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This is more of a theory question, then any actual code. I understand that if you declare a variable int i; then it sets aside 4 bytes in memory for the integer i. I understand if you use malloc to create your memory as well.

I am curious how memory is handled when you do something like

int x;
int y;
double z;

z = (float)x/(float)y;

When you cast like this, how is the memory handled. Does the program create floats and store x and y and then do the division? Or is it something outside of memory?

Thanks for any explanation!

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Dupe of… – anon Feb 8 '10 at 15:52
Notice that the behaviour is not specific to casts, any creation of temporaries (i.e. any kind of calculation) fundamentally requires the same type of bookkeeping. – Konrad Rudolph Feb 8 '10 at 15:54
Thanks for the link Neil. – Blackbinary Feb 8 '10 at 16:07
up vote 1 down vote accepted

Yes, the straightforward way is to create temporary variables - usually on stack. In some cases the compiler can be able to optimize the unnecessary temporary variables creation away. If you really care you should look into the produced disassembly.

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Hmm, this would imply if you had int x; and float(x), you'd have memory taken up for the int x, and then memory taken up for float. I wonder if its more memory efficient to just declare x as a float. I suppose not because the later cast is only around for the calculation, correct? – Blackbinary Feb 8 '10 at 16:05
@Blackbinary: It may or it may not, you don't know until you try. You try both, look at the assembly and make a conclusion. It might allocate space for a million int's just because it feels like it, we don't know. – GManNickG Feb 8 '10 at 16:07
@Blackbinary: If you're using it as a float, declare it as a float. The cast is also likely to cost a very small amount of execution time, for what that's worth (almost nothing). – David Thornley Feb 8 '10 at 16:12

It's of course completely implementation dependent, and platform-specific. By the way, sizeof(int) isn't necessarily 4 like you say.

For your code, one possible output might be (off the top of my head):

fild [x] // load x from the stack into a register
fidiv [y] // divide by y loaded from the stack
fstp [z] // store the result in z

This would be on a processor with an FPU.

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Thats way over my head, but thanks. – Blackbinary Feb 8 '10 at 16:03

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