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Say I have a large struct, which includes other struct, etc. Would gcc -os or any other gcc optimisation switch change the way it's stored in memory? I.e. would it pack the structure so as to squeeze out some extra space?

thanks,

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Have you tried? I bet you didn't –  BlackBear Oct 3 '11 at 13:54

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No, in order change the native platform alignment for a structure in gcc you would have to explicitly use the __attribute__((packed)) or __attribute__((align X)) compiler directives, or other gcc command-line switches that specifically direct the compiler to change the native-platform alignment for data-structures.

Also, packing a structure with mixed data-types so that all the data-members may not be aligned on a proper word-boundary in memory actually will be slower for accessing a data-member at runtime, not faster. This is because the compiler will have to unpack the structure back to the native alignment for the platform before accessing the data-member.

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That's not the only way - there are command line switches too, e.g. -malign=... and you may get differences between e.g. -m32 and -m64. –  Paul R Oct 3 '11 at 13:59
    
Okay, updated ... thanks. –  Jason Oct 3 '11 at 14:02
    
I prefer #pragma pack over __attribute__ stuff. Mostly because i never liked the attribute syntax, but also partially because the pragma pack syntax is fairly similar between compilers that support it. –  Brian McFarland Oct 3 '11 at 15:19

No, this should not happen - so long as you have the same alignment and packing options for all your code modules then they should work correctly together even if compiled with different optimisation levels,

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In fact, I can see how aligning structs (by padding them) could lead to shorter code (no cross-boundary word addressing -> fewer load/stores)

-Os optimizes for binary size (i.e. most commonly referred to as code size) not memory compression

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