chore: import upstream snapshot with attribution
This commit is contained in:
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// This file is part of OpenCV project.
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// It is subject to the license terms in the LICENSE file found in the top-level directory
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// of this distribution and at http://opencv.org/license.html.
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#include "perf_precomp.hpp"
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#include <opencv2/dnn/shape_utils.hpp>
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#include <numeric>
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namespace opencv_test {
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struct GemmParam_t {
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std::vector<int> a_shape;
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std::vector<int> b_shape;
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std::vector<int> c_shape;
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bool trans_a;
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bool trans_b;
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GemmParam_t(std::vector<int> a_shape_, std::vector<int> b_shape_, std::vector<int> c_shape_ = {}, bool trans_a_ = false, bool trans_b_ = false)
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: a_shape(a_shape_), b_shape(b_shape_), c_shape(c_shape_), trans_a(trans_a_), trans_b(trans_b_) {}
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};
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// TODO: Dsiable most of the test cases except vision transformers to save time
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static const GemmParam_t test_gemm_configs[] = {
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// vision transformers cases
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{ { 768, 768 }, { 768, 768 }, { 768 } },
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{ { 1024, 1024 }, { 1024, 1024 }, { 1024 } },
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{ { 50, 768 }, { 768, 2304 } },
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{ { 197, 768 }, { 768, 2304 } },
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{ { 50, 1024 }, { 1024, 3072 } },
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{ { 197, 1024 }, { 1024, 3072 } },
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// these cases are commented to save testing time
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/*
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// square mat
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{ { 64, 64 }, { 64, 64 } },
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{ { 128, 128 }, { 128, 128 } },
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{ { 256, 256 }, { 256, 256 } },
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{ { 512, 512 }, { 512, 512 } },
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{ { 1024, 1024 }, { 1024, 1024 } },
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{ { 4096, 4096 }, { 4096, 4096 } },
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// retangular mat
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{ { 256, 256 }, { 256, 1024 } },
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{ { 256, 1024 }, { 1024, 256 } },
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{ { 256, 1024 }, { 1024, 1024 } },
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{ { 1024, 1024 }, { 1024, 256 } },
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{ { 1024, 256 }, { 256, 1024 } },
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{ { 1024, 256 }, { 256, 256 } },
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// with C
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{ { 256, 256 }, { 256, 256 }, { 256 } },
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{ { 256, 256 }, { 256, 1024 }, { 1024 } },
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{ { 256, 1024 }, { 1024, 256 }, { 256 } },
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{ { 256, 1024 }, { 1024, 1024 }, { 1024 } },
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{ { 1024, 1024 }, { 1024, 256 }, { 256 } },
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{ { 1024, 256 }, { 256, 1024 }, { 1024 } },
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{ { 1024, 256 }, { 256, 256 }, { 256 } },
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// with C and trans_b
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{ { 256, 256 }, { 256, 256 }, { 256 } , false, true},
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{ { 256, 1024 }, { 256, 1024 }, { 256 } , false, true},
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{ { 256, 1024 }, { 1024, 1024 }, { 1024 } , false, true},
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{ { 1024, 1024 }, { 1024, 1024 }, { 1024 } , false, true},
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{ { 1024, 256 }, { 1024, 256 }, { 1024 } , false, true},
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{ { 1024, 256 }, { 256, 256 }, { 256 } , false, true},
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// with C and trans_b and trans_a
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{ { 256, 256 }, { 256, 256 }, { 256 } , true, true},
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{ { 1024, 256 }, { 256, 1024 }, { 256 } , true, true},
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{ { 256, 1024 }, { 1024, 256 }, { 1024 } , true, true},
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{ { 1024, 1024 }, { 1024, 1024 }, { 1024 } , true, true},
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*/
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};
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static const GemmParam_t test_matmul_configs[] = {
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// vision transformer cases
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{ {12, 197, 197}, {12, 197, 64} },
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{ {12, 197, 64 }, {12, 64, 197} },
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{ {12, 50, 64}, {12, 64, 50} },
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{ {12, 50, 50}, {12, 50, 64} },
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{ {16, 197, 197}, {16, 197, 64} },
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{ {16, 197, 64 }, {16, 64, 197} },
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{ {16, 50, 64}, {16, 64, 50} },
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{ {16, 50, 50}, {16, 50, 64} },
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};
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struct GemmParamId
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{
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enum {
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GEMM_0 = 0,
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GEMM_LAST = sizeof(test_gemm_configs) / sizeof(test_gemm_configs[0])
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};
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int val_;
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GemmParamId(int val = 0) : val_(val) {}
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operator int() const { return val_; }
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static ::testing::internal::ParamGenerator<GemmParamId> all()
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{
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enum { NUM = (int)GEMM_LAST };
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GemmParamId v_[NUM]; for (int i = 0; i < NUM; ++i) { v_[i] = GemmParamId(i); } // reduce generated code size
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return ::testing::ValuesIn(v_, v_ + NUM);
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}
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};
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struct MatMulParamId {
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enum {
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MATMUL_0 = 0,
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MATMUL_LAST = sizeof(test_matmul_configs) / sizeof(test_matmul_configs[0])
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};
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int val_;
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MatMulParamId(int val = 0) : val_(val) {}
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operator int() const { return val_; }
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static ::testing::internal::ParamGenerator<MatMulParamId> all() {
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enum { NUM = (int)MATMUL_LAST };
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MatMulParamId v_[NUM]; for (int i = 0; i < NUM; i++) { v_[i] = MatMulParamId(i); }
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return ::testing::ValuesIn(v_, v_ + NUM);
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}
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};
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static inline void PrintTo(const GemmParamId& v, std::ostream* os)
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{
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CV_Assert((int)v >= 0); CV_Assert((int)v < GemmParamId::GEMM_LAST);
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const GemmParam_t& p = test_gemm_configs[(int)v];
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auto print_shape = [os](const std::vector<int>& shape, const std::string tag) {
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if (shape.empty()) {
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return ;
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}
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*os << tag << "=[";
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for (size_t i = 0; i < shape.size(); ++i) {
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if (i == shape.size() - 1) {
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*os << shape[i] << "]";
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break;
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}
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*os << shape[i] << ", ";
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}
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};
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print_shape(p.a_shape, "A");
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print_shape(p.b_shape, ", B");
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print_shape(p.c_shape, ", C");
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*os << ", trans_a=" << p.trans_a << ", trans_b=" << p.trans_b;
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}
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typedef tuple<GemmParamId, tuple<Backend, Target> > GemmTestParam_t;
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typedef TestBaseWithParam<GemmTestParam_t> Gemm;
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PERF_TEST_P_(Gemm, gemm)
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{
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int test_id = (int)get<0>(GetParam());
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ASSERT_GE(test_id, 0); ASSERT_LT(test_id, GemmParamId::GEMM_LAST);
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const GemmParam_t& params = test_gemm_configs[test_id];
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auto a_shape = params.a_shape;
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auto b_shape = params.b_shape;
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auto c_shape = params.c_shape;
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auto trans_a = params.trans_a;
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auto trans_b = params.trans_b;
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float alpha = 1.f;
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float beta = 1.f;
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Backend backend_id = get<0>(get<1>(GetParam()));
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Target target_id = get<1>(get<1>(GetParam()));
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bool have_bias = c_shape.empty() ? false : true;
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Mat A(static_cast<int>(a_shape.size()), a_shape.data(), CV_32F);
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randu(A, -1.0f, 1.0f);
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Mat B(static_cast<int>(b_shape.size()), b_shape.data(), CV_32F);
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randu(B, -1.0f, 1.0f);
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LayerParams lp;
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lp.type = "Gemm";
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lp.name = "testLayer";
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lp.set("transA", trans_a);
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lp.set("transB", trans_b);
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lp.set("alpha", alpha);
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lp.set("beta", beta);
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lp.set("real_ndims_C", static_cast<int>(c_shape.size()));
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lp.set("constB", true);
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lp.blobs.push_back(B);
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if (have_bias) {
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Mat C(static_cast<int>(c_shape.size()), c_shape.data(), CV_32F);
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randu(C, -1.0f, 1.0f);
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lp.set("have_bias", true);
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lp.set("constC", true);
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lp.blobs.push_back(C);
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}
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Net net;
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net.addLayerToPrev(lp.name, lp.type, lp);
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net.setPreferableBackend(backend_id);
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net.setPreferableTarget(target_id);
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// warmup
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{
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net.setInput(A);
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Mat out = net.forward();
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}
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TEST_CYCLE()
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{
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Mat res = net.forward();
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}
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SANITY_CHECK_NOTHING();
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}
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PERF_TEST_P_(Gemm, innerproduct)
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{
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int test_id = (int)get<0>(GetParam());
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ASSERT_GE(test_id, 0); ASSERT_LT(test_id, GemmParamId::GEMM_LAST);
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const GemmParam_t& params = test_gemm_configs[test_id];
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auto a_shape = params.a_shape;
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auto b_shape = params.b_shape;
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auto c_shape = params.c_shape;
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auto trans_a = params.trans_a;
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auto trans_b = params.trans_b;
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Backend backend_id = get<0>(get<1>(GetParam()));
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Target target_id = get<1>(get<1>(GetParam()));
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bool have_bias = c_shape.empty() ? false : true;
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Mat A(static_cast<int>(a_shape.size()), a_shape.data(), CV_32F);
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randu(A, -1.0f, 1.0f);
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Mat B(static_cast<int>(b_shape.size()), b_shape.data(), CV_32F);
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randu(B, -1.0f, 1.0f);
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LayerParams lp;
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lp.type = "InnerProduct";
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lp.name = "testLayer";
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if (trans_a) {
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cv::transpose(A, A);
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}
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if (!trans_b) {
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cv::transpose(B, B);
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}
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lp.blobs.push_back(B);
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lp.set("num_output", B.size[0]);
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if (have_bias) {
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Mat C(static_cast<int>(c_shape.size()), c_shape.data(), CV_32F);
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randu(C, -1.0f, 1.0f);
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lp.blobs.push_back(C);
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lp.set("bias_term", true);
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} else {
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lp.set("bias_term", false);
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}
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Net net;
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net.addLayerToPrev(lp.name, lp.type, lp);
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net.setPreferableBackend(backend_id);
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net.setPreferableTarget(target_id);
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// warmup
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{
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std::vector<std::string> input_names(1);
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input_names[0] = "A";
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net.setInputsNames(input_names);
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net.setInput(A, input_names[0]);
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Mat out = net.forward();
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}
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TEST_CYCLE()
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{
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Mat res = net.forward();
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}
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SANITY_CHECK_NOTHING();
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}
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static inline void PrintTo(const MatMulParamId& v, std::ostream* os)
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{
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CV_Assert((int)v >= 0); CV_Assert((int)v < MatMulParamId::MATMUL_LAST);
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const GemmParam_t& p = test_matmul_configs[(int)v];
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auto print_shape = [os](const std::vector<int>& shape, const std::string tag) {
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if (shape.empty()) {
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return ;
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}
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*os << tag << "=[";
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for (size_t i = 0; i < shape.size(); ++i) {
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if (i == shape.size() - 1) {
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*os << shape[i] << "]";
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break;
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}
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*os << shape[i] << ", ";
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}
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};
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print_shape(p.a_shape, "A");
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print_shape(p.b_shape, ", B");
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print_shape(p.c_shape, ", C");
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*os << ", trans_a=" << p.trans_a << ", trans_b=" << p.trans_b;
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}
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using MatMulTestParam_t = tuple<MatMulParamId, tuple<Backend, Target>>;
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using MatMul = TestBaseWithParam<MatMulTestParam_t>;
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PERF_TEST_P_(MatMul, matmul)
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{
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int test_id = (int)get<0>(GetParam());
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ASSERT_GE(test_id, 0); ASSERT_LT(test_id, MatMulParamId::MATMUL_LAST);
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const GemmParam_t& params = test_matmul_configs[test_id];
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auto a_shape = params.a_shape;
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auto b_shape = params.b_shape;
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auto trans_a = params.trans_a;
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auto trans_b = params.trans_b;
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float alpha = 1.f;
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float beta = 1.f;
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Backend backend_id = get<0>(get<1>(GetParam()));
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Target target_id = get<1>(get<1>(GetParam()));
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Mat A(a_shape, CV_32F);
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randu(A, -1.0f, 1.0f);
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Mat B(b_shape, CV_32F);
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randu(B, -1.0f, 1.0f);
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LayerParams lp;
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lp.type = "MatMul";
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lp.name = "testLayer";
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lp.set("transA", trans_a);
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lp.set("transB", trans_b);
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lp.set("alpha", alpha);
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lp.set("beta", beta);
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lp.blobs.push_back(B);
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Net net;
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net.addLayerToPrev(lp.name, lp.type, lp);
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net.setPreferableBackend(backend_id);
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net.setPreferableTarget(target_id);
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// warmup
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{
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std::vector<std::string> input_names{"A"};
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net.setInputsNames(input_names);
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net.setInput(A, input_names[0]);
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Mat out = net.forward();
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}
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TEST_CYCLE()
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{
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Mat res = net.forward();
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}
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SANITY_CHECK_NOTHING();
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}
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PERF_TEST_P_(MatMul, innerproduct)
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{
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int test_id = (int)get<0>(GetParam());
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ASSERT_GE(test_id, 0); ASSERT_LT(test_id, MatMulParamId::MATMUL_LAST);
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const GemmParam_t& params = test_matmul_configs[test_id];
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auto a_shape = params.a_shape;
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auto b_shape = params.b_shape;
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Backend backend_id = get<0>(get<1>(GetParam()));
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Target target_id = get<1>(get<1>(GetParam()));
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Mat A(a_shape, CV_32F);
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randu(A, -1.0f, 1.0f);
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Mat B(b_shape, CV_32F);
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randu(B, -1.0f, 1.0f);
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LayerParams lp;
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lp.type = "InnerProduct";
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lp.name = "testLayer";
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lp.set("axis", (int)(a_shape.size() - 1));
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lp.set("bias_term", false);
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// pre-transpose
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std::vector<int> order(b_shape.size());
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std::iota(order.begin(), order.end(), 0);
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std::swap(order.back(), order[b_shape.size() - 2]);
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Mat B_transposed;
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transposeND(B, order, B_transposed);
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lp.blobs.push_back(B_transposed);
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lp.set("num_output", int(B_transposed.total(0, b_shape.size() - 1)));
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lp.set("is_matmul", true);
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Net net;
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net.addLayerToPrev(lp.name, lp.type, lp);
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net.setPreferableBackend(backend_id);
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net.setPreferableTarget(target_id);
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// warmup
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{
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std::vector<std::string> input_names{"A"};
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net.setInputsNames(input_names);
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net.setInput(A, input_names[0]);
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Mat out = net.forward();
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}
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TEST_CYCLE()
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{
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Mat res = net.forward();
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}
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SANITY_CHECK_NOTHING();
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}
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INSTANTIATE_TEST_CASE_P(/**/, Gemm, Combine(
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GemmParamId::all(),
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dnnBackendsAndTargets(false, false) // defined in ../test/test_common.hpp
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));
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INSTANTIATE_TEST_CASE_P(/**/, MatMul, Combine(
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MatMulParamId::all(),
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dnnBackendsAndTargets(false, false) // defined in ../test/test_common.hpp
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));
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} // namespace
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