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When a line of code shown below is compiled(X86), corresponding assembly instruction is generated. 895 is an -ve number and is stored in 2's complement form at the memory location pointed by %esp.

 int a = -895  --> compiler ---> movl    $-895, 24(%esp)

My doubt is, does assembler directly converts -895 to 2's complement form and generates machine instruction or does CPU's ALU while executing corresponding machine instruction with -895 as argument does it and store in memory location?

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$-895 is a notation for 2's complement form.... The x86 processor operates on 32 bits registers... (and on memory words containing 32 bits numbers) – Basile Starynkevitch Jan 26 '13 at 14:40
$-895 is just a handy mnemonic that your particular compiler's dialect offers for convenience. The actual machine instruction simply contains the value that represents the number -895 on your machine. Two's complement (which you should spell correctly) doesn't even have anything to do with this. – Kerrek SB Jan 26 '13 at 14:52
up vote 2 down vote accepted

The assembler does it. It most likely first converts 895 into binary and then negates it and the result goes into the compiled code. Negation obviously occurs in the CPU (as does execution of the entire assembler), most likely as a single instruction (e.g. NEG register).

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Of course it happens at compile (assembly) time, otherwise movl would have to generate not just movl.

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