# Generating Random Numbers in Objective-C

I'm a java head mainly, and I want a way to generate a pseudo-random number between 0 and 74. In java I would use the method:

``````Random.nextInt(74)
``````

I'm not interested in a discussion about seeds or true randomness, just how you accomplish the same task in Objective-C. I've scoured The Google, and it just seems to be lots of different and conflicting bits of information.

-

You should use the arc4random() function. It uses a superior algorithm to rand. You don't even need to set a seed.

``````#include <stdlib.h>
...
...
int r = arc4random() % 74;
``````

The arc4random man page:

``````NAME
arc4random, arc4random_stir, arc4random_addrandom -- arc4 random number generator

LIBRARY
Standard C Library (libc, -lc)

SYNOPSIS
#include <stdlib.h>

u_int32_t
arc4random(void);

void
arc4random_stir(void);

void

DESCRIPTION
The arc4random() function uses the key stream generator employed by the arc4 cipher, which uses 8*8 8
bit S-Boxes.  The S-Boxes can be in about (2**1700) states.  The arc4random() function returns pseudo-
random numbers in the range of 0 to (2**32)-1, and therefore has twice the range of rand(3) and
random(3).

The arc4random_stir() function reads data from /dev/urandom and uses it to permute the S-Boxes via

There is no need to call arc4random_stir() before using arc4random(), since arc4random() automatically
initializes itself.

EXAMPLES
The following produces a drop-in replacement for the traditional rand() and random() functions using
arc4random():

#define foo4random() (arc4random() % ((unsigned)RAND_MAX + 1))
``````
-
heh 223 upvotes for copying a manpage, but still thx :D –  Nils Jan 11 '12 at 15:16
Use `arc4random_uniform(x)` as described below by @yood. It is also in stdlib.h (after OS X 10.7 and iOS 4.3) and gives a more uniform distribution of the random numbers. Usage `int r = arc4random_uniform(74);` –  LavaSlider Jan 16 '12 at 16:12
NB: the distribution from arc4random can be very poor, if you happen to choose a poor range. I hadn't realised the powers-of-two expectation. +1 for use @yood's version - made a noticeable difference for larger numbers (e.g. range of 400) –  Adam Feb 29 '12 at 17:03
Does it generate 32 bit numbers only? –  PsychoDad Jul 12 '12 at 22:18
@codecowboy It doesn't. It always returns an integer in the range [0, (2^32)-1]. It's the modulo that limits the upper-bound of the range to the number you specify. –  Mota Mar 23 '13 at 5:04
show 1 more comment

Better to use `arc4random_uniform`. However, this isn't available below iOS 4.3. Luckily iOS will bind this symbol at runtime, not at compile time (so don't use the #if preprocessor directive to check if it's available).

The best way to determine if `arc4random_uniform` is available is to do something like this:

``````#include <stdlib.h>

int r = 0;
if (arc4random_uniform != NULL)
r = arc4random_uniform (74);
else
r = (arc4random() % 74);
``````
-
This most definitely isn't valid C. If a function isn't declared, then it won't be `NULL`, it will throw a link time error. –  Richard J. Ross III Aug 11 '12 at 1:08
This question is about Objective-C which uses late binding. Unlike C which binds at compile/link time, Objective-C binds symbols at runtime, and symbols it cant bind are set to NULL. While you are right that this is not valid C, it most certainly is valid Objective-C. I use this exact code in my iPhone app. [p.s. please can you correct your downvote]. –  AW101 Aug 11 '12 at 7:18
Whilst objective-c uses late binding for objc methods, for a C function this is not the case. This code will certainly crash if the function doesn't exist at run-time. –  Richard J. Ross III Aug 11 '12 at 13:23
According to Apple "...the linker sets the address of unavailable functions to NULL...", See listing 3.2: developer.apple.com/library/mac/#documentation/DeveloperTools/…. Ok so it has to be weakly linked, but it does not crash. –  AW101 Aug 11 '12 at 22:02
Rick Ross is always causing trouble... –  Tonithy Jun 17 '13 at 23:05
show 1 more comment

Use the `arc4random_uniform(upper_bound)` function to generate a random number within a range. The following will generate a number between 0 and 73 inclusive.

``````arc4random_uniform(74)
``````

`arc4random_uniform(upper_bound)` avoids modulo bias as described in the man page:

arc4random_uniform() will return a uniformly distributed random number less than upper_bound. arc4random_uniform() is recommended over constructions like ``arc4random() % upper_bound'' as it avoids "modulo bias" when the upper bound is not a power of two.

-
Note that arc4random_uniform() requires iOS 4.3. In case you're supporting older devices, you should add a check: `#if __IPHONE_OS_VERSION_MIN_REQUIRED >= __IPHONE_4_3` If it fails the check, fall back to another solution. –  Ron Jan 20 '12 at 0:39
arc4random_uniform() requires 10.7 or later as well. It crashes your app in 10.6 –  Tibidabo Oct 13 '12 at 5:57

Go to Geeky Lemon Development's website, he has awesome tutorials including this.

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To prevent unexpected results when min != 0, use this version:

``````-(NSInteger)randomIntBetween:(NSInteger)min and:(NSInteger)max {
return (NSInteger)(min + arc4random_uniform(max + 1 - min));
}
``````
-
You copied Filip's answer. -1. –  Oliver Feb 16 at 17:54

Thought I could add a method I use in many projects.

``````- (NSInteger)randomValueBetween:(NSInteger)min and:(NSInteger)max {
return (NSInteger)(min + arc4random_uniform(max - min + 1));
}
``````

If I end up using it in many files I usually declare a macro as

``````#define RAND_FROM_TO(min,max) (min + arc4random_uniform(max - min + 1))
``````

E.g.

``````NSInteger myInteger = RAND_FROM_TO(0,4) // 0, 1, 2, 3, 4
``````

Note: Only for iOS 4.3/OSX 10.7 and later

-
You're missing a final parenthese at the end of the return statement! :) –  AriX Jul 10 '13 at 18:56
@AriX Good catch! :) Fixed it! –  Filip Jul 10 '13 at 19:17
should be: return (NSInteger)(min + arc4random_uniform(max + 1 - min)); –  tonethar Jul 27 '13 at 22:54
@tonethar You are correct! –  Filip Jul 28 '13 at 10:26

This will give you a floating point number between 0 and 47

``````float low_bound = 0;
float high_bound = 47;
float rndValue = (((float)arc4random()/0x100000000)*(high_bound-low_bound)+low_bound);
``````

Or just simply

``````float rndValue = (((float)arc4random()/0x100000000)*47);
``````

Both lower and upper bound can be negative as well. The example code below gives you a random number between -35.76 and +12.09

``````float low_bound = -35.76;
float high_bound = 12.09;
float rndValue = (((float)arc4random()/0x100000000)*(high_bound-low_bound)+low_bound);
``````

Convert result to a rounder Integer value:

``````int intRndValue = (int)(rndValue + 0.5);
``````
-
This is bad. Why are you using float, and not double? And if your floating point values are from 0 to 47, then (int) (rndValue + 0.5) will convert only values from 0.0 to 0.5 to 0, but values from 0.5 to 1.5 will be converted to 1 etc. So the numbers 0 and 47 will come up only half as often as all the other numbers. –  gnasher729 Feb 28 at 23:42
@gnasher729 Sorry I don't see your point. Obviously if you need double precision you can easy replace "float" with "double" –  Tibidabo Mar 2 at 7:13
I don't think it is a big deal. If you need integer only values than you can use arc4random()/0x100000000)*(high_bound-low_bound)+low_bound by removing float/double conversion. –  Tibidabo Mar 2 at 7:21

I wrote my own random number utility class just so that I would have something that functioned a bit more like Math.random() in Java. It has just two functions, and it's all made in C.

``````//Random.h
void initRandomSeed(long firstSeed);
float nextRandomFloat();
``````

Implementation file:

``````//Random.m
static unsigned long seed;

void initRandomSeed(long firstSeed)
{
seed = firstSeed;
}

float nextRandomFloat()
{
return (((seed= 1664525*seed + 1013904223)>>16) / (float)0x10000);
}
``````

It's a pretty classic way of generating pseudo-randoms. In my app delegate I call:

``````#import "Random.h"

- (void)applicationDidFinishLaunching:(UIApplication *)application
{
initRandomSeed( (long) [[NSDate date] timeIntervalSince1970] );
//Do other initialization junk.
}
``````

Then later I just say:

``````float myRandomNumber = nextRandomFloat() * 74;
``````

Note that this method returns a random number between 0.0f (inclusive) and 1.0f (exclusive).

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1. Random number functions created at random are usually not very random. 2. It is totally broken on a 64 bit processor. 3. Using seconds since 1970 as the random seed makes the numbers predictable. –  gnasher729 Feb 28 at 23:48

Same as C, you would do

``````#include <stdlib.h>
...
int r = rand() % 74
``````

(assuming you meant including 0 but excluding 74, which is what your Java example does)

Edit: Feel free to substitute `random()` or `arc4random()` for `rand()` (which is, as others have pointed out, quite sucky).

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-1. You need to seed the random number generator or you will get the same pattern of numbers on each execution. –  Alex Reynolds Nov 8 '09 at 22:29
How about I want to start from a different number than zero? –  amok Jun 15 '10 at 14:37
Don't forget time.h! –  thyrgle Jun 18 '10 at 2:49
@amok: You can just add the number that you want to start from to the result –  Florin Aug 12 '10 at 8:23
I keep getting the number 9. Pretty random I'd say ;D –  alexy13 Aug 30 '10 at 18:07
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According to the manual page for rand(3), the rand family of functions have been obsoleted by random(3). This is due to the fact that the lower 12 bits of rand() go through a cyclic pattern. To get a random number, just seed the generator by calling srandom() with an unsigned seed, and then call random(). So, the equivalent of the code above would be

``````#import <stdlib.h>
#import <time.h>

srandom(time(NULL));
random() % 74;
``````

You'll only need to call srandom() once in your program unless you want to change your seed. Although you said you didn't want a discussion of truly random values, rand() is a pretty bad random number generator, and random() still suffers from modulo bias, as it will generate a number between 0 and RAND_MAX. So, e.g. if RAND_MAX is 3, and you want a random number between 0 and 2, you're twice as likely to get a 0 than a 1 or a 2.

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You might as well call srandomdev() instead of passing the time to srandom(); it's just as easy and mathematically better. –  benzado Feb 4 '09 at 18:27