; ; Ullrich von Bassewitz, 2009-11-02 ; ; void __fastcall__ tgi_vectorchar (const unsigned char* Ops); ; /* Draw one character of the vector font at the current graphics cursor ; * position using the current font magnification. ; */ ; .export _tgi_vectorchar .import imul16x16r32, umul16x16r32, negax, negeax .include "tgi-kernel.inc" .include "zeropage.inc" ;---------------------------------------------------------------------------- ; Data Ops = regbank Flag = regbank+2 .bss X1: .res 2 Y1: .res 2 X2: .res 2 Y2: .res 2 ;---------------------------------------------------------------------------- ; .code .proc _tgi_vectorchar ; Since we will call tgi_lineto, which uses the zero page, and we do also ; need the zero page, make room in the register bank. tay lda Ops pha lda Ops+1 pha lda Flag pha ; Save the pointer sty Ops stx Ops+1 ; Main loop executing vector operations Loop: lda _tgi_textscalew+0 ldx _tgi_textscalew+1 jsr GetProcessedCoord ; X2 = tgi_curx + XMag * XDelta. clc adc _tgi_curx+0 sta X2+0 txa adc _tgi_curx+1 sta X2+1 ; Process the Y value lda _tgi_textscaleh+0 ldx _tgi_textscaleh+1 jsr GetProcessedCoord ; Y2 = tgi_cury - YMag * YDelta; ; Y2 = tgi_cury + (~(YMag * YDelta) + 1); eor #$FF sec ; + 1 adc _tgi_cury+0 sta Y2+0 txa eor #$FF adc _tgi_cury+1 sta Y2+1 ; Draw, then move - or just move bit Flag bpl @Move ; Jump if move only ldy #7 ; Copy start coords into zp : lda X1,y sta ptr1,y dey bpl :- jsr tgi_line ; Call the driver ; Move the start position @Move: ldy #3 : lda X2,y sta X1,y dey bpl :- ; Loop if not done bit Flag bvc Loop ; Done. Restore zp and return. @Done: pla sta Flag pla sta Ops+1 pla sta Ops rts .endproc ;---------------------------------------------------------------------------- ; Get and process one coordinate value. The scale factor is passed in a/x .proc GetProcessedCoord ; Save scale factor as left operand for multiplication sta ptr1 stx ptr1+1 ; Load delta value ldy #0 lda (Ops),y inc Ops bne :+ inc Ops+1 ; Move bit 7 into Flag : asl a ; Flag into carry ror Flag ; Since we know that the scale factor is always positive, we will remember ; the sign of the coordinate offset, make it positive, do an unsigned mul ; and negate the result if the vector was negative. This is faster than ; relying on the signed multiplication, which will do the same, but for ; both operands. sta tmp1 ; Remember sign of vector offset cmp #$80 ; Sign bit into carry ror a ; Sign extend the value bpl :+ eor #$FF clc adc #$01 ; Negate : ldx #$00 ; High byte is always zero ; Multiplicate with the scale factor. jsr umul16x16r32 ; Multiplicate ; The result is a 16.8 fixed point value. Round it. cmp #$80 ; frac(val) >= 0.5? txa adc #$00 tay lda sreg adc #$00 tax tya bit tmp1 ; Check sign bpl :+ jmp negax ; Negate result if necessary : rts .endproc