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I have a stream of JSON objects, as with JSON-RPC over TCP or WebSockets. There's no length prefix or delimiter, because JSON is self-delimiting. So, when I read from the stream, I may end up with something like this:

{"id":1,"result":{"answer":23},"error":null}
{"id":2,"result":{"answer":42},"error":null}
{"id":3,"result":{"answ

I need to parse each JSON object one by one. I can't do this with JSON.parse, because it will just throw a syntax error for extraneous data at the end.

Of course with that example I could go line by line, but I can't rely on the whitespace looking like that; JSON-RPC can just as easily look like this:

{
  "id": 1, 
  "result": {
    "answer": 23
  },
  "error":null
} 

Or this:

{"id":1,"result":{"answer":23},"error":null}{"id":2,"result":{"answer":42},"error":null}

With most parsers in other languages, the obvious answer is something like this (using Python as an example):

buf = ''
decoder = json.JSONDecoder()
def onReadReady(sock):
  buf += sock.read()
  obj, index = decoder.raw_decode(buf)
  buf = buf[index:]
  if obj:
    dispatch(obj)

But I can't find anything similar in JS. I've looked at every JS parser I can find, and they're all effectively equivalent to JSON.parse.

I tried looking at various JSON-RPC frameworks to see how they handle this problem, and they just don't. Many of them assume that a recv will always return exactly one send (which works fine for JSON-RPC over HTTP, but not over TCP or WebSockets—although it may appear to work in local tests, of course). Others don't actually handle JSON-RPC because they add requirements on whitespace (some of which aren't even valid for JSON-RPC).

I could write a delimiter check that balances brackets and quotes (handling escaping and quoting, of course), or just write a JSON parser from scratch (or port one from another language, or modify http://code.google.com/p/json-sans-eval/), but I can't believe no one has done this before.

EDIT: I've made two versions myself, http://pastebin.com/fqjKYiLw based on json-sans-eval, and http://pastebin.com/8H4QT82b based on Crockford's reference recursive descent parser json_parse.js. I would still prefer to use something that's been tested and used by other people rather than coding it myself, so I'm leaving this question open.

share|improve this question
    
So, you want to parse JSON streams like SAX parses XML? –  Bergi Mar 22 '12 at 20:35
    
No, not really. I don't want callbacks on each subobject in the hierarchy, I just want to get each top-level object. (I suppose a SAX parser would be sufficient to build what I want, but it's definitely not necessary.) –  abarnert Mar 22 '12 at 21:11
    
I think typical json-rpc returns a single object as the payload. Is this a custom backend that you wrote? If you control it I'd probably add a new delimiter or maybe use netstrings. –  jtg Mar 23 '12 at 14:50
    
Yes, JSON-RPC returns a single object as the payload, but that doesn't mean anything over TCP or WebSockets, because they don't have any concept of payload, just a stream. JSON-RPC doesn't have any delimiter between payloads because it's self-delimiting—as long as you have a rawDecode style function. Which is why I want one. –  abarnert Mar 23 '12 at 16:40
    
And adding an extra delimiter (and escaping it within the JSON), or doing JSON-RPC over netstrings over sockets instead of JSON-RPC directly over sockets (which is the same thing as using a length prefix, which I mentioned earlier), or anything similar means it's not JSON-RPC anymore, which means I can't use standard or off-the-shelf JSON-RPC code for all of the other components. –  abarnert Mar 23 '12 at 16:48

2 Answers 2

up vote 15 down vote accepted
+50

After a month of searching for alternatives and not finding anything useful, I decided to code up a bunch of different implementations and test them out, and I went with my modification of Crockford's reference recursive-descent parser (as described in the question, available here).

It wasn't the fastest, but it was more than fast enough in every test I did. More importantly, it catches clearly erroneous JSON, when that's not ambiguous with incomplete JSON, much better than most of the other alternatives. Most importantly, it required very few, and pretty simple, changes from a well-known and -tested codebase, which makes me more confident in its correctness.

Still, if anyone knows of a better library than mine (and just being used by lots of projects instead of just me would count as a major qualification), I'd love to know about it.

share|improve this answer
    
try{x=JSON.parse(buff);buff="";}catch(y){buff=getCurrentBuff(); continue;} –  dandavis Aug 8 '13 at 20:52
    
@dandavis: No, because JSON.parse will fail if you give it 1-1/2 JSON objects, so this can't possibly work. That's already explained at the top of the question. –  abarnert Aug 8 '13 at 20:58
    
@abarent: yeah, but we can ignore the failures, laud the successes, and can try every possible slice permutation of a buffer (0)-(0,-1) in milliseconds... ugly? maybe. effective? very much so. i can count from one and a half to two fast, but nowhere near as fast as js. just keep on "try"ing until you get something. literally. you can go char-by-char, or skip ahead to braces. it cannot fail! in a related application, as a noob i used a loop+try to find complete functions in the middle of a string of code, not even knowing what an ast or parser even was... –  dandavis Aug 8 '13 at 21:01
    
@dandavis: That would be incredibly slow. If your average message is, say, 10KB, you're parsing 10K times as often as you need to. So each message now takes tens of seconds to process, instead of milliseconds. That's not even close to acceptable. –  abarnert Aug 8 '13 at 21:12
2  
@abernert: actually, by splitting on braces, i was able to find valid chunks with an average of 12 guesses, each of which took well less than 1ms to attempt. if 800 data events per second is incredibly slow to you, you need to lower your expectations considerably. Also consider that JSON.parse runs in C, whereas a user-land parser will run a lot slower. –  dandavis Aug 13 '13 at 18:21

Here is a simple JSON Object separator. It assumes that you receive a series of JSON objects (not array) and that are well formed.

function JSONObjectSepaator() {

    this.onObject = function (JSONStr) {};

    this.reset = function () {
        this.brace_count = 0;
        this.inString = false;
        this.escaped = false;
        this.buffer = "";
    };

    this.receive = function (S) {
        var i;
        var pos=0;
        for (i = 0; i < S.length; i++) {
            var c = S[i];
            if (this.inString) {
                if (this.escaped) {
                    this.escaped = false;
                } else {
                    if (c == "\\") {
                        this.escaped = true;
                    } else if (c == "\"") {
                        this.inString = false;
                    }
                }
            } else {
                if (c == "{") {
                    this.brace_count++;
                } else if (c == "}") {
                    this.brace_count--;
                    if (this.brace_count === 0) {
                        this.buffer += S.substring(pos,i+1);
                        this.onObject(this.buffer);
                        this.buffer = "";
                        pos=i+1;
                    }
                } else if (c == "\"") {
                    this.inString = true;                   
                } 
            }
        }
        this.buffer += S.substring(pos);
    };

    this.reset();
    return this;
}

To use it, you can do it this way:

var separator = new JSONObjectSepaator();
separator.onObject = function (o) {
    alert("Object received: "+o);
};

separator.receive('{"id":1,"result":{"answer":23},"error":null, "x');
separator.receive('x":"\\\""}{"id":2,"result":{"answer":42},"error":null}{"id":');
separator.receive('3,"result":{"answer":43},"err{or":3}');
share|improve this answer
    
From a quick test, this is a whole lot slower than the other two implementations. It seems possible that that's only because it's appending characters one at a time, instead of holding off on the buffer += bit until we either get balanced braces or reach the end of S, and if we fix that it'll actually be significantly faster. But that's just a guess, and I don't have time to test now. (I'll also compare it to the similar code I wrote early and then backed off of, although all these months later I don't remember why I gave up on it, so I'm not sure how much good that will do.) –  abarnert Aug 9 '13 at 17:08
1  
@abarnert I made the optimization of changing buffer += bit to add whole blocks. It improved the algorithm by 20%. I also pass the responsibility of parsing each object to the callback function. (80% of the time was spend in parsing the individual objects). As a side note, remark that JSON.parse is 80% faster than eval. –  jbaylina Aug 9 '13 at 20:21
1  
Be careful about claims like "JSON.parse is 80% faster than eval". That varies wildly between different JS implementations, and even different versions of the same implementation. Try it with trivial JSON in Gecko 3.5 vs. 5.0 vs. 6.0, for example… Anyway, fortunately, I only care about a single JS engine (for this app), and I have relatively consistent data, so doing realistic tests shouldn't be hard once I get a chance. Thanks. –  abarnert Aug 9 '13 at 21:26
    
I tested every thing in chrome for mac version 28.0.1500.95. ;) , and the test that i did was just run the example use 1000000 times. The comment is probable out of scope and too generic, but i put that comment becouse it surprissed me the big difference between the two implementations. Thank you for the apreciation. –  jbaylina Aug 9 '13 at 22:06
    
OK, I ran my test suite on Gecko 14 (the engine I happen to care about at the moment). The character-by-character version takes 180%-2900% as long as the other implementation… but the buffering version is 30%-180%. And it seems to win biggest on the tests with very large or complex JSON, which is likely to be exactly when performance matters. In the app I'm currently working on, the performance is good enough, and the benefit of keeping code that's been tested and deployed for over a year wins… but I will definitely revisit this in the future. Again, many thanks! –  abarnert Aug 13 '13 at 18:40

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