A proposal for extending JSON.parse
behavior to grant reviver functions access to the input source text and extending JSON.stringify
behavior to support object placeholders for raw JSON text primitives.
original 2018 September slides
This proposal is at stage 3 of the TC39 Process.
- Richard Gibson
- Mathias Bynens
Transformation between ECMAScript values and JSON text is lossy.
This is most obvious in the case of deserializing numbers (e.g., "999999999999999999"
, "999999999999999999.0"
, and "1000000000000000000"
all parse to 1000000000000000000
), but also comes up when attempting to round-tripping non-primitive values such as Date objects (e.g., JSON.parse(JSON.stringify(new Date("2018-09-25T14:00:00Z")))
yields a string "2018-09-25T14:00:00.000Z"
).
Neither of these examples is hypothetical—serializing a BigInt as JSON is specified to throw an exception because there is no output that would round-trip through JSON.parse
, and a similar concept has been raised regarding the Temporal proposal.
JSON.parse
accepts a reviver function capable of processing inbound values, but it is invoked bottom-up and receives so little context (a key, an already-lossy value, and a receiver upon which key is an own property with value value) that it is practically useless.
We intend to remedy that.
Update JSON.parse
to provide reviver functions with more arguments, primarily conveying the source text from which a value was derived (inclusive of punctuation but exclusive of leading/trailing insignificant whitespace).
Although originally not included in this proposal, support for non-lossy serialization with JSON.stringify
(and thus also complete round-trippability) was requested and added (cf. #12), currently using special "raw JSON" frozen objects constructible with JSON.rawJSON
but possibly subject to change (cf. #18 and #19).
const digitsToBigInt = (key, val, {source}) =>
/^[0-9]+$/.test(source) ? BigInt(source) : val;
const bigIntToRawJSON = (key, val) =>
typeof val === "bigint" ? JSON.rawJSON(String(val)) : val;
const tooBigForNumber = BigInt(Number.MAX_SAFE_INTEGER) + 2n;
JSON.parse(String(tooBigForNumber), digitsToBigInt) === tooBigForNumber;
// → true
const wayTooBig = BigInt("1" + "0".repeat(1000));
JSON.parse(String(wayTooBig), digitsToBigInt) === wayTooBig;
// → true
const embedded = JSON.stringify({ tooBigForNumber }, bigIntToRawJSON);
embedded === '{"tooBigForNumber":9007199254740993}';
// → true
String.prototype.replace
passes position and input arguments to replacer functions and the return value from RegExp.prototype.exec
has "index" and "input" properties; JSON.parse
could behave similarly.
const input = '\n\t"use\\u0020strict"';
let spied;
const parsed = JSON.parse(input, (key, val, context) => (spied = context, val));
parsed === 'use strict';
// → true
spied.source === '"use\\u0020strict"';
// → true
spied.index === 2;
// → true
spied.input === input;
// → true
A reviver function sees values bottom-up, but the data structure hierarchy is already known and can be supplied to it, with or without the phantom leading empty string.
const input = '{ "foo": [{ "bar": "baz" }] }';
const expectedKeys = ['foo', 0, 'bar'];
let spiedKeys;
JSON.parse(input, (key, val, {keys}) => (spiedKeys = spiedKeys || keys, val));
expectedKeys.length === spiedKeys.length;
// → true
expectedKeys.every((key, i) => spiedKeys[i] === key);
// → true
Conforming ECMAScript implementations are not permitted to extend the grammar accepted by JSON.parse
.
This proposal does not make any such attempt, and adding new function parameters is among the safest changes that can be made to the language.
All input to JSON.parse
that is currently rejected will continue to be, all input that is currently accepted will continue to be, and the only changes to its output will be directly controlled by user code.
Reviver functions are intended to modify or remove values in the output, but those changes should have no effect on the source-derived arguments passed to them. Because reviver functions are invoked bottom-up, this means that values may not correlate with source text. We consider this to be acceptable, but mostly moot (see the following point). Where not moot (such as when not-yet-visited array indexes or object entries are modified), source text is suppressed.
Per #10 (comment) , source text exposure is limited to primitive values.