Open Source Computer Vision Library https://opencv.org/
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// This file is part of OpenCV project.
// It is subject to the license terms in the LICENSE file found in the top-level directory
// of this distribution and at http://opencv.org/license.html.
//
// Copyright (C) 2018 Intel Corporation
#include "test_precomp.hpp"
#include "gapi_mock_kernels.hpp"
#include <opencv2/gapi/cpu/gcpukernel.hpp> // cpu::backend
#include <opencv2/gapi/fluid/gfluidkernel.hpp> // fluid::backend
namespace opencv_test
{
namespace
{
namespace I
{
G_TYPED_KERNEL(GClone, <GMat(GMat)>, "org.opencv.test.clone")
{
static GMatDesc outMeta(GMatDesc in) { return in; }
};
}
enum class KernelTags
{
CPU_CUSTOM_BGR2GRAY,
CPU_CUSTOM_CLONE,
CPU_CUSTOM_ADD,
FLUID_CUSTOM_BGR2GRAY,
FLUID_CUSTOM_CLONE,
FLUID_CUSTOM_ADD
};
class HeteroGraph: public ::testing::Test
{
public:
HeteroGraph()
{
auto tmp = I::GClone::on(cv::gapi::add(in[0], in[1]));
out = cv::gapi::imgproc::GBGR2Gray::on(tmp);
}
static void registerCallKernel(KernelTags kernel_tag) {
kernel_calls.insert(kernel_tag);
}
bool checkCallKernel(KernelTags kernel_tag) {
return ade::util::contains(kernel_calls, kernel_tag);
}
protected:
void SetUp() override
{
if (!kernel_calls.empty())
cv::util::throw_error(std::logic_error("Kernel call log has not been cleared!!!"));
}
void TearDown() override
{
kernel_calls.clear();
}
protected:
cv::GMat in[2], out;
static std::set<KernelTags> kernel_calls;
};
namespace cpu
{
GAPI_OCV_KERNEL(GClone, I::GClone)
{
static void run(const cv::Mat&, cv::Mat)
{
HeteroGraph::registerCallKernel(KernelTags::CPU_CUSTOM_CLONE);
}
};
GAPI_OCV_KERNEL(BGR2Gray, cv::gapi::imgproc::GBGR2Gray)
{
static void run(const cv::Mat&, cv::Mat&)
{
HeteroGraph::registerCallKernel(KernelTags::CPU_CUSTOM_BGR2GRAY);
}
};
GAPI_OCV_KERNEL(GAdd, cv::gapi::core::GAdd)
{
static void run(const cv::Mat&, const cv::Mat&, int, cv::Mat&)
{
HeteroGraph::registerCallKernel(KernelTags::CPU_CUSTOM_ADD);
}
};
}
namespace fluid
{
GAPI_FLUID_KERNEL(GClone, I::GClone, false)
{
static const int Window = 1;
static void run(const cv::gapi::fluid::View&, cv::gapi::fluid::Buffer)
{
HeteroGraph::registerCallKernel(KernelTags::FLUID_CUSTOM_CLONE);
}
};
GAPI_FLUID_KERNEL(BGR2Gray, cv::gapi::imgproc::GBGR2Gray, false)
{
static const int Window = 1;
static void run(const cv::gapi::fluid::View&, cv::gapi::fluid::Buffer&)
{
HeteroGraph::registerCallKernel(KernelTags::FLUID_CUSTOM_BGR2GRAY);
}
};
GAPI_FLUID_KERNEL(GAdd, cv::gapi::core::GAdd, false)
{
static const int Window = 1;
static void run(const cv::gapi::fluid::View&, const cv::gapi::fluid::View&,
int, cv::gapi::fluid::Buffer&)
{
HeteroGraph::registerCallKernel(KernelTags::FLUID_CUSTOM_ADD);
}
};
}
std::set<KernelTags> HeteroGraph::kernel_calls;
} // anonymous namespace
TEST(KernelPackage, Create)
{
namespace J = Jupiter;
auto pkg = cv::gapi::kernels<J::Foo, J::Bar, J::Baz>();
EXPECT_EQ(3u, pkg.size());
}
TEST(KernelPackage, Includes)
{
namespace J = Jupiter;
auto pkg = cv::gapi::kernels<J::Foo, J::Bar, J::Baz>();
EXPECT_TRUE (pkg.includes<J::Foo>());
EXPECT_TRUE (pkg.includes<J::Bar>());
EXPECT_TRUE (pkg.includes<J::Baz>());
EXPECT_FALSE(pkg.includes<J::Qux>());
}
TEST(KernelPackage, IncludesAPI)
{
namespace J = Jupiter;
namespace S = Saturn;
auto pkg = cv::gapi::kernels<J::Foo, S::Bar>();
EXPECT_TRUE (pkg.includesAPI<I::Foo>());
EXPECT_TRUE (pkg.includesAPI<I::Bar>());
EXPECT_FALSE(pkg.includesAPI<I::Baz>());
EXPECT_FALSE(pkg.includesAPI<I::Qux>());
}
TEST(KernelPackage, Include_Add)
{
namespace J = Jupiter;
auto pkg = cv::gapi::kernels<J::Foo, J::Bar, J::Baz>();
EXPECT_FALSE(pkg.includes<J::Qux>());
pkg.include<J::Qux>();
EXPECT_TRUE(pkg.includes<J::Qux>());
}
TEST(KernelPackage, Include_REPLACE)
{
namespace J = Jupiter;
namespace S = Saturn;
auto pkg = cv::gapi::kernels<J::Foo, J::Bar>();
EXPECT_FALSE(pkg.includes<S::Bar>());
pkg.include<S::Bar>();
EXPECT_FALSE(pkg.includes<J::Bar>());
EXPECT_TRUE(pkg.includes<S::Bar>());
}
TEST(KernelPackage, RemoveBackend)
{
namespace J = Jupiter;
namespace S = Saturn;
auto pkg = cv::gapi::kernels<J::Foo, J::Bar, S::Baz>();
EXPECT_TRUE(pkg.includes<J::Foo>());
EXPECT_TRUE(pkg.includes<J::Bar>());
pkg.remove(J::backend());
EXPECT_FALSE(pkg.includes<J::Foo>());
EXPECT_FALSE(pkg.includes<J::Bar>());
EXPECT_TRUE(pkg.includes<S::Baz>());
};
TEST(KernelPackage, RemoveAPI)
{
namespace J = Jupiter;
namespace S = Saturn;
auto pkg = cv::gapi::kernels<J::Foo, J::Bar>();
EXPECT_TRUE(pkg.includes<J::Foo>());
EXPECT_TRUE(pkg.includes<J::Bar>());
pkg.remove<I::Foo>();
EXPECT_TRUE(pkg.includes<J::Bar>());
EXPECT_FALSE(pkg.includes<J::Foo>());
};
TEST(KernelPackage, CreateHetero)
{
namespace J = Jupiter;
namespace S = Saturn;
auto pkg = cv::gapi::kernels<J::Foo, J::Bar, J::Baz, S::Qux>();
EXPECT_EQ(4u, pkg.size());
}
TEST(KernelPackage, IncludesHetero)
{
namespace J = Jupiter;
namespace S = Saturn;
auto pkg = cv::gapi::kernels<J::Foo, J::Bar, J::Baz, S::Qux>();
EXPECT_TRUE (pkg.includes<J::Foo>());
EXPECT_TRUE (pkg.includes<J::Bar>());
EXPECT_TRUE (pkg.includes<J::Baz>());
EXPECT_FALSE(pkg.includes<J::Qux>());
EXPECT_TRUE (pkg.includes<S::Qux>());
}
TEST(KernelPackage, IncludeHetero)
{
namespace J = Jupiter;
namespace S = Saturn;
auto pkg = cv::gapi::kernels<J::Foo, J::Bar, J::Baz>();
EXPECT_FALSE(pkg.includes<J::Qux>());
EXPECT_FALSE(pkg.includes<S::Qux>());
pkg.include<S::Qux>();
EXPECT_FALSE(pkg.includes<J::Qux>());
EXPECT_TRUE (pkg.includes<S::Qux>());
}
TEST(KernelPackage, Combine_REPLACE_Full)
{
namespace J = Jupiter;
namespace S = Saturn;
auto j_pkg = cv::gapi::kernels<J::Foo, J::Bar, J::Baz>();
auto s_pkg = cv::gapi::kernels<S::Foo, S::Bar, S::Baz>();
auto u_pkg = cv::gapi::combine(j_pkg, s_pkg);
EXPECT_EQ(3u, u_pkg.size());
EXPECT_FALSE(u_pkg.includes<J::Foo>());
EXPECT_FALSE(u_pkg.includes<J::Bar>());
EXPECT_FALSE(u_pkg.includes<J::Baz>());
EXPECT_TRUE (u_pkg.includes<S::Foo>());
EXPECT_TRUE (u_pkg.includes<S::Bar>());
EXPECT_TRUE (u_pkg.includes<S::Baz>());
}
TEST(KernelPackage, Combine_REPLACE_Partial)
{
namespace J = Jupiter;
namespace S = Saturn;
auto j_pkg = cv::gapi::kernels<J::Foo, J::Bar>();
auto s_pkg = cv::gapi::kernels<S::Bar>();
auto u_pkg = cv::gapi::combine(j_pkg, s_pkg);
EXPECT_EQ(2u, u_pkg.size());
EXPECT_TRUE (u_pkg.includes<J::Foo>());
EXPECT_FALSE(u_pkg.includes<J::Bar>());
EXPECT_TRUE (u_pkg.includes<S::Bar>());
}
TEST(KernelPackage, Combine_REPLACE_Append)
{
namespace J = Jupiter;
namespace S = Saturn;
auto j_pkg = cv::gapi::kernels<J::Foo, J::Bar>();
auto s_pkg = cv::gapi::kernels<S::Qux>();
auto u_pkg = cv::gapi::combine(j_pkg, s_pkg);
EXPECT_EQ(3u, u_pkg.size());
EXPECT_TRUE(u_pkg.includes<J::Foo>());
EXPECT_TRUE(u_pkg.includes<J::Bar>());
EXPECT_TRUE(u_pkg.includes<S::Qux>());
}
TEST(KernelPackage, TestWithEmptyLHS)
{
namespace J = Jupiter;
auto lhs = cv::gapi::kernels<>();
auto rhs = cv::gapi::kernels<J::Foo>();
auto pkg = cv::gapi::combine(lhs, rhs);
EXPECT_EQ(1u, pkg.size());
EXPECT_TRUE(pkg.includes<J::Foo>());
}
TEST(KernelPackage, TestWithEmptyRHS)
{
namespace J = Jupiter;
auto lhs = cv::gapi::kernels<J::Foo>();
auto rhs = cv::gapi::kernels<>();
auto pkg = cv::gapi::combine(lhs, rhs);
EXPECT_EQ(1u, pkg.size());
EXPECT_TRUE(pkg.includes<J::Foo>());
}
TEST(KernelPackage, Return_Unique_Backends)
{
auto pkg = cv::gapi::kernels<cpu::GClone, fluid::BGR2Gray, fluid::GAdd>();
EXPECT_EQ(2u, pkg.backends().size());
}
TEST(KernelPackage, Can_Use_Custom_Kernel)
{
cv::GMat in[2];
auto out = I::GClone::on(cv::gapi::add(in[0], in[1]));
const auto in_meta = cv::GMetaArg(cv::GMatDesc{CV_8U,1,cv::Size(32,32)});
auto pkg = cv::gapi::kernels<cpu::GClone>();
EXPECT_NO_THROW(cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
compile({in_meta, in_meta}, cv::compile_args(pkg)));
}
TEST(KernelPackage, CombineMultiple)
{
namespace J = Jupiter;
namespace S = Saturn;
auto a = cv::gapi::kernels<J::Foo>();
auto b = cv::gapi::kernels<J::Bar>();
auto c = cv::gapi::kernels<S::Qux>();
auto pkg = cv::gapi::combine(a, b, c);
EXPECT_EQ(3u, pkg.size());
EXPECT_TRUE(pkg.includes<J::Foo>());
EXPECT_TRUE(pkg.includes<J::Bar>());
EXPECT_TRUE(pkg.includes<S::Qux>());
}
TEST_F(HeteroGraph, Call_Custom_Kernel_Default_Backend)
{
// in0 -> GCPUAdd -> tmp -> cpu::GClone -> GCPUBGR2Gray -> out
// ^
// |
// in1 -------`
cv::Mat in_mat1 = cv::Mat::eye(3, 3, CV_8UC3),
in_mat2 = cv::Mat::eye(3, 3, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<cpu::GClone>();
cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat), cv::compile_args(pkg));
EXPECT_TRUE(checkCallKernel(KernelTags::CPU_CUSTOM_CLONE));
}
TEST_F(HeteroGraph, Call_Custom_Kernel_Not_Default_Backend)
{
// in0 -> GCPUAdd -> tmp -> fluid::GClone -> GCPUBGR2Gray -> out
// ^
// |
// in1 -------`
cv::Mat in_mat1 = cv::Mat::eye(3, 3, CV_8UC3),
in_mat2 = cv::Mat::eye(3, 3, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<fluid::GClone>();
cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat), cv::compile_args(pkg));
EXPECT_TRUE(checkCallKernel(KernelTags::FLUID_CUSTOM_CLONE));
}
TEST_F(HeteroGraph, Replace_Default_To_Same_Backend)
{
// in0 -> GCPUAdd -> tmp -> cpu::GClone -> cpu::BGR2Gray -> out
// ^
// |
// in1 -------`
cv::Mat in_mat1 = cv::Mat::eye(3, 3, CV_8UC3),
in_mat2 = cv::Mat::eye(3, 3, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<cpu::GClone, cpu::BGR2Gray>();
cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat), cv::compile_args(pkg));
EXPECT_TRUE(checkCallKernel(KernelTags::CPU_CUSTOM_BGR2GRAY));
}
TEST_F(HeteroGraph, Replace_Default_To_Another_Backend)
{
//in0 -> GCPUAdd -> tmp -> cpu::GClone -> fluid::BGR2Gray -> out
// ^
// |
//in1 --------`
cv::Mat in_mat1(300, 300, CV_8UC3),
in_mat2(300, 300, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<cpu::GClone, fluid::BGR2Gray>();
cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat), cv::compile_args(pkg));
EXPECT_TRUE(checkCallKernel(KernelTags::FLUID_CUSTOM_BGR2GRAY));
}
TEST_F(HeteroGraph, Use_Only_Same_Backend)
{
//in0 -> cpu::GAdd -> tmp -> cpu::GClone -> cpu::BGR2Gray -> out
// ^
// |
//in1 --------`
cv::Mat in_mat1(300, 300, CV_8UC3),
in_mat2(300, 300, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<cpu::GAdd, cpu::GClone, cpu::BGR2Gray>();
cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat), cv::compile_args(cv::gapi::use_only{pkg}));
EXPECT_TRUE(checkCallKernel(KernelTags::CPU_CUSTOM_ADD));
EXPECT_TRUE(checkCallKernel(KernelTags::CPU_CUSTOM_CLONE));
EXPECT_TRUE(checkCallKernel(KernelTags::CPU_CUSTOM_BGR2GRAY));
}
TEST_F(HeteroGraph, Use_Only_Another_Backend)
{
//in0 -> fluid::GAdd -> tmp -> fluid::GClone -> fluid::BGR2Gray -> out
// ^
// |
//in1 --------`
cv::Mat in_mat1(300, 300, CV_8UC3),
in_mat2(300, 300, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<fluid::GAdd, fluid::GClone, fluid::BGR2Gray>();
cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat), cv::compile_args(cv::gapi::use_only{pkg}));
EXPECT_TRUE(checkCallKernel(KernelTags::FLUID_CUSTOM_ADD));
EXPECT_TRUE(checkCallKernel(KernelTags::FLUID_CUSTOM_CLONE));
EXPECT_TRUE(checkCallKernel(KernelTags::FLUID_CUSTOM_BGR2GRAY));
}
TEST_F(HeteroGraph, Use_Only_Hetero_Backend)
{
//in0 -> cpu::GAdd -> tmp -> fluid::GClone -> fluid::BGR2Gray -> out
// ^
// |
//in1 --------`
cv::Mat in_mat1(300, 300, CV_8UC3),
in_mat2(300, 300, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<cpu::GAdd, fluid::GClone, fluid::BGR2Gray>();
cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat), cv::compile_args(cv::gapi::use_only{pkg}));
EXPECT_TRUE(checkCallKernel(KernelTags::CPU_CUSTOM_ADD));
EXPECT_TRUE(checkCallKernel(KernelTags::FLUID_CUSTOM_CLONE));
EXPECT_TRUE(checkCallKernel(KernelTags::FLUID_CUSTOM_BGR2GRAY));
}
TEST_F(HeteroGraph, Use_Only_Not_Found_Default)
{
//in0 -> GCPUAdd -> tmp -> fluid::GClone -> fluid::BGR2Gray -> out
// ^
// |
//in1 --------`
cv::Mat in_mat1(300, 300, CV_8UC3),
in_mat2(300, 300, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<fluid::GClone, fluid::BGR2Gray>();
EXPECT_ANY_THROW(cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat), cv::compile_args(cv::gapi::use_only{pkg})));
}
TEST_F(HeteroGraph, Use_Only_Not_Found_Custom)
{
//in0 -> cpu::GAdd -> tmp -> fluid::GClone -> fluid::BGR2Gray -> out
// ^
// |
//in1 --------`
cv::Mat in_mat1(300, 300, CV_8UC3),
in_mat2(300, 300, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<cpu::GAdd, fluid::BGR2Gray>();
EXPECT_ANY_THROW(cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat), cv::compile_args(cv::gapi::use_only{pkg})));
}
TEST_F(HeteroGraph, Use_Only_Other_Package_Ignored)
{
//in0 -> cpu::GAdd -> tmp -> fluid::GClone -> fluid::BGR2Gray -> out
// ^
// |
//in1 --------`
cv::Mat in_mat1(300, 300, CV_8UC3),
in_mat2(300, 300, CV_8UC3),
out_mat;
auto pkg = cv::gapi::kernels<cpu::GAdd, fluid::BGR2Gray>();
auto clone_pkg = cv::gapi::kernels<cpu::GClone>();
EXPECT_ANY_THROW(cv::GComputation(cv::GIn(in[0], in[1]), cv::GOut(out)).
apply(cv::gin(in_mat1, in_mat2), cv::gout(out_mat),
cv::compile_args(clone_pkg, cv::gapi::use_only{pkg})));
}
} // namespace opencv_test