dbf-halloween2015: src/main.cc annotate

dbf-halloween2015

annotate src/main.cc @ 0:50683c78264e

initial commit

author	John Tsiombikas <nuclear@member.fsf.org>
date	Sun, 01 Nov 2015 00:09:12 +0200
parents
children	5ae5fd3626fa

rev	line source
nuclear@0	1 #include <stdio.h>
nuclear@0	2 #include <stdlib.h>
nuclear@0	3 #include <assert.h>
nuclear@0	4 #include <vector>
nuclear@0	5 #include "opengl.h"
nuclear@0	6 #include <GL/glut.h>
nuclear@0	7 #include "scene.h"
nuclear@0	8 #include "meshgen.h"
nuclear@0	9 #include "pnoise.h"
nuclear@0	10 #include "image.h"
nuclear@0	11 #include "rng.h"
nuclear@0	12 #include "sdr.h"
nuclear@0	13 #include "audio/audio.h"
nuclear@0	14 #include "audio/ovstream.h"
nuclear@0	15 #include "dsys/dsys.h"
nuclear@0	16
nuclear@0	17 bool init();
nuclear@0	18 void cleanup();
nuclear@0	19 void display();
nuclear@0	20 void idle();
nuclear@0	21 void reshape(int x, int y);
nuclear@0	22 void keyb(unsigned char key, int x, int y);
nuclear@0	23 void mouse(int bn, int st, int x, int y);
nuclear@0	24 void motion(int x, int y);
nuclear@0	25
nuclear@0	26 float cam_theta, cam_phi = 25, cam_dist = 6;
nuclear@0	27 Scene *scn;
nuclear@0	28 bool wireframe;
nuclear@0	29 int num_shells = 64;
nuclear@0	30 float shell_scale = 1.015;
nuclear@0	31 bool anim = true;
nuclear@0	32 bool fullscr = true;
nuclear@0	33
nuclear@0	34 static std::vector<Image*> images;
nuclear@0	35 static Object *pkin_obj;
nuclear@0	36 static Mesh *pkin_mesh;
nuclear@0	37 static unsigned int pkin_tex;
nuclear@0	38
nuclear@0	39 static unsigned int sdr_spot;
nuclear@0	40
nuclear@0	41 static float ramp[3];
nuclear@0	42
nuclear@0	43
nuclear@0	44 static OggVorbisStream *music;
nuclear@0	45 static struct dsys_demo *demo;
nuclear@0	46
nuclear@0	47
nuclear@0	48 int main(int argc, char **argv)
nuclear@0	49 {
nuclear@0	50 glutInit(&argc, argv);
nuclear@0	51 glutInitWindowSize(1280, 720);
nuclear@0	52 glutInitDisplayMode(GLUT_RGB \| GLUT_DEPTH \| GLUT_DOUBLE);
nuclear@0	53 glutCreateWindow("DBF Halloween 2015 compo entry");
nuclear@0	54
nuclear@0	55 if(argv[1]) {
nuclear@0	56 if(strcmp(argv[1], "-w") == 0 \|\| strcmp(argv[1], "-windowed") == 0) {
nuclear@0	57 fullscr = false;
nuclear@0	58 } else {
nuclear@0	59 fprintf(stderr, "unrecognized argument: %s\nUse -w or -windowed to run in a window\n", argv[1]);
nuclear@0	60 return 1;
nuclear@0	61 }
nuclear@0	62 }
nuclear@0	63 if(fullscr) {
nuclear@0	64 glutFullScreen();
nuclear@0	65 }
nuclear@0	66
nuclear@0	67 glutDisplayFunc(display);
nuclear@0	68 glutIdleFunc(idle);
nuclear@0	69 glutReshapeFunc(reshape);
nuclear@0	70 glutKeyboardFunc(keyb);
nuclear@0	71 glutMouseFunc(mouse);
nuclear@0	72 glutMotionFunc(motion);
nuclear@0	73
nuclear@0	74 if(!init()) {
nuclear@0	75 return 1;
nuclear@0	76 }
nuclear@0	77 glutMainLoop();
nuclear@0	78 return 0;
nuclear@0	79 }
nuclear@0	80
nuclear@0	81 static float ground_func(float u, float v, void *cls)
nuclear@0	82 {
nuclear@0	83 return fbm2(u * 3.0, v * 3.0, 2) * 0.8;
nuclear@0	84 }
nuclear@0	85
nuclear@0	86 static Vector2 pumpkin_func(float u, float v, void *cls)
nuclear@0	87 {
nuclear@0	88 float theta = v * M_PI;
nuclear@0	89 float r = sin(theta) * 0.5 + 0.5;
nuclear@0	90
nuclear@0	91 // modulate a high-frequency short-amp wave along u to make the ribs(?)
nuclear@0	92 r += fabs(sin(u * M_PI * 12.0)) * 0.02;// + 1.0;
nuclear@0	93
nuclear@0	94 // throw some noise in there for good measure
nuclear@0	95 r += pnoise2(u * 16.0, v * 8.0, 16) * 0.05;// + 1.0;
nuclear@0	96
nuclear@0	97 float x = sin(theta) * r;
nuclear@0	98 float y = cos(theta) * r;
nuclear@0	99 return Vector2(x, y);
nuclear@0	100 }
nuclear@0	101
nuclear@0	102 #define CLAMP(x, a, b) std::max<float>(std::min<float>(x, b), a)
nuclear@0	103
nuclear@0	104 bool init()
nuclear@0	105 {
nuclear@0	106 if(init_opengl() == -1) {
nuclear@0	107 return false;
nuclear@0	108 }
nuclear@0	109 Mesh::use_custom_sdr_attr = false;
nuclear@0	110
nuclear@0	111 glEnable(GL_DEPTH_TEST);
nuclear@0	112 glEnable(GL_CULL_FACE);
nuclear@0	113 glEnable(GL_LIGHTING);
nuclear@0	114 glEnable(GL_NORMALIZE);
nuclear@0	115
nuclear@0	116 if(!(demo = dsys_open("data/demo.script"))) {
nuclear@0	117 fprintf(stderr, "failed to load sequencing file\n");
nuclear@0	118 return false;
nuclear@0	119 }
nuclear@0	120 for(int i=0; i<3; i++) {
nuclear@0	121 char name[16];
nuclear@0	122 sprintf(name, "ramp%d", i);
nuclear@0	123 struct dsys_event *ev = dsys_event(demo, name);
nuclear@0	124 if(ev) {
nuclear@0	125 printf("found event: %s\n", name);
nuclear@0	126 dsys_event_link(ev, ramp + i);
nuclear@0	127 }
nuclear@0	128 }
nuclear@0	129
nuclear@0	130
nuclear@0	131 if(!(sdr_spot = create_program_load("sdr/default.v.glsl", "sdr/spot.p.glsl"))) {
nuclear@0	132 return false;
nuclear@0	133 }
nuclear@0	134
nuclear@0	135 Matrix4x4 xform;
nuclear@0	136
nuclear@0	137 scn = new Scene;
nuclear@0	138
nuclear@0	139 Light *lt = new Light;
nuclear@0	140 lt->pos = Vector3(-10, 10, 10);
nuclear@0	141 scn->add_light(lt);
nuclear@0	142
nuclear@0	143 // floor
nuclear@0	144 Mesh *mesh = new Mesh;
nuclear@0	145 gen_heightmap(mesh, 20, 20, 50, 50, ground_func);
nuclear@0	146 xform.set_rotation(Vector3(-M_PI / 2.0, 0, 0));
nuclear@0	147 mesh->apply_xform(xform);
nuclear@0	148
nuclear@0	149 Object *obj = new Object;
nuclear@0	150 obj->set_mesh(mesh);
nuclear@0	151 obj->xform().set_translation(Vector3(0, -0.9, 0));
nuclear@0	152 obj->mtl.diffuse = Vector3(0.7, 0.7, 0.7);
nuclear@0	153 obj->set_shader(sdr_spot);
nuclear@0	154 scn->add_object(obj);
nuclear@0	155
nuclear@0	156 Image *img = new Image;
nuclear@0	157 if(!img->load("data/grass02.jpg")) {
nuclear@0	158 return false;
nuclear@0	159 }
nuclear@0	160 images.push_back(img);
nuclear@0	161 obj->tex_xform().set_scaling(Vector3(5.0, 10.0, 1.0));
nuclear@0	162 obj->set_texture(img->texture());
nuclear@0	163
nuclear@0	164 // pumpkin texture
nuclear@0	165 img = new Image;
nuclear@0	166 if(!img->create(1024, 512)) {
nuclear@0	167 return false;
nuclear@0	168 }
nuclear@0	169 images.push_back(img);
nuclear@0	170
nuclear@0	171 static const Vector3 pkin_col = Vector3(0.824, 0.325, 0.063);
nuclear@0	172 unsigned char *pptr = img->pixels;
nuclear@0	173 for(int i=0; i<img->height; i++) {
nuclear@0	174 float v = (float)i / (float)img->height;
nuclear@0	175 for(int j=0; j<img->width; j++) {
nuclear@0	176 float u = (float)j / (float)img->width;
nuclear@0	177
nuclear@0	178 float val = pfbm2(u * 64.0, v * 32.0, 3, 128) * 0.1 + 1.0;
nuclear@0	179 val = fabs(sin(u M_PI * 12.0)) * 0.2 + 0.8;
nuclear@0	180 Vector3 col = pkin_col * val;
nuclear@0	181
nuclear@0	182 pptr++ = (int)(CLAMP(col.x, 0.0, 1.0) 255.0f);
nuclear@0	183 pptr++ = (int)(CLAMP(col.y, 0.0, 1.0) 255.0f);
nuclear@0	184 pptr++ = (int)(CLAMP(col.z, 0.0, 1.0) 255.0f);
nuclear@0	185 *pptr++ = 255;
nuclear@0	186 }
nuclear@0	187 }
nuclear@0	188
nuclear@0	189 // pumpkin
nuclear@0	190 pkin_mesh = new Mesh;
nuclear@0	191 gen_revol(pkin_mesh, 64, 20, pumpkin_func);
nuclear@0	192
nuclear@0	193 pkin_obj = new Object;
nuclear@0	194 pkin_obj->xform().set_rotation(Vector3(DEG_TO_RAD(-10), DEG_TO_RAD(90), 0));
nuclear@0	195 pkin_obj->set_mesh(pkin_mesh);
nuclear@0	196 pkin_obj->set_texture(img->texture());
nuclear@0	197 obj->set_shader(sdr_spot);
nuclear@0	198 scn->add_object(pkin_obj);
nuclear@0	199
nuclear@0	200 int num_pumpkins = 20;
nuclear@0	201 float dtheta = 1.0 / (float)num_pumpkins;
nuclear@0	202
nuclear@0	203 for(int i=0; i<num_pumpkins; i++) {
nuclear@0	204 float theta = (((float)i + rng_frand() * 0.5) * dtheta) * 2.0 * M_PI * 2.0;
nuclear@0	205 float r = 5.0 * (float)i / (float)num_pumpkins + 4.0;
nuclear@0	206
nuclear@0	207 float x = cos(theta) * r;
nuclear@0	208 float y = sin(theta) * r;
nuclear@0	209
nuclear@0	210 float tu = (x + 10.0) / 20.0;
nuclear@0	211 float tv = (10.0 - y) / 20.0;
nuclear@0	212 float h = ground_func(tu, tv, 0);
nuclear@0	213
nuclear@0	214 obj = new Object;
nuclear@0	215 obj->xform().translate(Vector3(x, h - 0.5, y));
nuclear@0	216 obj->xform().rotate(Vector3(DEG_TO_RAD(rng_frand() * 40.0 - 20.0), rng_frand() * M_PI * 2.0, 0));
nuclear@0	217 obj->xform().scale(Vector3(0.7, 0.7, 0.7));
nuclear@0	218 obj->set_mesh(pkin_mesh);
nuclear@0	219 obj->set_texture(img->texture());
nuclear@0	220 obj->set_shader(sdr_spot);
nuclear@0	221 scn->add_object(obj);
nuclear@0	222 }
nuclear@0	223
nuclear@0	224 // pumpkin glow mask
nuclear@0	225 img = new Image;
nuclear@0	226 if(!img->load("data/pumpkin_mask_blured.png")) {
nuclear@0	227 return false;
nuclear@0	228 }
nuclear@0	229 images.push_back(img);
nuclear@0	230 pkin_tex = img->texture();
nuclear@0	231
nuclear@0	232 if(!init_audio()) {
nuclear@0	233 fprintf(stderr, "failed to initialize audio\n");
nuclear@0	234 return false;
nuclear@0	235 }
nuclear@0	236 music = new OggVorbisStream;
nuclear@0	237 if(!music->open("data/welcome_to_horrorland.ogg")) {
nuclear@0	238 fprintf(stderr, "failed to open music\n");
nuclear@0	239 return false;
nuclear@0	240 }
nuclear@0	241 music->play(AUDIO_PLAYMODE_LOOP);
nuclear@0	242
nuclear@0	243 return true;
nuclear@0	244 }
nuclear@0	245
nuclear@0	246 void cleanup()
nuclear@0	247 {
nuclear@0	248 music->stop();
nuclear@0	249 delete music;
nuclear@0	250 destroy_audio();
nuclear@0	251
nuclear@0	252 delete scn;
nuclear@0	253
nuclear@0	254 for(size_t i=0; i<images.size(); i++) {
nuclear@0	255 delete images[i];
nuclear@0	256 }
nuclear@0	257 images.clear();
nuclear@0	258 }
nuclear@0	259
nuclear@0	260 void display()
nuclear@0	261 {
nuclear@0	262 unsigned int msec = glutGet(GLUT_ELAPSED_TIME);
nuclear@0	263 float sec = (float)msec / 1000.0;
nuclear@0	264
nuclear@0	265 dsys_update(demo, dsys_msec_to_dtime(msec));
nuclear@0	266 if(!dsys_is_running(demo)) {
nuclear@0	267 exit(0);
nuclear@0	268 }
nuclear@0	269
nuclear@0	270 float offs[3];
nuclear@0	271
nuclear@0	272 if(anim) {
nuclear@0	273 float t = sec * 0.5;
nuclear@0	274 cam_theta = cos(t) * 35.0;// + fbm1(t * 6.0, 1) * 2.0;
nuclear@0	275 cam_phi = sin(t * 2.0) * 10.0 + 25.0;// + fbm1(t * 8.0, 1) * 3.0;
nuclear@0	276
nuclear@0	277 float mag = std::max(fmod(ramp[0], 1.0), std::max(fmod(ramp[1], 1.0), fmod(ramp[2], 1.0))) * 0.8 + 0.15;
nuclear@0	278 //printf("ramps: %g %g %g, mag: %g\n", ramp[0], ramp[1], ramp[2], mag);
nuclear@0	279 for(int i=0; i<3; i++) {
nuclear@0	280 offs[i] = turbulence1(sec * 4.0 + i, 2) * mag;
nuclear@0	281 }
nuclear@0	282 }
nuclear@0	283
nuclear@0	284 glClear(GL_COLOR_BUFFER_BIT \| GL_DEPTH_BUFFER_BIT);
nuclear@0	285
nuclear@0	286 glMatrixMode(GL_MODELVIEW);
nuclear@0	287 glLoadIdentity();
nuclear@0	288 glTranslatef(0, 0, -cam_dist);
nuclear@0	289 glRotatef(cam_phi, 1, 0, 0);
nuclear@0	290 glRotatef(cam_theta, 0, 1, 0);
nuclear@0	291 glTranslatef(offs[0], offs[1], offs[2]);
nuclear@0	292
nuclear@0	293 scn->draw();
nuclear@0	294
nuclear@0	295 glPushAttrib(GL_ENABLE_BIT \| GL_LIGHTING_BIT);
nuclear@0	296 glDisable(GL_CULL_FACE);
nuclear@0	297
nuclear@0	298 glDepthMask(0);
nuclear@0	299 glEnable(GL_BLEND);
nuclear@0	300 glBlendFunc(GL_SRC_ALPHA, GL_ONE);
nuclear@0	301
nuclear@0	302 glBindTexture(GL_TEXTURE_2D, pkin_tex);
nuclear@0	303 glEnable(GL_TEXTURE_2D);
nuclear@0	304
nuclear@0	305 glMatrixMode(GL_MODELVIEW);
nuclear@0	306 glPushMatrix();
nuclear@0	307 glMultTransposeMatrixf(pkin_obj->xform()[0]);
nuclear@0	308
nuclear@0	309 num_shells = fbm1(sec * 2.0, 2) * 28.0 + 45;
nuclear@0	310
nuclear@0	311 for(int i=0; i<num_shells; i++) {
nuclear@0	312 float x = (float)i / (float)num_shells;
nuclear@0	313 float alpha = 0.025 / (x * x);
nuclear@0	314
nuclear@0	315 float black[] = {0, 0, 0, std::min(alpha, 1.0f) * 0.3f};
nuclear@0	316 float glow_col[] = {0.7, 0.5, 0.25, 1.0};
nuclear@0	317 glMaterialfv(GL_FRONT_AND_BACK, GL_AMBIENT_AND_DIFFUSE, black);
nuclear@0	318 glMaterialfv(GL_FRONT_AND_BACK, GL_SPECULAR, black);
nuclear@0	319 glMaterialfv(GL_FRONT_AND_BACK, GL_EMISSION, glow_col);
nuclear@0	320
nuclear@0	321 glScalef(shell_scale, shell_scale, shell_scale);
nuclear@0	322 pkin_mesh->draw();
nuclear@0	323 }
nuclear@0	324 glDepthMask(1);
nuclear@0	325
nuclear@0	326 glPopMatrix();
nuclear@0	327 glPopAttrib();
nuclear@0	328
nuclear@0	329
nuclear@0	330 glutSwapBuffers();
nuclear@0	331 assert(glGetError() == GL_NO_ERROR);
nuclear@0	332 }
nuclear@0	333
nuclear@0	334 void idle()
nuclear@0	335 {
nuclear@0	336 glutPostRedisplay();
nuclear@0	337 }
nuclear@0	338
nuclear@0	339 void reshape(int x, int y)
nuclear@0	340 {
nuclear@0	341 glViewport(0, 0, x, y);
nuclear@0	342
nuclear@0	343 glMatrixMode(GL_PROJECTION);
nuclear@0	344 glLoadIdentity();
nuclear@0	345 gluPerspective(50.0, (float)x / (float)y, 0.5, 500.0);
nuclear@0	346 }
nuclear@0	347
nuclear@0	348 void keyb(unsigned char key, int x, int y)
nuclear@0	349 {
nuclear@0	350 switch(key) {
nuclear@0	351 case 27:
nuclear@0	352 exit(0);
nuclear@0	353
nuclear@0	354 case 'w':
nuclear@0	355 wireframe = !wireframe;
nuclear@0	356 break;
nuclear@0	357
nuclear@0	358 case 'f':
nuclear@0	359 case 'F':
nuclear@0	360 {
nuclear@0	361 static int prev_pos[2] = {50, 80};
nuclear@0	362
nuclear@0	363 fullscr = !fullscr;
nuclear@0	364 if(fullscr) {
nuclear@0	365 prev_pos[0] = glutGet(GLUT_WINDOW_X);
nuclear@0	366 prev_pos[1] = glutGet(GLUT_WINDOW_Y);
nuclear@0	367 glutFullScreen();
nuclear@0	368 } else {
nuclear@0	369 glutPositionWindow(prev_pos[0], prev_pos[1]);
nuclear@0	370 }
nuclear@0	371 }
nuclear@0	372 break;
nuclear@0	373 }
nuclear@0	374 }
nuclear@0	375
nuclear@0	376 static int prev_x, prev_y;
nuclear@0	377 static bool bnstate[16];
nuclear@0	378
nuclear@0	379 void mouse(int bn, int st, int x, int y)
nuclear@0	380 {
nuclear@0	381 prev_x = x;
nuclear@0	382 prev_y = y;
nuclear@0	383 bnstate[bn - GLUT_LEFT_BUTTON] = st == GLUT_DOWN;
nuclear@0	384
nuclear@0	385 anim = !(st == GLUT_DOWN);
nuclear@0	386 }
nuclear@0	387
nuclear@0	388 void motion(int x, int y)
nuclear@0	389 {
nuclear@0	390 int dx = x - prev_x;
nuclear@0	391 int dy = y - prev_y;
nuclear@0	392 prev_x = x;
nuclear@0	393 prev_y = y;
nuclear@0	394
nuclear@0	395 if(!dx && !dy) return;
nuclear@0	396
nuclear@0	397 if(bnstate[0]) {
nuclear@0	398 //anim = false;
nuclear@0	399 cam_theta += dx * 0.5;
nuclear@0	400 cam_phi += dy * 0.5;
nuclear@0	401 if(cam_phi < -90) cam_phi = -90;
nuclear@0	402 if(cam_phi > 90) cam_phi = 90;
nuclear@0	403 }
nuclear@0	404 if(bnstate[2]) {
nuclear@0	405 //anim = false;
nuclear@0	406 cam_dist += dy * 0.1;
nuclear@0	407 if(cam_dist < 0.0) cam_dist = 0.0;
nuclear@0	408 }
nuclear@0	409 }