# Convert int to float: how it is done

I'm new to C programming language, and I'd like to ask a question.

Integer i here is casting to float then f (somehow) successfully represents 5.0:

``````int i = 5;
float f = i;   //Something happened here...
``````

However if we try this approach:

``````int i = 5;
float f = *(float *)&i;
``````

f would NOT get 5.0 since it interprets the bits stored in i in "float's way". So what magic the complier actually does in the first case? It seems a quite effort-taking job... Can someone specify that? Thanks.

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It is an effort-taking job, but any CPU that has floating-point support will provide an instruction that does it.

If you had to convert a 2's complement `int` to IEEE float format for yourself, you would:

• take the integer base-2 log (closely related to the index of the highest set bit), which gives you the exponent. Offset this and store it in the exponent bits of the float.
• copy the top `n` bits of the int (starting from the bit after the first set non-sign bit) into the significand of the float. `n` is however many bits of significand there are in a `float` (23 for a 32 bit single-precision float). If there are any remaining bits in the `int` (that is, if it's greater than 224), and the next bit after the ones you have room for is `1`, you may or may not round up depending on the IEEE rounding mode in operation.
• copy the sign bit from the `int` to the `float`.
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That is fine for the mantissa, you need to add that the exponent needs to be computed –  Ed Heal Jul 20 '12 at 15:31
Sorry - you are right - it has been a long day :-< –  Ed Heal Jul 20 '12 at 15:33

If you look at the assembly

``````    int i = 5;
000D139E  mov         dword ptr [i],5
float f = i;
000D13A5  fild        dword ptr [i]
000D13A8  fstp        dword ptr [f]
``````

fild is what does the magic

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it pragmatically answers the question `what magic the complier actually does` with a good link, +1. –  phresnel Jul 20 '12 at 21:18

On the IA32 systems, the compiler would generate the following:-

``````fild dword ptr [i] ; load integer in FPU register, I believe all 32bit integers can be represented exactly in an FPU register
fstp dword ptr [f] ; store fpu register to RAM, truncating/rounding to 32 bits, so the value may not be the same as i
``````
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The magic depends on your platform.

One possibility is that your CPU has a special instruction to copy floating point numbers into integral registers.

Of course someone has to design these CPUs, so this is not really an explanation for the algorithm at hand.

A platform might be using a floating point format that goes like this (actually, this is a fixed-point format for the sake of example):

``````[sIIIIFFFF]
``````

where `s` is the sign, the `I`s are the part before the dot, the `F`s are the part after the dot, e.g. (dot is virtual and only for presentation)

`````` -  47.5000
[sIIII.FFFF]
``````

in this case conversion is almost trivial and can be implemented using bitshifting:

``````    -47.5000
>> 4
---------------
-47
``````

And like in this example, commodity C++ implementations use a floating point representation often referred to as IEEE Floating Point, see also IEEE 754-1985. These are more complicated than fixed-point numbers, as they really designate a simple formula of the form _s*mn, however, they have a well defined interpretation and you can unfold them into something more suitable.

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In almost all modern systems, the specification for floating point arithmetic is the IEEE754 standard. This details everything from layout in memory to how truncation and rounding is propagated. It's a big area and someting you quite often need to take detailed account of in scientific and engineering programming.

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Well, I just compiled the code in question under VC++ and looked at the disassembly:

``````   int i = 5;
00A613BE  mov         dword ptr [i],5

float f = i;
00A613C5  fild        dword ptr [i]
00A613C8  fstp        dword ptr [f]
``````
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how about explaining it a little bit? mention what this code does and I guarantee at least one upvote :) –  phresnel Jul 20 '12 at 21:13
First assembly statement moves 5 into the memory represented by i. Second statement, fild, converts the memory represented by i into a floating point number and pushes it onto the FPU stack. The third statement, fstp, takes the memory on the FPU stack and moves it to f. –  Joe Willcoxson Jul 21 '12 at 4:41