When the one-operand form of
imul is passed a 32 bit argument (as in your case with
EDX) it effectively means
EAX * EDX where both
EDX are 32 bit registers.
The product of two 32 bit values doesn't necessarily fit in 32 bits: the full multiply result can take up to 64 bits. The high 32 bits of the answer will be written to the
EDX register and the low 32 bits to the
EAX register; this is represented with the
If you only want the low 32 bits of the result, use the 2-operand form of
imul; it runs faster and doesn't have any implicit operands (so you can use whatever registers are most convenient).
imul ecx, esi does
ecx *= esi like you'd expect, without touching
EDX. It's like C where
x *= y; has the same width for the result as the inputs.
imul also has an immediate form:
imul ecx, ebx, 1234 does
ecx = ebx * 1234. Many assemblers will accept
imul ecx, 1234 as short-hand for
imul ecx, ecx, 1234.
These 32x32 => 32-bit forms of
imul work correctly for signed or unsigned; the results of one-operand
imul only differ in the upper half (in
EDX), not the low-half
See Intel's instruction reference manual entry for