george-emu/roms/test.asm

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NASM
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; .setcpu "65C02"
.include "./macro.inc"
; okay so rn i wanna set up a very basic system init, and write a few subroutines to draw characters at x,y coordinates
n = $01 ; temporary storage for data stack operations
key_row = $200 ; used for character lookup when key pressed
key_col = $201
cursor = $202
char_buffer = $300 ; 256 byte character buffer
kb_row = $4400 ; keyboard hardware register
kb_row_cache = $203 ; cache
.org $8000
reset:
sei
ldx #0; initialize data stack pointer
jmp main
initdisplay:
lda #20
ldy #0
cleardisplay:
sta $6000,y
sta $6100,y
sta $6200,y
sta $6300,y
sta $6400,y
sta $6500,y
sta $6600,y
sta $6700,y ; this goes slightly over but it's fine
iny
bne cleardisplay
cli
main:
; jsr keyboard
; key_zero:
; stz keyboard_cache, x
; dex
; bpl key_zero
; fim:
; cli
; bra fim
; jsr kitty_keys
lda #9
sta $6000
jmp main
not_keyboard:
ldy #0
.check_row: ; loop through each row
lda kb_row, y
beq .skip_row ; if row has no key pressed, skip checking which key
sta kb_row_cache, y ; if key pressed, cache it
lda kb_row, y
cmp kb_row_cache, y ; has key changed?
beq key_down
.skip_row:
iny
cpy #5
bne .check_row
rts
key_down: ; a is loaded with the row byte
phy
sty key_row ; store character row
ldy #0
.find_col: ; test each row bit, store column if key pressed
lsr ; test bit 7
bcs store_col ; if unset, don't go store character columnb
.skip:
iny
cpy #8
bne .find_col ; loop until we've checked each bit
store_col:
sty key_col
keymap_index:
push
lda key_col
stz 1, x
sta 0, x
push
lda #8
stz 1, x
sta 0, x
push
lda key_row
stz 1, x
sta 0, x
jsr mult
jsr plus
lda 0, x
tay
print: ; we've stored the character position, now let's
lda keymap, y
ldy cursor
sta $6000, y
inc cursor
ply
rts
keymap:
.byte "?outrew?"
.byte "?piygsq?"
.byte "a??khvd?"
.byte "42ljbfz?"
.byte "31?mncx?"
.byte "????? m"
; draw:
; ; push_coords #0, #0
; ; push_char #$00
; ; jsr draw_char
; rts
; draw_char: ; draw a character c at (x, y) (n1: x n2: y n3: c -- )
; lda 0, x ; load a with character to draw
; pop ; and pop it off the stack
; jsr get_char_address ; calculate where to put the character in memory
; sta (0, x) ; store a at the address pointed to on the stack
; rts
; get_char_address: ; gets vram address for a character at (x, y),
; ; (n1: x n2: y -- n: $6000 + x + (64 * y))
; ;jsr push_lit ; push 64 onto stack, low byte first
; ;.byte 64
; ;.byte 0
; pha
; lda #64
; push ; doing this instead until `push_lit` is fixed
; sta 0, x
; stz 1, x
; jsr mult ; multiply 64 with y (n2)
; jsr plus ; add result with x (n1)
; ;jsr push_lit ; push vram address onto the stack
; ;.byte $00
; ;.byte $60
; lda #$60
; push
; sta 1, x
; stz 0, x
; jsr plus ; add vram start address to result
; pla
; rts
; fill: ; fills an area from (x1, y1) to (x2, y2) will character c, (n1: c n2: x1 n3: y1 n4: x2 n5: y2 -- )
; jsr get_char_address
isr: ; interrupt service routine
pha
phx
phy
; jsr irq
ply
plx
pla
rti
.include "math.inc"
.org $fffc
.word reset
.word isr