; Hi-res Bresenham Lines ; by Vince `deater` Weaver ; based on pseudo-code from ; https://en.wikipedia.org/wiki/Bresenham%27s_line_algorithm ; D0+ used by HGR routines HGR_COLOR = $E4 HGR_PAGE = $E6 B_X1_L = $F0 B_X1_H = $F1 B_Y1 = $F2 B_X2_L = $F3 B_X2_H = $F4 B_Y2 = $F5 B_DX_L = $F6 B_DX_H = $F7 B_DY_L = $F8 B_DY_H = $F9 B_SX = $FA B_SY = $FB B_ERR_L = $FC B_ERR_H = $FD COUNT = $FE FRAME = $FF ; soft-switches KEYPRESS = $C000 KEYRESET = $C010 ; ROM routines HGR2 = $F3D8 ; set hires page2 and clear $4000-$5fff HGR = $F3E2 ; set hires page1 and clear $2000-$3fff HPLOT0 = $F457 ; plot at (Y,X), (A) HGLIN = $F53A ; line to (X,A),(Y) HCOLOR1 = $F6F0 ; set HGR_COLOR to value in X COLORTBL = $F6F6 PLOT = $F800 ; PLOT AT Y,A (A colors output, Y preserved) NEXTCOL = $F85F ; COLOR=COLOR+3 SETCOL = $F864 ; COLOR=A SETGR = $FB40 ; set graphics and clear LO-RES screen BELL2 = $FBE4 WAIT = $FCA8 ; delay 1/2(26+27A+5A^2) us lines: jsr HGR2 reset: ldx #0 stx COUNT stx B_X1_H stx B_X1_L stx B_Y1 stx B_X2_H stx B_X2_L lda #191 sta B_Y2 left_lines_loop: jsr draw_line lda B_Y1 clc adc #8 sta B_Y1 lda B_X2_L ; 280/24 = 140/12 = 70/6 = 11 clc adc #11 sta B_X2_L bcc noc inc B_X2_H noc: inc COUNT inc FRAME lda COUNT cmp #24 end: bne left_lines_loop ;================ ; right lines ;================ ; at this point, count = 24 ; X1, Y1 = 0,192 ; X2, Y2 = 264,192 ; want x1,y1 to go from 264,0 to 0,0 ; want x2,y2 to go from 264,192 to 264,0 ldx #0 stx B_Y1 ldx B_X2_L stx B_X1_L ldx B_X2_H stx B_X1_H right_lines_loop: jsr draw_line lda B_Y2 sec sbc #8 sta B_Y2 lda B_X1_L sec sbc #11 sta B_X1_L bcs noc2 dec B_X1_H noc2: dec COUNT inc FRAME lda COUNT beq reset bne right_lines_loop ;============================ ; draw line ; from x1,y1 to x2,y2 ;============================ draw_line: ; lda FRAME ; and #$7 ; tax ldx #7 jsr HCOLOR1 ; set color ; from wikipedia ; dx = abs(x2 - x1) ; sx = x1 < x2 ? 1 : -1 ; dy = -abs(y2 - y1) ; sy = y1 < y2 ? 1 : -1 ; err = dx+dy init_bresenham: ; dx = abs(x2-x1) ; sx = x1= dy: ; err = err + dy ; x1 = x1 + sx ; 16 bit signed compare lda B_ERR_L ; ERR2-DY cmp B_DY_L lda B_ERR_H sbc B_DY_H bvc blah eor #$80 ; N eor V blah: bmi check_dx ; FIXME: convert ERR2 back to ERR clc lda B_ERR_L adc B_DY_L sta B_ERR_L lda B_ERR_H adc B_DY_H sta B_ERR_H lda B_X1_L adc B_SX sta B_X1_L lda B_X1_H adc #0 sta B_X1_H check_dx: ; if err2 <= dx: ; err = err + dx ; y1 = y1 + sy ; 16 bit signed compare lda B_ERR_L ; ERR2-DX cmp B_DX_L lda B_ERR_H sbc B_DX_H bvc blah2 eor #$80 ; N eor V blah2: bmi skip_y clc lda B_ERR_L adc B_DX_L sta B_ERR_L lda B_ERR_H adc B_DX_H sta B_ERR_H lda B_Y1 adc B_SY sta B_Y1 ; lda B_Y1_H ; adc #0 ; sta B_Y1_H skip_y: jmp line_loop done_line: rts