# using since_id and max_id in Twitter API

I hope I'm overthinking this and there's an obvious solution.

From the API (GET statuses/user_timeline)

max_id - Returns results with an ID less than (that is, older than) or equal to the specified ID.

"or equal to" means it will include the tweet with ID that I sent as my max_id parameter.

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My question is this: if I store the id of my oldest tweet (from a previous request), how can I subtract 1 from this id to exclude it from being returned in my next request?

The obvious solution would be to do something like this '&max_id='+lastID-1, but twitter IDs are way to large for such math operations and javascript rounds off the results.

Posible solutions:

It has been mentioned that I can use the BigInteger Javascript Library: http://silentmatt.com/biginteger/, but in my opinion this is redundant for such as small task.

Do I have to use recursion on the string (id_str) and increment or decrement it by one? I hate to use a hack for such as small detail that should just work.

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thanks!

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met the same problem, it's quite annoying to have this in JS –  alexanderb May 10 '13 at 6:38

I ran into this same problem, and ended up solving it by subtracting 1 from the last digit, and then accounting for the scenario when we're subtracting 1 from 0 via recursion.

``````function decrementHugeNumberBy1(n) {
// make sure s is a string, as we can't do math on numbers over a certain size
n = n.toString();
var allButLast = n.substr(0, n.length - 1);
var lastNumber = n.substr(n.length - 1);

if (lastNumber === "0") {
return decrementHugeNumberBy1(allButLast) + "9";
}
else {
var finalResult = allButLast + (parseInt(lastNumber, 10) - 1).toString();
return trimLeft(finalResult, "0");
}
}

function trimLeft(s, c) {
var i = 0;
while (i < s.length && s[i] === c) {
i++;
}

return s.substring(i);
}
``````
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Indeed, Twitter API will respond with a duplicate tweets unless we decrease max_id parameter.

Here is a nice Twitter API article on max_id: https://dev.twitter.com/docs/working-with-timelines On general concept of working with a large (more than 53-bit) numbers in JavaScritp: http://www.2ality.com/2012/07/large-integers.html

Back to the question: using a library seems like an overkill unless you use it for something else. @bob-lauer has a good lightweight solution but I've written my own function without the recursion:

``````function decStrNum (n) {
n = n.toString();
var result=n;
var i=n.length-1;
while (i>-1) {
if (n[i]==="0") {
result=result.substring(0,i)+"9"+result.substring(i+1);
i --;
}
else {
result=result.substring(0,i)+(parseInt(n[i],10)-1).toString()+result.substring(i+1);
return result;
}
}
return result;
}
``````

To test it run with the following numbers/strings:

``````console.log("290904187124985850");
console.log(decStrNum("290904187124985850"));
console.log("290904187124985851");
console.log(decStrNum("290904187124985851"));
console.log("290904187124985800");
console.log(decStrNum("290904187124985800"));
console.log("000000000000000001");
console.log(decStrNum("0000000000000000001"));
``````
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thanks a lot for sharing this. For decStrNum("0000000000000000001") it gives 0000000000000000000 (one additional digit at the end), I'm not sure could it provoke trouble with Twitter API? –  alexanderb May 10 '13 at 6:45
@alexanderb, you're welcome. I guess not, unless you're trying to retrieve 0000000000000000001 -1 element which is not making much sense ;) –  Azat Jun 21 '13 at 20:15