Difference between revisions of "Programming:Simple Raster Example 2 (uses CPC plus features)"
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Revision as of 02:57, 14 March 2007
;; This example shows a simple raster using the CPC+ ;; extended palette, and using standard CPC compatible ;; raster interrupts to define the position of the raster ;; on the display. ;; ;; This example is designed for CPC+ only and will ;; not work on CPC or KC Compact. ;; ;; ;; This example will compile with the MAXAM assembler ;; or the built-in assembler of WinAPE32. ;; NOTE - For this example to work, the code must not ;; be in the range &4000-&7fff inclusive. The ASIC registers ;; are paged into this range, and the code would not be ;; visible to the CPU if it was also in this range. org &8000 .scr_set_mode equ &bc0e ;;-------------------------------------------------- ;; clear screen ld a,1 call scr_set_mode ;;-------------------------------------------------- ;; STEP 1 - Unlock CPC+ additional features ;; unlock asic to gain access to asic registers di ld b,&bc ld hl,sequence ld e,17 .seq ld a,(hl) out (c),a inc hl dec e jr nz,seq ei ;;---------------------------------------------------------- ;; STEP 2 - Install a interrupt handler ;; ;; install a interrupt handler ;; disable interrupts di ;; interrupt mode 1 (call to interrupt handler at &0038) im 1 ;; &c9 corresponds to the opcode RET ;; &fb corresponds to the opcode EI ;; ;; RET opcode takes 3us, EI opcode takes 1us ;; write EI,RET to interrupt handler at &0038 ld hl,&c9fb ld (&0038),hl ;; enable interrupts ei ;;------------------------------------------------------------ .main_loop ;;--------------------------------------- ;; wait for start of vsync ;; ;; at this point the code assumes the VSYNC is not active. ;; ;; this code waits for the VSYNC to change from inactive->active ;; which signals the start of the VSYNC. ;; PPI port B ld b,&f5 .ml1 ;; read input in a,(c) ;; transfer bit 0 into carry ;; if bit 0=1 then VSYNC is active, if bit 0=0 then VSYNC is inactive rra jr nc,ml1 ;;---------------------------------------- ;; wait for interrupt halt ;; wait for interrupt halt ;; wait for interrupt halt ;; wait for interrupt halt ;; delay so that colour change position is not visible (hidden ;; by border and horizontal flyback) defs 20 ;; page-in asic registers to &4000-&7fff ld bc,&7fb8 ;; [3] out (c),c ;; [4] ld de,&6400 ;; colour 0 ;; start of table ld hl,raster_colours ;; number of colours in table ld b,end_raster_colours-raster_colours ;; /2 srl b .rl ;; read colour from table (a byte at a time) ;; write colour to ASIC colour palette (a byte at a time) ld a,(hl) ;; [2] ld (de),a ;; [2] inc hl ;; [2] inc e ;; [1] ld a,(hl) ;; [2] ld (de),a ;; [2] inc hl ;; [2] dec e ;; [1] ;; delay so that the next colour change ;; occurs immediatly below this one defs 64-2-2-2-1-2-2-2-1-1-3 dec b ;; [1] jp nz,rl ;; [3] ;; page-out asic registers ld bc,&7fa0 out (c),c jp main_loop ;;--------------------------------------------- ;; - there is two bytes per colour. ;; - these are stored in a form that can be written direct ;; to the CPC+ colour palette registers ;; e.g. xGRB .raster_colours defw &0111 defw &0222 defw &0333 defw &0444 defw &0555 defw &0666 defw &0777 defw &0888 defw &0999 defw &0aaa defw &0bbb defw &0ccc defw &0ddd defw &0eee defw &0fff defw &0fff defw &0eee defw &0ddd defw &0ccc defw &0bbb defw &0aaa defw &0999 defw &0888 defw &0777 defw &0666 defw &0555 defw &0444 defw &0333 defw &0222 defw &0111 defw &0000 .end_raster_colours ;;---------------------------------------------------------- ;; this is the sequence to unlock the ASIC extra features .sequence defb &ff,&00,&ff,&77,&b3,&51,&a8,&d4,&62,&39,&9c,&46,&2b,&15,&8a,&cd,&ee