gba-x3dtest: src/polyfill.c annotate

gba-x3dtest

annotate src/polyfill.c @ 10:23f716fa7f10

changed to mode 5 again, this time with hardware scaling (looks kinda crap)

author	John Tsiombikas <nuclear@member.fsf.org>
date	Sun, 22 Jun 2014 06:31:14 +0300
parents	fb0a0d6a8b52
children	c398d834d64a

rev	line source
nuclear@5	1 #include "config.h"
nuclear@5	2 #include <string.h>
nuclear@6	3 #include <assert.h>
nuclear@5	4 #include "polyfill.h"
nuclear@5	5 #include "fixed.h"
nuclear@5	6 #include "gbasys.h"
nuclear@5	7
nuclear@9	8 #define VNEXT(x, n) (((x) + 1) % (n))
nuclear@9	9 #define VPREV(x, n) ((x) > 0 ? (x) - 1 : (n) - 1)
nuclear@9	10
nuclear@9	11 static void fill_scanline_pal(int y, int x0, int x1, uint8_t color);
nuclear@9	12 static void fill_scanline_rgb(int y, int x0, int x1, uint16_t color);
nuclear@5	13
nuclear@5	14 void draw_poly(int num, const pvec3 *verts, uint16_t color)
nuclear@5	15 {
nuclear@5	16 int i, topidx = 0, botidx = 0;
nuclear@9	17 int lidx[2] = {-1, -1}, ridx[2] = {-1, -1};
nuclear@5	18 int32_t y, topy, boty;
nuclear@9	19 int32_t ldy = 0, rdy = 0, ldxdy, rdxdy;
nuclear@5	20 int32_t lx, rx;
nuclear@5	21 int start, end;
nuclear@5	22
nuclear@5	23 topy = boty = verts[0].y;
nuclear@5	24 for(i=1; i<num; i++) {
nuclear@5	25 int32_t y = verts[i].y;
nuclear@5	26 if(y < topy) {
nuclear@5	27 topy = y;
nuclear@5	28 topidx = i;
nuclear@5	29 }
nuclear@5	30 if(y > boty) {
nuclear@5	31 boty = y;
nuclear@5	32 botidx = i;
nuclear@5	33 }
nuclear@5	34 }
nuclear@5	35
nuclear@5	36 lidx[0] = ridx[0] = topidx;
nuclear@9	37
nuclear@9	38 /* find starting left edge */
nuclear@9	39 lidx[1] = VPREV(lidx[0], num);
nuclear@9	40 ldy = verts[lidx[1]].y - verts[lidx[0]].y;
nuclear@9	41
nuclear@9	42 while(ldy == 0) {
nuclear@9	43 lidx[0] = lidx[1];
nuclear@9	44 lidx[1] = VPREV(lidx[1], num);
nuclear@9	45
nuclear@9	46 if(lidx[1] == topidx) {
nuclear@9	47 return; /* degenerate */
nuclear@9	48 }
nuclear@9	49
nuclear@9	50 ldy = verts[lidx[1]].y - verts[lidx[0]].y;
nuclear@9	51 }
nuclear@9	52 lx = verts[lidx[0]].x;
nuclear@9	53 ldxdy = x16div(verts[lidx[1]].x - lx, ldy);
nuclear@9	54
nuclear@9	55 /* find starting right edge */
nuclear@9	56 ridx[1] = VNEXT(ridx[0], num);
nuclear@9	57 rdy = verts[ridx[1]].y - verts[ridx[0]].y;
nuclear@9	58
nuclear@9	59 while(rdy == 0) {
nuclear@9	60 ridx[0] = ridx[1];
nuclear@9	61 ridx[1] = VNEXT(ridx[1], num);
nuclear@9	62
nuclear@9	63 if(ridx[1] == topidx) {
nuclear@9	64 return; /* degenerate */
nuclear@9	65 }
nuclear@9	66
nuclear@9	67 rdy = verts[ridx[1]].y - verts[ridx[0]].y;
nuclear@9	68 }
nuclear@9	69 rx = verts[ridx[0]].x;
nuclear@9	70 rdxdy = x16div(verts[ridx[1]].x - rx, rdy);
nuclear@9	71
nuclear@5	72
nuclear@6	73 if(verts[ridx[1]].x < verts[lidx[1]].x) {
nuclear@9	74 return; /* backface (CCW) */
nuclear@5	75 }
nuclear@5	76
nuclear@5	77 start = topy >> 16;
nuclear@5	78 end = boty >> 16;
nuclear@5	79
nuclear@6	80 if(end >= HEIGHT) end = HEIGHT - 1;
nuclear@6	81
nuclear@5	82 y = topy;
nuclear@5	83 for(i=start; i<end; i++) {
nuclear@9	84 short x0, x1;
nuclear@5	85
nuclear@5	86 if(y >= verts[lidx[1]].y) {
nuclear@9	87 lx = verts[lidx[1]].x;
nuclear@5	88 lidx[0] = lidx[1];
nuclear@9	89 lidx[1] = VPREV(lidx[1], num);
nuclear@5	90 ldy = verts[lidx[1]].y - verts[lidx[0]].y;
nuclear@5	91 if(ldy < 0) {
nuclear@5	92 break;
nuclear@5	93 }
nuclear@5	94 ldxdy = x16div(verts[lidx[1]].x - lx, ldy);
nuclear@5	95 }
nuclear@5	96 if(y >= verts[ridx[1]].y) {
nuclear@9	97 rx = verts[ridx[1]].x;
nuclear@5	98 ridx[0] = ridx[1];
nuclear@9	99 ridx[1] = VNEXT(ridx[1], num);
nuclear@5	100 rdy = verts[ridx[1]].y - verts[ridx[0]].y;
nuclear@5	101 if(rdy < 0) {
nuclear@5	102 break;
nuclear@5	103 }
nuclear@5	104 rdxdy = x16div(verts[ridx[1]].x - rx, rdy);
nuclear@5	105 }
nuclear@5	106
nuclear@9	107 x0 = lx < 0 ? 0 : (lx >> 16);
nuclear@9	108 x1 = (rx >> 16) >= WIDTH ? WIDTH - 1 : (rx >> 16);
nuclear@9	109
nuclear@9	110 if(i >= 0 && x1 > x0) {
nuclear@9	111 #ifdef PALMODE
nuclear@9	112 fill_scanline_pal(i, x0, x1, (uint8_t)color);
nuclear@9	113 #else
nuclear@9	114 fill_scanline_rgb(i, x0, x1, color);
nuclear@9	115 #endif
nuclear@9	116 }
nuclear@9	117
nuclear@5	118 lx += ldxdy;
nuclear@5	119 rx += rdxdy;
nuclear@6	120 y += 65536;
nuclear@5	121 }
nuclear@5	122 }
nuclear@5	123
nuclear@9	124
nuclear@9	125 static void fill_scanline_pal(int y, int x0, int x1, uint8_t color)
nuclear@9	126 {
nuclear@9	127 #if 1
nuclear@9	128 int i, num_pairs, num_pix = x1 - x0;
nuclear@9	129 uint16_t pixels = (uint16_t)back_buffer->pixels + (y * WIDTH + x0) / 2;
nuclear@9	130 uint16_t colpair = (uint16_t)color \| ((uint16_t)color << 8);
nuclear@9	131
nuclear@9	132 if(x0 & 1) {
nuclear@9	133 uint16_t pix = *pixels & 0xff;
nuclear@9	134 *pixels++ = pix \| ((uint16_t)color << 8);
nuclear@9	135 --num_pix;
nuclear@9	136 }
nuclear@9	137
nuclear@9	138 num_pairs = (num_pix & 0xfffe) / 2;
nuclear@9	139
nuclear@9	140 for(i=0; i<num_pairs; i++) {
nuclear@9	141 *pixels++ = colpair;
nuclear@9	142 }
nuclear@9	143
nuclear@9	144 if(num_pix & 1) {
nuclear@9	145 uint16_t pix = *pixels & 0xff00;
nuclear@9	146 *pixels = pix \| color;
nuclear@9	147 }
nuclear@9	148 #else
nuclear@9	149 int i;
nuclear@9	150 uint8_t pixels = (uint8_t)back_buffer->pixels + y * WIDTH + x0;
nuclear@9	151
nuclear@9	152 for(i=x0; i<x1; i++) {
nuclear@9	153 *pixels++ = color;
nuclear@9	154 }
nuclear@9	155 #endif
nuclear@9	156 }
nuclear@9	157
nuclear@9	158 static void fill_scanline_rgb(int y, int x0, int x1, uint16_t color)
nuclear@5	159 {
nuclear@5	160 int i;
nuclear@5	161 uint16_t pixels = (uint16_t)back_buffer->pixels + y * WIDTH + x0;
nuclear@5	162
nuclear@5	163 for(i=x0; i<x1; i++) {
nuclear@5	164 *pixels++ = color;
nuclear@5	165 }
nuclear@5	166 }
nuclear@8	167
nuclear@8	168
nuclear@8	169 void draw_point(const pvec3 *v, uint16_t color)
nuclear@8	170 {
nuclear@8	171 int x = v->x >> 16;
nuclear@8	172 int y = v->y >> 16;
nuclear@8	173 uint16_t pixels = (uint16_t)back_buffer->pixels;
nuclear@8	174
nuclear@8	175 if(x < 0 \|\| x >= WIDTH \|\| y < 0 \|\| y >= HEIGHT) {
nuclear@8	176 return;
nuclear@8	177 }
nuclear@8	178
nuclear@9	179 #ifdef PALMODE
nuclear@9	180 pixels += (y * WIDTH + x) / 2;
nuclear@9	181 if(x & 1) {
nuclear@9	182 pixels = (pixels & 0xff) \| (color << 8);
nuclear@9	183 } else {
nuclear@9	184 pixels = (pixels & 0xff00) \| color;
nuclear@9	185 }
nuclear@9	186 #else
nuclear@8	187 pixels[y * WIDTH + x] = color;
nuclear@9	188 #endif
nuclear@8	189 }