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I'm not sure if this is a problem, but certainly a curiosity. I have a C DLL that exports a function taking a 32-bit integer and a boolean (stdbool.h). The exported function (stdcall) indicates the parameter list is 8 bytes (4-byte int, 4-byte bool). This C DLL also contains a structure that uses booleans. Checking sizeof(bool) indicates 1-byte booleans.

I have a .Net wrapper for this native DLL. When marshaling the structure, I specified for each boolean field UnmanagedType.U1 and all works well, everything is aligned correctly. I only used sequential layout, not explicit nor any offsets nor any packing.

My question is, why the apparent disparity in boolean size?

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What compiler was the DLL made with? –  Lundin Oct 31 '12 at 16:03
    
Eclipse -> MingW -> GCC 4.7 –  Ioan Oct 31 '12 at 17:34

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All function parameters in C that are smaller than "int" are converted to "int" size in the call. This is because each parameter is placed on the stack separately (in most architectures), so they are converted to stack cell size which is usually equal to size of "int".

As for structure - nothing is converted. Though we should not forget about alignment in structures. But this is another story.

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The language doesn't require this, though many implementations may. –  Keith Thompson Oct 31 '12 at 17:51
    
@KeithThompson The language does require it, if a function prototype is missing. Then the default argument promotions take place, that promote all small integers to int. Though whether a prototype is missing or not in this specific case, we don't know. –  Lundin Nov 1 '12 at 7:26
    
@Lundin Yes, prototypes exist in this case. –  Ioan Nov 1 '12 at 11:59
    
@Lundin: Default argument promotions don't occur "because each parameter is placed on the stack separately" (though they were probably motivated by something like that). –  Keith Thompson Nov 1 '12 at 17:49
    
I agree with Keith Thompson, but I don't think that our statements contradict to each other. Yes, the language does not require, but as I said - "in most architectures". Saying "architectures", I meant compiler "implementations", which corresponds to Keith Thompson's reply. –  AlexL Mar 11 '13 at 14:18

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