23#include "core/DataTypes.h"
24#include "core/Macros.h"
34#pragma GCC diagnostic push
35#pragma GCC diagnostic ignored "-Wstrict-aliasing"
36#pragma GCC diagnostic ignored "-Wunused-variable"
37#pragma GCC diagnostic ignored "-Wconversion"
42#ifdef __NVCC_DIAG_PRAGMA_SUPPORT__
43#pragma nv_diag_suppress 177
45#pragma diag_suppress 177
49namespace internal_a841832271ac54f2c38b03966a739283 {
50static FUNC_PREFIX void reactionkernelindexed_3_single_precision_boundary_ReactionKernelIndexed_3_single_precision(uint8_t *
RESTRICT const _data_indexVector,
float *
RESTRICT _data_rho_0,
float *
RESTRICT _data_rho_1,
float *
RESTRICT _data_rho_2, int64_t
const _stride_rho_0_0, int64_t
const _stride_rho_0_1, int64_t
const _stride_rho_0_2, int64_t
const _stride_rho_1_0, int64_t
const _stride_rho_1_1, int64_t
const _stride_rho_1_2, int64_t
const _stride_rho_2_0, int64_t
const _stride_rho_2_1, int64_t
const _stride_rho_2_2, int32_t indexVectorSize,
float order_0,
float order_1,
float order_2,
float rate_coefficient,
float stoech_0,
float stoech_1,
float stoech_2) {
51 for (int64_t ctr_0 = 0; ctr_0 < indexVectorSize; ctr_0 += 1) {
52 const int32_t x = *((int32_t *)(&_data_indexVector[12 * ctr_0]));
53 const int32_t y = *((int32_t *)(&_data_indexVector[12 * ctr_0 + 4]));
54 const int32_t z = *((int32_t *)(&_data_indexVector[12 * ctr_0 + 8]));
56 const int32_t cx[] = {0};
57 const int32_t cy[] = {0};
58 const int32_t cz[] = {0};
59 const int32_t invdir[] = {0};
61 const float local_rho_0 = _data_rho_0[_stride_rho_0_0 * x + _stride_rho_0_1 * y + _stride_rho_0_2 * z];
62 const float local_rho_1 = _data_rho_1[_stride_rho_1_0 * x + _stride_rho_1_1 * y + _stride_rho_1_2 * z];
63 const float local_rho_2 = _data_rho_2[_stride_rho_2_0 * x + _stride_rho_2_1 * y + _stride_rho_2_2 * z];
64 const float rate_factor = rate_coefficient * powf(local_rho_0, order_0) * powf(local_rho_1, order_1) * powf(local_rho_2, order_2);
65 _data_rho_0[_stride_rho_0_0 * x + _stride_rho_0_1 * y + _stride_rho_0_2 * z] = local_rho_0 + rate_factor * stoech_0;
66 _data_rho_1[_stride_rho_1_0 * x + _stride_rho_1_1 * y + _stride_rho_1_2 * z] = local_rho_1 + rate_factor * stoech_1;
67 _data_rho_2[_stride_rho_2_0 * x + _stride_rho_2_1 * y + _stride_rho_2_2 * z] = local_rho_2 + rate_factor * stoech_2;
74#pragma GCC diagnostic pop
81void ReactionKernelIndexed_3_single_precision::run_impl(IBlock *
block, IndexVectors::Type type) {
82 auto *indexVectors =
block->uncheckedFastGetData<IndexVectors>(indexVectorID);
83 int32_t indexVectorSize = int32_c(indexVectors->indexVector(type).size());
84 if (indexVectorSize == 0)
87 auto pointer = indexVectors->pointerCpu(type);
89 uint8_t *_data_indexVector =
reinterpret_cast<uint8_t *
>(pointer);
91 auto rho_1 =
block->getData<field::GhostLayerField<float, 1>>(
rho_1ID);
92 auto rho_2 =
block->getData<field::GhostLayerField<float, 1>>(
rho_2ID);
93 auto rho_0 =
block->getData<field::GhostLayerField<float, 1>>(
rho_0ID);
102 WALBERLA_ASSERT_GREATER_EQUAL(0, -int_c(rho_0->nrOfGhostLayers()))
103 float *
RESTRICT _data_rho_0 = rho_0->dataAt(0, 0, 0, 0);
104 WALBERLA_ASSERT_GREATER_EQUAL(0, -int_c(rho_1->nrOfGhostLayers()))
105 float *
RESTRICT _data_rho_1 = rho_1->dataAt(0, 0, 0, 0);
106 WALBERLA_ASSERT_GREATER_EQUAL(0, -int_c(rho_2->nrOfGhostLayers()))
107 float *
RESTRICT _data_rho_2 = rho_2->dataAt(0, 0, 0, 0);
108 const int64_t _stride_rho_0_0 = int64_t(rho_0->xStride());
109 const int64_t _stride_rho_0_1 = int64_t(rho_0->yStride());
110 const int64_t _stride_rho_0_2 = int64_t(rho_0->zStride());
111 const int64_t _stride_rho_1_0 = int64_t(rho_1->xStride());
112 const int64_t _stride_rho_1_1 = int64_t(rho_1->yStride());
113 const int64_t _stride_rho_1_2 = int64_t(rho_1->zStride());
114 const int64_t _stride_rho_2_0 = int64_t(rho_2->xStride());
115 const int64_t _stride_rho_2_1 = int64_t(rho_2->yStride());
116 const int64_t _stride_rho_2_2 = int64_t(rho_2->zStride());
117 internal_a841832271ac54f2c38b03966a739283::reactionkernelindexed_3_single_precision_boundary_ReactionKernelIndexed_3_single_precision(_data_indexVector, _data_rho_0, _data_rho_1, _data_rho_2, _stride_rho_0_0, _stride_rho_0_1, _stride_rho_0_2, _stride_rho_1_0, _stride_rho_1_1, _stride_rho_1_2, _stride_rho_2_0, _stride_rho_2_1, _stride_rho_2_2, indexVectorSize, order_0, order_1, order_2, rate_coefficient, stoech_0, stoech_1, stoech_2);
#define FUNC_PREFIX
\file AdvectiveFluxKernel_double_precision.cpp \author pystencils
#define RESTRICT
\file AdvectiveFluxKernel_double_precision.h \author pystencils
void outer(IBlock *block)
void inner(IBlock *block)
static double * block(double *p, std::size_t index, std::size_t size)
static FUNC_PREFIX void reactionkernelindexed_3_single_precision_boundary_ReactionKernelIndexed_3_single_precision(uint8_t *RESTRICT const _data_indexVector, float *RESTRICT _data_rho_0, float *RESTRICT _data_rho_1, float *RESTRICT _data_rho_2, int64_t const _stride_rho_0_0, int64_t const _stride_rho_0_1, int64_t const _stride_rho_0_2, int64_t const _stride_rho_1_0, int64_t const _stride_rho_1_1, int64_t const _stride_rho_1_2, int64_t const _stride_rho_2_0, int64_t const _stride_rho_2_1, int64_t const _stride_rho_2_2, int32_t indexVectorSize, float order_0, float order_1, float order_2, float rate_coefficient, float stoech_0, float stoech_1, float stoech_2)
\file PackInfoPdfDoublePrecision.cpp \author pystencils