# Converting IEEE 754 packed bit stream into float single precision

I have a problem with converting unsigned long to Float single precision Here is my problem

I need to communicate in floating point in my program, but all my internal variables are unsigned long, So the design we decided was such that everything will remain same,(in unsigned long) and once a float needs to be given to application, i will convert to float and pass it on.

So all the variables will have a IEEE 754 bit stream according to

Float converter

1. I get the value in char array
2. I take the bits and copy into a unsigned long
3. While giving the data on function call, i typecast to float single precision.

In debugger i see the same bit pattern (in buffers) for steps 1 &2

In step 3 too, i see the same binary pattern, but the value is not interpreted as a float

Input : 21.125

1. Binary : 01000001101010010000000000000000
2. Hex : 0x41a90000
3. Decimal: 1101594624

``````Code:
void ApplicationApi(void * DataPtr)
{
(*(float32*)((void*)DataPtr))= unsignedLong_val;
}
``````

Result in application DataPtr * DataPtr = 1.101594624 * e9

Am i missing something here or the type case worked ?

-

A standard C way to reinterpret the bytes of an `unsigned long` as a `float` is:

``````y = (union { unsigned long u; float f; }) { x } .f;
``````

This code defines a compound literal that is a union, and it initializes the union with the value of `x`, which should be an `unsigned long`. Then it accesses the `f` member of the union, which is a `float`. This `float` value is assigned to `y`, which should be a `float`.

Thus, assuming the declaration of `ApplicationApi` must remain the same and that the `void *DataPtr` it is passed is the result of converting a pointer to a `float` to a pointer to `void`, its definition could be:

``````void ApplicationApi(void *DataPtr)
{
* (float32 *) DataPtr =(union { unsigned long u; float32 f; }) { unsignedLong_val } .f;
}
``````

• This requires that `unsigned long` and `float32` have the same size.
• It is undesirable for `unsignedLong_val` to have file scope. It would be preferable to pass it as a parameter.
• There is no reason inherent in this code that DataPtr should be passed as a `void *`. It could be passed as a `float32 *`.

• The way that the bytes have been assembled in the `unsigned long` may have endian issues.
• In C implementations that are currently rare, an `unsigned long` could have trap values that prevent it from being used to hold arbitrary bytes.

About the C standard and reinterpreting bytes:

• Reinterpreting bytes through a union is the result of C 2011 (N1570) 6.5.2.3 3, which says that an expression using the `.` operator and a member name has the value of the named member. Note 95 of the standard indicates that this may be used to reinterpret bytes.
• Another supported way to reinterpret bytes is by converting a pointer to a pointer to a character type and using the new pointer to copy bytes, per 6.3.2.3 7. (`memcpy` is sometimes used for this.)
• 6.3.2.3 7 defines this behavior only for pointers to character types. For other types, the C standard generally does not define the behavior of converting a pointer to a pointer of another type and dereferencing the result. Therefore, the behavior of code that does this is undefined. Even if it appears to work in a test, it may later fail due to compiler optimizations or other effects.
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,Many thanks for your comments, The issue is not closed :) –  DarkKnight Aug 26 '13 at 5:09
Is there a way to do this operation without using Union ? –  DarkKnight Nov 6 '13 at 14:17
@DarkKnight: You can use `memcpy` to copy the bytes of an `unsigned long` into a `float32`. –  Eric Postpischil Nov 6 '13 at 14:20
1. So a type cast is not needed and memcpy would suffice ? 2. Will this work for double precision floats too ? –  DarkKnight Nov 6 '13 at 14:25
@DarkKnight: As the answer states, you may either use a union or use `memcpy`. Both of these methods may be used to copy the bytes of one object of any type into another object of any type, and the bytes will be reinterpreted as a value of the new type. –  Eric Postpischil Nov 6 '13 at 15:34

Try with this cast :

``````void ApplicationApi(void * DataPtr)
{
*(float32*)DataPtr = *(float32*)unsignedLong_val;
}
``````

You have to declare that the right value is a float value.
With your cast, the right value is an integer and the left value a float. The compiler convert implicitly the integer to a float value.

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Thanks Micheal, Just modified a little void ApplicationApi(void * DataPtr) { (float32)DataPtr = (float32)(&unsignedLong_val); } Does any compiler dependecy change the output ? also in the reverse direction –  DarkKnight Aug 22 '13 at 7:00
This is not valid C. It violates the aliasing rules, meaning roughly that the compiler may reorder/rearrange/optimize code in a way that results in different behavior from what you expect. (Formally, it's just undefined behavior.) –  R.. Aug 22 '13 at 7:01
@R.. where is there two different pointers of two different type pointing at the same memory location ? There is no violation of aliasing rule. –  Michael Aug 22 '13 at 7:08
@Michael R.. is referring to C99 6.5:7, which mentions the “effective type” of the object, defined in 6.5:6. If `unsignedLong_val` is of type `unsigned long`, and/or if `DataPtr` points to an object that will be accessed with a type other than `float32`, you function participates to undefined behavior in the complete program. The only cases in which it does not invoke undefined behavior are the cases in which it does not solve the OP's problem. –  Pascal Cuoq Aug 22 '13 at 8:43
@PascalCuoq : In my casr the DataPtr will point to float32 and I am type casting as below.... (Astrick(float32*)((void*)DataPtr)) = (Astrick(float32*)((void*)&signalDataVal));, I guess this should not have a problem , * do not appear thats why Astrick –  DarkKnight Aug 22 '13 at 9:16