1*c217d954SCole Faust /* 2*c217d954SCole Faust * Copyright (c) 2018-2021 Arm Limited. 3*c217d954SCole Faust * 4*c217d954SCole Faust * SPDX-License-Identifier: MIT 5*c217d954SCole Faust * 6*c217d954SCole Faust * Permission is hereby granted, free of charge, to any person obtaining a copy 7*c217d954SCole Faust * of this software and associated documentation files (the "Software"), to 8*c217d954SCole Faust * deal in the Software without restriction, including without limitation the 9*c217d954SCole Faust * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or 10*c217d954SCole Faust * sell copies of the Software, and to permit persons to whom the Software is 11*c217d954SCole Faust * furnished to do so, subject to the following conditions: 12*c217d954SCole Faust * 13*c217d954SCole Faust * The above copyright notice and this permission notice shall be included in all 14*c217d954SCole Faust * copies or substantial portions of the Software. 15*c217d954SCole Faust * 16*c217d954SCole Faust * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 17*c217d954SCole Faust * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 18*c217d954SCole Faust * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE 19*c217d954SCole Faust * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 20*c217d954SCole Faust * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, 21*c217d954SCole Faust * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE 22*c217d954SCole Faust * SOFTWARE. 23*c217d954SCole Faust */ 24*c217d954SCole Faust #ifndef ARM_COMPUTE_TEST_WIDTHCONCATENATE_LAYER_FIXTURE 25*c217d954SCole Faust #define ARM_COMPUTE_TEST_WIDTHCONCATENATE_LAYER_FIXTURE 26*c217d954SCole Faust 27*c217d954SCole Faust #include "arm_compute/core/TensorShape.h" 28*c217d954SCole Faust #include "arm_compute/core/Types.h" 29*c217d954SCole Faust #include "arm_compute/core/utils/misc/ShapeCalculator.h" 30*c217d954SCole Faust #include "tests/AssetsLibrary.h" 31*c217d954SCole Faust #include "tests/Globals.h" 32*c217d954SCole Faust #include "tests/IAccessor.h" 33*c217d954SCole Faust #include "tests/framework/Asserts.h" 34*c217d954SCole Faust #include "tests/framework/Fixture.h" 35*c217d954SCole Faust #include "tests/validation/Helpers.h" 36*c217d954SCole Faust #include "tests/validation/reference/ConcatenateLayer.h" 37*c217d954SCole Faust 38*c217d954SCole Faust #include <random> 39*c217d954SCole Faust 40*c217d954SCole Faust namespace arm_compute 41*c217d954SCole Faust { 42*c217d954SCole Faust namespace test 43*c217d954SCole Faust { 44*c217d954SCole Faust namespace validation 45*c217d954SCole Faust { 46*c217d954SCole Faust template <typename TensorType, typename ITensorType, typename AccessorType, typename FunctionType, typename T, bool CI = true> 47*c217d954SCole Faust class ConcatenateLayerValidationFixture : public framework::Fixture 48*c217d954SCole Faust { 49*c217d954SCole Faust private: 50*c217d954SCole Faust using SrcITensorType = typename std::conditional<CI, const ITensorType, ITensorType>::type; 51*c217d954SCole Faust 52*c217d954SCole Faust public: 53*c217d954SCole Faust template <typename...> setup(TensorShape shape,DataType data_type,unsigned int axis)54*c217d954SCole Faust void setup(TensorShape shape, DataType data_type, unsigned int axis) 55*c217d954SCole Faust { 56*c217d954SCole Faust // Create input shapes 57*c217d954SCole Faust std::mt19937 gen(library->seed()); 58*c217d954SCole Faust std::uniform_int_distribution<> num_dis(2, 8); 59*c217d954SCole Faust std::uniform_int_distribution<> offset_dis(0, 20); 60*c217d954SCole Faust 61*c217d954SCole Faust const int num_tensors = num_dis(gen); 62*c217d954SCole Faust 63*c217d954SCole Faust std::vector<TensorShape> shapes(num_tensors, shape); 64*c217d954SCole Faust 65*c217d954SCole Faust // vector holding the quantization info: 66*c217d954SCole Faust // the last element is the output quantization info 67*c217d954SCole Faust // all other elements are the quantization info for the input tensors 68*c217d954SCole Faust std::vector<QuantizationInfo> qinfo(num_tensors + 1, QuantizationInfo()); 69*c217d954SCole Faust for(auto &qi : qinfo) 70*c217d954SCole Faust { 71*c217d954SCole Faust qi = QuantizationInfo(1.f / 255.f, offset_dis(gen)); 72*c217d954SCole Faust } 73*c217d954SCole Faust std::bernoulli_distribution mutate_dis(0.5f); 74*c217d954SCole Faust std::uniform_real_distribution<float> change_dis(-0.25f, 0.f); 75*c217d954SCole Faust 76*c217d954SCole Faust // Generate more shapes based on the input 77*c217d954SCole Faust for(auto &s : shapes) 78*c217d954SCole Faust { 79*c217d954SCole Faust // Randomly change the dimension 80*c217d954SCole Faust if(mutate_dis(gen)) 81*c217d954SCole Faust { 82*c217d954SCole Faust // Decrease the dimension by a small percentage. Don't increase 83*c217d954SCole Faust // as that could make tensor too large. 84*c217d954SCole Faust s.set(axis, s[axis] + 2 * static_cast<int>(s[axis] * change_dis(gen))); 85*c217d954SCole Faust } 86*c217d954SCole Faust } 87*c217d954SCole Faust 88*c217d954SCole Faust _target = compute_target(shapes, qinfo, data_type, axis); 89*c217d954SCole Faust _reference = compute_reference(shapes, qinfo, data_type, axis); 90*c217d954SCole Faust } 91*c217d954SCole Faust 92*c217d954SCole Faust protected: 93*c217d954SCole Faust template <typename U> fill(U && tensor,int i)94*c217d954SCole Faust void fill(U &&tensor, int i) 95*c217d954SCole Faust { 96*c217d954SCole Faust library->fill_tensor_uniform(tensor, i); 97*c217d954SCole Faust } 98*c217d954SCole Faust compute_target(const std::vector<TensorShape> & shapes,const std::vector<QuantizationInfo> & qinfo,DataType data_type,unsigned int axis)99*c217d954SCole Faust TensorType compute_target(const std::vector<TensorShape> &shapes, const std::vector<QuantizationInfo> &qinfo, DataType data_type, unsigned int axis) 100*c217d954SCole Faust { 101*c217d954SCole Faust std::vector<TensorType> srcs; 102*c217d954SCole Faust std::vector<SrcITensorType *> src_ptrs; 103*c217d954SCole Faust 104*c217d954SCole Faust // Create tensors 105*c217d954SCole Faust srcs.reserve(shapes.size()); 106*c217d954SCole Faust 107*c217d954SCole Faust for(size_t j = 0; j < shapes.size(); ++j) 108*c217d954SCole Faust { 109*c217d954SCole Faust srcs.emplace_back(create_tensor<TensorType>(shapes[j], data_type, 1, qinfo[j])); 110*c217d954SCole Faust src_ptrs.emplace_back(&srcs.back()); 111*c217d954SCole Faust } 112*c217d954SCole Faust 113*c217d954SCole Faust const TensorShape dst_shape = misc::shape_calculator::calculate_concatenate_shape(src_ptrs, axis); 114*c217d954SCole Faust TensorType dst = create_tensor<TensorType>(dst_shape, data_type, 1, qinfo[shapes.size()]); 115*c217d954SCole Faust 116*c217d954SCole Faust // Create and configure function 117*c217d954SCole Faust FunctionType concat; 118*c217d954SCole Faust concat.configure(src_ptrs, &dst, axis); 119*c217d954SCole Faust 120*c217d954SCole Faust for(auto &src : srcs) 121*c217d954SCole Faust { 122*c217d954SCole Faust ARM_COMPUTE_ASSERT(src.info()->is_resizable()); 123*c217d954SCole Faust } 124*c217d954SCole Faust 125*c217d954SCole Faust ARM_COMPUTE_ASSERT(dst.info()->is_resizable()); 126*c217d954SCole Faust 127*c217d954SCole Faust // Allocate tensors 128*c217d954SCole Faust for(auto &src : srcs) 129*c217d954SCole Faust { 130*c217d954SCole Faust src.allocator()->allocate(); 131*c217d954SCole Faust ARM_COMPUTE_ASSERT(!src.info()->is_resizable()); 132*c217d954SCole Faust } 133*c217d954SCole Faust 134*c217d954SCole Faust dst.allocator()->allocate(); 135*c217d954SCole Faust ARM_COMPUTE_ASSERT(!dst.info()->is_resizable()); 136*c217d954SCole Faust 137*c217d954SCole Faust // Fill tensors 138*c217d954SCole Faust int i = 0; 139*c217d954SCole Faust for(auto &src : srcs) 140*c217d954SCole Faust { 141*c217d954SCole Faust fill(AccessorType(src), i++); 142*c217d954SCole Faust } 143*c217d954SCole Faust 144*c217d954SCole Faust // Compute function 145*c217d954SCole Faust concat.run(); 146*c217d954SCole Faust 147*c217d954SCole Faust return dst; 148*c217d954SCole Faust } 149*c217d954SCole Faust compute_reference(std::vector<TensorShape> & shapes,const std::vector<QuantizationInfo> & qinfo,DataType data_type,unsigned int axis)150*c217d954SCole Faust SimpleTensor<T> compute_reference(std::vector<TensorShape> &shapes, const std::vector<QuantizationInfo> &qinfo, DataType data_type, unsigned int axis) 151*c217d954SCole Faust { 152*c217d954SCole Faust std::vector<SimpleTensor<T>> srcs; 153*c217d954SCole Faust std::vector<TensorShape *> src_ptrs; 154*c217d954SCole Faust 155*c217d954SCole Faust // Create and fill tensors 156*c217d954SCole Faust for(size_t j = 0; j < shapes.size(); ++j) 157*c217d954SCole Faust { 158*c217d954SCole Faust srcs.emplace_back(shapes[j], data_type, 1, qinfo[j]); 159*c217d954SCole Faust fill(srcs.back(), j); 160*c217d954SCole Faust src_ptrs.emplace_back(&shapes[j]); 161*c217d954SCole Faust } 162*c217d954SCole Faust 163*c217d954SCole Faust const TensorShape dst_shape = misc::shape_calculator::calculate_concatenate_shape(src_ptrs, axis); 164*c217d954SCole Faust SimpleTensor<T> dst{ dst_shape, data_type, 1, qinfo[shapes.size()] }; 165*c217d954SCole Faust return reference::concatenate_layer<T>(srcs, dst, axis); 166*c217d954SCole Faust } 167*c217d954SCole Faust 168*c217d954SCole Faust TensorType _target{}; 169*c217d954SCole Faust SimpleTensor<T> _reference{}; 170*c217d954SCole Faust }; 171*c217d954SCole Faust } // namespace validation 172*c217d954SCole Faust } // namespace test 173*c217d954SCole Faust } // namespace arm_compute 174*c217d954SCole Faust #endif /* ARM_COMPUTE_TEST_WIDTHCONCATENATE_LAYER_FIXTURE */ 175