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# include <time.h>
# include <mach/mach_time.h>
// Derived from
// http://stackoverflow.com/questions/5167269/clock-gettime-alternative-in-mac-os-x
# define ORWL_NANO (+1.0E-9)
# define ORWL_GIGA UINT64_C(1000000000)
# define NANOSECONDS_PER_SECOND 1000000000UL
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# define CYCLES_PER_SECOND g_speed
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static double orwl_timebase = 0.0 ;
static uint64_t orwl_timestart = 0 ;
static void _init_darwin_shim ( void ) {
mach_timebase_info_data_t tb = { 0 } ;
mach_timebase_info ( & tb ) ;
orwl_timebase = tb . numer ;
orwl_timebase / = tb . denom ;
orwl_timestart = mach_absolute_time ( ) ;
}
static int do_gettime ( struct timespec * tp ) {
double diff = ( mach_absolute_time ( ) - orwl_timestart ) * orwl_timebase ;
tp - > tv_sec = diff * ORWL_NANO ;
tp - > tv_nsec = diff - ( tp - > tv_sec * ORWL_GIGA ) ;
return 0 ;
}
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// adds the number of nanoseconds that 'cycles' takes to *start and
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// returns it in *out
static void timespec_add_cycles ( struct timespec * start ,
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int64_t cycles ,
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struct timespec * out )
{
out - > tv_sec = start - > tv_sec ;
out - > tv_nsec = start - > tv_nsec ;
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uint64_t nanosToAdd = ( double ) ( ( double ) cycles * ( double ) ( NANOSECONDS_PER_SECOND ) / ( double ) CYCLES_PER_SECOND ) ;
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out - > tv_sec + = ( nanosToAdd / NANOSECONDS_PER_SECOND ) ;
out - > tv_nsec + = ( nanosToAdd % NANOSECONDS_PER_SECOND ) ;
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if ( out - > tv_nsec > = NANOSECONDS_PER_SECOND ) {
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out - > tv_sec + + ;
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out - > tv_nsec - = NANOSECONDS_PER_SECOND ;
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}
}
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static unsigned long cycles_since_time ( struct timespec * start )
{
unsigned long ret = start - > tv_sec * CYCLES_PER_SECOND ;
ret + = ( double ) ( ( double ) start - > tv_nsec * ( double ) 0.001023 + ( double ) 0.01 ) ; // 0.01 for rounding error; one cycle ~= 977517nS, and 977517 * .000001023 is only 0.999999891.
return ret ;
}
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// adds the number of microseconds given to *start and
// returns it in *out
static void timespec_add_us ( struct timespec * start ,
uint64_t micros ,
struct timespec * out )
{
out - > tv_sec = start - > tv_sec ;
out - > tv_nsec = start - > tv_nsec ;
uint64_t nanosToAdd = micros * 1000L ;
out - > tv_sec + = ( nanosToAdd / NANOSECONDS_PER_SECOND ) ;
out - > tv_nsec + = ( nanosToAdd % NANOSECONDS_PER_SECOND ) ;
if ( out - > tv_nsec > = 1000000000L ) {
out - > tv_sec + + ;
out - > tv_nsec - = 1000000000L ;
}
}
static void timespec_diff ( struct timespec * start ,
struct timespec * end ,
struct timespec * diff ,
bool * negative ) {
struct timespec t ;
if ( negative )
{
* negative = false ;
}
// if start > end, swizzle...
if ( ( start - > tv_sec > end - > tv_sec ) | | ( ( start - > tv_sec = = end - > tv_sec ) & & ( start - > tv_nsec > end - > tv_nsec ) ) )
{
t = * start ;
* start = * end ;
* end = t ;
if ( negative )
{
* negative = true ;
}
}
// assuming time_t is signed ...
if ( end - > tv_nsec < start - > tv_nsec )
{
t . tv_sec = end - > tv_sec - start - > tv_sec - 1 ;
t . tv_nsec = 1000000000 + end - > tv_nsec - start - > tv_nsec ;
}
else
{
t . tv_sec = end - > tv_sec - start - > tv_sec ;
t . tv_nsec = end - > tv_nsec - start - > tv_nsec ;
}
diff - > tv_sec = t . tv_sec ;
diff - > tv_nsec = t . tv_nsec ;
}
// tsCompare: return -1, 0, 1 for (a < b), (a == b), (a > b)
static int8_t tsCompare ( struct timespec * A , struct timespec * B )
{
if ( A - > tv_sec < B - > tv_sec )
return - 1 ;
if ( A - > tv_sec > B - > tv_sec )
return 1 ;
if ( A - > tv_nsec < B - > tv_nsec )
return - 1 ;
if ( A - > tv_nsec > B - > tv_nsec )
return 1 ;
return 0 ;
}
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// return time1 - time2. If time1 <= time2, then return 0.
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static struct timespec tsSubtract ( struct timespec time1 , struct timespec time2 )
{
struct timespec result ;
if ( ( time1 . tv_sec < time2 . tv_sec ) | |
( ( time1 . tv_sec = = time2 . tv_sec ) & &
( time1 . tv_nsec < = time2 . tv_nsec ) ) ) { /* TIME1 <= TIME2? */
result . tv_sec = result . tv_nsec = 0 ;
} else { /* TIME1 > TIME2 */
result . tv_sec = time1 . tv_sec - time2 . tv_sec ;
if ( time1 . tv_nsec < time2 . tv_nsec ) {
result . tv_nsec = time1 . tv_nsec + 1000000000L - time2 . tv_nsec ;
result . tv_sec - - ; /* Borrow a second. */
} else {
result . tv_nsec = time1 . tv_nsec - time2 . tv_nsec ;
}
}
return ( result ) ;
}