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61144f935e
Add support for Conv1D on OpenCV backend * Add support for Conv1D on OpenCV backend * disable tests on other targets/backends * Fix formatting * Restore comment * Remove unnecessary flag and fix test logic * Fix perf test * fix braces * Fix indentation, assert check and remove unnecessary condition * Remove unnecessary changes * Add test cases for variable weights and bias * dnn(conv): fallback on OpenCV+CPU instead of failures * coding style
164 lines
5.1 KiB
C++
164 lines
5.1 KiB
C++
// 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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namespace opencv_test {
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struct Conv1DParam_t {
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int kernel;
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struct BlobShape { int dims[3]; } shapeIn;
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int outCN;
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int groups;
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int stride;
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int dilation;
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int pad[2];
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const char* padMode;
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bool hasBias;
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double declared_flops;
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};
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// Details: #12142
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static const Conv1DParam_t testConvolution1DConfigs[] = {
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{3, {{1, 6, 10}}, 6, 1, 1, 1, {0, 0}, "VALID", true, 1776.},
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{3, {{1, 2, 19}}, 2, 2, 2, 1, {1, 1}, "", true, 260.},
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{3, {{1, 2, 25}}, 2, 2, 1, 1, {2, 2}, "SAME", false, 650.},
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};
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struct Conv1DParamID
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{
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enum {
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CONV_0 = 0,
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CONV_LAST = sizeof(testConvolution1DConfigs) / sizeof(testConvolution1DConfigs[0])
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};
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int val_;
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Conv1DParamID(int val = 0) : val_(val) {}
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operator int() const { return val_; }
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static ::testing::internal::ParamGenerator<Conv1DParamID> all()
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{
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enum { NUM = (int)CONV_LAST };
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Conv1DParamID v_[NUM]; for (int i = 0; i < NUM; ++i) { v_[i] = Conv1DParamID(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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static inline void PrintTo(const Conv1DParamID& v, std::ostream* os)
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{
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CV_Assert((int)v >= 0); CV_Assert((int)v < Conv1DParamID::CONV_LAST);
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const Conv1DParam_t& p = testConvolution1DConfigs[(int)v];
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*os << "GFLOPS=" << cv::format("%.3f", p.declared_flops * 1e-9)
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<< ", K=[" << p.kernel << "]"
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<< ", IN={" << p.shapeIn.dims[0] << ", " << p.shapeIn.dims[1] << ", " << p.shapeIn.dims[2] << "}"
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<< ", OCN=" << p.outCN;
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if (p.groups > 1)
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*os << ", G=" << p.groups;
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if (p.stride != 1)
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*os << ", S=" << p.stride;
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if (p.dilation != 1)
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*os << ", D=" << p.dilation;
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if (p.pad[0] != 0 && p.pad[1] != 0 )
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*os << ", P=(" << p.pad[0] << ", " << p.pad[1] << ")";
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if (!((std::string)p.padMode).empty())
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*os << ", PM=" << ((std::string)p.padMode);
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if (p.hasBias)
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*os << ", BIAS";
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}
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typedef tuple<Conv1DParamID, tuple<Backend, Target> > Conv1DTestParam_t;
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typedef TestBaseWithParam<Conv1DTestParam_t> Conv1D;
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PERF_TEST_P_(Conv1D, conv1d)
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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, Conv1DParamID::CONV_LAST);
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const Conv1DParam_t& params = testConvolution1DConfigs[test_id];
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double declared_flops = params.declared_flops;
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DictValue kernel = DictValue::arrayInt(¶ms.kernel, 1);
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DictValue stride = DictValue::arrayInt(¶ms.stride, 1);
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DictValue pad = DictValue::arrayInt(¶ms.pad[0], 2);
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DictValue dilation = DictValue::arrayInt(¶ms.dilation, 1);
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MatShape inputShape = MatShape(params.shapeIn.dims, params.shapeIn.dims + 3);
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int outChannels = params.outCN;
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int groups = params.groups;
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std::string padMode(params.padMode);
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bool hasBias = params.hasBias;
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Backend backendId = get<0>(get<1>(GetParam()));
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Target targetId = get<1>(get<1>(GetParam()));
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if (targetId != DNN_TARGET_CPU)
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throw SkipTestException("Only CPU is supported");
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int inChannels = inputShape[1];
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int sz[] = {outChannels, inChannels / groups, params.kernel};
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Mat weights(3, &sz[0], CV_32F);
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randu(weights, -1.0f, 1.0f);
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LayerParams lp;
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lp.set("kernel_size", kernel);
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lp.set("pad", pad);
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if (!padMode.empty())
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lp.set("pad_mode", padMode);
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lp.set("stride", stride);
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lp.set("dilation", dilation);
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lp.set("num_output", outChannels);
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lp.set("group", groups);
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lp.set("bias_term", hasBias);
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lp.type = "Convolution";
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lp.name = "testLayer";
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lp.blobs.push_back(weights);
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if (hasBias)
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{
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Mat bias(1, outChannels, CV_32F);
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randu(bias, -1.0f, 1.0f);
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lp.blobs.push_back(bias);
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}
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int inpSz[] = {1, inChannels, inputShape[2]};
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Mat input(3, &inpSz[0], CV_32F);
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randu(input, -1.0f, 1.0f);
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Net net;
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net.addLayerToPrev(lp.name, lp.type, lp);
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net.setInput(input);
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net.setPreferableBackend(backendId);
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net.setPreferableTarget(targetId);
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// warmup
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Mat output = net.forward();
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MatShape netInputShape = shape(input);
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size_t weightsMemory = 0, blobsMemory = 0;
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net.getMemoryConsumption(netInputShape, weightsMemory, blobsMemory);
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int64 flops = net.getFLOPS(netInputShape);
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CV_Assert(flops > 0);
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std::cout
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<< "IN=" << divUp(input.total() * input.elemSize(), 1u<<10) << " Kb " << netInputShape
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<< " OUT=" << divUp(output.total() * output.elemSize(), 1u<<10) << " Kb " << shape(output)
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<< " Weights(parameters): " << divUp(weightsMemory, 1u<<10) << " Kb"
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<< " MFLOPS=" << flops * 1e-6 << std::endl;
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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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EXPECT_NEAR(flops, declared_flops, declared_flops * 1e-6);
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SANITY_CHECK_NOTHING();
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}
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INSTANTIATE_TEST_CASE_P(/**/, Conv1D, Combine(
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Conv1DParamID::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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