; When negating values, we will ignore the possibility here, that one of the
; values if $80000000, in which case the negate will fail.
- .export tosdiv0ax, tosdiveax
- .import poplsargs, udiv32, negeax
- .importzp sreg, ptr1, tmp1, tmp2
+ .export tosdiv0ax, tosdiveax
+ .import poplsargs, udiv32, negeax
+ .importzp sreg, ptr1, tmp1, tmp2
tosdiv0ax:
ldy #$00
sty sreg+1
tosdiveax:
- jsr poplsargs ; Get arguments from stack, adjust sign
- jsr udiv32 ; Do the division, result is in (ptr1:sreg)
+ jsr poplsargs ; Get arguments from stack, adjust sign
+ jsr udiv32 ; Do the division, result is in (ptr1:sreg)
ldx ptr1+1 ; Load byte 1 of result
; Adjust the sign of the result
; Result is negative
- lda ptr1 ; Load byte 0
- jmp negeax ; Negate value
+ lda ptr1 ; Load byte 0
+ jmp negeax ; Negate value
; Result is positive