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updated jsx_parser example, needs more comments

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This commit is contained in:
alisdair sullivan 2010-06-11 22:01:58 -07:00
parent 4286892861
commit 31a55cf517
1 changed files with 38 additions and 36 deletions
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72
examples/jsx_parser.erl
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@ -21,6 +21,8 @@
%% THE SOFTWARE.
%% this module is an example of how to use the raw parser api
-module(jsx_parser).
-author("alisdairsullivan@yahoo.ca").
@ -33,61 +35,61 @@
%% this is a strict parser, no comments, no naked values and only one key per object. it
%% also is not streaming, though it could be modified to parse partial objects/lists.
%% event takes two arguments, the result of calling the parser on a json argument (or the
%% generator returned by the parser) and a term that holds the erlang representation of
%% the json.
decode(JSON) ->
P = jsx:parser({jsx_parser, event, []}, []),
case P(JSON) of
{incomplete, _} ->
{error, badjson}
; {error, badjson} ->
{error, badjson}
; {Result, _} ->
{ok, Result}
F = jsx:parser(),
try event(F(JSON), [])
catch error:badjson -> {error, badjson}
end.
%% erlang representation is dicts for objects and lists for arrays.
event(start_object, Stack) ->
[dict:new()] ++ Stack;
event(start_array, Stack) ->
[[]] ++ Stack;
event({start_object, Next}, Stack) ->
event(Next(), [dict:new()] ++ Stack);
event({start_array, Next}, Stack) ->
event(Next(), [[]] ++ Stack);
event(end_object, [Object, {key, Key}, Parent|Stack]) when is_tuple(Parent) ->
[insert(Key, Object, Parent)] ++ Stack;
event(end_array, [Array, {key, Key}, Parent|Stack]) when is_tuple(Parent) ->
[insert(Key, lists:reverse(Array), Parent)] ++ Stack;
event(end_object, [Object, Parent|Stack]) when is_list(Parent) ->
[[Object] ++ Parent] ++ Stack;
event(end_array, [Array, Parent|Stack]) when is_list(Parent) ->
[[lists:reverse(Array)] ++ Parent] ++ Stack;
event({end_object, Next}, [Object, {key, Key}, Parent|Stack]) when is_tuple(Parent) ->
event(Next(), [insert(Key, Object, Parent)] ++ Stack);
event({end_array, Next}, [Array, {key, Key}, Parent|Stack]) when is_tuple(Parent) ->
event(Next(), [insert(Key, lists:reverse(Array), Parent)] ++ Stack);
event({end_object, Next}, [Object, Parent|Stack]) when is_list(Parent) ->
event(Next(), [[Object] ++ Parent] ++ Stack);
event({end_array, Next}, [Array, Parent|Stack]) when is_list(Parent) ->
event(Next(), [[lists:reverse(Array)] ++ Parent] ++ Stack);
%% special cases for closing the root objects
event(end_object, [Object]) ->
[Object];
event(end_array, [Array]) ->
[lists:reverse(Array)];
event({end_object, Next}, [Object]) ->
event(Next(), [Object]);
event({end_array, Next}, [Array]) ->
event(Next(), [lists:reverse(Array)]);
event({key, Key}, [Object|Stack]) ->
[{key, Key}] ++ [Object] ++ Stack;
%% keys are just pushed onto the stack until their corresponding value is
%% encountered
event({{key, Key}, Next}, [Stack]) ->
event(Next(), [{key, Key}] ++ Stack);
%% reject values that aren't wrapped by an array or object
event({_Type, _Value}, []) ->
erlang:error(badjson);
event({{_Type, _Value}, _Next}, []) ->
{error, badjson};
%% this is kind of a dirty hack, but erlang will interpret atoms when applied to (Args)
%% as a function. so naming our formatting functions string, integer, float and literal will
%% allow the following shortcut
event({Type, Value}, [{key, Key}, Object|Stack]) ->
[insert(Key, ?MODULE:Type(Value), Object)] ++ Stack;
event({Type, Value}, [Array|Stack]) when is_list(Array) ->
[[?MODULE:Type(Value)] ++ Array] ++ Stack;
event({{Type, Value}, Next}, [{key, Key}, Object|Stack]) ->
event(Next(), [insert(Key, ?MODULE:Type(Value), Object)] ++ Stack);
event({{Type, Value}, Next}, [Array|Stack]) when is_list(Array) ->
event(Next(), [[?MODULE:Type(Value)] ++ Array] ++ Stack);
event(reset, _) ->
[];
event(end_json, [Stack]) ->
event({end_json, _}, [Stack]) ->
Stack.