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/*========================== begin_copyright_notice ============================
Copyright (C) 2017-2021 Intel Corporation
SPDX-License-Identifier: MIT
============================= end_copyright_notice ===========================*/
#include "../include/BiF_Definitions.cl"
#include "../../Headers/spirv.h"
#include "../IMF/FP32/sincos_s_la.cl"
#include "../IMF/FP32/sincos_s_noLUT.cl"
#include "../ExternalLibraries/libclc/trig.cl"
#if defined(cl_khr_fp64)
#include "../IMF/FP64/sincos_d_la.cl"
#include "../IMF/FP64/sincos_d_la_noLUT.cl"
#endif
static INLINE float __intel_sincos_f32_p0f32( float x, __private float* cosval, bool doFast )
{
float sin_x, cos_x;
if(BIF_FLAG_CTRL_GET(FastRelaxedMath) && (!BIF_FLAG_CTRL_GET(APIRS)) && doFast)
{
sin_x = __spirv_ocl_native_sin(x);
cos_x = __spirv_ocl_native_cos(x);
}
else if(BIF_FLAG_CTRL_GET(UseHighAccuracyMath))
{
sin_x = __ocl_svml_sincosf_noLUT(x, &cos_x);
}
else if(BIF_FLAG_CTRL_GET(UseMathWithLUT))
{
__ocl_svml_sincosf(x, &sin_x, &cos_x);
}
else
{
float abs_float = __spirv_ocl_fabs(x);
if( abs_float > 10000.0f )
{
sin_x = libclc_sin_f32(x);
cos_x = libclc_cos_f32(x);
}
else
{
sin_x = __ocl_svml_sincosf_noLUT(x, &cos_x);
}
}
*cosval = cos_x;
return sin_x;
}
INLINE float __attribute__((overloadable)) __spirv_ocl_sincos( float x, __private float* cosval )
{
return __intel_sincos_f32_p0f32(x, cosval, true);
}
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VAL_1PTRARG_LOOP( sincos, float, float, float, f32, f32 )
float __attribute__((overloadable)) __spirv_ocl_sincos( float x,
__global float* cosval )
{
float sin_x, cos_x;
sin_x = __spirv_ocl_sincos( x, &cos_x );
cosval[0] = cos_x;
return sin_x;
}
INLINE float __attribute__((overloadable)) __spirv_ocl_sincos( float x,
__local float* cosval )
{
float sin_x, cos_x;
sin_x = __spirv_ocl_sincos( x, &cos_x );
cosval[0] = cos_x;
return sin_x;
}
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VALARG_1PTRARG( sincos, float, __global, float, f32, p1 )
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VALARG_1PTRARG( sincos, float, __local, float, f32, p3 )
#if (__OPENCL_C_VERSION__ >= CL_VERSION_2_0)
INLINE float __attribute__((overloadable)) __spirv_ocl_sincos( float x,
__generic float* cosval )
{
float sin_x, cos_x;
sin_x = __spirv_ocl_sincos( x, &cos_x );
cosval[0] = cos_x;
return sin_x;
}
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VALARG_1PTRARG( sincos, float, __generic, float, f32, p4 )
#endif //#if (__OPENCL_C_VERSION__ >= CL_VERSION_2_0)
#if defined(cl_khr_fp16)
INLINE half __attribute__((overloadable)) __spirv_ocl_sincos( half x,
__private half* cosval )
{
float sin_x, cos_x;
sin_x = __spirv_ocl_sincos( __spirv_FConvert_Rfloat(x), &cos_x );
cosval[0] = __spirv_FConvert_Rhalf(cos_x);
return __spirv_FConvert_Rhalf(sin_x);
}
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VAL_1PTRARG_LOOP( sincos, half, half, half, f16, f16 )
INLINE half __attribute__((overloadable)) __spirv_ocl_sincos( half x,
__global half* cosval )
{
float sin_x, cos_x;
sin_x = __spirv_ocl_sincos( __spirv_FConvert_Rfloat(x), &cos_x );
cosval[0] = __spirv_FConvert_Rhalf(cos_x);
return __spirv_FConvert_Rhalf(sin_x);
}
INLINE half __attribute__((overloadable)) __spirv_ocl_sincos( half x,
__local half* cosval )
{
float sin_x, cos_x;
sin_x = __spirv_ocl_sincos( __spirv_FConvert_Rfloat(x), &cos_x );
cosval[0] = __spirv_FConvert_Rhalf(cos_x);
return __spirv_FConvert_Rhalf(sin_x);
}
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VALARG_1PTRARG( sincos, half, __global, half, f16, p1 )
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VALARG_1PTRARG( sincos, half, __local, half, f16, p3 )
#if (__OPENCL_C_VERSION__ >= CL_VERSION_2_0)
INLINE half __attribute__((overloadable)) __spirv_ocl_sincos( half x,
__generic half* cosval )
{
float sin_x, cos_x;
sin_x = __spirv_ocl_sincos( __spirv_FConvert_Rfloat(x), &cos_x );
cosval[0] = __spirv_FConvert_Rhalf(cos_x);
return __spirv_FConvert_Rhalf(sin_x);
}
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VALARG_1PTRARG( sincos, half, __generic, half, f16, p4 )
#endif //#if (__OPENCL_C_VERSION__ >= CL_VERSION_2_0)
#endif // defined(cl_khr_fp16)
#if defined(cl_khr_fp64)
INLINE double __attribute__((overloadable)) __spirv_ocl_sincos( double x,
__private double* cosval )
{
double sin_x, cos_x;
if (BIF_FLAG_CTRL_GET(UseHighAccuracyMath)) {
__ocl_svml_sincos_noLUT(x, &sin_x, &cos_x);
} else {
__ocl_svml_sincos(x, &sin_x, &cos_x);
}
*cosval = cos_x;
return sin_x;
}
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VAL_1PTRARG_LOOP( sincos, double, double, double, f64, f64 )
double __attribute__((overloadable)) __spirv_ocl_sincos( double x,
__local double* cosval )
{
double sin_x, cos_x;
sin_x = __spirv_ocl_sincos( x, &cos_x );
cosval[0] = cos_x;
return sin_x;
}
INLINE double __attribute__((overloadable)) __spirv_ocl_sincos( double x,
__global double* cosval )
{
double sin_x, cos_x;
sin_x = __spirv_ocl_sincos( x, &cos_x );
cosval[0] = cos_x;
return sin_x;
}
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VALARG_1PTRARG( sincos, double, __global, double, f64, p1 )
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VALARG_1PTRARG( sincos, double, __local, double, f64, p3 )
#if (__OPENCL_C_VERSION__ >= CL_VERSION_2_0)
INLINE double __attribute__((overloadable)) __spirv_ocl_sincos( double x,
__generic double* cosval )
{
double sin_x, cos_x;
sin_x = __spirv_ocl_sincos( x, &cos_x );
cosval[0] = cos_x;
return sin_x;
}
GENERATE_SPIRV_OCL_VECTOR_FUNCTIONS_1VALARG_1PTRARG( sincos, double, __generic, double, f64, p4 )
#endif // (__OPENCL_C_VERSION__ >= CL_VERSION_2_0)
#endif // defined(cl_khr_fp64)
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