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I've done some googling-research on the topic "When to use ASM?" and found some useful information. Of course people mentioned vast areas of application: size and speed optimization of HL code, bootloaders, embedded systems, driver development, reverse engineering etc.

Now, I'd like to ask what can I achieve with ASM that cannot be done (or is highly ineffective) using normal C compiler (say gcc) on Intel processor (x86)?

I've heard about:

  • implementing mutexes - direct CPU support needed (eg. lock, xchg)
  • fancy bit operations - find highest/lowest bit set to 1 (bsf, bsr), test if a bit is 1 (bt, bts...), rotate a value (ror, rol)
  • interrupt masking (sti, cli)
  • accessing CPU-specific information (cpuid)

Some people suggest re-writing standard memory functions (eg. memcpy()) in ASM. I thought that compilers nowadays have already these operations implemented in an optimal manner, but maybe I'm wrong?

Someone also mentioned int/float conversion which I don't understand. I mean is this also much more efficient to perform such a conversion manually?

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Possible duplicate:… – reve_etrange Sep 6 '12 at 8:48
Thanks for a link. I've went through that topic, found some answers, but still want some more : ) – Paweł Kłeczek Sep 6 '12 at 16:58

1 Answer 1

Using advantage of CPU architectiure that is not supported by compiler. When your compiler is not good enought to perform vectorizations on your calculations to get a better performance, you can use assembly too. Think about doing 32 char calculations with a single instruction in AVX capable CPU.

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Oh, that's someting new and interesting for me. Thanks! – Paweł Kłeczek Sep 8 '12 at 19:03

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