deepstone: src/scantmpl.h annotate

deepstone

annotate src/scantmpl.h @ 10:059bb38506b3

fixed stuff

author	John Tsiombikas <nuclear@member.fsf.org>
date	Mon, 28 Nov 2011 01:37:04 +0200
parents	bce78aaafc68
children	1e9f0b3616fa

rev	line source
nuclear@0	1 /*
nuclear@0	2 256-color 3D graphics hack for real-mode DOS.
nuclear@0	3 Copyright (C) 2011 John Tsiombikas <nuclear@member.fsf.org>
nuclear@0	4
nuclear@0	5 This program is free software: you can redistribute it and/or modify
nuclear@0	6 it under the terms of the GNU General Public License as published by
nuclear@0	7 the Free Software Foundation, either version 3 of the License, or
nuclear@0	8 (at your option) any later version.
nuclear@0	9
nuclear@0	10 This program is distributed in the hope that it will be useful,
nuclear@0	11 but WITHOUT ANY WARRANTY; without even the implied warranty of
nuclear@0	12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nuclear@0	13 GNU General Public License for more details.
nuclear@0	14
nuclear@0	15 You should have received a copy of the GNU General Public License
nuclear@0	16 along with this program. If not, see <http://www.gnu.org/licenses/>.
nuclear@0	17 */
nuclear@0	18 static void SCAN_EDGE(struct vertex v0, struct vertex v1)
nuclear@0	19 {
nuclear@0	20 int i, start, end;
nuclear@0	21 float dx, dy, dfdx;
nuclear@0	22 #ifdef INTERP_DEPTH
nuclear@0	23 float z, dz, dfdz;
nuclear@0	24 #endif
nuclear@0	25 #ifdef INTERP_ENERGY
nuclear@0	26 float e, de, dfde;
nuclear@0	27 #endif
nuclear@3	28 #ifdef INTERP_TEX
nuclear@3	29 float u, v, du, dv, dfdu, dfdv;
nuclear@3	30 #endif
nuclear@3	31 float x;
nuclear@0	32 struct vertex *edge;
nuclear@0	33
nuclear@0	34 dy = v1->pos.y - v0->pos.y;
nuclear@0	35 if(dy < 1e-6 && dy > -1e-6) {
nuclear@0	36 return;
nuclear@0	37 }
nuclear@0	38
nuclear@0	39 dx = v1->pos.x - v0->pos.x;
nuclear@0	40 dfdx = dx / dy;
nuclear@0	41
nuclear@0	42 #ifdef INTERP_DEPTH
nuclear@0	43 dz = v1->pos.z - v0->pos.z;
nuclear@0	44 dfdz = dz / dy;
nuclear@0	45 #endif
nuclear@0	46 #ifdef INTERP_ENERGY
nuclear@0	47 de = v1->energy - v0->energy;
nuclear@0	48 dfde = de / dy;
nuclear@0	49 #endif
nuclear@3	50 #ifdef INTERP_TEX
nuclear@3	51 du = v1->tc.x - v0->tc.x;
nuclear@3	52 dv = v1->tc.y - v0->tc.y;
nuclear@3	53 dfdu = du / dy;
nuclear@3	54 dfdv = dv / dy;
nuclear@3	55 #endif
nuclear@0	56
nuclear@0	57 if(dy < 0.0) {
nuclear@0	58 struct vertex *tmp = v0;
nuclear@0	59 v0 = v1;
nuclear@0	60 v1 = tmp;
nuclear@0	61 edge = (st->ord == MGL_CCW) ? vright : vleft;
nuclear@0	62 } else {
nuclear@0	63 edge = (st->ord == MGL_CCW) ? vleft : vright;
nuclear@0	64 }
nuclear@0	65
nuclear@0	66 start = (int)ROUND(v0->pos.y);
nuclear@0	67 end = (int)ROUND(v1->pos.y);
nuclear@0	68
nuclear@9	69 if(start >= 0) {
nuclear@9	70
nuclear@9	71 x = v0->pos.x;
nuclear@0	72 #ifdef INTERP_DEPTH
nuclear@9	73 z = v0->pos.z;
nuclear@0	74 #endif
nuclear@0	75 #ifdef INTERP_ENERGY
nuclear@9	76 e = v0->energy;
nuclear@0	77 #endif
nuclear@3	78 #ifdef INTERP_TEX
nuclear@9	79 u = v0->tc.x;
nuclear@9	80 v = v0->tc.y;
nuclear@3	81 #endif
nuclear@9	82 } else {
nuclear@9	83 float lines = -v0->pos.y;
nuclear@9	84
nuclear@9	85 x = v0->pos.x + dfdx * lines;
nuclear@9	86 #ifdef INTERP_DEPTH
nuclear@9	87 z = v0->pos.z + dfdz * lines;
nuclear@9	88 #endif
nuclear@9	89 #ifdef INTERP_ENERGY
nuclear@9	90 e = v0->energy + dfde * lines;
nuclear@9	91 #endif
nuclear@9	92 #ifdef INTERP_TEX
nuclear@9	93 u = v0->tc.x + dfdu * lines;
nuclear@9	94 v = v0->tc.y + dfdv * lines;
nuclear@9	95 #endif
nuclear@9	96 start = 0;
nuclear@9	97 }
nuclear@9	98
nuclear@9	99 if(end >= fb->height) {
nuclear@9	100 end = fb->height - 1;
nuclear@9	101 }
nuclear@9	102
nuclear@9	103
nuclear@0	104 for(i=start; i<end; i++) {
nuclear@0	105 edge[i].pos.x = x;
nuclear@0	106 x += dfdx;
nuclear@0	107
nuclear@0	108 edge[i].cidx = v0->cidx;
nuclear@0	109 #ifdef INTERP_DEPTH
nuclear@0	110 edge[i].pos.z = z;
nuclear@0	111 z += dfdz;
nuclear@0	112 #endif
nuclear@0	113
nuclear@0	114 #ifdef INTERP_ENERGY
nuclear@0	115 edge[i].energy = e;
nuclear@0	116 e += dfde;
nuclear@0	117 #else
nuclear@0	118 edge[i].energy = v0->energy;
nuclear@0	119 #endif
nuclear@3	120
nuclear@3	121 #ifdef INTERP_TEX
nuclear@3	122 edge[i].tc.x = u;
nuclear@3	123 edge[i].tc.y = v;
nuclear@3	124 u += dfdu;
nuclear@3	125 v += dfdv;
nuclear@3	126 #endif
nuclear@0	127 }
nuclear@0	128 }
nuclear@0	129
nuclear@0	130 static void SCAN_LINE(int y, unsigned char *sline)
nuclear@0	131 {
nuclear@3	132 int x0, x1, len, tmp, cidx;
nuclear@3	133 #if defined(INTERP_DEPTH) \|\| defined(INTERP_ENERGY) \|\| defined(INTERP_TEX)
nuclear@3	134 int i;
nuclear@0	135 float x, dx;
nuclear@0	136 #endif
nuclear@0	137 #ifdef INTERP_DEPTH
nuclear@0	138 float z, dz, dfdz;
nuclear@0	139 #endif
nuclear@0	140 #ifdef INTERP_ENERGY
nuclear@0	141 float e, de, dfde;
nuclear@0	142 #endif
nuclear@3	143 #ifdef INTERP_TEX
nuclear@3	144 int tx, ty;
nuclear@3	145 float u, v, du, dv, dfdu, dfdv;
nuclear@3	146 #endif
nuclear@0	147 struct vertex left, right;
nuclear@0	148
nuclear@0	149 x0 = (int)ROUND(vleft[y].pos.x);
nuclear@0	150 x1 = (int)ROUND(vright[y].pos.x);
nuclear@0	151
nuclear@0	152 if(x1 < x0) {
nuclear@0	153 if(st->flags & MGL_CULL_FACE) {
nuclear@0	154 return;
nuclear@0	155 }
nuclear@0	156 tmp = x0;
nuclear@0	157 x0 = x1;
nuclear@0	158 x1 = tmp;
nuclear@0	159
nuclear@0	160 left = vright;
nuclear@0	161 right = vleft;
nuclear@0	162 } else {
nuclear@0	163 left = vleft;
nuclear@0	164 right = vright;
nuclear@0	165 }
nuclear@0	166
nuclear@9	167 if(x1 >= fb->width) {
nuclear@9	168 x1 = fb->width - 1;
nuclear@9	169 }
nuclear@0	170
nuclear@0	171 cidx = left[y].cidx;
nuclear@3	172 #if !defined(INTERP_DEPTH) && !defined(INTERP_ENERGY) && !defined(INTERP_TEX)
nuclear@9	173 if(x0 < 0) x0 = 0;
nuclear@9	174 len = x1 - x0;
nuclear@9	175 assert(len >= 0);
nuclear@0	176 /* no interpolation at all, just memset the whole scanline */
nuclear@0	177 memset(sline + x0, cidx + left[y].energy * st->col_range, len);
nuclear@0	178 #else
nuclear@0	179 /* otherwise do a loop and interpolate whatever needs interpolating */
nuclear@0	180 x = left[y].pos.x;
nuclear@0	181 dx = right[y].pos.x - x;
nuclear@0	182
nuclear@0	183 if(dx < 0.5 && dx > -0.5) {
nuclear@0	184 return;
nuclear@0	185 }
nuclear@0	186
nuclear@9	187 if(x0 >= 0) {
nuclear@0	188 #ifdef INTERP_DEPTH
nuclear@9	189 z = left[y].pos.z;
nuclear@9	190 dz = right[y].pos.z - z;
nuclear@9	191 dfdz = dz / dx;
nuclear@0	192 #endif
nuclear@0	193 #ifdef INTERP_ENERGY
nuclear@9	194 e = left[y].energy;
nuclear@9	195 de = right[y].energy - e;
nuclear@9	196 dfde = de / dx;
nuclear@0	197 #endif
nuclear@3	198 #ifdef INTERP_TEX
nuclear@9	199 u = left[y].tc.x;
nuclear@9	200 v = left[y].tc.y;
nuclear@9	201 du = right[y].tc.x - u;
nuclear@9	202 dv = right[y].tc.y - v;
nuclear@9	203 dfdu = du / dx;
nuclear@9	204 dfdv = dv / dx;
nuclear@3	205 #endif
nuclear@9	206 } else {
nuclear@9	207 float dist = -left[y].pos.x;
nuclear@9	208
nuclear@9	209 #ifdef INTERP_DEPTH
nuclear@9	210 dz = right[y].pos.z - left[y].pos.z;
nuclear@9	211 dfdz = dz / dx;
nuclear@9	212 z = left[y].pos.z + dfdz * dist;
nuclear@9	213 #endif
nuclear@9	214 #ifdef INTERP_ENERGY
nuclear@9	215 de = right[y].energy - left[y].energy;
nuclear@9	216 dfde = de / dx;
nuclear@9	217 e = left[y].energy + dfde * dist;
nuclear@9	218 #endif
nuclear@9	219 #ifdef INTERP_TEX
nuclear@9	220 du = right[y].tc.x - left[y].tc.x;
nuclear@9	221 dv = right[y].tc.y - left[y].tc.y;
nuclear@9	222 dfdu = du / dx;
nuclear@9	223 dfdv = dv / dx;
nuclear@9	224 u = left[y].tc.x + dfdu * dist;
nuclear@9	225 v = left[y].tc.y + dfdv * dist;
nuclear@9	226 #endif
nuclear@9	227 x0 = 0;
nuclear@9	228 }
nuclear@9	229
nuclear@9	230 len = x1 - x0;
nuclear@0	231
nuclear@0	232 for(i=0; i<len; i++) {
nuclear@3	233 int c = cidx;
nuclear@3	234
nuclear@3	235 #ifdef INTERP_DEPTH
nuclear@10	236 long pix = (sline + x0 + i) - fb->pixels;
nuclear@9	237 unsigned short zval = (unsigned short)(z * USHRT_MAX);
nuclear@9	238 unsigned short *zptr = fb->zbuf[ZTILE(pix)] + ZTILE_OFFS(pix);
nuclear@9	239
nuclear@9	240 if(z < 0.0 \|\| z >= 1.0 \|\| zval > *zptr) {
nuclear@9	241 # ifdef INTERP_TEX
nuclear@9	242 u += dfdu;
nuclear@9	243 v += dfdv;
nuclear@9	244 # endif
nuclear@9	245 # ifdef INTERP_ENERGY
nuclear@9	246 e += dfde;
nuclear@9	247 # endif
nuclear@9	248 z += dfdz;
nuclear@9	249 continue;
nuclear@9	250 }
nuclear@9	251
nuclear@9	252 *zptr = zval;
nuclear@3	253 z += dfdz;
nuclear@3	254 #endif
nuclear@3	255 #ifdef INTERP_TEX
nuclear@3	256 tx = (int)(u * st->tex.width) & st->tex.xmask;
nuclear@3	257 ty = (int)(v * st->tex.height) & st->tex.ymask;
nuclear@3	258 c = st->tex.pixels[(ty << st->tex.xshift) + tx];
nuclear@3	259
nuclear@3	260 u += dfdu;
nuclear@3	261 v += dfdv;
nuclear@3	262 #endif
nuclear@0	263 #ifdef INTERP_ENERGY
nuclear@3	264 c += e * st->col_range;
nuclear@0	265 e += dfde;
nuclear@3	266 #else
nuclear@3	267 c += left[y].energy * st->col_range;
nuclear@0	268 #endif
nuclear@3	269 sline[x0 + i] = c;
nuclear@0	270 }
nuclear@0	271 #endif /* flat */
nuclear@0	272 }