249 lines
6.0 KiB
C
249 lines
6.0 KiB
C
// ----------------------------------------------------------------------------
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// time
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#if 0
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uint64_t time_gpu() {
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GLint64 t = 123456789;
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glGetInteger64v(GL_TIMESTAMP, &t);
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return (uint64_t)t;
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}
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#endif
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uint64_t date() {
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time_t epoch = time(0);
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struct tm *ti = localtime(&epoch);
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return atoi64(va("%04d%02d%02d%02d%02d%02d",ti->tm_year+1900,ti->tm_mon+1,ti->tm_mday,ti->tm_hour,ti->tm_min,ti->tm_sec));
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}
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char *date_string() {
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time_t epoch = time(0);
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struct tm *ti = localtime(&epoch);
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return va("%04d-%02d-%02d %02d:%02d:%02d",ti->tm_year+1900,ti->tm_mon+1,ti->tm_mday,ti->tm_hour,ti->tm_min,ti->tm_sec);
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}
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uint64_t date_epoch() {
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time_t epoch = time(0);
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return epoch;
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}
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#if 0
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double time_ss() {
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return glfwGetTime();
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}
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double time_ms() {
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return glfwGetTime() * 1000.0;
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}
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uint64_t time_us() {
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return (uint64_t)(glfwGetTime() * 1000000.0); // @fixme: use a high resolution timer instead, or time_gpu below
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}
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uint64_t sleep_us(uint64_t us) { // @fixme: use a high resolution sleeper instead
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return sleep_ms( us / 1000.0 );
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}
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double sleep_ms(double ms) {
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double now = time_ms();
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if( ms <= 0 ) {
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#if is(win32)
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Sleep(0); // yield
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#else
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usleep(0);
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#endif
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} else {
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#if is(win32)
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Sleep(ms);
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#else
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usleep(ms * 1000);
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#endif
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}
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return time_ms() - now;
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}
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double sleep_ss(double ss) {
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return sleep_ms( ss * 1000 ) / 1000.0;
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}
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#endif
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// high-perf functions
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#define TIMER_E3 1000ULL
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#define TIMER_E6 1000000ULL
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#define TIMER_E9 1000000000ULL
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#ifdef CLOCK_MONOTONIC_RAW
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#define TIME_MONOTONIC CLOCK_MONOTONIC_RAW
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#elif defined CLOCK_MONOTONIC
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#define TIME_MONOTONIC CLOCK_MONOTONIC
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#else
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// #define TIME_MONOTONIC CLOCK_REALTIME // untested
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#endif
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static uint64_t nanotimer(uint64_t *out_freq) {
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if( out_freq ) {
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#if is(win32)
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LARGE_INTEGER li;
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QueryPerformanceFrequency(&li);
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*out_freq = li.QuadPart;
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//#elif is(ANDROID)
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// *out_freq = CLOCKS_PER_SEC;
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#elif defined TIME_MONOTONIC
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*out_freq = TIMER_E9;
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#else
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*out_freq = TIMER_E6;
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#endif
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}
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#if is(win32)
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LARGE_INTEGER li;
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QueryPerformanceCounter(&li);
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return (uint64_t)li.QuadPart;
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//#elif is(ANDROID)
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// return (uint64_t)clock();
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#elif defined TIME_MONOTONIC
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struct timespec ts;
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clock_gettime(TIME_MONOTONIC, &ts);
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return (TIMER_E9 * (uint64_t)ts.tv_sec) + ts.tv_nsec;
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#else
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struct timeval tv;
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gettimeofday(&tv, NULL);
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return (TIMER_E6 * (uint64_t)tv.tv_sec) + tv.tv_usec;
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#endif
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}
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uint64_t time_ns() {
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static uint64_t epoch = 0;
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static uint64_t freq = 0;
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if( !freq ) {
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epoch = nanotimer(&freq);
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}
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uint64_t a = nanotimer(NULL) - epoch;
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uint64_t b = TIMER_E9;
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uint64_t c = freq;
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// Computes (a*b)/c without overflow, as long as both (a*b) and the overall result fit into 64-bits.
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// [ref] https://github.com/rust-lang/rust/blob/3809bbf47c8557bd149b3e52ceb47434ca8378d5/src/libstd/sys_common/mod.rs#L124
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uint64_t q = a / c;
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uint64_t r = a % c;
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return q * b + r * b / c;
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}
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uint64_t time_us() {
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return time_ns() / TIMER_E3;
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}
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uint64_t time_ms() {
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return time_ns() / TIMER_E6;
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}
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double time_ss() {
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return time_ns() / 1e9; // TIMER_E9;
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}
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double time_mm() {
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return time_ss() / 60;
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}
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double time_hh() {
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return time_mm() / 60;
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}
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void sleep_ns( double ns ) {
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#if is(win32)
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if( ns >= 100 ) {
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LARGE_INTEGER li; // Windows sleep in 100ns units
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HANDLE timer = CreateWaitableTimer(NULL, TRUE, NULL);
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li.QuadPart = (LONGLONG)(__int64)(-ns/100); // Negative for relative time
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SetWaitableTimer(timer, &li, 0, NULL, NULL, FALSE);
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WaitForSingleObject(timer, INFINITE);
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CloseHandle(timer);
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#else
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if( ns > 0 ) {
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struct timespec wait = {0};
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wait.tv_sec = ns / 1e9;
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wait.tv_nsec = ns - wait.tv_sec * 1e9;
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nanosleep(&wait, NULL);
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#endif
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} else {
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#if is(win32)
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Sleep(0); // yield, Sleep(0), SwitchToThread
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#else
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usleep(0);
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#endif
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}
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}
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void sleep_us( double us ) {
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sleep_ns(us * 1e3);
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}
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void sleep_ms( double ms ) {
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sleep_ns(ms * 1e6);
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}
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void sleep_ss( double ss ) {
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sleep_ns(ss * 1e9);
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}
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// ----------------------------------------------------------------------------
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// timer
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struct timer_internal_t {
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unsigned ms;
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unsigned (*callback)(unsigned interval, void *arg);
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void *arg;
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thread_ptr_t thd;
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};
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static int timer_func(void *arg) {
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struct timer_internal_t *p = (struct timer_internal_t*)arg;
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sleep_ms( p->ms );
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for( ;; ) {
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unsigned then = time_ms();
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p->ms = p->callback(p->ms, p->arg);
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if( !p->ms ) break;
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unsigned now = time_ms();
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unsigned lapse = now - then;
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int diff = p->ms - lapse;
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sleep_ms( diff <= 0 ? 0 : diff );
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}
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thread_exit(0);
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return 0;
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}
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static __thread array(struct timer_internal_t *) timers;
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unsigned timer(unsigned ms, unsigned (*callback)(unsigned ms, void *arg), void *arg) {
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struct timer_internal_t *p = MALLOC( sizeof(struct timer_internal_t) );
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p->ms = ms;
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p->callback = callback;
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p->arg = arg;
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p->thd = thread_init( timer_func, p, "", 0 );
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array_push(timers, p);
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return array_count(timers);
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}
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void timer_destroy(unsigned i) {
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if( i-- ) {
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thread_join(timers[i]->thd);
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thread_term(timers[i]->thd);
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FREE(timers[i]);
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timers[i] = 0;
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}
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}
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// ----------------------------------------------------------------------------
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// guid
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//typedef vec3i guid;
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guid guid_create() {
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static __thread unsigned counter = 0;
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static uint64_t appid = 0; do_once appid = hash_str(app_name());
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union conv {
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struct {
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unsigned timestamp : 32;
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unsigned threadid : 16; // inverted order in LE
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unsigned appid : 16; //
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unsigned counter : 32;
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};
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vec3i v3;
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} c;
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c.timestamp = date_epoch() - 0x65000000;
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c.appid = (unsigned)appid;
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c.threadid = (unsigned)(uintptr_t)thread_current_thread_id();
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c.counter = ++counter;
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return c.v3;
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}
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