; ; Groepaz/Hitmen, 11.10.2015 ; ; high level implementation for the soft80 implementation ; ; void cputcxy (unsigned char x, unsigned char y, char c); ; void cputc (char c); ; .export soft80_cputcxy, soft80_cputc .export soft80_cputdirect, soft80_putchar .export soft80_newline, soft80_plot .export soft80_checkchar .import gotoxy .import soft80_kplot .import soft80_internal_bgcolor, soft80_internal_cellcolor .import soft80_internal_cursorxlsb .importzp tmp4,tmp3 .include "c64.inc" .include "soft80.inc" soft80_cputcxy: pha ; Save C jsr gotoxy ; Set cursor, drop x and y pla ; Restore C ; Plot a character - also used as internal function soft80_cputc: cmp #$0A ; CR? bne L1 lda #0 sta CURS_X ; Set cursor position, calculate RAM pointers soft80_plot: ldx CURS_Y ldy CURS_X clc jmp soft80_kplot ; Set the new cursor L1: cmp #$0D ; LF? beq soft80_newline ; Recalculate pointers ; shortcut for codes < $80 ... codes $20-$7f can be printed directly, ; codes $00-$1f are control codes which are not printable and thus may ; give undefined result. tay bpl @L10 ; codes $80-$ff must get converted like this: ; $80-$9f -> dont care (control codes) ; $a0-$bf -> $00-$1f ; $c0-$df -> $60-$7f ; $e0-$ff -> $00-$1f ora #%01000000 ; $40 clc adc #%00100000 ; $20 and #%01111111 ; $7f @L10: ; entry point for direct output of a character. the value passed in ; akku must match the offset in the charset. ; - the following may not modify tmp1 soft80_cputdirect: jsr soft80_putchar ; Write the character to the screen ; Advance cursor position iny ; contains CURS_X cpy #charsperline beq @L3 sty CURS_X tya and #$01 sta soft80_internal_cursorxlsb bne @L5 lda SCREEN_PTR clc adc #8 sta SCREEN_PTR bcc @L4 inc SCREEN_PTR+1 @L4: inc CRAM_PTR bne @L5 inc CRAM_PTR+1 @L5: rts @L3: inc CURS_Y ; new line ldy #0 ; + cr sty CURS_X jmp soft80_plot ; - the following may not modify tmp1 soft80_newline: lda SCREEN_PTR clc adc #<(40*8) sta SCREEN_PTR lda SCREEN_PTR+1 adc #>(40*8) sta SCREEN_PTR+1 lda CRAM_PTR clc adc #40 sta CRAM_PTR bcc @L5 inc CRAM_PTR+1 @L5: inc CURS_Y rts ;------------------------------------------------------------------------------- ; All following code belongs to the character output to bitmap ; ; this stuff is going to be used a lot so we unroll it a bit for speed ;------------------------------------------------------------------------------- .if SOFT80FASTSPACE = 1 ; output inverted space (odd) draw_spaceinvers_odd: .repeat 8,line lda (SCREEN_PTR),y and #$f0 sta (SCREEN_PTR),y .if line < 7 iny .endif .endrepeat jmp draw_back ; output inverted space (general entry point) ; in: y must be $00 draw_spaceinvers: .if SOFT80COLORVOODOO = 1 jsr soft80_putcolor .else lda soft80_internal_cellcolor sta (CRAM_PTR),y ; vram .endif lda soft80_internal_cursorxlsb bne draw_spaceinvers_odd ; output inverted space (even) .repeat 8,line lda (SCREEN_PTR),y and #$0f sta (SCREEN_PTR),y .if line < 7 iny .endif .endrepeat jmp draw_back ; output space (odd) draw_space_odd: .repeat 8,line lda (SCREEN_PTR),y ora #$0f sta (SCREEN_PTR),y .if line < 7 iny .endif .endrepeat jmp draw_back ; output space (general entry point) ; in: y must be $00 draw_space: lda RVS bne draw_spaceinvers .if SOFT80COLORVOODOO = 1 jsr remcolor .endif ;ldy #$00 ; is still $00 lda soft80_internal_cursorxlsb bne draw_space_odd ; output space (even) .repeat 8,line lda (SCREEN_PTR),y ora #$f0 sta (SCREEN_PTR),y .if (line < 7) iny .endif .endrepeat jmp draw_back .endif ;------------------------------------------------------------------------------- ; output one character in internal encoding without advancing cursor position ; generic entry point ; ; - the following may not modify tmp1 ; in: A: charcode ; out: Y: CURS_X ; soft80_putchar: sta tmp3 ; remember charcode sei ldx $01 stx tmp4 ldx #$34 stx $01 ; will stay $34 for space ldy #$00 ; will be $00 from now on .if SOFT80FASTSPACE = 1 cmp #' ' ; space is a special (optimized) case beq draw_space .endif .if SOFT80COLORVOODOO = 1 jsr soft80_putcolor .else lda soft80_internal_cellcolor sta (CRAM_PTR),y ; vram .endif ; output character ldx tmp3 ; get charcode lda RVS beq @skp jmp draw_charinvers @skp: lda soft80_internal_cursorxlsb bne draw_char_even ; output character (odd) .repeat 8,line lda (SCREEN_PTR),y and #$0f ora soft80_hi_charset+(line*$80),x sta (SCREEN_PTR),y .if line < 7 iny .endif .endrepeat jmp draw_back ; output character (even) draw_char_even: .repeat 8,line lda (SCREEN_PTR),y and #$f0 ora soft80_lo_charset+(line*$80),x sta (SCREEN_PTR),y .if line < 7 iny .endif .endrepeat draw_back: lda tmp4 sta $01 cli ldy CURS_X rts ; output inverted character (odd) draw_charinvers_odd: .repeat 8,line lda (SCREEN_PTR),y ora #$0f eor soft80_lo_charset+(line*$80),x sta (SCREEN_PTR),y .if line < 7 iny .endif .endrepeat jmp draw_back ; output inverted character (generic) draw_charinvers: lda soft80_internal_cursorxlsb bne draw_charinvers_odd .repeat 8,line lda (SCREEN_PTR),y ora #$f0 eor soft80_hi_charset+(line*$80),x sta (SCREEN_PTR),y .if line < 7 iny .endif .endrepeat jmp draw_back ;------------------------------------------------------------------------------- ; optional "color voodoo". the problem is that each 8x8 cell can only contain ; two colors, one of which is used for the background color, so two characters ; have to share the same text color. ; ; - in a cell that contains two spaces, both the color ram and the text color ; in vram contain the background color ; ; - in a cell that contains one character, its text color goes into vram. the ; color ram contains the background color. ; ; - in a cell that contains two characters, the color of the left character goes ; to vram (and is shared by both for display). the "would be" color of the ; right character goes to color ram as a reminder and can be restored when one ; of the two characters is cleared by a space. .if SOFT80COLORVOODOO = 1 ; remove color from cell, called before putting a "space" character to the bitmap ; ; __ -> __ - ; _A -> _A - ; B_ -> B_ - ; _A -> __ vram = bgcol ; B_ -> __ vram = bgcol ; BA -> _A vram = colram, colram = bgcol ; BA -> B_ colram = bgcol ; ; in: x must be $34 ; y must be $00 ; out: x = $34 ; y = $00 remcolor: ;ldy #$00 ; is still $00 ; if the textcolor in vram is equal to the background color, then ; no (visible) character is in the current cell and we can exit ; immediately. lda (CRAM_PTR),y ; vram (textcolor) and #$0f cmp soft80_internal_bgcolor beq @sk1 ; yes, vram==bgcolor ; now check if the textcolor in color ram is equal the background color, ; if yes then there is only one (visible) character in the current cell inc $01 ; $35 lda (CRAM_PTR),y ; colram (2nd textcolor) stx $01 ; $34 and #$0f cmp soft80_internal_bgcolor beq @sk2 ; yes, colram==bgcolor sta tmp3 ; A contains colram ; two characters in the current cell, of which one will get removed lda soft80_internal_cursorxlsb bne @sk3 ; vram = colram lda (CRAM_PTR),y ; vram and #$f0 ora tmp3 ; colram value sta (CRAM_PTR),y ; vram @sk3: ; colram = bgcolor lda soft80_internal_bgcolor inc $01 ; $35 sta (CRAM_PTR),y ; colram stx $01 ; $34 rts @sk2: ; colram is bgcolor ; => only one char in cell used jsr soft80_checkchar bcs @sk1 ; space at current position ; vram (textcolor) = bgcolor lda (CRAM_PTR),y ; vram and #$f0 ora soft80_internal_bgcolor sta (CRAM_PTR),y ; vram @sk1: rts ; put color to cell ; ; __ -> _A vram = textcol ; __ -> B_ vram = textcol ; _A -> BA colram = vram, vram = textcol ; B_ -> BA colram = textcol ; ; _A -> _C vram = textcol ; B_ -> C_ vram = textcol ; BA -> BC colram = textcol ; BA -> CA vram = textcol ; ; in: $01 is $34 (RAM under I/O) when entering ; x must be $34 ; y must be $00 ; out: x = $34 ; y = $00 soft80_putcolor: ;ldy #$00 ; is still $00 lda (CRAM_PTR),y ; vram and #$0f cmp soft80_internal_bgcolor beq @sk1 ; vram==bgcolor => first char in cell ; vram!=bgcolor => second char in cell inc $01 ; $35 lda (CRAM_PTR),y ; colram stx $01 ; $34 and #$0f cmp soft80_internal_bgcolor beq @l2s ; colram==bgcolor -> second char in cell ; botch characters in the cell are used lda soft80_internal_cursorxlsb bne @sk2 ; jump if odd xpos ; vram = textcol lda soft80_internal_cellcolor sta (CRAM_PTR),y ; vram rts @l2s: ; one character in cell is already used jsr soft80_checkchar bcc @sk1 ; char at current position => overwrite 1st lda soft80_internal_cursorxlsb beq @sk3 ; jump if even xpos @sk2: ; colram = textcol lda CHARCOLOR inc $01 ; $35 sta (CRAM_PTR),y ; colram stx $01 ; $34 rts @sk3: ; colram=vram lda (CRAM_PTR),y ; vram inc $01 ; $35 sta (CRAM_PTR),y ; colram stx $01 ; $34 @sk1: ; vram = textcol lda soft80_internal_cellcolor sta (CRAM_PTR),y ; vram rts ; ; test if there is a space or a character at current position ; ; in: x = $34 ; $01 must be $34 ; ; out: SEC: space ; CLC: character ; x = $34 ; y = $00 soft80_checkchar: lda soft80_internal_cursorxlsb bne @l1a ; check charset data from bottom up, since a lot of eg lowercase chars ; have no data in the top rows, but all of them DO have data in the ; second to bottom row, this will likely be faster in average. ldy #7 .repeat 8,line lda (SCREEN_PTR),y and #$f0 cmp #$f0 bne @ischar .if (line < 7) dey .endif .endrepeat ;ldy #$00 ; is 0 ;sec ; is set rts @ischar: ldy #$00 ;clc ; is cleared rts @l1a: ldy #$07 .repeat 8,line lda (SCREEN_PTR),y and #$0f cmp #$0f bne @ischar .if line < 7 dey .endif .endrepeat ;ldy #$00 ; is 0 ;sec ; is set rts .endif