gpuray_glsl: src/scene_load.cc annotate

gpuray_glsl

annotate src/scene_load.cc @ 0:f234630e38ff

initial commit

author	John Tsiombikas <nuclear@member.fsf.org>
date	Sun, 09 Nov 2014 13:03:36 +0200
parents
children	2ed3da7dc0bc

rev	line source
nuclear@0	1 #include <stdio.h>
nuclear@0	2 #include <math.h>
nuclear@0	3 #include <map>
nuclear@0	4 #include "scene.h"
nuclear@0	5 #include "sphere.h"
nuclear@0	6 #include "plane.h"
nuclear@0	7 #include "box.h"
nuclear@0	8 #include "light.h"
nuclear@0	9 #include "camera.h"
nuclear@0	10 #include "texture.h"
nuclear@0	11
nuclear@0	12 static bool parse_material(char *argv, Material mtl, std::string *name);
nuclear@0	13 static Object parse_sphere(char *argv, const std::map<std::string, Material> &materials);
nuclear@0	14 static Object parse_plane(char *argv, const std::map<std::string, Material> &materials);
nuclear@0	15 static Object parse_box(char *argv, const std::map<std::string, Material> &materials);
nuclear@0	16 static Light parse_light(char *argv);
nuclear@0	17 static Camera parse_camera(char *argv);
nuclear@0	18 static bool parse_env(char *argv, Scene scn);
nuclear@0	19 static bool parse_xform(char *argv, Scene scn);
nuclear@0	20 static bool parse_vec(char *argv, Vector3 vptr);
nuclear@0	21
nuclear@0	22 static char strip_space(char s);
nuclear@0	23 static char *split_args(char args);
nuclear@0	24
nuclear@0	25 bool load_scene_file(Scene scn, const char fname)
nuclear@0	26 {
nuclear@0	27 FILE *fp;
nuclear@0	28 if(!(fp = fopen(fname, "rb"))) {
nuclear@0	29 fprintf(stderr, "%s: failed to open scene file: %s: %s\n", __FUNCTION__, fname, strerror(errno));
nuclear@0	30 return false;
nuclear@0	31 }
nuclear@0	32
nuclear@0	33 char buf[512];
nuclear@0	34 std::map<std::string, Material> materials;
nuclear@0	35
nuclear@0	36 int lineno = 0;
nuclear@0	37 while(fgets(buf, sizeof buf, fp)) {
nuclear@0	38 char *line = strip_space(buf);
nuclear@0	39
nuclear@0	40 lineno++;
nuclear@0	41
nuclear@0	42 if(!line \|\| line == '\n' \|\| *line == '#') {
nuclear@0	43 continue;
nuclear@0	44 }
nuclear@0	45
nuclear@0	46 if(strstr(line, "material") == line) {
nuclear@0	47 Material mtl;
nuclear@0	48 std::string name;
nuclear@0	49
nuclear@0	50 char *args = strip_space(line + strlen("material"));
nuclear@0	51 if(!parse_material(split_args(args), &mtl, &name)) {
nuclear@0	52 goto err;
nuclear@0	53 }
nuclear@0	54 materials[name] = mtl;
nuclear@0	55
nuclear@0	56 } else if(strstr(line, "sphere") == line) {
nuclear@0	57 char *args = strip_space(line + strlen("sphere"));
nuclear@0	58 Object *obj = parse_sphere(split_args(args), materials);
nuclear@0	59 if(!obj) {
nuclear@0	60 goto err;
nuclear@0	61 }
nuclear@0	62 scn->add_object(obj);
nuclear@0	63
nuclear@0	64 } else if(strstr(line, "plane") == line) {
nuclear@0	65 char *args = strip_space(line + strlen("plane"));
nuclear@0	66 Object *obj = parse_plane(split_args(args), materials);
nuclear@0	67 if(!obj) {
nuclear@0	68 goto err;
nuclear@0	69 }
nuclear@0	70 scn->add_object(obj);
nuclear@0	71
nuclear@0	72 } else if(strstr(line, "box") == line) {
nuclear@0	73 char *args = strip_space(line + strlen("box"));
nuclear@0	74 Object *obj = parse_box(split_args(args), materials);
nuclear@0	75 if(!obj) {
nuclear@0	76 goto err;
nuclear@0	77 }
nuclear@0	78 scn->add_object(obj);
nuclear@0	79
nuclear@0	80 } else if(strstr(line, "light") == line) {
nuclear@0	81 char *args = strip_space(line + strlen("light"));
nuclear@0	82 Light *lt = parse_light(split_args(args));
nuclear@0	83 if(!lt) {
nuclear@0	84 goto err;
nuclear@0	85 }
nuclear@0	86 scn->add_light(lt);
nuclear@0	87
nuclear@0	88 } else if(strstr(line, "camera") == line) {
nuclear@0	89 char *args = strip_space(line + strlen("camera"));
nuclear@0	90 Camera *cam = parse_camera(split_args(args));
nuclear@0	91 if(!cam) {
nuclear@0	92 goto err;
nuclear@0	93 }
nuclear@0	94 scn->set_camera(cam);
nuclear@0	95
nuclear@0	96 } else if(strstr(line, "environment") == line) {
nuclear@0	97 char *args = strip_space(line + strlen("environment"));
nuclear@0	98 if(!parse_env(split_args(args), scn)) {
nuclear@0	99 goto err;
nuclear@0	100 }
nuclear@0	101
nuclear@0	102 } else if(strstr(line, "xform") == line) {
nuclear@0	103 char *args = strip_space(line + strlen("xform"));
nuclear@0	104 if(!parse_xform(split_args(args), scn)) {
nuclear@0	105 goto err;
nuclear@0	106 }
nuclear@0	107
nuclear@0	108 } else {
nuclear@0	109 fprintf(stderr, "%s error %s:%d: unknown command: %s\n", __FUNCTION__, fname, lineno, line);
nuclear@0	110 goto err;
nuclear@0	111 }
nuclear@0	112
nuclear@0	113 }
nuclear@0	114
nuclear@0	115 fclose(fp);
nuclear@0	116 return true;
nuclear@0	117
nuclear@0	118 err:
nuclear@0	119 fclose(fp);
nuclear@0	120 return false;
nuclear@0	121 }
nuclear@0	122
nuclear@0	123 bool save_scene_file(const Scene scn, const char fname)
nuclear@0	124 {
nuclear@0	125 FILE *fp;
nuclear@0	126 if(!(fp = fopen(fname, "wb"))) {
nuclear@0	127 fprintf(stderr, "%s: failed to save scene file: %s: %s\n", __FUNCTION__, fname, strerror(errno));
nuclear@0	128 return false;
nuclear@0	129 }
nuclear@0	130
nuclear@0	131 for(int i=0; i<scn->get_object_count(); i++) {
nuclear@0	132 // first write the material
nuclear@0	133 const Object *obj = scn->get_object(i);
nuclear@0	134 const Material *mat = &obj->material;
nuclear@0	135
nuclear@0	136 char name[128];
nuclear@0	137 sprintf(name, "mat%d", i);
nuclear@0	138
nuclear@0	139 fprintf(fp, "material -name %s", name);
nuclear@0	140 fprintf(fp, " -diffuse %.3f %.3f %.3f", mat->diffuse.x, mat->diffuse.y, mat->diffuse.z);
nuclear@0	141 fprintf(fp, " -specular %.3f %.3f %.3f", mat->specular.x, mat->specular.y, mat->specular.z);
nuclear@0	142 fprintf(fp, " -shininess %.3f", mat->shininess);
nuclear@0	143 fprintf(fp, " -emission %.3f %.3f %.3f", mat->emission.x, mat->emission.y, mat->emission.z);
nuclear@0	144 fprintf(fp, " -reflect %.3f", mat->reflectivity);
nuclear@0	145 fprintf(fp, " -trans %.3f", mat->transparency);
nuclear@0	146 fprintf(fp, " -ior %.3f", mat->ior);
nuclear@0	147 if(mat->tex) {
nuclear@0	148 fprintf(fp, " -texture %s", mat->tex->get_name());
nuclear@0	149 }
nuclear@0	150 fputc('\n', fp);
nuclear@0	151
nuclear@0	152 // then write the object
nuclear@0	153 const Sphere *sph;
nuclear@0	154 const Plane *plane;
nuclear@0	155 const Box *box;
nuclear@0	156 if((sph = dynamic_cast<const Sphere*>(obj))) {
nuclear@0	157 fprintf(fp, "sphere -material %s", name);
nuclear@0	158 fprintf(fp, " -center %.3f %.3f %.3f", sph->pos.x, sph->pos.y, sph->pos.z);
nuclear@0	159 fprintf(fp, " -radius %.3f\n", sph->radius);
nuclear@0	160 } else if((plane = dynamic_cast<const Plane*>(obj))) {
nuclear@0	161 fprintf(fp, "plane -material %s", name);
nuclear@0	162 fprintf(fp, " -normal %.3f %.3f %.3f", plane->normal.x, plane->normal.y, plane->normal.z);
nuclear@0	163 fprintf(fp, " -distance %.3f\n", plane->dist);
nuclear@0	164 } else if((box = dynamic_cast<const Box*>(obj))) {
nuclear@0	165 fprintf(fp, "box -material %s", name);
nuclear@0	166 fprintf(fp, " -min %.3f %.3f %.3f", box->min.x, box->min.y, box->min.z);
nuclear@0	167 fprintf(fp, " -max %.3f %.3f %.3f\n", box->max.x, box->max.y, box->max.z);
nuclear@0	168 }
nuclear@0	169 }
nuclear@0	170
nuclear@0	171 for(int i=0; i<scn->get_light_count(); i++) {
nuclear@0	172 const Light *lt = scn->get_light(i);
nuclear@0	173
nuclear@0	174 fprintf(fp, "light -position %.3f %.3f %.3f", lt->pos.x, lt->pos.y, lt->pos.z);
nuclear@0	175 fprintf(fp, " -color %.3f %.3f %.3f\n", lt->color.x, lt->color.y, lt->color.z);
nuclear@0	176 }
nuclear@0	177
nuclear@0	178 const TargetCamera tcam = dynamic_cast<const TargetCamera>(scn->get_camera());
nuclear@0	179 if(tcam) {
nuclear@0	180 Vector3 pos = tcam->get_position();
nuclear@0	181 fprintf(fp, "camera -position %.3f %.3f %.3f", pos.x, pos.y, pos.z);
nuclear@0	182 Vector3 targ = tcam->get_target();
nuclear@0	183 fprintf(fp, " -target %.3f %.3f %.3f", targ.x, targ.y, targ.z);
nuclear@0	184 fprintf(fp, " -fov %.3f\n", tcam->get_fov());
nuclear@0	185 }
nuclear@0	186
nuclear@0	187
nuclear@0	188 fclose(fp);
nuclear@0	189 return true;
nuclear@0	190 }
nuclear@0	191
nuclear@0	192 #define ARGERR(n) \
nuclear@0	193 do { fprintf(stderr, "failed to parse %s argument\n", (n)); return false; } while(0)
nuclear@0	194
nuclear@0	195 static bool parse_material(char *argv, Material mtl, std::string *name)
nuclear@0	196 {
nuclear@0	197 char *endp;
nuclear@0	198
nuclear@0	199 for(int i=0; argv[i]; i++) {
nuclear@0	200 if(strcmp(argv[i], "-name") == 0) {
nuclear@0	201 *name = argv[++i];
nuclear@0	202 } else if(strcmp(argv[i], "-diffuse") == 0) {
nuclear@0	203 if(!parse_vec(argv + i + 1, &mtl->diffuse)) {
nuclear@0	204 ARGERR("diffuse");
nuclear@0	205 }
nuclear@0	206 argv += 3;
nuclear@0	207
nuclear@0	208 } else if(strcmp(argv[i], "-specular") == 0) {
nuclear@0	209 if(!parse_vec(argv + i + 1, &mtl->specular)) {
nuclear@0	210 ARGERR("specular");
nuclear@0	211 }
nuclear@0	212 argv += 3;
nuclear@0	213
nuclear@0	214 } else if(strcmp(argv[i], "-emission") == 0) {
nuclear@0	215 if(!parse_vec(argv + i + 1, &mtl->emission)) {
nuclear@0	216 ARGERR("emission");
nuclear@0	217 }
nuclear@0	218 argv += 3;
nuclear@0	219
nuclear@0	220 } else if(strcmp(argv[i], "-shininess") == 0) {
nuclear@0	221 mtl->shininess = strtod(argv[++i], &endp);
nuclear@0	222 if(endp == argv[i]) {
nuclear@0	223 ARGERR("shininess");
nuclear@0	224 }
nuclear@0	225
nuclear@0	226 } else if(strcmp(argv[i], "-reflect") == 0) {
nuclear@0	227 mtl->reflectivity = strtod(argv[++i], &endp);
nuclear@0	228 if(endp == argv[i]) {
nuclear@0	229 ARGERR("reflect");
nuclear@0	230 }
nuclear@0	231
nuclear@0	232 } else if(strcmp(argv[i], "-trans") == 0) {
nuclear@0	233 mtl->transparency = strtod(argv[++i], &endp);
nuclear@0	234 if(endp == argv[i]) {
nuclear@0	235 ARGERR("trans");
nuclear@0	236 }
nuclear@0	237
nuclear@0	238 } else if(strcmp(argv[i], "-ior") == 0) {
nuclear@0	239 mtl->ior = strtod(argv[++i], &endp);
nuclear@0	240 if(endp == argv[i]) {
nuclear@0	241 ARGERR("ior");
nuclear@0	242 }
nuclear@0	243
nuclear@0	244 } else if(strcmp(argv[i], "-texture") == 0) {
nuclear@0	245 if(!(mtl->tex = load_texture(argv[++i]))) {
nuclear@0	246 return false;
nuclear@0	247 }
nuclear@0	248
nuclear@0	249 } else {
nuclear@0	250 fprintf(stderr, "invalid material option: %s\n", argv[i]);
nuclear@0	251 return false;
nuclear@0	252 }
nuclear@0	253 }
nuclear@0	254 return true;
nuclear@0	255 }
nuclear@0	256
nuclear@0	257 static Object parse_sphere(char *argv, const std::map<std::string, Material> &materials)
nuclear@0	258 {
nuclear@0	259 char *endp;
nuclear@0	260 Sphere *sph = new Sphere;
nuclear@0	261
nuclear@0	262 for(int i=0; argv[i]; i++) {
nuclear@0	263 if(strcmp(argv[i], "-name") == 0) {
nuclear@0	264 sph->set_name(argv[++i]);
nuclear@0	265
nuclear@0	266 } else if(strcmp(argv[i], "-center") == 0) {
nuclear@0	267 if(!parse_vec(argv + i + 1, &sph->pos)) {
nuclear@0	268 fprintf(stderr, "failed to parse sphere center vector\n");
nuclear@0	269 return 0;
nuclear@0	270 }
nuclear@0	271 argv += 3;
nuclear@0	272
nuclear@0	273 } else if(strcmp(argv[i], "-radius") == 0) {
nuclear@0	274 sph->radius = strtod(argv[++i], &endp);
nuclear@0	275 if(endp == argv[i]) {
nuclear@0	276 fprintf(stderr, "failed to parse sphere radius\n");
nuclear@0	277 return 0;
nuclear@0	278 }
nuclear@0	279
nuclear@0	280 } else if(strcmp(argv[i], "-material") == 0) {
nuclear@0	281 auto it = materials.find(argv[++i]);
nuclear@0	282 if(it == materials.end()) {
nuclear@0	283 fprintf(stderr, "material %s not found\n", argv[i]);
nuclear@0	284 return 0;
nuclear@0	285 }
nuclear@0	286
nuclear@0	287 sph->material = it->second;
nuclear@0	288 } else {
nuclear@0	289 fprintf(stderr, "invalid sphere option: %s\n", argv[i]);
nuclear@0	290 return 0;
nuclear@0	291 }
nuclear@0	292 }
nuclear@0	293
nuclear@0	294 return sph;
nuclear@0	295 }
nuclear@0	296
nuclear@0	297 static Object parse_plane(char *argv, const std::map<std::string, Material> &materials)
nuclear@0	298 {
nuclear@0	299 char *endp;
nuclear@0	300 Plane *plane = new Plane;
nuclear@0	301
nuclear@0	302 for(int i=0; argv[i]; i++) {
nuclear@0	303 if(strcmp(argv[i], "-name") == 0) {
nuclear@0	304 plane->set_name(argv[++i]);
nuclear@0	305
nuclear@0	306 } else if(strcmp(argv[i], "-normal") == 0) {
nuclear@0	307 if(!parse_vec(argv + i + 1, &plane->normal)) {
nuclear@0	308 fprintf(stderr, "failed to parse plane normal\n");
nuclear@0	309 return 0;
nuclear@0	310 }
nuclear@0	311 plane->normal.normalize();
nuclear@0	312 argv += 3;
nuclear@0	313
nuclear@0	314 } else if(strcmp(argv[i], "-distance") == 0) {
nuclear@0	315 plane->dist = strtod(argv[++i], &endp);
nuclear@0	316 if(endp == argv[i]) {
nuclear@0	317 fprintf(stderr, "failed to parse plane distance\n");
nuclear@0	318 return 0;
nuclear@0	319 }
nuclear@0	320
nuclear@0	321 } else if(strcmp(argv[i], "-material") == 0) {
nuclear@0	322 auto it = materials.find(argv[++i]);
nuclear@0	323 if(it == materials.end()) {
nuclear@0	324 fprintf(stderr, "material %s not found\n", argv[i]);
nuclear@0	325 return 0;
nuclear@0	326 }
nuclear@0	327
nuclear@0	328 plane->material = it->second;
nuclear@0	329 } else {
nuclear@0	330 fprintf(stderr, "invalid plane option: %s\n", argv[i]);
nuclear@0	331 return 0;
nuclear@0	332 }
nuclear@0	333 }
nuclear@0	334
nuclear@0	335 return plane;
nuclear@0	336 }
nuclear@0	337
nuclear@0	338 static Object parse_box(char *argv, const std::map<std::string, Material> &materials)
nuclear@0	339 {
nuclear@0	340 Box *box = new Box;
nuclear@0	341
nuclear@0	342 for(int i=0; argv[i]; i++) {
nuclear@0	343 if(strcmp(argv[i], "-name") == 0) {
nuclear@0	344 box->set_name(argv[++i]);
nuclear@0	345
nuclear@0	346 } else if(strcmp(argv[i], "-min") == 0) {
nuclear@0	347 if(!parse_vec(argv + i + 1, &box->min)) {
nuclear@0	348 fprintf(stderr, "failed to parse box min\n");
nuclear@0	349 return 0;
nuclear@0	350 }
nuclear@0	351 argv += 3;
nuclear@0	352
nuclear@0	353 } else if(strcmp(argv[i], "-max") == 0) {
nuclear@0	354 if(!parse_vec(argv + i + 1, &box->max)) {
nuclear@0	355 fprintf(stderr, "failed to parse box max\n");
nuclear@0	356 return 0;
nuclear@0	357 }
nuclear@0	358 argv += 3;
nuclear@0	359
nuclear@0	360 } else if(strcmp(argv[i], "-material") == 0) {
nuclear@0	361 auto it = materials.find(argv[++i]);
nuclear@0	362 if(it == materials.end()) {
nuclear@0	363 fprintf(stderr, "material %s not found\n", argv[i]);
nuclear@0	364 return 0;
nuclear@0	365 }
nuclear@0	366
nuclear@0	367 box->material = it->second;
nuclear@0	368 } else {
nuclear@0	369 fprintf(stderr, "invalid box option: %s\n", argv[i]);
nuclear@0	370 return 0;
nuclear@0	371 }
nuclear@0	372 }
nuclear@0	373
nuclear@0	374 return box;
nuclear@0	375 }
nuclear@0	376
nuclear@0	377 static Light parse_light(char *argv)
nuclear@0	378 {
nuclear@0	379 Light *lt = new Light;
nuclear@0	380
nuclear@0	381 for(int i=0; argv[i]; i++) {
nuclear@0	382 if(strcmp(argv[i], "-position") == 0) {
nuclear@0	383 if(!parse_vec(argv + i + 1, &lt->pos)) {
nuclear@0	384 fprintf(stderr, "failed to parse light position\n");
nuclear@0	385 return 0;
nuclear@0	386 }
nuclear@0	387 argv += 3;
nuclear@0	388
nuclear@0	389 } else if(strcmp(argv[i], "-color") == 0) {
nuclear@0	390 if(!parse_vec(argv + i + 1, &lt->color)) {
nuclear@0	391 fprintf(stderr, "failed to parse light color\n");
nuclear@0	392 return 0;
nuclear@0	393 }
nuclear@0	394 argv += 3;
nuclear@0	395
nuclear@0	396 } else {
nuclear@0	397 fprintf(stderr, "invalid light option: %s\n", argv[i]);
nuclear@0	398 return 0;
nuclear@0	399 }
nuclear@0	400 }
nuclear@0	401
nuclear@0	402 return lt;
nuclear@0	403 }
nuclear@0	404
nuclear@0	405 static Camera parse_camera(char *argv)
nuclear@0	406 {
nuclear@0	407 char *endp;
nuclear@0	408 TargetCamera *cam = new TargetCamera;
nuclear@0	409
nuclear@0	410 for(int i=0; argv[i]; i++) {
nuclear@0	411 if(strcmp(argv[i], "-position") == 0) {
nuclear@0	412 Vector3 pos;
nuclear@0	413 if(!parse_vec(argv + i + 1, &pos)) {
nuclear@0	414 fprintf(stderr, "failed to parse camera position\n");
nuclear@0	415 return 0;
nuclear@0	416 }
nuclear@0	417 argv += 3;
nuclear@0	418 cam->set_position(pos);
nuclear@0	419
nuclear@0	420 } else if(strcmp(argv[i], "-target") == 0) {
nuclear@0	421 Vector3 targ;
nuclear@0	422 if(!parse_vec(argv + i + 1, &targ)) {
nuclear@0	423 fprintf(stderr, "failed to parse camera target\n");
nuclear@0	424 return 0;
nuclear@0	425 }
nuclear@0	426 argv += 3;
nuclear@0	427 cam->set_target(targ);
nuclear@0	428
nuclear@0	429 } else if(strcmp(argv[i], "-fov") == 0) {
nuclear@0	430 float fov = strtod(argv[++i], &endp);
nuclear@0	431 if(endp == argv[i]) {
nuclear@0	432 fprintf(stderr, "failed to parse camera fov\n");
nuclear@0	433 return 0;
nuclear@0	434 }
nuclear@0	435 cam->set_fov(M_PI * fov / 180.0);
nuclear@0	436
nuclear@0	437 } else {
nuclear@0	438 fprintf(stderr, "invalid camera option: %s\n", argv[i]);
nuclear@0	439 return 0;
nuclear@0	440 }
nuclear@0	441 }
nuclear@0	442
nuclear@0	443 return cam;
nuclear@0	444 }
nuclear@0	445
nuclear@0	446 static bool parse_env(char *argv, Scene scn)
nuclear@0	447 {
nuclear@0	448 char *endp;
nuclear@0	449
nuclear@0	450 TextureCube *env_tex = 0;
nuclear@0	451 TextureCube *conv_tex = 0;
nuclear@0	452
nuclear@0	453 float fog_start = -1;
nuclear@0	454 float fog_end = -1;
nuclear@0	455
nuclear@0	456 for(int i=0; argv[i]; i++) {
nuclear@0	457 if(strcmp(argv[i], "-color") == 0) {
nuclear@0	458 Color bgcolor;
nuclear@0	459 if(!parse_vec(argv + i + 1, &bgcolor)) {
nuclear@0	460 fprintf(stderr, "failed to parse environment color\n");
nuclear@0	461 return false;
nuclear@0	462 }
nuclear@0	463 i += 3;
nuclear@0	464 scn->set_background_color(bgcolor);
nuclear@0	465
nuclear@0	466 } else if(strcmp(argv[i], "-fog-start") == 0) {
nuclear@0	467 fog_start = strtod(argv[++i], &endp);
nuclear@0	468 if(endp == argv[i]) {
nuclear@0	469 fprintf(stderr, "failed to parse environment fog start\n");
nuclear@0	470 return false;
nuclear@0	471 }
nuclear@0	472
nuclear@0	473 } else if(strcmp(argv[i], "-fog-end") == 0) {
nuclear@0	474 fog_end = strtod(argv[++i], &endp);
nuclear@0	475 if(endp == argv[i]) {
nuclear@0	476 fprintf(stderr, "failed to parse environment fog end\n");
nuclear@0	477 return false;
nuclear@0	478 }
nuclear@0	479
nuclear@0	480 } else if(strcmp(argv[i], "-texture") == 0 \|\| strcmp(argv[i], "-texture-conv") == 0) {
nuclear@0	481 Texture *tex = load_texture(argv[++i]);
nuclear@0	482 if(!tex \|\| !dynamic_cast<TextureCube*>(tex)) {
nuclear@0	483 fprintf(stderr, "failed to load environment cubemap: %s\n", argv[i]);
nuclear@0	484 delete tex;
nuclear@0	485 return false;
nuclear@0	486 }
nuclear@0	487
nuclear@0	488 if(strstr(argv[i - 1], "-conv")) {
nuclear@0	489 conv_tex = (TextureCube*)tex;
nuclear@0	490 } else {
nuclear@0	491 env_tex = (TextureCube*)tex;
nuclear@0	492 }
nuclear@0	493
nuclear@0	494 } else {
nuclear@0	495 fprintf(stderr, "invalid environment option: %s\n", argv[i]);
nuclear@0	496 return false;
nuclear@0	497 }
nuclear@0	498 }
nuclear@0	499
nuclear@0	500 if(env_tex \|\| conv_tex) {
nuclear@0	501 scn->set_environment_map(env_tex, conv_tex);
nuclear@0	502 }
nuclear@0	503
nuclear@0	504 if(fog_start > 0.0 && fog_end > 0.0) {
nuclear@0	505 scn->set_fog(fog_start, fog_end);
nuclear@0	506 }
nuclear@0	507
nuclear@0	508 return true;
nuclear@0	509 }
nuclear@0	510
nuclear@0	511 static bool parse_xform(char *argv, Scene scn)
nuclear@0	512 {
nuclear@0	513 char endp, name = 0;
nuclear@0	514 Vector3 pos, rot_axis, scale;
nuclear@0	515 float rot_angle = 0;
nuclear@0	516 long tm = 0;
nuclear@0	517 Extrap extrap = EXTRAP_REPEAT;
nuclear@0	518
nuclear@0	519 bool have_pos = false;
nuclear@0	520 bool have_rot_axis = false;
nuclear@0	521 bool have_rot_angle = false;
nuclear@0	522 bool have_scale = false;
nuclear@0	523 bool have_extrap = false;
nuclear@0	524
nuclear@0	525 for(int i=0; argv[i]; i++) {
nuclear@0	526 if(strcmp(argv[i], "-name") == 0) {
nuclear@0	527 name = argv[++i];
nuclear@0	528
nuclear@0	529 } else if(strcmp(argv[i], "-pos") == 0) {
nuclear@0	530 if(!parse_vec(argv + i + 1, &pos)) {
nuclear@0	531 fprintf(stderr, "failed to parse xform position\n");
nuclear@0	532 return false;
nuclear@0	533 }
nuclear@0	534 have_pos = true;
nuclear@0	535 i += 3;
nuclear@0	536
nuclear@0	537 } else if(strcmp(argv[i], "-rot-axis") == 0) {
nuclear@0	538 if(!parse_vec(argv + i + 1, &rot_axis)) {
nuclear@0	539 fprintf(stderr, "failed to parse xform rotation axis\n");
nuclear@0	540 return false;
nuclear@0	541 }
nuclear@0	542 have_rot_axis = true;
nuclear@0	543 i += 3;
nuclear@0	544
nuclear@0	545 } else if(strcmp(argv[i], "-rot-angle") == 0) {
nuclear@0	546 rot_angle = strtod(argv[++i], &endp);
nuclear@0	547 if(endp == argv[i]) {
nuclear@0	548 fprintf(stderr, "failed to parse xform rotation angle\n");
nuclear@0	549 return false;
nuclear@0	550 }
nuclear@0	551 rot_angle = M_PI * rot_angle / 180.0;
nuclear@0	552 have_rot_angle = true;
nuclear@0	553
nuclear@0	554 } else if(strcmp(argv[i], "-scale") == 0) {
nuclear@0	555 if(!parse_vec(argv + i + 1, &scale)) {
nuclear@0	556 fprintf(stderr, "failed to parse xform scale\n");
nuclear@0	557 return false;
nuclear@0	558 }
nuclear@0	559 have_scale = true;
nuclear@0	560 i += 3;
nuclear@0	561
nuclear@0	562 } else if(strcmp(argv[i], "-time") == 0) {
nuclear@0	563 float tm_sec = strtod(argv[++i], &endp);
nuclear@0	564 if(endp == argv[i]) {
nuclear@0	565 fprintf(stderr, "failed to parse xform time\n");
nuclear@0	566 return false;
nuclear@0	567 }
nuclear@0	568 tm = (long)(tm_sec * 1000.0f);
nuclear@0	569
nuclear@0	570 } else if(strcmp(argv[i], "-extrapolation") == 0) {
nuclear@0	571 if(strcmp(argv[++i], "extend") == 0) {
nuclear@0	572 extrap = EXTRAP_EXTEND;
nuclear@0	573 } else if(strcmp(argv[i], "clamp") == 0) {
nuclear@0	574 extrap = EXTRAP_CLAMP;
nuclear@0	575 } else if(strcmp(argv[i], "repeat") == 0) {
nuclear@0	576 extrap = EXTRAP_REPEAT;
nuclear@0	577 } else if(strcmp(argv[i], "pingpong") == 0) {
nuclear@0	578 extrap = EXTRAP_PINGPONG;
nuclear@0	579 } else {
nuclear@0	580 fprintf(stderr, "failed to parse xform extrapolation, invalid mode: %s\n", argv[i]);
nuclear@0	581 return false;
nuclear@0	582 }
nuclear@0	583 have_extrap = true;
nuclear@0	584
nuclear@0	585 } else {
nuclear@0	586 fprintf(stderr, "invalid xform option: %s\n", argv[i]);
nuclear@0	587 return false;
nuclear@0	588 }
nuclear@0	589 }
nuclear@0	590
nuclear@0	591 if(!name) {
nuclear@0	592 fprintf(stderr, "invalid xform command, missing -name option\n");
nuclear@0	593 return false;
nuclear@0	594 }
nuclear@0	595 if(have_rot_angle != have_rot_axis) {
nuclear@0	596 fprintf(stderr, "invalid xform command, must have both -rot-angle and -rot-axis or neither\n");
nuclear@0	597 return false;
nuclear@0	598 }
nuclear@0	599
nuclear@0	600 Object *obj = 0;
nuclear@0	601
nuclear@0	602 int nobj = scn->get_object_count();
nuclear@0	603 for(int i=0; i<nobj; i++) {
nuclear@0	604 Object *tmp = scn->get_object(i);
nuclear@0	605 if(strcmp(tmp->get_name(), name) == 0) {
nuclear@0	606 obj = tmp;
nuclear@0	607 break;
nuclear@0	608 }
nuclear@0	609 }
nuclear@0	610
nuclear@0	611 if(!obj) {
nuclear@0	612 fprintf(stderr, "invalid xform, refers to nonexistent object: %s\n", name);
nuclear@0	613 return false;
nuclear@0	614 }
nuclear@0	615
nuclear@0	616 if(have_pos) {
nuclear@0	617 obj->set_position(pos, tm);
nuclear@0	618 }
nuclear@0	619 if(have_rot_angle) {
nuclear@0	620 obj->set_rotation(Quaternion(rot_axis, rot_angle), tm);
nuclear@0	621 }
nuclear@0	622 if(have_scale) {
nuclear@0	623 obj->set_scaling(scale, tm);
nuclear@0	624 }
nuclear@0	625
nuclear@0	626 if(have_extrap) {
nuclear@0	627 obj->set_extrapolator(extrap);
nuclear@0	628 }
nuclear@0	629 return true;
nuclear@0	630 }
nuclear@0	631
nuclear@0	632 static bool parse_vec(char *argv, Vector3 vptr)
nuclear@0	633 {
nuclear@0	634 char *endp;
nuclear@0	635
nuclear@0	636 vptr->x = strtod(argv[0], &endp);
nuclear@0	637 if(endp == argv[0])
nuclear@0	638 return false;
nuclear@0	639 vptr->y = strtod(argv[1], &endp);
nuclear@0	640 if(endp == argv[1])
nuclear@0	641 return false;
nuclear@0	642 vptr->z = strtod(argv[2], &endp);
nuclear@0	643 if(endp == argv[2])
nuclear@0	644 return false;
nuclear@0	645
nuclear@0	646 return true;
nuclear@0	647 }
nuclear@0	648
nuclear@0	649
nuclear@0	650 static char strip_space(char s)
nuclear@0	651 {
nuclear@0	652 while(s && isspace(s)) s++;
nuclear@0	653
nuclear@0	654 if(!*s)
nuclear@0	655 return s;
nuclear@0	656
nuclear@0	657 char *endp = s + strlen(s) - 1;
nuclear@0	658 while(isspace(*endp)) endp--;
nuclear@0	659 endp[1] = 0;
nuclear@0	660
nuclear@0	661 if((endp = strrchr(s, '#'))) {
nuclear@0	662 *endp = 0;
nuclear@0	663 }
nuclear@0	664
nuclear@0	665 return s;
nuclear@0	666 }
nuclear@0	667
nuclear@0	668 static char *split_args(char args)
nuclear@0	669 {
nuclear@0	670 static std::vector<char*> argv;
nuclear@0	671 char *tok = 0;
nuclear@0	672
nuclear@0	673 argv.clear();
nuclear@0	674
nuclear@0	675 while((tok = strtok(tok ? 0 : args, " \t\v\n\r"))) {
nuclear@0	676 argv.push_back(tok);
nuclear@0	677 }
nuclear@0	678 argv.push_back(0);
nuclear@0	679
nuclear@0	680 return &argv[0];
nuclear@0	681 }