70 auto rho_1 =
block->getData<field::GhostLayerField<float, 1>>(
rho_1ID);
71 auto rho_3 =
block->getData<field::GhostLayerField<float, 1>>(
rho_3ID);
72 auto rho_0 =
block->getData<field::GhostLayerField<float, 1>>(
rho_0ID);
73 auto rho_2 =
block->getData<field::GhostLayerField<float, 1>>(
rho_2ID);
84 WALBERLA_ASSERT_GREATER_EQUAL(0, -int_c(rho_0->nrOfGhostLayers()))
85 float *
RESTRICT _data_rho_0 = rho_0->dataAt(0, 0, 0, 0);
86 WALBERLA_ASSERT_GREATER_EQUAL(0, -int_c(rho_1->nrOfGhostLayers()))
87 float *
RESTRICT _data_rho_1 = rho_1->dataAt(0, 0, 0, 0);
88 WALBERLA_ASSERT_GREATER_EQUAL(0, -int_c(rho_2->nrOfGhostLayers()))
89 float *
RESTRICT _data_rho_2 = rho_2->dataAt(0, 0, 0, 0);
90 WALBERLA_ASSERT_GREATER_EQUAL(0, -int_c(rho_3->nrOfGhostLayers()))
91 float *
RESTRICT _data_rho_3 = rho_3->dataAt(0, 0, 0, 0);
92 WALBERLA_ASSERT_GREATER_EQUAL(rho_0->xSizeWithGhostLayer(), int64_t(int64_c(rho_0->xSize()) + 0))
93 const int64_t _size_rho_0_0 = int64_t(int64_c(rho_0->xSize()) + 0);
94 WALBERLA_ASSERT_GREATER_EQUAL(rho_0->ySizeWithGhostLayer(), int64_t(int64_c(rho_0->ySize()) + 0))
95 const int64_t _size_rho_0_1 = int64_t(int64_c(rho_0->ySize()) + 0);
96 WALBERLA_ASSERT_GREATER_EQUAL(rho_0->zSizeWithGhostLayer(), int64_t(int64_c(rho_0->zSize()) + 0))
97 const int64_t _size_rho_0_2 = int64_t(int64_c(rho_0->zSize()) + 0);
98 const int64_t _stride_rho_0_0 = int64_t(rho_0->xStride());
99 const int64_t _stride_rho_0_1 = int64_t(rho_0->yStride());
100 const int64_t _stride_rho_0_2 = int64_t(rho_0->zStride());
101 const int64_t _stride_rho_1_0 = int64_t(rho_1->xStride());
102 const int64_t _stride_rho_1_1 = int64_t(rho_1->yStride());
103 const int64_t _stride_rho_1_2 = int64_t(rho_1->zStride());
104 const int64_t _stride_rho_2_0 = int64_t(rho_2->xStride());
105 const int64_t _stride_rho_2_1 = int64_t(rho_2->yStride());
106 const int64_t _stride_rho_2_2 = int64_t(rho_2->zStride());
107 const int64_t _stride_rho_3_0 = int64_t(rho_3->xStride());
108 const int64_t _stride_rho_3_1 = int64_t(rho_3->yStride());
109 const int64_t _stride_rho_3_2 = int64_t(rho_3->zStride());
110 internal_716e8e56e191f2f523734cd5e32cecbb::reactionkernelbulk_4_single_precision_reactionkernelbulk_4_single_precision(_data_rho_0, _data_rho_1, _data_rho_2, _data_rho_3, _size_rho_0_0, _size_rho_0_1, _size_rho_0_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, _stride_rho_3_0, _stride_rho_3_1, _stride_rho_3_2, order_0, order_1, order_2, order_3, rate_coefficient, stoech_0, stoech_1, stoech_2, stoech_3);
115 CellInterval ci = globalCellInterval;
116 CellInterval blockBB = blocks->getBlockCellBB(*
block);
117 blockBB.expand(ghostLayers);
118 ci.intersect(blockBB);
119 blocks->transformGlobalToBlockLocalCellInterval(ci, *
block);
123 auto rho_1 =
block->getData<field::GhostLayerField<float, 1>>(
rho_1ID);
124 auto rho_3 =
block->getData<field::GhostLayerField<float, 1>>(
rho_3ID);
125 auto rho_0 =
block->getData<field::GhostLayerField<float, 1>>(
rho_0ID);
126 auto rho_2 =
block->getData<field::GhostLayerField<float, 1>>(
rho_2ID);
137 WALBERLA_ASSERT_GREATER_EQUAL(ci.xMin(), -int_c(rho_0->nrOfGhostLayers()))
138 WALBERLA_ASSERT_GREATER_EQUAL(ci.yMin(), -int_c(rho_0->nrOfGhostLayers()))
139 WALBERLA_ASSERT_GREATER_EQUAL(ci.zMin(), -int_c(rho_0->nrOfGhostLayers()))
140 float *
RESTRICT _data_rho_0 = rho_0->dataAt(ci.xMin(), ci.yMin(), ci.zMin(), 0);
141 WALBERLA_ASSERT_GREATER_EQUAL(ci.xMin(), -int_c(rho_1->nrOfGhostLayers()))
142 WALBERLA_ASSERT_GREATER_EQUAL(ci.yMin(), -int_c(rho_1->nrOfGhostLayers()))
143 WALBERLA_ASSERT_GREATER_EQUAL(ci.zMin(), -int_c(rho_1->nrOfGhostLayers()))
144 float *
RESTRICT _data_rho_1 = rho_1->dataAt(ci.xMin(), ci.yMin(), ci.zMin(), 0);
145 WALBERLA_ASSERT_GREATER_EQUAL(ci.xMin(), -int_c(rho_2->nrOfGhostLayers()))
146 WALBERLA_ASSERT_GREATER_EQUAL(ci.yMin(), -int_c(rho_2->nrOfGhostLayers()))
147 WALBERLA_ASSERT_GREATER_EQUAL(ci.zMin(), -int_c(rho_2->nrOfGhostLayers()))
148 float *
RESTRICT _data_rho_2 = rho_2->dataAt(ci.xMin(), ci.yMin(), ci.zMin(), 0);
149 WALBERLA_ASSERT_GREATER_EQUAL(ci.xMin(), -int_c(rho_3->nrOfGhostLayers()))
150 WALBERLA_ASSERT_GREATER_EQUAL(ci.yMin(), -int_c(rho_3->nrOfGhostLayers()))
151 WALBERLA_ASSERT_GREATER_EQUAL(ci.zMin(), -int_c(rho_3->nrOfGhostLayers()))
152 float *
RESTRICT _data_rho_3 = rho_3->dataAt(ci.xMin(), ci.yMin(), ci.zMin(), 0);
153 WALBERLA_ASSERT_GREATER_EQUAL(rho_0->xSizeWithGhostLayer(), int64_t(int64_c(ci.xSize()) + 0))
154 const int64_t _size_rho_0_0 = int64_t(int64_c(ci.xSize()) + 0);
155 WALBERLA_ASSERT_GREATER_EQUAL(rho_0->ySizeWithGhostLayer(), int64_t(int64_c(ci.ySize()) + 0))
156 const int64_t _size_rho_0_1 = int64_t(int64_c(ci.ySize()) + 0);
157 WALBERLA_ASSERT_GREATER_EQUAL(rho_0->zSizeWithGhostLayer(), int64_t(int64_c(ci.zSize()) + 0))
158 const int64_t _size_rho_0_2 = int64_t(int64_c(ci.zSize()) + 0);
159 const int64_t _stride_rho_0_0 = int64_t(rho_0->xStride());
160 const int64_t _stride_rho_0_1 = int64_t(rho_0->yStride());
161 const int64_t _stride_rho_0_2 = int64_t(rho_0->zStride());
162 const int64_t _stride_rho_1_0 = int64_t(rho_1->xStride());
163 const int64_t _stride_rho_1_1 = int64_t(rho_1->yStride());
164 const int64_t _stride_rho_1_2 = int64_t(rho_1->zStride());
165 const int64_t _stride_rho_2_0 = int64_t(rho_2->xStride());
166 const int64_t _stride_rho_2_1 = int64_t(rho_2->yStride());
167 const int64_t _stride_rho_2_2 = int64_t(rho_2->zStride());
168 const int64_t _stride_rho_3_0 = int64_t(rho_3->xStride());
169 const int64_t _stride_rho_3_1 = int64_t(rho_3->yStride());
170 const int64_t _stride_rho_3_2 = int64_t(rho_3->zStride());
171 internal_716e8e56e191f2f523734cd5e32cecbb::reactionkernelbulk_4_single_precision_reactionkernelbulk_4_single_precision(_data_rho_0, _data_rho_1, _data_rho_2, _data_rho_3, _size_rho_0_0, _size_rho_0_1, _size_rho_0_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, _stride_rho_3_0, _stride_rho_3_1, _stride_rho_3_2, order_0, order_1, order_2, order_3, rate_coefficient, stoech_0, stoech_1, stoech_2, stoech_3);
static FUNC_PREFIX void reactionkernelbulk_4_single_precision_reactionkernelbulk_4_single_precision(float *RESTRICT _data_rho_0, float *RESTRICT _data_rho_1, float *RESTRICT _data_rho_2, float *RESTRICT _data_rho_3, int64_t const _size_rho_0_0, int64_t const _size_rho_0_1, int64_t const _size_rho_0_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, int64_t const _stride_rho_3_0, int64_t const _stride_rho_3_1, int64_t const _stride_rho_3_2, float order_0, float order_1, float order_2, float order_3, float rate_coefficient, float stoech_0, float stoech_1, float stoech_2, float stoech_3)