dbf-halloween2015

diff src/dsys/dsys.c @ 0:50683c78264e

initial commit
author John Tsiombikas <nuclear@member.fsf.org>
date Sun, 01 Nov 2015 00:09:12 +0200
parents
children
line diff
     1.1 --- /dev/null	Thu Jan 01 00:00:00 1970 +0000
     1.2 +++ b/src/dsys/dsys.c	Sun Nov 01 00:09:12 2015 +0200
     1.3 @@ -0,0 +1,515 @@
     1.4 +#include <stdio.h>
     1.5 +#include <math.h>
     1.6 +#include <stdlib.h>
     1.7 +#include <string.h>
     1.8 +#include <ctype.h>
     1.9 +#include <errno.h>
    1.10 +#include "dsys.h"
    1.11 +#include "dsys_impl.h"
    1.12 +
    1.13 +static int read_script(struct dsys_demo *demo, FILE *fp, const char *fname);
    1.14 +static char *strip_ws(char *buf);
    1.15 +static void dbg_print_events(struct dsys_event *ev);
    1.16 +
    1.17 +static void proc_event(struct dsys_event *ev, demotime_t tm);
    1.18 +static void link_callback(struct dsys_event *ev, void *cls);
    1.19 +static void free_event(struct dsys_event *ev);
    1.20 +
    1.21 +static struct dsys_event *sort_evlist(struct dsys_event *list, int num_ev);
    1.22 +static struct dsys_event *merge_evlists(struct dsys_event *list1, struct dsys_event *list2);
    1.23 +
    1.24 +
    1.25 +struct dsys_demo *dsys_open(const char *fname)
    1.26 +{
    1.27 +	FILE *fp;
    1.28 +	struct dsys_demo *demo;
    1.29 +
    1.30 +	if(!(fp = fopen(fname, "r"))) {
    1.31 +		fprintf(stderr, "failed to open demoscript: %s: %s\n", fname, strerror(errno));
    1.32 +		return 0;
    1.33 +	}
    1.34 +
    1.35 +	if(!(demo = malloc(sizeof *demo))) {
    1.36 +		perror("failed to allocate memory");
    1.37 +		fclose(fp);
    1.38 +		return 0;
    1.39 +	}
    1.40 +	memset(demo, 0, sizeof *demo);
    1.41 +
    1.42 +	demo->src_tm = demo->start_tm = -1;
    1.43 +
    1.44 +	if(read_script(demo, fp, fname) == -1) {
    1.45 +		free(demo);
    1.46 +		fclose(fp);
    1.47 +		return 0;
    1.48 +	}
    1.49 +
    1.50 +	fclose(fp);
    1.51 +	return demo;
    1.52 +}
    1.53 +
    1.54 +struct dsys_demo *dsys_open_stream(FILE *fp)
    1.55 +{
    1.56 +	struct dsys_demo *demo;
    1.57 +
    1.58 +	if(!(demo = malloc(sizeof *demo))) {
    1.59 +		perror("failed to allocate memory");
    1.60 +		return 0;
    1.61 +	}
    1.62 +	memset(demo, 0, sizeof *demo);
    1.63 +
    1.64 +	demo->src_tm = demo->start_tm = -1;
    1.65 +
    1.66 +	if(read_script(demo, fp, 0) == -1) {
    1.67 +		free(demo);
    1.68 +		return 0;
    1.69 +	}
    1.70 +
    1.71 +	return demo;
    1.72 +}
    1.73 +
    1.74 +void dsys_close(struct dsys_demo *demo)
    1.75 +{
    1.76 +	while(demo->evlist) {
    1.77 +		struct dsys_event *ev = demo->evlist;
    1.78 +		demo->evlist = demo->evlist->next;
    1.79 +		free_event(ev);
    1.80 +	}
    1.81 +
    1.82 +	free(demo);
    1.83 +}
    1.84 +
    1.85 +
    1.86 +#define SEP	" \t\n\r"
    1.87 +
    1.88 +static int read_script(struct dsys_demo *demo, FILE *fp, const char *fname)
    1.89 +{
    1.90 +	int nline = 0;
    1.91 +	char buf[512], *line, *tok, *endp;
    1.92 +	unsigned int t0, t1;
    1.93 +	struct dsys_event *ev;
    1.94 +
    1.95 +	if(!fname) {
    1.96 +		fname = "<unknown>";
    1.97 +	}
    1.98 +
    1.99 +	demo->duration = dsys_msec_to_dtime(0);
   1.100 +
   1.101 +	while(fgets(buf, sizeof buf, fp)) {
   1.102 +		nline++;
   1.103 +
   1.104 +		line = strip_ws(buf);
   1.105 +
   1.106 +		if(!line || !*line) {
   1.107 +			continue;
   1.108 +		}
   1.109 +
   1.110 +		if(!(tok = strtok(line, SEP)) || (t0 = strtol(tok, &endp, 10), endp == tok)) {
   1.111 +			fprintf(stderr, "%s line: %d, error: expected timestamp t0\n", fname, nline);
   1.112 +			return -1;
   1.113 +		}
   1.114 +
   1.115 +		if(!(tok = strtok(0, SEP))) {
   1.116 +			fprintf(stderr, "%s line: %d, error: expected second timestamp or event name\n", fname, nline);
   1.117 +			return -1;
   1.118 +		}
   1.119 +
   1.120 +		t1 = strtol(tok, &endp, 10);
   1.121 +		if(endp == tok) {
   1.122 +			t1 = t0;
   1.123 +		} else {
   1.124 +			if(!(tok = strtok(0, SEP))) {
   1.125 +				fprintf(stderr, "%s line: %d, error: expected event name\n", fname, nline);
   1.126 +				return -1;
   1.127 +			}
   1.128 +		}
   1.129 +
   1.130 +		if(!(ev = malloc(sizeof *ev))) {
   1.131 +			perror("read_script: failed to allocate memory for an event\n");
   1.132 +			return -1;
   1.133 +		}
   1.134 +		memset(ev, 0, sizeof *ev);
   1.135 +		ev->t0 = dsys_msec_to_dtime(t0);
   1.136 +		ev->t1 = dsys_msec_to_dtime(t1);
   1.137 +
   1.138 +		if(!(ev->name = malloc(strlen(tok) + 1))) {
   1.139 +			free(ev);
   1.140 +			fprintf(stderr, "read_script: failed to allocate memory for the event name: %s\n", tok);
   1.141 +			return -1;
   1.142 +		}
   1.143 +		strcpy(ev->name, tok);
   1.144 +
   1.145 +		ev->eval = t0 == t1 ? dsys_eval_step : dsys_eval_lerp;
   1.146 +
   1.147 +		ev->next = demo->evlist;
   1.148 +		ev->prev = 0;
   1.149 +		if(demo->evlist) {
   1.150 +			demo->evlist->prev = ev;
   1.151 +		}
   1.152 +		demo->evlist = ev;
   1.153 +		demo->num_ev++;
   1.154 +
   1.155 +		if(ev->t1 > demo->duration) {
   1.156 +			demo->duration = ev->t1;
   1.157 +		}
   1.158 +	}
   1.159 +
   1.160 +	demo->evlist = sort_evlist(demo->evlist, demo->num_ev);
   1.161 +
   1.162 +	/*dbg_print_events(demo->evlist);*/
   1.163 +
   1.164 +	return 0;
   1.165 +}
   1.166 +
   1.167 +static char *strip_ws(char *buf)
   1.168 +{
   1.169 +	char *ptr;
   1.170 +
   1.171 +	while(isspace(*buf)) {
   1.172 +		buf++;
   1.173 +	}
   1.174 +
   1.175 +	ptr = buf;
   1.176 +	while(*ptr) {
   1.177 +		if(*ptr == '\n' || *ptr == '\r' || *ptr == '#') {
   1.178 +			*ptr = 0;
   1.179 +			break;
   1.180 +		}
   1.181 +		ptr++;
   1.182 +	}
   1.183 +
   1.184 +	return buf;
   1.185 +}
   1.186 +
   1.187 +/*static void dbg_print_events(struct dsys_event *ev)
   1.188 +{
   1.189 +	int i;
   1.190 +
   1.191 +	for(i=0; ev; i++) {
   1.192 +		printf("%02d - %s (%f -> %f) [%s]\n", i, ev->eval == dsys_eval_step ? "step" : "lerp",
   1.193 +				ev->t0, ev->t1, ev->name);
   1.194 +		ev = ev->next;
   1.195 +	}
   1.196 +}*/
   1.197 +
   1.198 +void dsys_update(struct dsys_demo *demo, demotime_t tm)
   1.199 +{
   1.200 +	struct dsys_event *ev;
   1.201 +
   1.202 +	demo->src_tm = tm;
   1.203 +
   1.204 +	if(demo->start_tm == -1) {
   1.205 +		dsys_start(demo);
   1.206 +	}
   1.207 +
   1.208 +	if(!demo->running) {
   1.209 +		return;	/* nothing changes */
   1.210 +	}
   1.211 +
   1.212 +	demo->tm = tm - demo->start_tm - demo->stoppage_tm;
   1.213 +
   1.214 +	if(demo->tm < 0) {
   1.215 +		demo->tm = 0;
   1.216 +	}
   1.217 +	if(demo->tm > demo->duration) {
   1.218 +		demo->tm = demo->duration;
   1.219 +	}
   1.220 +
   1.221 +	while(demo->active && demo->active->t1 <= demo->tm) {
   1.222 +		proc_event(demo->active, demo->tm);
   1.223 +		demo->active = demo->active->next;
   1.224 +	}
   1.225 +
   1.226 +	ev = demo->active;
   1.227 +	while(ev && ev->t0 <= demo->tm) {
   1.228 +		proc_event(ev, demo->tm);
   1.229 +		ev = ev->next;
   1.230 +	}
   1.231 +	demo->nextev = ev;
   1.232 +
   1.233 +
   1.234 +	if(demo->tm >= demo->duration) {
   1.235 +		dsys_stop(demo);
   1.236 +	}
   1.237 +}
   1.238 +
   1.239 +static void proc_event(struct dsys_event *ev, demotime_t tm)
   1.240 +{
   1.241 +	float val = ev->eval(ev, tm);
   1.242 +
   1.243 +	if(ev->val != val) {
   1.244 +		struct callback *cb = ev->cblist;
   1.245 +
   1.246 +		ev->val = val;
   1.247 +
   1.248 +		while(cb) {
   1.249 +			cb->func(ev, cb->cls);
   1.250 +			cb = cb->next;
   1.251 +		}
   1.252 +	}
   1.253 +}
   1.254 +
   1.255 +void dsys_start(struct dsys_demo *demo)
   1.256 +{
   1.257 +	if(demo->running) {
   1.258 +		return;
   1.259 +	}
   1.260 +
   1.261 +	if(demo->start_tm == -1) {
   1.262 +		demo->start_tm = demo->src_tm;
   1.263 +		demo->nextev = demo->active = demo->evlist;
   1.264 +	} else {
   1.265 +		demo->stoppage_tm += demo->src_tm - demo->stop_tm;
   1.266 +	}
   1.267 +
   1.268 +	demo->running = 1;
   1.269 +}
   1.270 +
   1.271 +void dsys_stop(struct dsys_demo *demo)
   1.272 +{
   1.273 +	if(!demo->running) {
   1.274 +		return;
   1.275 +	}
   1.276 +
   1.277 +	demo->stop_tm = demo->src_tm;
   1.278 +	demo->running = 0;
   1.279 +}
   1.280 +
   1.281 +int dsys_is_running(struct dsys_demo *demo)
   1.282 +{
   1.283 +	return demo->running;
   1.284 +}
   1.285 +
   1.286 +
   1.287 +demotime_t dsys_duration(struct dsys_demo *demo)
   1.288 +{
   1.289 +	return demo->duration;
   1.290 +}
   1.291 +
   1.292 +demotime_t dsys_time(struct dsys_demo *demo)
   1.293 +{
   1.294 +	return demo->tm;
   1.295 +}
   1.296 +
   1.297 +float dsys_progress(struct dsys_demo *demo)
   1.298 +{
   1.299 +	return demo->tm / demo->duration;
   1.300 +}
   1.301 +
   1.302 +/* seek without continuity */
   1.303 +void dsys_seek(struct dsys_demo *demo, demotime_t tm)
   1.304 +{
   1.305 +	struct dsys_event *ev;
   1.306 +
   1.307 +	if(tm < 0) {
   1.308 +		tm = 0;
   1.309 +	}
   1.310 +	if(tm > demo->duration) {
   1.311 +		tm = demo->duration;
   1.312 +	}
   1.313 +
   1.314 +	if(tm < demo->tm) {
   1.315 +		/* on backwards seek, invalidate the sliding window */
   1.316 +		demo->nextev = demo->active = demo->evlist;
   1.317 +	}
   1.318 +
   1.319 +	demo->start_tm = demo->src_tm - tm;
   1.320 +	demo->stoppage_tm = 0;
   1.321 +	demo->stop_tm = demo->src_tm;
   1.322 +	demo->tm = tm;
   1.323 +
   1.324 +	/* recalculate events */
   1.325 +	ev = demo->evlist;
   1.326 +	while(ev) {
   1.327 +		proc_event(ev, tm);
   1.328 +		ev = ev->next;
   1.329 +	}
   1.330 +}
   1.331 +
   1.332 +void dsys_seek_norm(struct dsys_demo *demo, float t)
   1.333 +{
   1.334 +	dsys_seek(demo, t * demo->duration);
   1.335 +}
   1.336 +
   1.337 +/* seek by accelerating time */
   1.338 +void dsys_warp(struct dsys_demo *demo, demotime_t tm)
   1.339 +{
   1.340 +	fprintf(stderr, "dsys_warp not implemented yet\n");
   1.341 +}
   1.342 +
   1.343 +void dsys_warp_norm(struct dsys_demo *demo, float t)
   1.344 +{
   1.345 +	dsys_warp(demo, t * demo->duration);
   1.346 +}
   1.347 +
   1.348 +
   1.349 +/* events */
   1.350 +struct dsys_event *dsys_event(struct dsys_demo *demo, const char *name)
   1.351 +{
   1.352 +	struct dsys_event *iter = demo->evlist;
   1.353 +
   1.354 +	while(iter) {
   1.355 +		if(strcmp(iter->name, name) == 0) {
   1.356 +			return iter;
   1.357 +		}
   1.358 +		iter = iter->next;
   1.359 +	}
   1.360 +	return 0;
   1.361 +}
   1.362 +
   1.363 +enum dsys_evtype dsys_event_type(struct dsys_event *ev)
   1.364 +{
   1.365 +	return ev->type;
   1.366 +}
   1.367 +
   1.368 +float dsys_event_value(struct dsys_event *ev)
   1.369 +{
   1.370 +	return ev->val;
   1.371 +}
   1.372 +
   1.373 +int dsys_event_callback(struct dsys_event *ev, void (*func)(struct dsys_event*, void*), void *cls)
   1.374 +{
   1.375 +	struct callback *cb;
   1.376 +
   1.377 +	if(!(cb = malloc(sizeof *cb))) {
   1.378 +		perror("failed to allocate memory");
   1.379 +		return -1;
   1.380 +	}
   1.381 +	cb->func = func;
   1.382 +	cb->cls = cls;
   1.383 +	cb->next = ev->cblist;
   1.384 +	ev->cblist = cb;
   1.385 +	return 0;
   1.386 +}
   1.387 +
   1.388 +int dsys_event_link(struct dsys_event *ev, float *link)
   1.389 +{
   1.390 +	return dsys_event_callback(ev, link_callback, link);
   1.391 +}
   1.392 +
   1.393 +static void link_callback(struct dsys_event *ev, void *cls)
   1.394 +{
   1.395 +	*(float*)cls = ev->val;
   1.396 +}
   1.397 +
   1.398 +
   1.399 +/* time conversion */
   1.400 +demotime_t dsys_sec_to_dtime(float sec)
   1.401 +{
   1.402 +	return sec;
   1.403 +}
   1.404 +
   1.405 +demotime_t dsys_msec_to_dtime(unsigned long msec)
   1.406 +{
   1.407 +	return (demotime_t)msec / 1000.0;
   1.408 +}
   1.409 +
   1.410 +float dsys_dtime_to_sec(demotime_t tm)
   1.411 +{
   1.412 +	return tm;
   1.413 +}
   1.414 +
   1.415 +unsigned long dsys_dtime_to_msec(demotime_t tm)
   1.416 +{
   1.417 +	return (unsigned long)(tm * 1000.0);
   1.418 +}
   1.419 +
   1.420 +
   1.421 +float dsys_eval_step(struct dsys_event *ev, demotime_t t)
   1.422 +{
   1.423 +	return t >= ev->t1 ? 1.0 : 0.0;
   1.424 +}
   1.425 +
   1.426 +#define CLAMP(x, low, high)	((x) < (low) ? (low) : ((x) > (high) ? (high) : (x)))
   1.427 +
   1.428 +float dsys_eval_lerp(struct dsys_event *ev, demotime_t t)
   1.429 +{
   1.430 +	float res = (t - ev->t0) / (ev->t1 - ev->t0);
   1.431 +	return CLAMP(res, 0.0, 1.0);
   1.432 +}
   1.433 +
   1.434 +float dsys_eval_sigmoid(struct dsys_event *ev, demotime_t t)
   1.435 +{
   1.436 +	t = dsys_eval_lerp(ev, t);
   1.437 +	return 1.0 - (cos(t * M_PI) * 0.5 + 0.5);
   1.438 +}
   1.439 +
   1.440 +static void free_event(struct dsys_event *ev)
   1.441 +{
   1.442 +	while(ev->cblist) {
   1.443 +		struct callback *cb = ev->cblist;
   1.444 +		ev->cblist = ev->cblist->next;
   1.445 +		free(cb);
   1.446 +	}
   1.447 +}
   1.448 +
   1.449 +static struct dsys_event *sort_evlist(struct dsys_event *list, int num_ev)
   1.450 +{
   1.451 +	int i, num_left, num_right;
   1.452 +	struct dsys_event *left, *right, *node = list;
   1.453 +
   1.454 +	if(num_ev < 2) {
   1.455 +		return list;
   1.456 +	}
   1.457 +
   1.458 +	num_left = num_ev / 2;
   1.459 +	num_right = num_ev - num_left;
   1.460 +
   1.461 +	for(i=0; i<num_ev/2; i++) {
   1.462 +		node = node->next;
   1.463 +	}
   1.464 +
   1.465 +	if(node->prev) {
   1.466 +		node->prev->next = 0;
   1.467 +		node->prev = 0;
   1.468 +	}
   1.469 +
   1.470 +	left = sort_evlist(list, num_left);
   1.471 +	right = sort_evlist(node, num_right);
   1.472 +
   1.473 +	return merge_evlists(left, right);
   1.474 +}
   1.475 +
   1.476 +static struct dsys_event *merge_evlists(struct dsys_event *list1, struct dsys_event *list2)
   1.477 +{
   1.478 +	struct dsys_event *head, *tail, *node;
   1.479 +
   1.480 +	if(!list1) {
   1.481 +		return list2;
   1.482 +	}
   1.483 +	if(!list2) {
   1.484 +		return list1;
   1.485 +	}
   1.486 +
   1.487 +	head = tail = 0;
   1.488 +
   1.489 +	while(list1 && list2) {
   1.490 +		if(list1->t0 < list2->t0) {
   1.491 +			node = list1;
   1.492 +			list1 = list1->next;
   1.493 +		} else {
   1.494 +			node = list2;
   1.495 +			list2 = list2->next;
   1.496 +		}
   1.497 +
   1.498 +		node->next = 0;
   1.499 +		node->prev = tail;
   1.500 +
   1.501 +		if(!head) {
   1.502 +			head = node;
   1.503 +		} else {
   1.504 +			tail->next = node;
   1.505 +		}
   1.506 +		tail = node;
   1.507 +	}
   1.508 +
   1.509 +	if(list1) {
   1.510 +		tail->next = list1;
   1.511 +		list1->prev = tail;
   1.512 +	} else if(list2) {
   1.513 +		tail->next = list2;
   1.514 +		list2->prev = tail;
   1.515 +	}
   1.516 +
   1.517 +	return head;
   1.518 +}