.define .cmu .sect .text .sect .rom .sect .data .sect .bss .sect .text ! parameters: ! hl : size (#bytes) ! stack: second operand ! first operand ! stack: result (out) .cmu: ! The two operands are compared byte by byte, ! starting at the highest byte, until ! they differ. pop ix ! return address pop hl ! #bytes ld b,h ! bc := hl ld c,l add hl,sp dec hl ! pointer to highest byte ! of second operand ld d,h ! de := hl ld e,l add hl,bc ! pointer to highest byte ! of first operand ld sp,hl ! points to where the ! result will be stored ex de,hl ! now, de points to highest byte of 1st operand ! sp ,, ,, ,, ! hl ,, ,, 2nd ,, ! bc contains #bytes 0: ! loop, compare the two operands ! byte by byte. ld a,(de) xor (hl) ! Avoid overflow during ! subtraction. If the ! signbits differ, then ! the operands differ. jp m,2f ! signbits differ ld a,(de) ! signbits are equal, ! so we can savely ! compare the bytes. sub (hl) jr nz,1f ! operands are different dec de ! the two bytes are the ! same, try next bytes, ! if any. dec hl ! bump pointers dec bc ld a,b ! bc = 0 ? or c jr nz,0b ! no, try next bytes ! yes, then the two operands are equal. ! Note that a=0 now. 1: ld h,a ! hl := result ld l,a jr 3f 2: ! the signbits differ ld h,(hl) ! hl := positive if ! signbit of current ! byte of 2nd operand ! is "0", else negative ld l,1 ! just in case (hl)=0 3: ex (sp),hl ! sp was set above jp (ix) ! return