# Cast int16_t memory to float

I have a function from an external source that returns an array of 2 uint16_t elements (which I cast to int).

I have already been able to cast these to one "big" int (`(i1 << 16) + i2`)

Now I need to be able to cast this to float, keeping the point value as is in memory.

Can anyone suggest a way or point me in the right direction?

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I am not sure if I am understanding your problem correctly. You have a float f = 0.34 ..... Can you just not add "int ((i1 << 16) + i2)" to your float variable? That will preserve your value after decimal in float variable. –  bits Jul 16 '10 at 16:24
Or I should better ask you to clarify what do you mean by "Now I need to be able to cast this to float, keeping the point value as is in memory."? –  bits Jul 16 '10 at 16:26
Practical example: With i1=-13107 and i2=16708, could I just do float f = ((i1 << 16) + i2); to get the float 12.3? (Which it should be) Will it not automatically cast my int (which would be 1095027917) to float to have float f = 1095027917; ? -- Addition: The both ints come from float from an external device –  cpf Jul 16 '10 at 16:29
How is your int going to be "1095027917"? I am getting "-858963644". And how do you get a float "12.3" with the example i1 and i2 you gave? –  bits Jul 16 '10 at 16:50
I must've switched i1 and i2... Apologies. –  cpf Jul 16 '10 at 17:10

I'd use a union:

``````union fltconv {
float f;
uint32_t i;
} u;
u.i = ((uint32_t) i1 << 16) | i2;
float f = u.f;
``````

It's more explicit about what you're doing. Bear in mind that this is very nonportable.

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I think it is elegant, but the action is even more spooky, especially for the untrained eye, which will think `u` is a struct. –  mvds Jul 16 '10 at 16:45
If I use an union, which indeed seems elegant, the way to port this in the future would probably be to adjust the uint32_t to the required number of bits (And underlying logic to convert it correctly?) –  cpf Jul 16 '10 at 17:16
+1 because it's the only answer yet that does not break the strict aliasing rules. Casting to float might not survive the optimizer. –  Nordic Mainframe Jul 16 '10 at 17:20
@Luther, it is as undefined as pointer punning due to the rule mandating that only the last field written should be read. –  AProgrammer Jul 16 '10 at 17:50
just wondering: can you rely on the overlap in memory of the union members? i.e. is it a feature? e.g. structs may have holes in them in memory, solved by things like `#pragma pack` iirc –  mvds Jul 16 '10 at 20:10

I suggest to keep very clear that you are messing around and use a memcpy:

``````float a;
int b;

memcpy(&a,&b,min(sizeof(a),sizeof(b)));
``````

someone might encounter your code when you're long gone, in which case this will show there's something special happening intentionally.

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For the record: you should consider byteordering as well, but that's more of an issue between the platforms talking to eachother. Google for `htons`, `htonl` and friends to get an idea. –  mvds Jul 16 '10 at 16:48
+1 .. best method this one. As a bonus every compiler I've used compiler will even optimise out the memcpy for you :D –  Goz Jul 16 '10 at 18:46

Perhaps something like this would work?

``````uint32_t a = ....; // Contains your big int.
float b = *(float*)&a;
``````

Of course that would require you to know int has the same size as float...

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Although this works on my laptop, the endresult should work not only for this architecture, although I can, when the time comes to use the end device, check whether or not sizeof(float) == sizeof(int). However: Is there no other way of doing this? –  cpf Jul 16 '10 at 16:40
Even, if you use memcpy, the whole re-interpretation will not make sense, unless float has exactly those 32 bits. –  Piotr Kalinowski Jul 16 '10 at 16:43
I include `sizeof()` more as a security measure (ha, stackoverflow!) than as a way of making sure the data comes in ok - byteordering hasn't been mentioned yet but will be the next hurdle... –  mvds Jul 16 '10 at 16:46
I wasn't thinking about security really, but rather issues like: I've filled first 32-bits of 64-bit float. Hmm, that is not going to give the right value, is it? BTW: I guess we could agree float will not be smaller than those 32 bits. –  Piotr Kalinowski Jul 16 '10 at 16:50
yep, this is totally unreliable and 100% non-portable, but a stackoverflow can always be prevented. –  mvds Jul 16 '10 at 17:03