# Rounding to nearest 100

First number needs to be rounded to nearest second number. There are many ways of doing this, but whats the best and shortest algorithm? Anyone up for a challenge :-)

1244->1200
1254->1300
123->100
178->200
1576->1600
1449->1400
123456->123500
654321->654300
23->00
83->100

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ruby should be fine –  Senthoor Feb 25 '09 at 7:06

For input n:

(n + 50) / 100 * 100

using integer division.

Note that many languages/libraries already have functions to do this.

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In JavaScript, this worked for me: 100 * Math.floor((n + 50) / 100); –  Pawan Aug 6 at 5:47

Ruby's round method can consume negative precisions:

n.round(-2)

In this case -2 gets you rounding to the nearest hundred.

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ruby 2.0, for the win on this one. –  Mallanaga Apr 29 at 18:53
Much better. Should be the winner. This is the native answer. –  Merovex Jul 27 at 0:41
Learned me something today! –  Michael Baldry Oct 3 at 9:17
100 * round(n/100.0)
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I know it's late in the game, but here's something I generally set up when I'm dealing with having to round things up to the nearest nTh:

Number.prototype.roundTo = function(nTo) {
nTo = nTo || 10;
return Math.round(this * (1 / nTo) ) * nTo;
}
console.log("roundto ", (925.50).roundTo(100));

Number.prototype.ceilTo = function(nTo) {
nTo = nTo || 10;
return Math.ceil(this * (1 / nTo) ) * nTo;
}
console.log("ceilTo ", (925.50).ceilTo(100));

Number.prototype.floorTo = function(nTo) {
nTo = nTo || 10;
return Math.floor(this * (1 / nTo) ) * nTo;
}
console.log("floorTo ", (925.50).floorTo(100));

I find myself using Number.ceilTo(..) because I'm working with Canvas and trying to get out to determine how far out to scale.

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This will do it, given you're using integer math:

n = (n + 50) / 100 * 100

Of course, you didn't specify the behavior of e.g., 1350 and 1450, so I've elected to round up. If you need round-to-even, that'll not work.

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Is this homework?

Generally, mod 100, then if >50 add else subtract.

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No its not home work :-) –  Senthoor Feb 25 '09 at 6:54
What the hell Brian! mod and if-then-else that's gonna be really slow. If you're using integers check David's answer. It's a branch-less common way to solve this problem. It works with floating-point numbers as well. –  John Leidegren Feb 25 '09 at 6:55
I myself came up with this answer in Ruby. numbers.each {|number| puts number + '->' + number.gsub(/\d\d\d\$/,(number[number.size-3,1].to_i + number[number.size-2,1].to_i / 5).to_s+'00')} –  Senthoor Feb 25 '09 at 7:05