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/*jslint node:true*/
/* Modified from Douglas Crockford's json_parse_state.js (2012-06-01)
... in order to support concatenated JSON strings sent via Atmospehere:
JSON of the form: {object1}{object2} is parsed using an iterator paradigm:
var parser = new JsonParser(concatenatedJsonString)
while (parser.hasNext) {
var obj = parser.next;
}
json_parse_state.js
2012-06-01
Public Domain.
NO WARRANTY EXPRESSED OR IMPLIED. USE AT YOUR OWN RISK.
This file creates a json_parse function.
json_parse(text, reviver)
This method parses a JSON text to produce an object or array.
It can throw a SyntaxError exception.
The optional reviver parameter is a function that can filter and
transform the results. It receives each of the keys and values,
and its return value is used instead of the original value.
If it returns what it received, then the structure is not modified.
If it returns undefined then the member is deleted.
Example:
// Parse the text. Values that look like ISO date strings will
// be converted to Date objects.
myData = json_parse(text, function (key, value) {
var a;
if (typeof value === 'string') {
a =
/^(\d{4})-(\d{2})-(\d{2})T(\d{2}):(\d{2}):(\d{2}(?:\.\d*)?)Z$/.exec(value);
if (a) {
return new Date(Date.UTC(+a[1], +a[2] - 1, +a[3], +a[4],
+a[5], +a[6]));
}
}
return value;
});
This is a reference implementation. You are free to copy, modify, or
redistribute.
This code should be minified before deployment.
See http://javascript.crockford.com/jsmin.html
USE YOUR OWN COPY. IT IS EXTREMELY UNWISE TO LOAD CODE FROM SERVERS YOU DO
NOT CONTROL.
*/
/*jslint regexp: false*/
/*members "", "\"", ",", "\/", ":", "[", "\\", "]", acomma, avalue, b,
call, colon, container, exec, f, false, firstavalue, firstokey,
fromCharCode, go, hasOwnProperty, key, length, n, null, ocomma, okey,
ovalue, pop, prototype, push, r, replace, slice, state, t, test, true,
value, "{", "}"
*/
module.exports =
function JsonParser(source, reviver) {
"use strict";
/**
* whether a further json object has been detected in the string being parsed.
*/
this.hasNext = source.length > 0;
// This function creates a JSON parse function that uses a state machine
// rather
// than the dangerous eval function to parse a JSON text.
var state, // The state of the parser, one of
// 'go' The starting state
// 'ok' The final, accepting state
// 'firstokey' Ready for the first key of the object or
// the closing of an empty object
// 'okey' Ready for the next key of the object
// 'colon' Ready for the colon
// 'ovalue' Ready for the value half of a key/value pair
// 'ocomma' Ready for a comma or closing }
// 'firstavalue' Ready for the first value of an array or
// an empty array
// 'avalue' Ready for the next value of an array
// 'acomma' Ready for a comma or closing ]
stack, // The stack, for controlling nesting.
container, // The current container object or array
key, // The current key
value, // The current value
escapes = { // Escapement translation table
'\\' : '\\',
'"' : '"',
'/' : '/',
't' : '\t',
'n' : '\n',
'r' : '\r',
'f' : '\f',
'b' : '\b'
}, string = { // The actions for string tokens
go : function () {
state = 'ok';
},
firstokey : function () {
key = value;
state = 'colon';
},
okey : function () {
key = value;
state = 'colon';
},
ovalue : function () {
state = 'ocomma';
},
firstavalue : function () {
state = 'acomma';
},
avalue : function () {
state = 'acomma';
}
}, number = { // The actions for number tokens
go : function () {
state = 'ok';
},
ovalue : function () {
state = 'ocomma';
},
firstavalue : function () {
state = 'acomma';
},
avalue : function () {
state = 'acomma';
}
}, action = {
// The action table describes the behavior of the machine. It contains
// an
// object for each token. Each object contains a method that is called
// when
// a token is matched in a state. An object will lack a method for
// illegal
// states.
'{' : {
go : function () {
stack.push({
state : 'ok'
});
container = {};
state = 'firstokey';
},
ovalue : function () {
stack.push({
container : container,
state : 'ocomma',
key : key
});
container = {};
state = 'firstokey';
},
firstavalue : function () {
stack.push({
container : container,
state : 'acomma'
});
container = {};
state = 'firstokey';
},
avalue : function () {
stack.push({
container : container,
state : 'acomma'
});
container = {};
state = 'firstokey';
},
// we reach here when the first object in a string concatenation has been found
// exist parse and allow next object to be found on next call to next()
ok : function () {
state = "hasNext";
throw "hasNext";
}
},
'}' : {
firstokey : function () {
var pop = stack.pop();
value = container;
container = pop.container;
key = pop.key;
state = pop.state;
},
ocomma : function () {
var pop = stack.pop();
container[key] = value;
value = container;
container = pop.container;
key = pop.key;
state = pop.state;
}
},
'[' : {
go : function () {
stack.push({
state : 'ok'
});
container = [];
state = 'firstavalue';
},
ovalue : function () {
stack.push({
container : container,
state : 'ocomma',
key : key
});
container = [];
state = 'firstavalue';
},
firstavalue : function () {
stack.push({
container : container,
state : 'acomma'
});
container = [];
state = 'firstavalue';
},
avalue : function () {
stack.push({
container : container,
state : 'acomma'
});
container = [];
state = 'firstavalue';
}
},
']' : {
firstavalue : function () {
var pop = stack.pop();
value = container;
container = pop.container;
key = pop.key;
state = pop.state;
},
acomma : function () {
var pop = stack.pop();
container.push(value);
value = container;
container = pop.container;
key = pop.key;
state = pop.state;
}
},
':' : {
colon : function () {
if (Object.hasOwnProperty.call(container, key)) {
throw new SyntaxError('Duplicate key "' + key + '"');
}
state = 'ovalue';
}
},
',' : {
ocomma : function () {
container[key] = value;
state = 'okey';
},
acomma : function () {
container.push(value);
state = 'avalue';
}
},
'true' : {
go : function () {
value = true;
state = 'ok';
},
ovalue : function () {
value = true;
state = 'ocomma';
},
firstavalue : function () {
value = true;
state = 'acomma';
},
avalue : function () {
value = true;
state = 'acomma';
}
},
'false' : {
go : function () {
value = false;
state = 'ok';
},
ovalue : function () {
value = false;
state = 'ocomma';
},
firstavalue : function () {
value = false;
state = 'acomma';
},
avalue : function () {
value = false;
state = 'acomma';
}
},
'null' : {
go : function () {
value = null;
state = 'ok';
},
ovalue : function () {
value = null;
state = 'ocomma';
},
firstavalue : function () {
value = null;
state = 'acomma';
},
avalue : function () {
value = null;
state = 'acomma';
}
}
};
function debackslashify(text) {
// Remove and replace any backslash escapement.
return text.replace(/\\(?:u(.{4})|([^u]))/g, function (a, b, c) {
return b ? String.fromCharCode(parseInt(b, 16)) : escapes[c];
});
}
/**
* @returns the next object found in the string being parsed. Call in while loop while
*
*
*
* while (parser.hasNext) {
* var next = parser.next;
*
*/
this.next = {};
Object
.defineProperty(
this,
'next',
{
configurable : false,
get : function () {
// A regular expression is used to extract tokens from the JSON text.
// The extraction process is cautious.
var r, // The result of the exec method.
tx = /^[\x20\t\n\r]*(?:([,:\[\]{}]|true|false|null)|(-?\d+(?:\.\d*)?(?:[eE][+\-]?\d+)?)|"((?:[^\r\n\t\\\"]|\\(?:["\\\/trnfb]|u[0-9a-fA-F]{4}))*)")/;
// Set the starting state.
state = 'go';
// The stack records the container, key, and state for each object or
// array
// that contains another object or array while processing nested
// structures.
stack = [];
// If any error occurs, we will catch it and ultimately throw a syntax
// error.
try {
// For each token...
for (;;) {
r = tx.exec(source);
if (!r) {
break;
}
// r is the result array from matching the tokenizing regular
// expression.
// r[0] contains everything that matched, including any initial
// whitespace.
// r[1] contains any punctuation that was matched, or true,
// false, or null.
// r[2] contains a matched number, still in string form.
// r[3] contains a matched string, without quotes but with
// escapement.
if (r[1]) {
// Token: Execute the action for this state and token.
action[r[1]][state]();
} else if (r[2]) {
// Number token: Convert the number string into a number
// value and execute
// the action for this state and number.
value = +r[2];
number[state]();
} else {
// String token: Replace the escapement sequences and
// execute the action for
// this state and string.
value = debackslashify(r[3]);
string[state]();
}
// Remove the token from the string. The loop will continue as
// long as there
// are tokens. This is a slow process, but it allows the use of
// ^ matching,
// which assures that no illegal tokens slip through.
source = source.slice(r[0].length);
}
// If we find a state/token combination that is illegal, then the
// action will
// cause an error. We handle the error by simply changing the state.
} catch (e) {
state = e;
}
// The parsing is finished. If we are not in the final 'ok' state, or if
// the
// remaining source contains anything except whitespace, then we did not
// have
// a well-formed JSON text (unless another object begins here)
if (state !== 'ok' && state !== 'hasNext') {
throw state instanceof SyntaxError ? state : new SyntaxError('JSON');
}
if (state === "hasNext") {
this.hasNext = true;
} else {
this.hasNext = false;
}
// If there is a reviver function, we recursively walk the new
// structure,
// passing each name/value pair to the reviver function for possible
// transformation, starting with a temporary root object that holds the
// current
// value in an empty key. If there is not a reviver function, we simply
// return
// that value.
return typeof reviver === 'function' ? (function walk(holder, key) {
var k, v, value = holder[key];
if (value && typeof value === 'object') {
for (k in value) {
if (Object.prototype.hasOwnProperty.call(value, k)) {
v = walk(value, k);
if (v !== undefined) {
value[k] = v;
} else {
delete value[k];
}
}
}
}
return reviver.call(holder, key, value);
}({
'' : value
}, '')) : value;
}
});
};