#ifndef _WDL_DENORMAL_H_ #define _WDL_DENORMAL_H_ typedef struct { #ifdef __ppc__ // todo: other big endian platforms... unsigned int hw; unsigned int lw; #else unsigned int lw; unsigned int hw; #endif } WDL_DenormalTwoInts; typedef union { double fl; WDL_DenormalTwoInts w; } WDL_DenormalDoubleAccess; typedef union { float fl; unsigned int w; } WDL_DenormalFloatAccess; // note: the _aggressive versions filter out anything less than around 1.0e-16 or so (approximately) to 0.0, including -0.0 (becomes 0.0) // note: new! the _aggressive versions also filter inf and NaN to 0.0 #ifdef __cplusplus #define WDL_DENORMAL_INLINE inline #elif defined(_MSC_VER) #define WDL_DENORMAL_INLINE __inline #else #define WDL_DENORMAL_INLINE #endif #define WDL_DENORMAL_DOUBLE_HW(a) (((const WDL_DenormalDoubleAccess*)(a))->w.hw) #define WDL_DENORMAL_DOUBLE_LW(a) (((const WDL_DenormalDoubleAccess*)(a))->w.lw) #define WDL_DENORMAL_FLOAT_W(a) (((const WDL_DenormalFloatAccess*)(a))->w) #define WDL_DENORMAL_DOUBLE_HW_NC(a) (((WDL_DenormalDoubleAccess*)(a))->w.hw) #define WDL_DENORMAL_DOUBLE_LW_NC(a) (((WDL_DenormalDoubleAccess*)(a))->w.lw) #define WDL_DENORMAL_FLOAT_W_NC(a) (((WDL_DenormalFloatAccess*)(a))->w) #define WDL_DENORMAL_DOUBLE_AGGRESSIVE_CUTOFF 0x3cA00000 // 0x3B8000000 maybe instead? that's 10^-5 smaller or so #define WDL_DENORMAL_FLOAT_AGGRESSIVE_CUTOFF 0x25000000 // define WDL_DENORMAL_WANTS_SCOPED_FTZ, and then use a WDL_denormal_ftz_scope in addition to denormal_*(), then // if FTZ is available it will be used instead... // #ifdef WDL_DENORMAL_WANTS_SCOPED_FTZ #if defined(__SSE2__) || _M_IX86_FP >= 2 || defined(_WIN64) #define WDL_DENORMAL_FTZMODE #define WDL_DENORMAL_FTZSTATE_TYPE unsigned int #ifdef _MSC_VER #include #else #include #endif #define wdl_denorm_mm_getcsr() _mm_getcsr() #define wdl_denorm_mm_setcsr(x) _mm_setcsr(x) #if defined(__SSE3__) #define wdl_denorm_mm_csr_mask ((1<<15)|(1<<11) | (1<<8) | (1<<6)) // FTZ, underflow, denormal mask, DAZ #else #define wdl_denorm_mm_csr_mask ((1<<15)|(1<<11)) // FTZ and underflow only (target SSE2) #endif #elif defined(__arm__) || defined(__aarch64__) #define WDL_DENORMAL_FTZMODE #define WDL_DENORMAL_FTZSTATE_TYPE unsigned long static unsigned long __attribute__((unused)) wdl_denorm_mm_getcsr() { unsigned long rv; #ifdef __aarch64__ asm volatile ( "mrs %0, fpcr" : "=r" (rv)); #else asm volatile ( "fmrx %0, fpscr" : "=r" (rv)); #endif return rv; } static void __attribute__((unused)) wdl_denorm_mm_setcsr(unsigned long v) { #ifdef __aarch64__ asm volatile ( "msr fpcr, %0" :: "r"(v)); #else asm volatile ( "fmxr fpscr, %0" :: "r"(v)); #endif } #define wdl_denorm_mm_csr_mask (1<<24) #endif class WDL_denormal_ftz_scope { public: WDL_denormal_ftz_scope() { #ifdef WDL_DENORMAL_FTZMODE const WDL_DENORMAL_FTZSTATE_TYPE b = wdl_denorm_mm_csr_mask; old_state = wdl_denorm_mm_getcsr(); if ((need_restore = (old_state & b) != b)) wdl_denorm_mm_setcsr(old_state|b); #endif } ~WDL_denormal_ftz_scope() { #ifdef WDL_DENORMAL_FTZMODE if (need_restore) wdl_denorm_mm_setcsr(old_state); #endif } #ifdef WDL_DENORMAL_FTZMODE WDL_DENORMAL_FTZSTATE_TYPE old_state; bool need_restore; #endif }; #endif #if !defined(WDL_DENORMAL_FTZMODE) && !defined(WDL_DENORMAL_DO_NOT_FILTER) static double WDL_DENORMAL_INLINE denormal_filter_double(double a) { return (WDL_DENORMAL_DOUBLE_HW(&a)&0x7ff00000) ? a : 0.0; } static double WDL_DENORMAL_INLINE denormal_filter_double2(double a) { return ((WDL_DENORMAL_DOUBLE_HW(&a)+0x100000)&0x7ff00000) > 0x100000 ? a : 0.0; } static double WDL_DENORMAL_INLINE denormal_filter_double_aggressive(double a) { return ((WDL_DENORMAL_DOUBLE_HW(&a)+0x100000)&0x7ff00000) >= WDL_DENORMAL_DOUBLE_AGGRESSIVE_CUTOFF ? a : 0.0; } static float WDL_DENORMAL_INLINE denormal_filter_float(float a) { return (WDL_DENORMAL_FLOAT_W(&a)&0x7f800000) ? a : 0.0f; } static float WDL_DENORMAL_INLINE denormal_filter_float2(float a) { return ((WDL_DENORMAL_FLOAT_W(&a)+0x800000)&0x7f800000) > 0x800000 ? a : 0.0f; } static float WDL_DENORMAL_INLINE denormal_filter_float_aggressive(float a) { return ((WDL_DENORMAL_FLOAT_W(&a)+0x800000)&0x7f800000) >= WDL_DENORMAL_FLOAT_AGGRESSIVE_CUTOFF ? a : 0.0f; } static void WDL_DENORMAL_INLINE denormal_fix_double(double *a) { if (!(WDL_DENORMAL_DOUBLE_HW(a)&0x7ff00000)) *a=0.0; } static void WDL_DENORMAL_INLINE denormal_fix_double_aggressive(double *a) { if (((WDL_DENORMAL_DOUBLE_HW(a)+0x100000)&0x7ff00000) < WDL_DENORMAL_DOUBLE_AGGRESSIVE_CUTOFF) *a=0.0; } static void WDL_DENORMAL_INLINE denormal_fix_float(float *a) { if (!(WDL_DENORMAL_FLOAT_W(a)&0x7f800000)) *a=0.0f; } static void WDL_DENORMAL_INLINE denormal_fix_float_aggressive(float *a) { if (((WDL_DENORMAL_FLOAT_W(a)+0x800000)&0x7f800000) < WDL_DENORMAL_FLOAT_AGGRESSIVE_CUTOFF) *a=0.0f; } #ifdef __cplusplus // automatic typed versions (though one should probably use the explicit versions... static double WDL_DENORMAL_INLINE denormal_filter(double a) { return (WDL_DENORMAL_DOUBLE_HW(&a)&0x7ff00000) ? a : 0.0; } static double WDL_DENORMAL_INLINE denormal_filter_aggressive(double a) { return ((WDL_DENORMAL_DOUBLE_HW(&a)+0x100000)&0x7ff00000) >= WDL_DENORMAL_DOUBLE_AGGRESSIVE_CUTOFF ? a : 0.0; } static float WDL_DENORMAL_INLINE denormal_filter(float a) { return (WDL_DENORMAL_FLOAT_W(&a)&0x7f800000) ? a : 0.0f; } static float WDL_DENORMAL_INLINE denormal_filter_aggressive(float a) { return ((WDL_DENORMAL_FLOAT_W(&a)+0x800000)&0x7f800000) >= WDL_DENORMAL_FLOAT_AGGRESSIVE_CUTOFF ? a : 0.0f; } static void WDL_DENORMAL_INLINE denormal_fix(double *a) { if (!(WDL_DENORMAL_DOUBLE_HW(a)&0x7ff00000)) *a=0.0; } static void WDL_DENORMAL_INLINE denormal_fix_aggressive(double *a) { if (((WDL_DENORMAL_DOUBLE_HW(a)+0x100000)&0x7ff00000) < WDL_DENORMAL_DOUBLE_AGGRESSIVE_CUTOFF) *a=0.0; } static void WDL_DENORMAL_INLINE denormal_fix(float *a) { if (!(WDL_DENORMAL_FLOAT_W(a)&0x7f800000)) *a=0.0f; } static void WDL_DENORMAL_INLINE denormal_fix_aggressive(float *a) { if (((WDL_DENORMAL_FLOAT_W(a)+0x800000)&0x7f800000) < WDL_DENORMAL_FLOAT_AGGRESSIVE_CUTOFF) *a=0.0f; } #endif // cplusplus versions #else // end of !WDL_DENORMAL_DO_NOT_FILTER (and other platform-specific checks) #define denormal_filter(x) (x) #define denormal_filter2(x) (x) #define denormal_filter_double(x) (x) #define denormal_filter_double2(x) (x) #define denormal_filter_double_aggressive(x) (x) #define denormal_filter_float(x) (x) #define denormal_filter_float2(x) (x) #define denormal_filter_float_aggressive(x) (x) #define denormal_filter_aggressive(x) (x) #define denormal_fix(x) do { } while(0) #define denormal_fix_aggressive(x) do { } while(0) #define denormal_fix_double(x) do { } while(0) #define denormal_fix_double_aggressive(x) do { } while(0) #define denormal_fix_float(x) do { } while(0) #define denormal_fix_float_aggressive(x) do { } while(0) #endif //////////////////// // this isnt a denormal function but it is similar, so we'll put it here as a bonus static void WDL_DENORMAL_INLINE GetDoubleMaxAbsValue(double *out, const double *in) // note: the value pointed to by "out" must be >=0.0, __NOT__ <= -0.0 { unsigned int hw = WDL_DENORMAL_DOUBLE_HW(in)&0x7fffffff; if (hw >= WDL_DENORMAL_DOUBLE_HW(out) && (hw>WDL_DENORMAL_DOUBLE_HW(out) || WDL_DENORMAL_DOUBLE_LW(in) > WDL_DENORMAL_DOUBLE_LW(out))) { WDL_DENORMAL_DOUBLE_LW_NC(out) = WDL_DENORMAL_DOUBLE_LW(in); WDL_DENORMAL_DOUBLE_HW_NC(out) = hw; } } static void WDL_DENORMAL_INLINE GetFloatMaxAbsValue(float *out, const float *in) // note: the value pointed to by "out" must be >=0.0, __NOT__ <= -0.0 { unsigned int hw = WDL_DENORMAL_FLOAT_W(in)&0x7fffffff; if (hw > WDL_DENORMAL_FLOAT_W(out)) WDL_DENORMAL_FLOAT_W_NC(out)=hw; } #ifdef __cplusplus static void WDL_DENORMAL_INLINE GetFloatMaxAbsValue(double *out, const double *in) // note: the value pointed to by "out" must be >=0.0, __NOT__ <= -0.0 { GetDoubleMaxAbsValue(out,in); } #endif #endif