Delay code
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Delay code
Code that causes a parametrised number of cycles of delay.
Note that all branch instructions are written assuming that no page wrap occurs. If you want to ensure this condition at compile time, use the bccnw/beqnw/etc. macros that are listed at Fixed cycle delay.
Inline code
A + 2 cycles of delay (A = 0—1, Z reflects A, does not modify A)
bne @1 @1:
A + 4 cycles of delay (A = 0—1, does not modify A)
ora #0 bne @1 @1:
X + 4 cycles of delay (X = 0—1)
dex bpl @1 @1:
A + 5 cycles of delay (A = 0—2, Z reflects A)
beq @2 lsr @2: bne @3 @3:
A + 5 cycles of delay (A = 0—2, does not modify A)
cmp #1 bcc @3 bne @3 @3:
X + 5 cycles of delay (X = 0—2)
dex bmi @3 bne @3 @3:
X + 5 cycles of delay (X = 0—2, does not modify X)
cpx #1 bcc @3 bne @3 @3:
A + 6 cycles of delay (A = 0—3, Z reflects A)
beq @2 lsr @2: beq @4 bcs @4 @4:
A + 7 cycles of delay (A = 0—3)
lsr beq @3 bpl @3 @3: bcs @4 @4:
X + 8 cycles of delay (X = 0—3)
dex bmi @4 dex bmi @5 @4: bne @5 @5:
A + 9 cycles of delay (A = 0—4 minus 5, C = 0)
adc #3 ; 2 2 2 2 2 FE FF 00 01 02 bcc @4 ; 3 3 2 2 2 FE FF 00 01 02 lsr ; - - 2 2 2 -- -- 00 00 01 beq @5 ; - - 3 3 2 -- -- 00 00 01 @4: lsr ; 2 2 - - 2 7F 7F -- -- 00 @5: bcs @6 ; 2 3 2 3 2 7F 7F 00 00 00 @6:
X + 10 cycles of delay (X = 0—4)
cpx #3 bcc @3 bne @3 @3: dex bmi @6 bne @6 @6:
A + 9 cycles of delay (A = 0—5)
lsr a bcs @2 @2: beq @5 lsr bcs @6 @5: bne @6 @6:
A + 9 cycles of delay (A = 0—7)
lsr a bcs @2 @2: beq @6 lsr beq @7 bcc @7 @6: bne @7 @7:
A + 15 cycles of delay
sec @L: sbc #5 bcs @L ; 6 6 6 6 6 FB FC FD FE FF adc #3 ; 2 2 2 2 2 FE FF 00 01 02 bcc @4 ; 3 3 2 2 2 FE FF 00 01 02 lsr ; - - 2 2 2 -- -- 00 00 01 beq @5 ; - - 3 3 2 -- -- 00 00 01 @4: lsr ; 2 2 - - 2 7F 7F -- -- 00 @5: bcs @6 ; 2 3 2 3 2 7F 7F 00 00 00 @6:
851968×Y + 3328×A + 13×X + 18 cycles of delay
iny @l1: nop nop @l2: cpx #1 dex sbc #0 bcs @l1 dey bne @l2 rts
Callable functions
A + 25 cycles of delay, clobbers A, Z&N, C, V
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays A clocks + overhead ; Clobbers A. Preserves X,Y. ; Time: A+25 clocks (including JSR) ;;;;;;;;;;;;;;;;;;;;;;;; ; Cycles Accumulator Carry flag ; 0 1 2 3 4 5 6 (hex) 0 1 2 3 4 5 6 ; ; 6 6 6 6 6 6 6 00 01 02 03 04 05 06 : sbc #7 ; carry set by CMP delay_a_25_clocks: cmp #7 ; 2 2 2 2 2 2 2 00 01 02 03 04 05 06 0 0 0 0 0 0 0 bcs :- ; 2 2 2 2 2 2 2 00 01 02 03 04 05 06 0 0 0 0 0 0 0 lsr ; 2 2 2 2 2 2 2 00 00 01 01 02 02 03 0 1 0 1 0 1 0 bcs *+2 ; 2 3 2 3 2 3 2 00 00 01 01 02 02 03 0 1 0 1 0 1 0 beq :+ ; 3 3 2 2 2 2 2 00 00 01 01 02 02 03 0 1 0 1 0 1 0 lsr ; 2 2 2 2 2 00 00 01 01 01 1 1 0 0 1 beq @rts ; 3 3 2 2 2 00 00 01 01 01 1 1 0 0 1 bcc @rts ; 3 3 2 01 01 01 0 0 1 : bne @rts ; 2 2 3 00 00 01 0 1 0 @rts: rts ; 6 6 6 6 6 6 6 00 00 00 00 01 01 01 0 1 1 1 0 0 1 ; Total cycles: 25 26 27 28 29 30 31
A + 27 cycles of delay, clobbers A, Z&N, C, V
This code has longer overhead than delay_a_25_clocks, but it can be appended into other functions, as the execution begins from the first instruction.
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays A clocks + overhead ; Clobbers A. Preserves X,Y. ; Time: A+27 clocks (including JSR) ;;;;;;;;;;;;;;;;;;;;;;;; delay_a_27_clocks: sec @L: sbc #5 bcs @L ; 6 6 6 6 6 FB FC FD FE FF adc #3 ; 2 2 2 2 2 FE FF 00 01 02 bcc @4 ; 3 3 2 2 2 FE FF 00 01 02 lsr ; - - 2 2 2 -- -- 00 00 01 beq @5 ; - - 3 3 2 -- -- 00 00 01 @4: lsr ; 2 2 - - 2 7F 7F -- -- 00 @5: bcs @6 ; 2 3 2 3 2 7F 7F 00 00 00 @6: rts ;
256×A + X + 33 cycles of delay, clobbers A, Z&N, C, V
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays A:X clocks+overhead ; Time: 256*A+X+33 clocks (including JSR) ; Clobbers A. Preserves X,Y. Has relocations. ;;;;;;;;;;;;;;;;;;;;;;;; : ; do 256-5 cycles. sbc #1 ; 2 cycles - Carry was set from cmp pha lda #(256-5 - 27-7-2) jsr delay_a_27_clocks pla delay_256a_x_33_clocks: cmp #1 ; +2 bcs :- ; +3 (-1) ; 0-255 cycles remain, overhead = 4 txa ; +2; 6; +27 = 33 ;passthru <<Place the function delay_a_27_clocks immediately following here>>
Can be trivially changed to swap X, Y.
256×A + X + 33 cycles of delay, relocatable, clobbers A, Y, Z&N, C, V
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays A:X clocks+overhead ; Time: 256*A+X+33 clocks (including JSR) ; Clobbers A,Y. Preserves X. Relocatable. ;;;;;;;;;;;;;;;;;;;;;;;; : ; do 256-5 cycles. sbc #1 ; 2 cycles - Carry was set from cmp ldy #48 ;\ dey ; |- Clobbers Y; 246 cycles, 253 total bpl *-1 ;/ ldy $A4 ; ; 3 cycles, 256 total delay_256a_x_33_clocks_b: cmp #1 ; +2 bcs :- ; +3 (-1) ; 0-255 cycles remain, overhead = 4 txa ; +2; 6; +27 = 33 ;passthru <<Place the function delay_a_27_clocks immediately following here>>
Can be trivially changed to swap X, Y.
256×A + X + 33 cycles of delay, relocatable, clobbers A, Z&N, C, V
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays A:X clocks+overhead ; Time: 256*A+X+33 clocks (including JSR) ; Clobbers A. Preserves X,Y. Relocatable. ; Does not depend on delay_a_25_clocks. ;;;;;;;;;;;;;;;;;;;;;;;; : ; do 256 cycles. ; 5 cycles done so far. Loop is 2+1+ 1+2+1+2+1 + 1+1 = 12 bytes. sbc #1 ; 2 cycles - Carry was set from cmp pha ;\ txa ; | ldx #46 ; | dex ; |- ; 247 cycles, 254 total bpl *-1 ; | tax ; | pla ;/ nop ; 2 cycles; 256 cycles total delay_256a_x_33_clocks_c: cmp #1 ; +2; 2 cycles overhead bcs :- ; +2; 4 cycles overhead ; 0-255 cycles remain, overhead = 4 txa ; +2; 6; +27 = 33 ;passthru <<Place the function delay_a_27_clocks immediately following here>>
256×A + 16 cycles of delay, clobbers A, Z&N, C, V
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays A*256 clocks + overhead ; Clobbers A. Preserves X,Y. ; Time: A*256+16 clocks (including JSR) ; Depends on delay_a_25_clocks ;;;;;;;;;;;;;;;;;;;;;;;; delay_256a_16_clocks: cmp #0 bne :+ rts delay_256a_11_clocks_: : pha lda #(256-25-7-2-2-3) jsr delay_a_25_clocks pla sec sbc #1 bne :- rts
Alternative that depends on different function:
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays A*256 clocks + overhead ; Clobbers A. Preserves X,Y. ; Time: A*256+16 clocks (including JSR) ; Depends on delay_a_27_clocks ;;;;;;;;;;;;;;;;;;;;;;;; delay_256a_16_clocks_b: cmp #0 bne :+ rts delay_256a_11_clocks_b_: : pha lda #(256-27-7-2-2-3) jsr delay_a_27_clocks pla sec sbc #1 bne :- rts
256×X + 16 cycles of delay, relocatable, clobbers X, Y, Z&N
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays X*256 clocks + overhead ; Clobbers X,Y. Preserves A. Relocatable. ; Time: X*256+16 clocks (including JSR) ;;;;;;;;;;;;;;;;;;;;;;;; delay_256x_16_clocks: cpx #0 bne :+ rts delay_256x_11_clocks_: ;5 cycles done. Loop is 256 cycles : ldy #50 dey bne *-1 dex bne :- ;Loop end is -1 cycles. Total: 4+JSR+RTS = 16 rts
Can be trivially changed to swap X, Y.
256×X + A + 30 cycles of delay, clobbers A, X, Z&N, C, V
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays X*256+A clocks + overhead ; Clobbers A,X. Preserves Y. ; Depends on delay_a_25_clocks within short branch distance ; Time: X*256+A+30 clocks (including JSR) ;;;;;;;;;;;;;;;;;;;;;;;; delay_256x_a_30_clocks: cpx #0 ;2 beq delay_a_25_clocks ;3 ;4 cycles done. Must consume 256 cycles; 252 cycles remain. pha ;3 lda #(256-4-(3+2+4+2+3))-25 ;2 jsr delay_a_25_clocks ;238 pla ;4 dex ;2 jmp delay_256x_a_30_clocks ;3
Can be trivially changed to swap X, Y.
851968×Y + 3328×A + 13×X + 30 cycles of delay, clobbers A, X, Y, Z&N, C, V
;;;;;;;;;;;;;;;;;;;;;;;; ; Delays 30+13*(65536*Y+256*A+X) cycles including JSR. ; Clobbers A,X,Y. delay_851968y_3328a_13x_30_clocks: iny @l1: nop nop @l2: cpx #1 dex sbc #0 bcs @l1 dey bne @l2 rts