# Arithmetic Bit Shift of Double Variable Data Type in C

I am trying to arithmetic bit shift a double data type in C. I was wondering if this is the correct way to do it:

NOTE: firdelay[ ][ ] is declared in main as double firdelay[8][12]

``````void function1(double firdelay[][12]) {
int * shiftptr;

// Cast address of element of 2D matrix (type double) to integer pointer
*shiftptr = (int *) (&firdelay[0][5]);

// Dereference integer pointer and shift right by 12 bits
*shiftptr >>= 12;
}
``````
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What are you hoping to achieve by bit shifting a double? –  Praetorian Aug 10 '11 at 18:14
I am converting a simulink model to C, in the model a double is shifted right arithmetically by 12 bits using the Shift Arithmetic block. Therefore I need to do the same thing in C. –  starbox Aug 10 '11 at 18:17
Can you point to some link describing the model? I really doubt one can get something meaningful by bit shifting a double. –  Alexandre C. Aug 10 '11 at 18:18
This model is number --> converted to double --> bit shift right by 12 bits –  starbox Aug 10 '11 at 18:21

Bitwise shifting a floating point data type will not give you the result you're looking for.

In Simulink, the Shift Arithmetic block only does bit shifting for integer data types. If you feed it a floating point type it divides the input signal by `2^N` where N is the number of bits to shift specified in the mask dialog box.

EDIT:
Since you don't have the capability to perform any floating point math your options are:

• understand the layout of a floating point single precision number, then figure out how to manipulate it bitwise to achieve division.
• convert whatever algorithm you're porting to use fixed point data types instead of floating point

I'd recommend option 2, it's a whole lot easier than 1

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So basically you are saying I should just divide by 2^N instead of bitshifting? Hmm.. I need to convert this model to assembly after the C code is done, any idea how I would extend the method down to assembly? (each data word is 16 bits in my assembly) –  starbox Aug 10 '11 at 18:28
Yes, if the input data type is floating point you should divide. Why do you need to convert the C to assembly manually? Your compiler will take care of that. Assuming your platform supports floating point data the compiler will know what assembly instruction to generate to do a float divide. –  Praetorian Aug 10 '11 at 18:30
@starbox: to convert to assembly, ask your compiler to do it for you (`-S` switch for gcc). –  Alexandre C. Aug 10 '11 at 18:31
@Praetorian: I am writing assembly code for a processor which does not have a compiler written for it. –  starbox Aug 10 '11 at 18:32
@Praetorian: A multicore processor that is, with 128 instruction word size per core. –  starbox Aug 10 '11 at 18:33

Bit-shifting a floating-point data type (reinterpreted as an int) will give you gibberish (take a look at the diagrams of the binary representation here to see why).

If you want to multiply/divide by a power of 2, then you should do that explicitly.

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Or use frexp/ldexp. But compilers are smart nowadays. –  Alexandre C. Aug 10 '11 at 18:20
I am not casting the data type to an int, I am only casting the address to an integer pointer. According to this site: cs.umd.edu/class/spring2003/cmsc311/Notes/BitOp/bitshift.html That is how you do it. –  starbox Aug 10 '11 at 18:20
@starbox: The guy who wrote this link deserves to be shot. There is no guarantee that `float` and `int` have the same size, and no way to guarantee what the result should be. Don't bit shift floating point numbers, and most importantly, don't use those type punning tricks. Their behavior is undefined. –  Alexandre C. Aug 10 '11 at 18:23
@starbox: It will simply shift the sign bit into the exponent, and the exponent bits into the mantissa, and throw away some mantissa bits. Probably not what you want! –  Oliver Charlesworth Aug 10 '11 at 18:27
@starbox By right shifting you'll simply be moving the sign bit toward the exponent bits, and the exponent bits toward the fraction bits (here's the layout of a float). So the result will not make any sense. Take a look at my answer below for an explanation of why this works in Simulink. –  Praetorian Aug 10 '11 at 18:28

According to the poorly worded and very unclear documentation, it seems that "bit shifting" in Simulink takes two arguments for floating point values and has the effect of multiplying a floating point value by two raised to the difference of the arguments.

You can use `ldexp(double_number, bits_to_pseudo_shift)` to obtain this behavior. The function `ldexp` is found in `<math.h>`.

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I agree, the documentation is horrible –  starbox Aug 10 '11 at 18:34

There is no correct way to do this. Both operands of `<<` must be of some integer type.

What you're doing is interpreting ("type-punning") a `double` object as if it were an `int` object, and then shifting the resulting `int` value. Even if `double` and `int` happen to be the same size, this is very unlikely to do anything useful. (And even if it is useful, it makes more sense to shift unsigned values rather than signed values).

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