; ; Ullrich von Bassewitz, 06.08.1998 ; ; void cputcxy (unsigned char x, unsigned char y, char c); ; void cputc (char c); ; .export _cputcxy, _cputc, cputdirect, putchar .export newline, plot .import gotoxy .include "pet.inc" _cputcxy: pha ; Save C jsr gotoxy ; Set cursor, drop x and y pla ; Restore C ; Plot a character - also used as internal function _cputc: cmp #$0A ; CR? bne L1 lda #0 sta CURS_X beq plot ; Recalculate pointers L1: cmp #$0D ; LF? beq newline ; Recalculate pointers ; Printable char of some sort cmp #' ' bcc cputdirect ; Other control char tay bmi L10 cmp #$60 bcc L2 and #$DF bne cputdirect ; Branch always L2: and #$3F cputdirect: jsr putchar ; Write the character to the screen ; Advance cursor position advance: cpy SCR_LINELEN ; xsize-1 bne L3 jsr newline ; new line ldy #$FF ; + cr L3: iny sty CURS_X rts newline: lda SCR_LINELEN ; xsize-1 sec ; Account for -1 above adc SCREEN_PTR sta SCREEN_PTR bcc L4 inc SCREEN_PTR+1 L4: inc CURS_Y rts ; Handle character if high bit set L10: and #$7F cmp #$7E ; PI? bne L11 lda #$5E ; Load screen code for PI bne cputdirect L11: ora #$40 bne cputdirect ; Set cursor position, calculate RAM pointers plot: ldy CURS_Y lda ScrLo,y sta SCREEN_PTR lda ScrHi,y ldy SCR_LINELEN cpy #40+1 bcc @L1 asl SCREEN_PTR ; 80 column mode rol a @L1: ora #$80 ; Screen at $8000 sta SCREEN_PTR+1 rts ; Write one character to the screen without doing anything else, return X ; position in Y putchar: ora RVS ; Set revers bit ldy CURS_X sta (SCREEN_PTR),y ; Set char rts ; Screen address tables - offset to real screen .rodata ScrLo: .byte $00, $28, $50, $78, $A0, $C8, $F0, $18 .byte $40, $68, $90, $B8, $E0, $08, $30, $58 .byte $80, $A8, $D0, $F8, $20, $48, $70, $98 .byte $C0 ScrHi: .byte $00, $00, $00, $00, $00, $00, $00, $01 .byte $01, $01, $01, $01, $01, $02, $02, $02 .byte $02, $02, $02, $02, $03, $03, $03, $03 .byte $03