an erlang application for consuming, producing and manipulating json. inspired by yajl
jsx is built via rebar3, rebar or mix and continuous integration testing provided courtesy travis-ci
jsx is released under the terms of the MIT license
copyright 2010-2016 alisdair sullivan
there are a few changes for users upgrading from 1.x. see CHANGES.md for the overview or migrating from 1.x for the details
Add to rebar.config
...
{erl_opts, [debug_info]}.
{deps, [
...
{jsx, {git, "https://github.com/talentdeficit/jsx.git", {branch, "v2.8.0"}}}
]}.
...
$ rebar3 compile
$ rebar3 eunit
$ rebar compile
$ rebar eunit
$ mix compile
$ mix eunit
1> jsx:decode(<<"{\"library\": \"jsx\", \"awesome\": true}">>).
[{<<"library">>,<<"jsx">>},{<<"awesome">>,true}]
2> jsx:decode(<<"{\"library\": \"jsx\", \"awesome\": true}">>, [return_maps]).
#{<<"awesome">> => true,<<"library">> => <<"jsx">>}
3> jsx:decode(<<"[\"a\",\"list\",\"of\",\"words\"]">>).
[<<"a">>, <<"list">>, <<"of">>, <<"words">>]
1> jsx:encode([{<<"library">>,<<"jsx">>},{<<"awesome">>,true}]).
<<"{\"library\": \"jsx\", \"awesome\": true}">>
2> jsx:encode(#{<<"library">> => <<"jsx">>, <<"awesome">> => true}).
<<"{\"awesome\":true,\"library\":\"jsx\"}">>
3> jsx:encode([<<"a">>, <<"list">>, <<"of">>, <<"words">>]).
<<"[\"a\",\"list\",\"of\",\"words\"]">>
1> jsx:is_json(<<"[\"this is json\"]">>).
true
2> jsx:is_json("[\"this is not\"]").
false
3> jsx:is_term([<<"this is a term">>]).
true
4> jsx:is_term([this, is, not]).
false
1> jsx:minify(<<"{
\"a list\": [
1,
2,
3
]
}">>).
<<"{\"a list\":[1,2,3]}">>
1> jsx:prettify(<<"{\"a list\":[1,2,3]}">>).
<<"{
\"a list\": [
1,
2,
3
]
}">>
$ JSX_FORCE_MAPS rebar3 compile
$ JSX_FORCE_MAPS mix compile
jsx is an erlang application for consuming, producing and manipulating json
jsx follows the json spec as closely as possible with allowances for real world usage
jsx is pragmatic. the json spec allows extensions so jsx extends the spec in a
number of ways. see the section on strict
in options below though
json has no official comments but this parser allows c/c++ style comments.
anywhere whitespace is allowed you can insert comments (both // ...
and /* ... */
)
some particularly irresponsible json emitters leave trailing commas at the end of objects or arrays. jsx allows a single trailing comma in input. multiple commas in any posistion or a preceding comma are still errors
all jsx decoder input should be utf8
encoded binaries. sometimes you get binaries
that are almost but not quite valid utf8 whether due to improper escaping or poor
encoding. jsx replaces invalid codepoints and poorly formed sequences with the
unicode replacement character (u+FFFD
) but does it's best to return something
comprehensible
json only allows keys and strings to be delimited by double quotes (u+0022
) but
javascript allows them to be delimited by single quotes (u+0027
) as well. jsx
follows javascript in this. strings that start with single quotes can contain double
quotes but must end with single quotes and must escape any single quotes they contain
json and jsx only recognize escape sequences as outlined in the json spec. it just ignores bad escape sequences leaving them in strings unaltered
if you're migrating from jsx v1.x to v2.x in most cases you won't need to make any changes to your code
support for otp 17.0's new map type is now enabled by default when compiling via rebar for any release that supports them. jsx should still compile cleanly for earlier releases without any user intervention
if you used any of replaced_bad_utf8
, single_quoted_strings
, comments
,
ignored_bad_escapes
or relax
you can simply omit them from your calls to jsx,
they are all enabled by default now. if you want stricter parsing see the new
strict
options available
if you were using jsx to parse partial json using it's streaming features it is now
disabled by default. you'll need to pass the stream
option to calls to jsx functions
to reenable it
support for pre_encode
and post_decode
has been removed. they were fragile and hard
to understand and they prevented evolution of the encoding and decoding code
json | erlang |
---|---|
number |
integer() and float() |
string |
binary() and atom() |
true , false and null |
true , false and null |
array |
[] and [JSON] |
object |
#{} , [{}] and [{binary() OR atom() OR integer(), JSON}] |
see below | datetime() |
-
numbers
javascript and thus json represent all numeric values with floats. there's no reason for erlang -- a language that supports arbitrarily large integers -- to restrict all numbers to the ieee754 range
whenever possible, jsx will interpret json numbers that look like integers as integers. other numbers will be converted to erlang's floating point type, which is nearly but not quite iee754. negative zero is not representable in erlang (zero is unsigned in erlang and
0
is equivalent to-0
) and will be interpreted as regular zero. numbers not representable are beyond the concern of this implementation, and will result in parsing errorswhen converting from erlang to json, floats are represented with their shortest representation that will round trip without loss of precision. this means that some floats may be superficially dissimilar (although functionally equivalent). for example,
1.0000000000000001
will be represented by1.0
-
strings
json strings must be unicode encoded binaries or erlang atoms. in practice, because jsx only accepts
utf8
binaries all binary strings must beutf8
. in addition to being unicode json strings restrict a number of codepoints and define a number of escape sequencesjson string escapes of the form
\uXXXX
will be converted to their equivalent codepoints during parsing. this means control characters and other codepoints disallowed by the json spec may be encountered in resulting strings. the utf8 restriction means the surrogates are explicitly disallowed. if a string contains escaped surrogates (u+d800
tou+dfff
) they are interpreted but only when they form valid surrogate pairs. surrogates encountered otherwise are replaced with the replacement codepoint (u+fffd
)all erlang strings are represented by valid
utf8
encoded binaries. the encoder will check strings for conformance. badly formedutf8
sequences may be replaced with the replacement codepoint (u+fffd
) according to the unicode specthis implementation performs no normalization on strings beyond that detailed here. be careful when comparing strings as equivalent strings may have different
utf8
encodings -
true, false and null
the json primitives
true
,false
andnull
are represented by the erlang atomstrue
,false
andnull
. surprise -
arrays
json arrays are represented with erlang lists of json values as described in this section
-
objects
json objects are represented by erlang proplists. json maps may also be encoded to json and optionally decoded to maps (via the
return_maps
option)the empty object has the special representation
[{}]
to differentiate it from the empty list. ambiguities like[true, false]
prevent the use of the shorthand form of property lists using atoms as properties so all properties must be tuples. all keys must be encoded as instring
or as atoms or integers (which will be escaped and converted to binaries for presentation to handlers). values should be valid json values. repeated keys are tolerated in json text decoded to erlang terms but are not allowed in erlang terms encoded to json -
datetime
erlang datetime tuples (
{{Year, Month, Day}, {Hour, Min, Sec}}
) as returned fromerlang:localtime/0
are automatically encoded as iso8601 strings and are assumed to be UTC time. no conversion is attempted of json iso8601 strings in decoded json
jsx can handle incomplete json texts. if the option stream
is passed to the decoder
or parser and if a partial json text is parsed, rather than returning a term from
your callback handler, jsx returns {incomplete, F}
where F
is a function with
an identical API to the anonymous fun returned from decoder/3
, encoder/3
or
parser/3
. it retains the internal state of the parser at the point where input
was exhausted. this allows you to parse as you stream json over a socket or file
descriptor, or to parse large json texts without needing to keep them entirely in
memory
however, it is important to recognize that jsx is conservative by default. jsx will
not consider the parsing complete even when input is exhausted and the json text is
unambiguously incomplete. to end parsing call the incomplete
function with the
argument end_stream
(or end_json
) like:
1> {incomplete, F} = jsx:decode(<<"[">>, [stream]).
{incomplete,#Fun<jsx_decoder.1.122947756>}
2> F(end_stream). % can also be `F(end_json)`
** exception error: bad argument
3> {incomplete, G} = F(<<"]">>).
{incomplete,#Fun<jsx_decoder.1.122947756>}
4> G(end_stream). % can also be `G(end_json)`
[]
json_term() = [json_term()]
| [{binary() | atom() | integer(), json_term()}]
| #{} % map of any size, not just the empty map
| true
| false
| null
| integer()
| float()
| binary()
| atom()
| datetime()
the erlang representation of json. binaries should be utf8
encoded, or close
at least
json_text() = binary()
a utf8 encoded binary containing a json string
event() = start_object
| end_object
| start_array
| end_array
| {key, binary()}
| {string, binary()}
| {integer, integer()}
| {float, float()}
| {literal, true}
| {literal, false}
| {literal, null}
| end_json
the subset of token()
emitted by the decoder and encoder to handlers
option() = dirty_strings
| escaped_forward_slashes
| escaped_strings
| repeat_keys
| stream
| strict
| {strict, [strict_option()]}
| return_tail
| uescape
| unescaped_jsonp
strict_option() = comments
| trailing_commas
| utf8
| single_quotes
| escapes
jsx functions all take a common set of options. not all flags have meaning in all contexts, but they are always valid options. functions may have additional options beyond these. see individual function documentation for details
-
dirty_strings
json escaping is lossy; it mutates the json string and repeated application can result in unwanted behaviour. if your strings are already escaped (or you'd like to force invalid strings into "json" you monster) use this flag to bypass escaping. this can also be used to read in really invalid json strings. everything between unescaped quotes are passed as is to the resulting string term. note that this takes precedence over any other options
-
escaped_forward_slashes
json strings are escaped according to the json spec. this means forward slashes (solidus) are only escaped when this flag is present. otherwise they are left unescaped. you may want to use this if you are embedding json directly into a html or xml document
-
escaped_strings
by default both the encoder and decoder return strings as utf8 binaries appropriate for use in erlang. escape sequences that were present in decoded terms are converted into the appropriate codepoint while encoded terms are unaltered. this flag escapes strings as if for output in json, removing control codes and problematic codepoints and replacing them with the appropriate escapes
-
stream
see incomplete input
-
strict
as mentioned earlier, jsx is pragmatic. if you're more of a json purist or you're really into bdsm stricter adherence to the spec is possible. the following restrictions are available
-
comments
comments are disabled and result in a
badarg
error -
trailing_commas
trailing commas in an object or list result in
badarg
errors -
utf8
invalid codepoints and malformed unicode result in
badarg
errors -
single_quotes
only keys and strings delimited by double quotes (
u+0022
) are allowed. the single quote (u+0027
) results in abadarg
error -
escapes
escape sequences not adhering to the json spec result in a
badarg
error -
control_codes
control codes in strings result in
badarg
errors
any combination of these can be passed to jsx by using
{strict, [strict_option()]}
.strict
is equivalent to{strict, [comments, trailing_commas, utf8, single_quotes, escapes, control_codes]}
-
-
return_tail
upon reaching the end of a valid json term in an input stream return the term and any remaining bytes in the input stream as
{with_tail, term(), binary()}
where the second member of the tuple is the json term and the third is any remaining bytes. note that leading whitespace will be stripped from the tail -
uescape
escape all codepoints outside the ascii range for 7 bit clean output. note this escaping takes place even if no other string escaping is requested (via
escaped_strings
) -
unescaped_jsonp
javascript interpreters treat the codepoints
u+2028
andu+2029
as significant whitespace. json strings that contain either of these codepoints will be parsed incorrectly by some javascript interpreters. by default, these codepoints are escaped (to\u2028
and\u2029
, respectively) to retain compatibility. this option simply removes that escaping
decoder(Module, Args, Opts) -> Fun((JSONText) -> any())
encoder(Module, Args, Opts) -> Fun((JSONTerm) -> any())
parser(Module, Args, Opts) -> Fun((Tokens) -> any())
Module = atom()
Args = any()
Opts = [option()]
JSONText = json_text()
JSONTerm = json_term()
Tokens = event() | [event()]
jsx is a json compiler with interleaved tokenizing, syntactic analysis and
semantic analysis stages. included are two tokenizers; one that handles json
texts (decoder/3
) and one that handles erlang terms (encoder/3
). there is
also an entry point to the syntactic analysis stage for use with user-defined
tokenizers (parser/3
)
all three functions return an anonymous function that takes the appropriate type
of input and returns the result of performing semantic analysis, the tuple
{incomplete, F}
where F
is a new anonymous function (see
incomplete input) or a badarg
error exception if
syntactic analysis fails
Module
is the name of the callback module
Args
is any term that will be passed to Module:init/1
prior to syntactic
analysis to produce an initial state
Opts
are detailed here
check out callback module documentation for details of the callback module interface
decode(JSON) -> Term
decode(JSON, Opts) -> Term
JSON = json_text()
Term = json_term()
Opts = [option() | labels | {labels, Label} | return_maps]
Label = binary | atom | existing_atom | attempt_atom
F = fun((any()) -> any())
decode
parses a json text (a utf8
encoded binary) and produces an erlang
term
the option labels
controls how keys are converted from json to
erlang terms. binary
(the default behavior) does no conversion
beyond normal escaping. atom
converts keys to erlang atoms and
results in a badarg
error if the keys fall outside the range of erlang
atoms. existing_atom
is identical to atom
except it will not add
new atoms to the atom table and will result in a badarg
error if the atom
does not exist. attempt_atom
will convert keys to atoms when they exist,
and leave them as binary otherwise
the option return_maps
will attempt to return objects as maps instead of
proplists. this option has no effect when used with releases that do not
support maps
raises a badarg
error exception if input is not valid json
encode(Term) -> JSON
encode(Term, Opts) -> JSON
Term = json_term()
JSON = json_text()
Opts = [option() | space | {space, N} | indent | {indent, N}]
N = pos_integer()
encode
converts an erlang term into json text (a utf8
encoded binary)
the option {space, N}
inserts N
spaces after every comma and colon in your
json output. space
is an alias for {space, 1}
. the default is {space, 0}
the option {indent, N}
inserts a newline and N
spaces for each level of
indentation in your json output. note that this overrides spaces inserted after
a comma. indent
is an alias for {indent, 1}
. the default is {indent, 0}
raises a badarg
error exception if input is not a valid
erlang representation of json
format(JSON) -> JSON
format(JSON, Opts) -> JSON
JSON = json_text()
Opts = [option() | space | {space, N} | indent | {indent, N}]
N = pos_integer()
format
parses a json text (a utf8
encoded binary) and produces a new json
text according to the format rules specified by Opts
the option {space, N}
inserts N
spaces after every comma and colon in your
json output. space
is an alias for {space, 1}
. the default is {space, 0}
the option {indent, N}
inserts a newline and N
spaces for each level of
indentation in your json output. note that this overrides spaces inserted after
a comma. indent
is an alias for {indent, 1}
. the default is {indent, 0}
raises a badarg
error exception if input is not valid json
minify(JSON) -> JSON
JSON = json_text()
minify
parses a json text (a utf8
encoded binary) and produces a new json
text stripped of whitespace
raises a badarg
error exception if input is not valid json
prettify(JSON) -> JSON
JSON = json_text()
prettify
parses a json text (a utf8
encoded binary) and produces a new json
text equivalent to format(JSON, [{space, 1}, {indent, 2}])
raises a badarg
error exception if input is not valid json
is_json(MaybeJSON) -> true | false
is_json(MaybeJSON, Opts) -> true | false
MaybeJSON = any()
Opts = options()
returns true if input is a valid json text, false if not
what exactly constitutes valid json may be altered
is_term(MaybeJSON) -> true | false
is_term(MaybeJSON, Opts) -> true | false
MaybeJSON = any()
Opts = options()
returns true if input is a valid erlang representation of json, false if not
what exactly constitutes valid json may be altered via options
maps_support() -> true | false
if jsx was compiled with map support enabled returns true
, else
false
the following functions should be exported from a jsx callback module
Module:init(Args) -> InitialState
Args = any()
InitialState = any()
whenever any of encoder/3
, decoder/3
or parser/3
are called, this function
is called with the Args
argument provided in the calling function to obtain
InitialState
Module:handle_event(Event, State) -> NewState
Event = [event()]
State = any()
NewState = any()
semantic analysis is performed by repeatedly calling handle_event/2
with a
stream of events emitted by the tokenizer and the current state. the new state
returned is used as the input to the next call to handle_event/2
. the
following events must be handled:
-
start_object
the start of a json object
-
end_object
the end of a json object
-
start_array
the start of a json array
-
end_array
the end of a json array
-
{string, binary()}
a json string. it will usually be a
utf8
encoded binary. see the options for possible exceptions. note that keys are also json strings -
{integer, integer()}
an erlang integer (bignum)
-
{float, float()}
an erlang float
-
{literal, true}
the atom
true
-
{literal, false}
the atom
false
-
{literal, null}
the atom
null
-
end_json
this event is emitted when syntactic analysis is completed. you should do any cleanup and return the result of your semantic analysis
jsx wouldn't be what it is without the contributions of Paul J. Davis, Lloyd Hilaiel, John Engelhart, Bob Ippolito, Brujo Benavides, Alex Kropivny, Steve Strong, Michael Truog, Devin Torres, fogfish, emptytea, John Daily, Ola Bäckström, Joseph Crowe, Patrick Gombert, Eshengazin S. Kuat, Max Lapshin, Bikram Chatterjee, Michael Uvarov, Led and tvv