# How do I test for integers in MATLAB?

I'm writing a program that will calculate factorials of integers. However, the part I'm stuck on is if someone enters a non-integer such as `1.3`, I'd like to be able to test the input and display `"The number you have entered is not an integer"`

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Related: see `doc gamma` for the equivalent of factorial for non-integers. –  kwatford Mar 22 '11 at 19:15

`assert(isnumeric(input) && round(input) == input, 'That number is not an integer.')`

You could add other checks, (like for positivity) easily as well.

Edited using `isinteger`. Thanks `@SolarStatistics`, I hadn't noticed they added this functionality. Edited back to original answer again as `isinteger` isn't appropriate (see comments below).

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"isinteger" is probably not what's wanted, since it checks for an integer TYPE. The OP probably wants a conditional check like "x - fix(x) == 0" or "x - fix(x) < eps" that works on doubles. –  nibot Mar 22 '11 at 19:36

You can use the `mod` function, which returns the remainder after division. All integers are divisible by `1`. So a good test for non-integer would be

``````integerTest=~mod(value,1);
``````

This returns `0` if `value` is not an integer and `1` if it is. You can then use this as a conditional to reject non-integer user inputs.

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As point out by @nibot isinteger tests for the input as an integer TYPE. Instead you could check to see if rounding input returns the same value as input. eg:

``````assert(abs(round(input)-input))<eps*2,'That number is not an integer.')
``````

for example

``````>> input=1.3;
>> assert(abs(round(input)-input)<eps*2,'That number is not an integer.')
??? That number is not an integer.

>> input=3;
>> assert(abs(round(input)-input)<eps*2,'That number is not an integer.')
>>
``````
-

You can cast the value to an integer and back to a double and check the result against the original value:

```>> x = 1.3;
>> x == double(uint64(x))

ans =

0

>> x = 2;
>> x == double(uint64(x))

ans =

1
```

Interestingly, R.M.'s approach of using MOD runs faster in a loop and the above casting approach runs faster when vectorized:

```>> x = rand(100000, 1);
>> tic; for ii = 1:100000; ~mod(x(ii), 1); end; toc;
Elapsed time is 0.018380 seconds.
>> tic; for ii = 1:100000; x(ii) == double(uint64(x(ii))); end; toc;
Elapsed time is 0.383020 seconds.
>> tic; ~mod(x, 1); toc;
Elapsed time is 0.005299 seconds.
>> tic; x == double(uint64(x)); toc;
Elapsed time is 0.002971 seconds.
```
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In general, you don't know how large the integer is. The maximum in `uint64` is of order 10^(18). While we can be sure that you can't compute the factorial of something that large (in which case this works), as a general approach, this fails for large numbers. –  user564376 Mar 22 '11 at 20:27
This seems a bit ... unmatlabesque. Use round(), fix(), floor(), or ceil() if you want to make an integer-valued quantity. –  nibot Mar 22 '11 at 21:35
Why the downvote? d'o-o'b is correct about the limit imposed by `uint64` but as he explained this is not an operational limit since computing the factorial of a number near this limit could not be done anyways. –  b3. Mar 22 '11 at 21:37
@nibot: I don't understand your "unmatlabesque" comment. `double` and `uint64` are as much a part of the MATLAB built-in library as the functions you suggested. –  b3. Mar 22 '11 at 21:38

Here is another variation (you can see it being used in ISIND function: `edit isind.m`):

``````integerTest = ( x == floor(x) );
``````

On my machine, it is faster than the other proposed solutions:

``````%# create a vector of doubles, containing integers and non-integers
x = (1:100000)';                       %'
idx = ( rand(size(x)) < 0.5 );
x(idx) = x(idx) + rand(sum(idx),1);

%# test for integers
tic, q1 = ~mod(x, 1); toc
tic, q2 = x==double(uint64(x)); toc
tic, q3 = x==floor(x); toc

%# compare results
assert( isequal(q1,q2,q3) )
``````

Timings:

``````Elapsed time is 0.012253 seconds.
Elapsed time is 0.014201 seconds.
Elapsed time is 0.005665 seconds.
``````
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`round` appears to be even faster than `floor`. Just FYI. –  KronoS May 1 '13 at 19:48
@KronoS: I'd say both are in the same order of magnitude, the difference is negligible. Here is a another comparison using the TIMEIT function: pastebin.com/xMEmSi5h –  Amro May 1 '13 at 22:44

By `double` command, you cannot get the correct answer:

``````>> double(uint64(21/22))
ans =
1
>> double(uint64(22/22))
ans =
1
``````

also `floor`,`round`,... have problem with such cases:

``````floor(22/22)==21.99999999999999999999999999999999999/22
``````

but `mod` seems can distinguish `22/22` and `21.99999999999999999999999999999999999/22`:

``````>> mod(22,22)
ans =
0
>> (21.99999999999999999999999999999999999/22)
ans =
1
``````
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-1 this does not answer the question of testing for integers.. As for the literal `21.9999...` you entered, it is actually `22`! (you have to be mindful of the limitations of floating-point representation: floating-point-precision) –  Amro Feb 18 at 6:15