mirror of
https://github.com/Ed94/gencpp.git
synced 2024-11-14 04:34:52 -08:00
168 lines
4.1 KiB
C++
168 lines
4.1 KiB
C++
#ifdef GEN_INTELLISENSE_DIRECTIVES
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# pragma once
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# include "filesystem.cpp"
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#endif
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#pragma region Timing
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#ifdef GEN_BENCHMARK
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#if defined( GEN_COMPILER_MSVC ) && ! defined( __clang__ )
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u64 read_cpu_time_stamp_counter( void )
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{
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return __rdtsc();
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}
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#elif defined( __i386__ )
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u64 read_cpu_time_stamp_counter( void )
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{
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u64 x;
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__asm__ volatile( ".byte 0x0f, 0x31" : "=A"( x ) );
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return x;
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}
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#elif defined( __x86_64__ )
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u64 read_cpu_time_stamp_counter( void )
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{
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u32 hi, lo;
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__asm__ __volatile__( "rdtsc" : "=a"( lo ), "=d"( hi ) );
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return scast( u64, lo ) | ( scast( u64, hi ) << 32 );
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}
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#elif defined( __powerpc__ )
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u64 read_cpu_time_stamp_counter( void )
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{
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u64 result = 0;
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u32 upper, lower, tmp;
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__asm__ volatile(
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"0: \n"
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"\tmftbu %0 \n"
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"\tmftb %1 \n"
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"\tmftbu %2 \n"
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"\tcmpw %2,%0 \n"
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"\tbne 0b \n"
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: "=r"( upper ), "=r"( lower ), "=r"( tmp )
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);
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result = upper;
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result = result << 32;
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result = result | lower;
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return result;
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}
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#elif defined( GEN_SYSTEM_EMSCRIPTEN )
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u64 read_cpu_time_stamp_counter( void )
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{
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return ( u64 )( emscripten_get_now() * 1e+6 );
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}
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#elif defined( GEN_CPU_ARM ) && ! defined( GEN_COMPILER_TINYC )
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u64 read_cpu_time_stamp_counter( void )
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{
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# if defined( __aarch64__ )
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int64_t r = 0;
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asm volatile( "mrs %0, cntvct_el0" : "=r"( r ) );
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# elif ( __ARM_ARCH >= 6 )
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uint32_t r = 0;
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uint32_t pmccntr;
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uint32_t pmuseren;
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uint32_t pmcntenset;
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// Read the user mode perf monitor counter access permissions.
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asm volatile( "mrc p15, 0, %0, c9, c14, 0" : "=r"( pmuseren ) );
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if ( pmuseren & 1 )
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{ // Allows reading perfmon counters for user mode code.
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asm volatile( "mrc p15, 0, %0, c9, c12, 1" : "=r"( pmcntenset ) );
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if ( pmcntenset & 0x80000000ul )
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{ // Is it counting?
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asm volatile( "mrc p15, 0, %0, c9, c13, 0" : "=r"( pmccntr ) );
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// The counter is set up to count every 64th cycle
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return ( ( int64_t )pmccntr ) * 64; // Should optimize to << 6
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}
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}
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# else
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# error "No suitable method for read_cpu_time_stamp_counter for this cpu type"
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# endif
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return r;
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}
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#else
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u64 read_cpu_time_stamp_counter( void )
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{
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GEN_PANIC( "read_cpu_time_stamp_counter is not supported on this particular setup" );
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return -0;
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}
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#endif
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#if defined( GEN_SYSTEM_WINDOWS ) || defined( GEN_SYSTEM_CYGWIN )
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u64 time_rel_ms( void )
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{
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local_persist LARGE_INTEGER win32_perf_count_freq = {};
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u64 result;
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LARGE_INTEGER counter;
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local_persist LARGE_INTEGER win32_perf_counter = {};
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if ( ! win32_perf_count_freq.QuadPart )
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{
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QueryPerformanceFrequency( &win32_perf_count_freq );
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GEN_ASSERT( win32_perf_count_freq.QuadPart != 0 );
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QueryPerformanceCounter( &win32_perf_counter );
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}
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QueryPerformanceCounter( &counter );
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result = ( counter.QuadPart - win32_perf_counter.QuadPart ) * 1000 / ( win32_perf_count_freq.QuadPart );
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return result;
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}
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#else
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# if defined( GEN_SYSTEM_LINUX ) || defined( GEN_SYSTEM_FREEBSD ) || defined( GEN_SYSTEM_OPENBSD ) || defined( GEN_SYSTEM_EMSCRIPTEN )
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u64 _unix_gettime( void )
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{
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struct timespec t;
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u64 result;
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clock_gettime( 1 /*CLOCK_MONOTONIC*/, &t );
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result = 1000 * t.tv_sec + 1.0e-6 * t.tv_nsec;
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return result;
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}
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# endif
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u64 time_rel_ms( void )
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{
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# if defined( GEN_SYSTEM_OSX )
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u64 result;
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local_persist u64 timebase = 0;
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local_persist u64 timestart = 0;
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if ( ! timestart )
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{
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mach_timebase_info_data_t tb = { 0 };
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mach_timebase_info( &tb );
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timebase = tb.numer;
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timebase /= tb.denom;
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timestart = mach_absolute_time();
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}
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// NOTE: mach_absolute_time() returns things in nanoseconds
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result = 1.0e-6 * ( mach_absolute_time() - timestart ) * timebase;
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return result;
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# else
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local_persist u64 unix_timestart = 0.0;
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if ( ! unix_timestart )
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{
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unix_timestart = _unix_gettime();
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}
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u64 now = _unix_gettime();
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return ( now - unix_timestart );
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# endif
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}
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#endif
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f64 time_rel( void )
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{
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return ( f64 )( time_rel_ms() * 1e-3 );
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}
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#endif
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#pragma endregion Timing
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