Options) is det. % % Read next JSON value from Stream into a Prolog term. The % canonical representation for Term is: % % * A JSON object is mapped to a term json(NameValueList), where % NameValueList is a list of Name=Value. Name is an atom % created from the JSON string. % % * A JSON array is mapped to a Prolog list of JSON values. % % * A JSON string is mapped to a Prolog atom % % * A JSON number is mapped to a Prolog number % % * The JSON constants =true= and =false= are mapped -like JPL- % to @(true) and @(false). % % * The JSON constant =null= is mapped to the Prolog term % @(null) % % Here is a complete example in JSON and its corresponding Prolog % term. % % ``` % { "name":"Demo term", % "created": { % "day":null, % "month":"December", % "year":2007 % }, % "confirmed":true, % "members":[1,2,3] % } % ``` % % ``` % json([ name='Demo term', % created=json([day= @null, month='December', year=2007]), % confirmed= @true, % members=[1, 2, 3] % ]) % ``` % % The following options are processed: % % - null(+NullTerm) % Term used to represent JSON =null=. Default @(null) % - true(+TrueTerm) % Term used to represent JSON =true=. Default @(true) % - false(+FalseTerm) % Term used to represent JSON =false=. Default @(false) % - end_of_file(+ErrorOrTerm) % If end of file is reached after skipping white space % but before any input is processed take the following % action (default `error`): % - If ErrorOrTerm == `error`, throw an unexpected % end of file syntax error % - Otherwise return ErrorOrTerm. % Returning an status term is required to process % [Concatenated % JSON](https://en.wikipedia.org/wiki/JSON_streaming#Concatenated_JSON). % Suggested values are `@(eof)` or `end_of_file`. % - value_string_as(+Type) % Prolog type used for strings used as value. Default is `atom`. % The alternative is `string`, producing a packed string object. % Please note that `codes` or `chars` would produce ambiguous % output and are therefore not supported. % % @see json_read_dict/3 to read a JSON term using the version 7 % extended data types. json_read(Stream, Term) :- default_json_options(Options), ( json_value_top(Stream, Term, Options) -> true ; syntax_error(illegal_json, Stream) ). json_read(Stream, Term, Options) :- make_json_options(Options, OptionTerm, _RestOptions), ( json_value_top(Stream, Term, OptionTerm) -> true ; syntax_error(illegal_json, Stream) ). json_value_top(Stream, Term, Options) :- stream_property(Stream, type(binary)), !, setup_call_cleanup( set_stream(Stream, encoding(utf8)), json_value_top_(Stream, Term, Options), set_stream(Stream, type(binary))). json_value_top(Stream, Term, Options) :- json_value_top_(Stream, Term, Options). json_value_top_(Stream, Term, Options) :- get_code(Stream, C0), ws(C0, Stream, C1), ( C1 == -1 -> json_options_end_of_file(Options, Action), ( Action == error -> syntax_error(unexpected_end_of_file, Stream) ; Term = Action ) ; json_term_top(C1, Stream, Term, Options) ). json_value(Stream, Term, Next, Options) :- get_code(Stream, C0), ws(C0, Stream, C1), ( C1 == -1 -> syntax_error(unexpected_end_of_file, Stream) ; json_term(C1, Stream, Term, Next, Options) ). json_term(C0, Stream, JSON, Next, Options) :- json_term_top(C0, Stream, JSON, Options), get_code(Stream, Next). json_term_top(0'{, Stream, json(Pairs), Options) :- !, ws(Stream, C), json_pairs(C, Stream, Pairs, Options). json_term_top(0'[, Stream, Array, Options) :- !, ws(Stream, C), json_array(C, Stream, Array, Options). json_term_top(0'", Stream, String, Options) :- !, get_code(Stream, C1), json_string_codes(C1, Stream, Codes), json_options_value_string_as(Options, Type), codes_to_type(Type, Codes, String). json_term_top(0'-, Stream, Number, _Options) :- !, json_read_number(Stream, 0'-, Number). json_term_top(D, Stream, Number, _Options) :- between(0'0, 0'9, D), !, json_read_number(Stream, D, Number). json_term_top(C, Stream, Constant, Options) :- json_read_constant(C, Stream, ID), json_constant(ID, Constant, Options). json_pairs(0'}, _, [], _) :- !. json_pairs(C0, Stream, [Pair|Tail], Options) :- json_pair(C0, Stream, Pair, C, Options), ws(C, Stream, Next), ( Next == 0', -> ws(Stream, C2), json_pairs(C2, Stream, Tail, Options) ; Next == 0'} -> Tail = [] ; syntax_error(illegal_object, Stream) ). json_pair(C0, Stream, Name=Value, Next, Options) :- json_string_as_atom(C0, Stream, Name), ws(Stream, C), C == 0':, json_value(Stream, Value, Next, Options). json_array(0'], _, [], _) :- !. json_array(C0, Stream, [Value|Tail], Options) :- json_term(C0, Stream, Value, C, Options), ws(C, Stream, Next), ( Next == 0', -> ws(Stream, C1), json_array(C1, Stream, Tail, Options) ; Next == 0'] -> Tail = [] ; syntax_error(illegal_array, Stream) ). codes_to_type(atom, Codes, Atom) :- atom_codes(Atom, Codes). codes_to_type(string, Codes, Atom) :- string_codes(Atom, Codes). codes_to_type(codes, Codes, Codes). json_string_as_atom(0'", Stream, Atom) :- get_code(Stream, C1), json_string_codes(C1, Stream, Codes), atom_codes(Atom, Codes). json_string_codes(0'", _, []) :- !. json_string_codes(0'\\, Stream, [H|T]) :- !, get_code(Stream, C0), ( escape(C0, Stream, H) -> true ; syntax_error(illegal_string_escape, Stream) ), get_code(Stream, C1), json_string_codes(C1, Stream, T). json_string_codes(-1, Stream, _) :- !, syntax_error(eof_in_string, Stream). json_string_codes(C, Stream, [C|T]) :- get_code(Stream, C1), json_string_codes(C1, Stream, T). escape(0'", _, 0'") :- !. escape(0'\\, _, 0'\\) :- !. escape(0'/, _, 0'/) :- !. escape(0'b, _, 0'\b) :- !. escape(0'f, _, 0'\f) :- !. escape(0'n, _, 0'\n) :- !. escape(0'r, _, 0'\r) :- !. escape(0't, _, 0'\t) :- !. escape(0'u, Stream, C) :- get_XXXX(Stream, H), ( hi_surrogate(H) -> get_surrogate_tail(Stream, H, C) ; C = H ). get_XXXX(Stream, C) :- get_xdigit(Stream, D1), get_xdigit(Stream, D2), get_xdigit(Stream, D3), get_xdigit(Stream, D4), C is D1<<12+D2<<8+D3<<4+D4. get_xdigit(Stream, D) :- get_code(Stream, C), code_type(C, xdigit(D)), !. get_xdigit(Stream, _) :- syntax_error(hexdigit_expected, Stream). get_surrogate_tail(Stream, Hi, Codepoint) :- ( get_code(Stream, 0'\\), get_code(Stream, 0'u), get_XXXX(Stream, Lo), surrogate([Hi, Lo], Codepoint) -> true ; syntax_error(illegal_surrogate_pair, Stream) ). hi_surrogate(C) :- C >= 0xD800, C < 0xDC00. lo_surrogate(C) :- C >= 0xDC00, C < 0xE000. surrogate([Hi, Lo], Codepoint) :- hi_surrogate(Hi), lo_surrogate(Lo), Codepoint is (Hi - 0xD800) * 0x400 + (Lo - 0xDC00) + 0x10000. json_read_constant(0't, Stream, true) :- !, must_see(`rue`, Stream, true). json_read_constant(0'f, Stream, false) :- !, must_see(`alse`, Stream, false). json_read_constant(0'n, Stream, null) :- !, must_see(`ull`, Stream, null). must_see([], _Stream, _). must_see([H|T], Stream, Name) :- get_code(Stream, C), ( C == H -> true ; syntax_error(json_expected(Name), Stream) ), must_see(T, Stream, Name). json_constant(true, Constant, Options) :- !, json_options_true(Options, Constant). json_constant(false, Constant, Options) :- !, json_options_false(Options, Constant). json_constant(null, Constant, Options) :- !, json_options_null(Options, Constant). %! ws(+Stream, -Next) is det. %! ws(+C0, +Stream, -Next) % % Skip white space on the Stream, returning the first non-ws % character. Also skips =|//|= ... comments. ws(Stream, Next) :- get_code(Stream, C0), json_skip_ws(Stream, C0, Next). ws(C0, Stream, Next) :- json_skip_ws(Stream, C0, Next). syntax_error(Message, Stream) :- stream_error_context(Stream, Context), throw(error(syntax_error(json(Message)), Context)). stream_error_context(Stream, stream(Stream, Line, LinePos, CharNo)) :- stream_pair(Stream, Read, _), character_count(Read, CharNo), line_position(Read, LinePos), line_count(Read, Line). /******************************* * JSON OUTPUT * *******************************/ %! json_write_string(+Stream, +Text) is det. % % Write a JSON string to Stream. Stream must be opened in a % Unicode capable encoding, typically UTF-8. % foreign json_write_string/2. %! json_write_indent(+Stream, +Indent, +TabDistance) is det. % % Newline and indent to Indent. A Newline is only written if % line_position(Stream, Pos) is not 0. Then it writes Indent // % TabDistance tab characters and Indent mode TabDistance spaces. % foreign json_write_indent/3. %! json_write(+Stream, +Term) is det. %! json_write(+Stream, +Term, +Options) is det. % % Write a JSON term to Stream. The JSON object is of the same format % as produced by json_read/2, though we allow for some more % flexibility with regard to pairs in objects. All of Name=Value, % Name-Value and Name(Value) produce the same output. % % Values can be of the form #(Term), which causes `Term` to be % _stringified_ if it is not an atom or string. Stringification is % based on term_string/2. % % Rational numbers are emitted as floating point numbers. The hook % json_write_hook/4 can be used to realize domain specific % alternatives. % % The version 7 _dict_ type is supported as well. Optionally, if the % dict has a _tag_, a property "type":"tag" can be added to the % object. This behaviour can be controlled using the =tag= option (see % below). For example: % % == % ?- json_write(current_output, point{x:1,y:2}). % { % "x":1, % "y":2 % } % == % % == % ?- json_write(current_output, point{x:1,y:2}, [tag(type)]). % { % "type":"point", % "x":1, % "y":2 % } % == % % In addition to the options recognised by json_read/3, we process % the following options are recognised: % % * width(+Width) % Width in which we try to format the result. Too long lines % switch from _horizontal_ to _vertical_ layout for better % readability. If performance is critical and human % readability is not an issue use Width = 0, which causes a % single-line output. % % * step(+Step) % Indentation increnment for next level. Default is 2. % % * tab(+TabDistance) % Distance between tab-stops. If equal to Step, layout % is generated with one tab per level. % % * serialize_unknown(+Boolean) % If =true= (default =false=), serialize unknown terms and % print them as a JSON string. The default raises a type % error. Note that this option only makes sense if you can % guarantee that the passed value is not an otherwise valid % Prolog reporesentation of a Prolog term. % % If a string is emitted, the sequence =||= % element. %! json_write_hook(+Term, +Stream, +State, +Options) is semidet. % % Hook that can be used to emit a JSON representation for Term to % Stream. If the predicate succeeds it __must__ have written a % __valid__ JSON data element and if it fails it may not have produced % any output. This facility may be used to map arbitrary Prolog terms % to JSON. It was added to manage the precision with which floating % point numbers are emitted. % % Note that this hook is shared by all users of this library. It is % generally adviced to map a unique compound term to avoid % interference with normal output. % % @arg State and Options are opaque handles to the current output % state and settings. Future versions may provide documented access % to these terms. Currently it is adviced to ignore these arguments. %! json_dict_pairs(+Dict, -Pairs) is semidet. % % This hook may be used to order the keys of an object. If it fails, % dict_pairs/3 is used which produces an ordered list of keys. :- record json_write_state(indent:nonneg = 0, step:positive_integer = 2, tab:positive_integer = 8, width:nonneg = 72, serialize_unknown:boolean = false ). json_write(Stream, Term) :- json_write(Stream, Term, []). json_write(Stream, Term, Options) :- make_json_write_state(Options, State, Options1), make_json_options(Options1, OptionTerm, _RestOptions), json_write_term(Term, Stream, State, OptionTerm). json_write_term(Var, _, _, _) :- var(Var), !, instantiation_error(Var). json_write_term(json(Pairs), Stream, State, Options) :- !, json_write_object(Pairs, Stream, State, Options). json_write_term(Dict, Stream, State, Options) :- is_dict(Dict, Tag), !, json_pairs(Dict, Pairs0), ( nonvar(Tag), json_options_tag(Options, Name), Name \== '' -> Pairs = [Name-Tag|Pairs0] ; Pairs = Pairs0 ), json_write_object(Pairs, Stream, State, Options). json_write_term(List, Stream, State, Options) :- is_list(List), !, space_if_not_at_left_margin(Stream, State), write(Stream, '['), ( json_write_state_width(State, Width), ( Width == 0 -> true ; json_write_state_indent(State, Indent), json_print_length(List, Options, Width, Indent, _) ) -> set_width_of_json_write_state(0, State, State2), write_array_hor(List, Stream, State2, Options), write(Stream, ']') ; step_indent(State, State2), write_array_ver(List, Stream, State2, Options), indent(Stream, State), write(Stream, ']') ). json_write_term(Term, Stream, State, Options) :- json_write_hook(Term, Stream, State, Options), !. json_write_term(Number, Stream, _State, _Options) :- number(Number), !, ( float(Number) -> write(Stream, Number) ; integer(Number) -> write(Stream, Number) ; Float is float(Number) % rational number -> write(Stream, Float) ). json_write_term(True, Stream, _State, Options) :- json_options_true(Options, True), !, write(Stream, true). json_write_term(False, Stream, _State, Options) :- json_options_false(Options, False), !, write(Stream, false). json_write_term(Null, Stream, _State, Options) :- json_options_null(Options, Null), !, write(Stream, null). json_write_term(#(Text), Stream, _State, _Options) :- !, ( ( atom(Text) ; string(Text) ) -> json_write_string(Stream, Text) ; term_string(Text, String), json_write_string(Stream, String) ). json_write_term(String, Stream, _State, _Options) :- atom(String), !, json_write_string(Stream, String). json_write_term(String, Stream, _State, _Options) :- string(String), !, json_write_string(Stream, String). json_write_term(AnyTerm, Stream, State, _Options) :- ( json_write_state_serialize_unknown(State, true) -> term_string(AnyTerm, String), json_write_string(Stream, String) ; type_error(json_term, AnyTerm) ). json_pairs(Dict, Pairs) :- json_dict_pairs(Dict, Pairs), !. json_pairs(Dict, Pairs) :- dict_pairs(Dict, _, Pairs). json_write_object(Pairs, Stream, State, Options) :- space_if_not_at_left_margin(Stream, State), write(Stream, '{'), ( json_write_state_width(State, Width), ( Width == 0 -> true ; json_write_state_indent(State, Indent), json_print_length(json(Pairs), Options, Width, Indent, _) ) -> set_width_of_json_write_state(0, State, State2), write_pairs_hor(Pairs, Stream, State2, Options), write(Stream, '}') ; step_indent(State, State2), write_pairs_ver(Pairs, Stream, State2, Options), indent(Stream, State), write(Stream, '}') ). write_pairs_hor([], _, _, _). write_pairs_hor([H|T], Stream, State, Options) :- json_pair(H, Name, Value), json_write_string(Stream, Name), write(Stream, ':'), json_write_term(Value, Stream, State, Options), ( T == [] -> true ; ( json_write_state_width(State, 0) -> write(Stream, ',') ; write(Stream, ', ') ), write_pairs_hor(T, Stream, State, Options) ). write_pairs_ver([], _, _, _). write_pairs_ver([H|T], Stream, State, Options) :- indent(Stream, State), json_pair(H, Name, Value), json_write_string(Stream, Name), write(Stream, ':'), json_write_term(Value, Stream, State, Options), ( T == [] -> true ; write(Stream, ','), write_pairs_ver(T, Stream, State, Options) ). json_pair(Var, _, _) :- var(Var), !, instantiation_error(Var). json_pair(Name=Value, Name, Value) :- !. json_pair(Name-Value, Name, Value) :- !. json_pair(NameValue, Name, Value) :- compound(NameValue), NameValue =.. [Name, Value], !. json_pair(Pair, _, _) :- type_error(json_pair, Pair). write_array_hor([], _, _, _). write_array_hor([H|T], Stream, State, Options) :- json_write_term(H, Stream, State, Options), ( T == [] -> write(Stream, ' ') ; write(Stream, ', '), write_array_hor(T, Stream, State, Options) ). write_array_ver([], _, _, _). write_array_ver([H|T], Stream, State, Options) :- indent(Stream, State), json_write_term(H, Stream, State, Options), ( T == [] -> true ; write(Stream, ','), write_array_ver(T, Stream, State, Options) ). indent(Stream, State) :- json_write_state_indent(State, Indent), json_write_state_tab(State, Tab), json_write_indent(Stream, Indent, Tab). step_indent(State0, State) :- json_write_state_indent(State0, Indent), json_write_state_step(State0, Step), NewIndent is Indent+Step, set_indent_of_json_write_state(NewIndent, State0, State). space_if_not_at_left_margin(Stream, State) :- stream_pair(Stream, _, Write), line_position(Write, LinePos), ( LinePos == 0 ; json_write_state_indent(State, LinePos) ), !. space_if_not_at_left_margin(Stream, _) :- put_char(Stream, ' '). %! json_print_length(+Value, +Options, +Max, +Len0, +Len) is semidet. % % True if Len-Len0 is the print-length of Value on a single line % and Len-Len0 =< Max. % % @tbd Escape sequences in strings are not considered. json_print_length(Var, _, _, _, _) :- var(Var), !, instantiation_error(Var). json_print_length(json(Pairs), Options, Max, Len0, Len) :- !, Len1 is Len0 + 2, Len1 =< Max, must_be(list, Pairs), pairs_print_length(Pairs, Options, Max, Len1, Len). json_print_length(Dict, Options, Max, Len0, Len) :- is_dict(Dict), !, dict_pairs(Dict, _Tag, Pairs), Len1 is Len0 + 2, Len1 =< Max, pairs_print_length(Pairs, Options, Max, Len1, Len). json_print_length(Array, Options, Max, Len0, Len) :- is_list(Array), !, Len1 is Len0 + 2, Len1 =< Max, array_print_length(Array, Options, Max, Len1, Len). json_print_length(Null, Options, Max, Len0, Len) :- json_options_null(Options, Null), !, Len is Len0 + 4, Len =< Max. json_print_length(False, Options, Max, Len0, Len) :- json_options_false(Options, False), !, Len is Len0 + 5, Len =< Max. json_print_length(True, Options, Max, Len0, Len) :- json_options_true(Options, True), !, Len is Len0 + 4, Len =< Max. json_print_length(Number, _Options, Max, Len0, Len) :- number(Number), !, write_length(Number, AL, []), Len is Len0 + AL, Len =< Max. json_print_length(@(Id), _Options, Max, Len0, Len) :- atom(Id), !, atom_length(Id, IdLen), Len is Len0+IdLen, Len =< Max. json_print_length(String, _Options, Max, Len0, Len) :- string_len(String, Len0, Len), !, Len =< Max. json_print_length(AnyTerm, _Options, Max, Len0, Len) :- write_length(AnyTerm, AL, []), % will be serialized Len is Len0 + AL+2, Len =< Max. pairs_print_length([], _, _, Len, Len). pairs_print_length([H|T], Options, Max, Len0, Len) :- pair_len(H, Options, Max, Len0, Len1), ( T == [] -> Len = Len1 ; Len2 is Len1 + 2, Len2 =< Max, pairs_print_length(T, Options, Max, Len2, Len) ). pair_len(Pair, Options, Max, Len0, Len) :- compound(Pair), pair_nv(Pair, Name, Value), !, string_len(Name, Len0, Len1), Len2 is Len1+2, Len2 =< Max, json_print_length(Value, Options, Max, Len2, Len). pair_len(Pair, _Options, _Max, _Len0, _Len) :- type_error(pair, Pair). pair_nv(Name=Value, Name, Value) :- !. pair_nv(Name-Value, Name, Value) :- !. pair_nv(Term, Name, Value) :- compound_name_arguments(Term, Name, [Value]). array_print_length([], _, _, Len, Len). array_print_length([H|T], Options, Max, Len0, Len) :- json_print_length(H, Options, Max, Len0, Len1), ( T == [] -> Len = Len1 ; Len2 is Len1+2, Len2 =< Max, array_print_length(T, Options, Max, Len2, Len) ). string_len(String, Len0, Len) :- atom(String), !, atom_length(String, AL), Len is Len0 + AL + 2. string_len(String, Len0, Len) :- string(String), !, string_length(String, AL), Len is Len0 + AL + 2. /******************************* * TEST * *******************************/ %! is_json_term(@Term) is semidet. %! is_json_term(@Term, +Options) is semidet. % % True if Term is a json term. Options are the same as for % json_read/2, defining the Prolog representation for the JSON % =true=, =false= and =null= constants. is_json_term(Term) :- default_json_options(Options), is_json_term2(Options, Term). is_json_term(Term, Options) :- make_json_options(Options, OptionTerm, _RestOptions), is_json_term2(OptionTerm, Term). is_json_term2(_, Var) :- var(Var), !, fail. is_json_term2(Options, json(Pairs)) :- !, is_list(Pairs), maplist(is_json_pair(Options), Pairs). is_json_term2(Options, List) :- is_list(List), !, maplist(is_json_term2(Options), List). is_json_term2(_, Primitive) :- atomic(Primitive), !. % atom, string or number is_json_term2(Options, True) :- json_options_true(Options, True). is_json_term2(Options, False) :- json_options_false(Options, False). is_json_term2(Options, Null) :- json_options_null(Options, Null). is_json_pair(_, Var) :- var(Var), !, fail. is_json_pair(Options, Name=Value) :- atom(Name), is_json_term2(Options, Value). /******************************* * DICT SUPPORT * *******************************/ %! json_read_dict(+Stream, -Dict) is det. %! json_read_dict(+Stream, -Dict, +Options) is det. % % Read a JSON object, returning objects as a dicts. The % representation depends on the options, where the default is: % % * String values are mapped to Prolog strings % * JSON =true=, =false= and =null= are represented using these % Prolog atoms. % * JSON objects are mapped to dicts. % * Optionally, a =type= field in an object assigns a tag for % the dict. % % The predicate json_read_dict/3 processes the same options as % json_read/3, but with different defaults. In addition, it % processes the `tag` option. See json_read/3 for details about % the shared options. % % * tag(+Name) % When converting to/from a dict, map the indicated JSON % attribute to the dict _tag_. No mapping is performed if Name % is the empty atom ('', default). See json_read_dict/2 and % json_write_dict/2. % * default_tag(+Tag) % Provide the default tag if the above `tag` option does not % apply. % * null(+NullTerm) % Default the atom `null`. % * true(+TrueTerm) % Default the atom `true`. % * false(+FalseTerm) % Default the atom `false` % * end_of_file(+ErrorOrTerm) % Action on reading end-of-file. See json_read/3 for details. % * value_string_as(+Type) % Prolog type used for strings used as value. Default % is `string`. The alternative is `atom`, producing a % packed string object. json_read_dict(Stream, Dict) :- json_read_dict(Stream, Dict, []). json_read_dict(Stream, Dict, Options) :- make_json_dict_options(Options, OptionTerm, _RestOptions), ( json_value_top(Stream, Term, OptionTerm) -> true ; syntax_error(illegal_json, Stream) ), term_to_dict(Term, Dict, OptionTerm). term_to_dict(json(Pairs), Dict, Options) :- !, ( json_options_tag(Options, TagName), Tag \== '', select(TagName = Tag0, Pairs, NVPairs), to_atom(Tag0, Tag) -> json_dict_pairs(NVPairs, DictPairs, Options) ; json_options_default_tag(Options, DefTag), ( var(DefTag) -> true ; Tag = DefTag ), json_dict_pairs(Pairs, DictPairs, Options) ), dict_create(Dict, Tag, DictPairs). term_to_dict(Value0, Value, _Options) :- atomic(Value0), Value0 \== [], !, Value = Value0. term_to_dict(List0, List, Options) :- is_list(List0), !, terms_to_dicts(List0, List, Options). term_to_dict(Special, Special, Options) :- ( json_options_true(Options, Special) ; json_options_false(Options, Special) ; json_options_null(Options, Special) ; json_options_end_of_file(Options, Special) ), !. json_dict_pairs([], [], _). json_dict_pairs([Name=Value0|T0], [Name=Value|T], Options) :- term_to_dict(Value0, Value, Options), json_dict_pairs(T0, T, Options). terms_to_dicts([], [], _). terms_to_dicts([Value0|T0], [Value|T], Options) :- term_to_dict(Value0, Value, Options), terms_to_dicts(T0, T, Options). to_atom(Tag, Atom) :- string(Tag), !, atom_string(Atom, Tag). to_atom(Atom, Atom) :- atom(Atom). %! json_write_dict(+Stream, +Dict) is det. %! json_write_dict(+Stream, +Dict, +Options) is det. % % Write a JSON term, represented using dicts. This is the same as % json_write/3, but assuming the default representation of JSON % objects as dicts. json_write_dict(Stream, Dict) :- json_write_dict(Stream, Dict, []). json_write_dict(Stream, Dict, Options) :- make_json_write_state(Options, State, Options1), make_json_dict_options(Options1, OptionTerm, _RestOptions), json_write_term(Dict, Stream, State, OptionTerm). make_json_dict_options(Options, Record, RestOptions) :- default_json_dict_options(Record0), set_json_options_fields(Options, Record0, Record, RestOptions). %! atom_json_dict(+Atom, -JSONDict, +Options) is det. %! atom_json_dict(-Text, +JSONDict, +Options) is det. % % Convert between textual representation and a JSON term % represented as a dict. Options are as for json_read/3. % In _write_ mode, the addtional option % % * as(Type) % defines the output type, which is one of =atom=, % =string= or =codes=. atom_json_dict(Atom, Term, Options) :- ground(Atom), !, setup_call_cleanup( open_string(Atom, In), json_read_dict(In, Term, Options), close(In)). atom_json_dict(Result, Term, Options) :- select_option(as(Type), Options, Options1, atom), ( type_term(Type, Result, Out) -> true ; must_be(oneof([atom,string,codes]), Type) ), with_output_to(Out, json_write_dict(current_output, Term, Options1)). /******************************* * MESSAGES * *******************************/ :- multifile prolog:error_message/3. prolog:error_message(syntax_error(json(Id))) --> [ 'JSON syntax error: ' ], json_syntax_error(Id). json_syntax_error(illegal_comment) --> [ 'Illegal comment' ]. json_syntax_error(illegal_string_escape) --> [ 'Illegal escape sequence in string' ]. json_syntax_error(illegal_surrogate_pair) --> [ 'Illegal escaped surrogate pair in string' ].