; os memory map CLRTEXT = $c050 SETTEXT = $c051 CLRMIXED = $c052 SETMIXED = $c053 TXTPAGE1 = $c054 TXTPAGE2 = $c055 CLRHIRES = $c056 SETHIRES = $c057 ; ROM entry points COUT = $fded ROMWAIT = $fca8 ; Zero page locations we use (unused by Monitor, Applesoft, or ProDOS) PARAM0 = $06 PARAM1 = $07 PARAM2 = $08 PARAM3 = $09 SCRATCH0 = $19 SCRATCH1 = $1a SPRITEPTR_L = $1b SPRITEPTR_H = $1c BGSTORE = $fa BGTOP = $c0 ; page number of first byte beyond top of backing store stack ; constants MAXPOSX = 250 MAXPOSY = 192 - 16 *= $6000 start bit CLRTEXT ; start with HGR page 1, full screen bit CLRMIXED bit TXTPAGE1 bit SETHIRES ;jsr clrscr jsr initsprites gameloop jsr renderstart jsr movestart jsr wait jsr restorebg_driver jmp gameloop initsprites jsr restorebg_init rts ; Draw sprites by looping through the list of sprites renderstart ldy #0 renderloop lda sprite_active,y bmi renderend ; end of list if negative beq renderskip ; skip if zero lda sprite_l,y sta jsrsprite+1 lda sprite_h,y sta jsrsprite+2 lda sprite_x,y sta PARAM0 lda sprite_y,y sta PARAM1 jsrsprite jsr $ffff ; wish you could JSR ($nnnn) renderskip iny bne renderloop ; branch always because always positive; otherwise limited to 255 sprites (haha) renderend rts movestart ldy #0 moveloop lda sprite_active,y bmi moveend beq movenext movex ; Apply X velocity to X coordinate lda sprite_dirx,y bpl move_right sec lda sprite_x,y sbc sprite_dx,y cmp #MAXPOSX bcc movex_end lda #1 sta sprite_dirx,y lda #0 sta sprite_x,y bpl movey move_right clc lda sprite_x,y adc sprite_dx,y cmp #MAXPOSX bcc movex_end lda #-1 sta sprite_dirx,y lda #MAXPOSX movex_end ; Store the new X sta sprite_x,y movey ; Apply Y velocity to Y coordinate lda sprite_diry,y bpl move_down sec lda sprite_y,y sbc sprite_dy,y cmp #MAXPOSY ; checking wraparound bcc movey_end ; less than => not wrapped lda #1 sta sprite_diry,y lda #0 sta sprite_y,y bpl movenext move_down clc lda sprite_y,y adc sprite_dy,y cmp #MAXPOSY bcc movey_end lda #-1 sta sprite_diry,y lda #MAXPOSY movey_end ; Store the new X sta sprite_y,y movenext iny bne moveloop moveend rts wait ldy #$06 ; Loop a bit wait_outer ldx #$ff wait_inner nop nop nop nop nop nop nop dex bne wait_inner dey bne wait_outer rts clrscr lda #0 sta clr1+1 lda #$20 sta clr1+2 clr0 lda #$81 ldy #0 clr1 sta $ffff,y iny bne clr1 inc clr1+2 ldx clr1+2 cpx #$40 bcc clr1 rts ; Sprite data is interleaved so a simple indexed mode can be used. This is not ; convenient to set up but makes faster accessing because you don't have to ; increment the index register. For example, all the info about sprite #2 can ; be indexed using Y = 2 on the indexed operators, e.g. "lda sprite_active,y", ; "lda sprite_x,y", etc. sprite_active .byte 1, 1, 1, 1, 1, 1, 1, 1, $ff ; 1 = active, 0 = skip, $ff = end of list sprite_l .byte APPLE_SPRITE9X11, >APPLE_SPRITE9X11, >APPLE_SPRITE9X11, >APPLE_SPRITE9X11, >APPLE_SPRITE9X11, >APPLE_SPRITE9X11, >MOLDY_BURGER, >MOLDY_BURGER sprite_x .byte 80, 164, 33, 245, 4, 9, 255, 18 sprite_y .byte 116, 126, 40, 60, 80, 100, 120, 140 sprite_dx .byte 1, 2, 3, 4, 1, 2, 3, 4 sprite_dirx .byte -1, -1, -1, -1, 1, 1, 1, 1 sprite_dy .byte 4, 3, 2, 1, 4, 3, 2, 1 sprite_diry .byte 1, 1, 1, 1, -1, -1, -1, -1 .include multitest-sprite-driver.s .include backingstore.s .include backingstore-3x11.s