Floating point bug when writing to file in Matlab?

Im not sure if Im missing something simple but the following code fails (a and b are meant to be the same):

``````a=single(2147483584)
f=fopen('test','wb');
fwrite(f,a,'int32')
fclose(f);
f=fopen('test','rb');
fclose(f)
a
b
``````

with output:

``````a =
2.1475e+009
b =
-2.1475e+009
``````

and the following code succeeds:

``````a=single(2147483583)
f=fopen('test','wb');
fwrite(f,a,'int32')
fclose(f);
f=fopen('test','rb');
fclose(f)
a
b
``````

with output:

``````a =
2.1475e+009
b =
2.1475e+009
``````

Does anyone know why?

-
It's very helpful to include the actual failure when describing problems. –  Ned Batchelder Jul 1 '12 at 3:08
Added output to illustrate the problem –  twerdster Jul 1 '12 at 3:28
@twerdster: why do you create `single` values and write them as `int32`, is that intentional? If it is, you might want to explicitly cast the variables –  Amro Jul 1 '12 at 3:54
@Amro it was intentional and explicitly casting definitely works. I was just interested to know why the Matlab cast was failing and I think Mark Dickinson answered it well. –  twerdster Jul 1 '12 at 15:50

I don't know Matlab well, but it seems fairly clear what's happening here. You're converting `a` to a float and then storing the result of that conversion as a 32-bit signed integer. But the nearest single-precision IEEE 754 float to the integer `2147483584` is `2147483648.0`, or `2**31`. A 32-bit integer can only represent values in the range `[-2**31, 2**31-1]`, so it looks as though when you write this value as an integer, it gets wrapped modulo `2**32` to give `-2**31` instead of `2**31`.
In contrast, the nearest single-precision float to `2147483583` is `2147483520.0`, which does fit in a 32-bit integer.