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I am compiling a code, which gives me error in the following function :

inline char *align(char *var, DataType_e type)
    return (DataTypeSize[type] == 0) ? var :
        (char*) (((unsigned int)(var) + DataTypeSize[type]-1) /
                 DataTypeSize[type] * DataTypeSize[type]);

The following error comes in line with "(unsigned int)(var)" :

error: cast from 'char*' to 'unsigned int' loses precision

If i change "unsigned int" to "unsigned long", the compilation works but i don't get the expected results while running my program. Any idea on how to resolve this issue ?

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What are the expected results? Can you provide some examples? –  glglgl Jun 26 '12 at 13:08
What are your expected results? Can you detail that, please? Appearantly you're compiling in an environment that uses a long for pointer representation. –  πάντα ῥεῖ Jun 26 '12 at 13:10
Are you sure this is even what you want to do? Depending on how you fill up the DataType_e object, it seems highly likely that the pointer that you get back will not be to valid memory. –  Daniel Jun 26 '12 at 14:25
Also, you should note that division and multiplication have the same level of priority and are executed from left to right, so I think your arithmetic is probably not doing what you expect it to do. You are dividing by DataTypeSize[type] and then multiplying by the exact same thing. –  Daniel Jun 26 '12 at 14:27
@Daniel: Dividing by a value and then multiplying by the same value has the result of rounding down to an exact multiple of that value. That's what the code is trying to do (after adding size-1, so that the overall result is to round up to the next multiple of size). And the result will be a valid pointer to size bytes as long there's at least 2*size-1 bytes of valid memory after the initial value. –  Mike Seymour Jun 26 '12 at 14:36

3 Answers 3

In C you should use [u]intptr_t if you need to convert a pointer to an integer type (but which you should avoid in the first place).

If they exist, these types are guaranteed to not lose information.

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The uintptr_t type is the same size as a pointer to POD. Pointers to other data types, and pointers to member functions in particular, can be larger.

inline char *align(char *var, DataType_e type)
    size_t alignSize = DataTypeSize[type];

    if (1 >= alignSize) {
        return var;

    uintptr_t varInt = reinterpret_cast<uintptr_t>(var);
    varInt = alignSize * ((varInt + alignSize - 1) / alignSize);

    return reinterpret_cast<char *>(varInt);
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uintptr_t is good for any void*, and hence good for a pointer to any object type, not just POD. Agreed about pointer-to-member-function. –  Steve Jessop Jun 26 '12 at 14:13
@SteveJessop I thought pointers to objects with multiple inheritance could also be larger than uintptr_t. I've never read the standard so I could be completely off base on this. –  IronMensan Jun 26 '12 at 14:43
pointers are permitted to be any size, but even if it occupies more bytes of storage than void*, any pointer to an object type can be converted to void* and back and result in the same value (5.2.9/13). So it can't "really" be bigger even if some peculiar implementation pads it out with extra data. Similarly any void* can be converted to uintptr_t and back. –  Steve Jessop Jun 26 '12 at 14:52

When you're going to do math operations with pointers you should use pointer arithmetics instead of casting your pointer values to 'int' or 'long', calculate and cast back to pointer. This is prone for bad results, because the compiler can't respect alignment rules for the calculations.

I'm pretty sure that the 'unexpected' result of the function in your example has nothing to do with the cast at all. You should explain more about the calculations done with the DataSize[type] values and what you want to achieve with it.

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Except you can't perform division or multiplication on pointers, and there are no alignment rules for char*. –  Mike Seymour Jun 26 '12 at 13:24
@MikeSeymour You usually don't need to do this. You can perform division and multiplication op's on size_t values and add or substract these to 'anchor' pointers. –  πάντα ῥεῖ Jun 26 '12 at 13:27
But in this case, I'm pretty sure you do need to. Unless you have a way to round an address to a given alignment without directly manipulating its value, in which case please update the answer to show us how. –  Mike Seymour Jun 26 '12 at 13:32
@MikeSeymour Where in the OPs example is multiplication or division done with pointer values?? I can't tell what DataSize[] values really are, but I guess they aren't pointers. And as you mentioned there's no specific alignment for char*, so the correctness of the calculation result from the multiplication and division operations depends on the memory layout underlying the var parameter. But looking at the OPs example again, the result will be very likely the same pointer value as it was passed in. –  πάντα ῥεῖ Jun 26 '12 at 14:16
The parentheses around the addition mean that that's done first, regardless of operator precedence. Without the cast, the result of the addition would be char*, which can't be used as a division operand. Without the parentheses, the division and multiplication will always give zero, and so the function would be useless. I'll repeat myself one last time: this calculation can't be done using pointer arithmetic. –  Mike Seymour Jun 26 '12 at 14:34

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