Replace Discouraged Syntaxes of rand and randn

Description of the Former Syntaxes

In earlier versions of MATLAB®, you controlled the random number generator used by the rand and randn functions with the 'seed', 'state' or 'twister' inputs. For example:


These syntaxes referred to different types of generators, and they will be removed in a future release for the following reasons:

  • The terms 'seed' and 'state' are misleading names for the generators.

  • All of the former generators except 'twister' are flawed.

  • They unnecessarily use different generators for rand and randn.

To assess the impact this change will have on your existing code, execute the following commands at the start of your MATLAB session:


Description of Replacement Syntaxes

Use the rng function to control the shared generator used by rand, randn, randi and all other random number generation functions like randperm, sprand, and so on. To learn how to use the rng function to replace the former syntaxes, take a few moments to understand what the former syntaxes did. This should help you to see which new rng syntax best suits your needs.

The first input to the former syntaxes of rand(Generator,s) or randn(Generator,s) specified the type of the generator, as described here.

Generator = 'seed' referred to the MATLAB v4 generator, not to the seed initialization value.

Generator = 'state' referred to the MATLAB v5 generators, not to the internal state of the generator.

Generator = 'twister' referred to the Mersenne Twister generator, now the MATLAB startup generator.

The v4 and v5 generators are no longer recommended unless you are trying to exactly reproduce the random numbers generated in earlier versions of MATLAB. The simplest way to update your code is to use rng. The rng function replaces the names for the rand and randn generators as follows.

rand/randn Generator Namerng Generator Name

'v5uniform' (for rand)
'v5normal' (for randn)

'twister''twister' (recommended)

Replacement Syntaxes for Initializing the Generator with an Integer Seed

The most common uses of the integer seed sd in the former rand(Generator,sd) syntax were to:

  • Reproduce exactly the same random numbers each time (e.g., by using a seed such as 0, 1, or 3141879)

  • Try to ensure that MATLAB always gives different random numbers in separate runs (for example, by using a seed such as sum(100*clock))

The following table shows replacements for syntaxes with an integer seed sd.

  • The first column shows the former syntax with rand and randn.

  • The second column shows how to exactly reproduce the former behavior with the new rng function. In most cases, this is done by specifying a legacy generator type such as the v4 or v5 generators, which is no longer recommended.

  • The third column shows the recommended alternative, which does not specify the optional generator type input to rng. Therefore, if you always omit the Generator input, rand, randn, and randi just use the default Mersenne Twister generator that is used at MATLAB startup. In future releases when new generators supersede the Mersenne Twister, this code will use the new default.

Former rand/randn SyntaxNot Recommended: Reproduce Former Behavior Exactly By Specifying Generator TypeRecommended Alternative: Does Not Override Generator Type

Replacement Syntaxes for Initializing the Generator with a State Vector

The most common use of the state vector (shown here as st) in the previous rand(Generator,st) syntax was to reproduce exactly the random numbers generated at a specific point in an algorithm or iteration. For example, you could use this vector as an aid in debugging.

The rng function changes the former pattern of saving and restoring the state of the random number generator as shown in the next table. The example in the left column assumes that you are using the v5 uniform generator. The example in the right column uses the new syntax, and works for any generator you use.

Former Syntax Using rand/randnNew Syntax Using rng
% Save v5 generator state.
st = rand('state');

% Call rand.
x = rand;

% Restore v5 generator state.

% Call rand again and hope 
% for the same results.
y = rand
% Get generator settings.
s = rng;

% Call rand.
x = rand;

% Restore previous generator 
% settings.

% Call rand again and 
% get the same results.
y = rand

For a demonstration, see this instructional videovideo.

If You Are Unable to Upgrade from Former Syntax

If there is code that you are not able or not permitted to modify and you know that it uses the former random number generator control syntaxes, it is important to remember that when you use that code MATLAB will switch into legacy mode. In legacy mode, rand and randn are controlled by separate generators, each with their own settings.

Calls to rand in legacy mode use one of the following:

  • The 'v4' generator, controlled by rand('seed', ...)

  • The 'v5uniform' generator, controlled by rand('state', ...)

  • The 'twister' generator, controlled by rand('twister', ...)

Calls to randn in legacy mode use one of the following:

  • The 'v4' generator, controlled by randn('seed', ...)

  • The 'v5normal' generator, controlled by randn('state', ...)

If code that you rely on puts MATLAB into legacy mode, use the following command to escape legacy mode and get back to the default startup generator:

rng default

Alternatively, to guard around code that puts MATLAB into legacy mode, use:

s = rng     % Save current settings of the generator.
  ...       % Call code using legacy random number generator syntaxes.
rng(s)      % Restore previous settings of the generator.
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