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review.mlplatform.org / ml / armnn / 91e1d89ad35ad081a4d5995d541791fbefdb3060 / . / src / profiling / test / ProfilingTests.cpp
blob: 8a2f2bd88ef89c2aa316fb8fa2046ad0cba8f4c5 [file] [log] [blame]
//
// Copyright © 2017 Arm Ltd. All rights reserved.
// SPDX-License-Identifier: MIT
//
#include "../CommandHandlerKey.hpp"
#include "../CommandHandlerFunctor.hpp"
#include "../CommandHandlerRegistry.hpp"
#include "../EncodeVersion.hpp"
#include "../Packet.hpp"
#include <cstdint>
#include <cstring>
#include <boost/test/unit_test.hpp>
#include <map>
BOOST_AUTO_TEST_SUITE(ExternalProfiling)
BOOST_AUTO_TEST_CASE(CheckCommandHandlerKeyComparisons)
{
CommandHandlerKey testKey0(1, 1);
CommandHandlerKey testKey1(1, 1);
CommandHandlerKey testKey2(1, 1);
CommandHandlerKey testKey3(0, 0);
CommandHandlerKey testKey4(2, 2);
CommandHandlerKey testKey5(0, 2);
BOOST_CHECK(testKey1<testKey4);
BOOST_CHECK(testKey1>testKey3);
BOOST_CHECK(testKey1<=testKey4);
BOOST_CHECK(testKey1>=testKey3);
BOOST_CHECK(testKey1<=testKey2);
BOOST_CHECK(testKey1>=testKey2);
BOOST_CHECK(testKey1==testKey2);
BOOST_CHECK(testKey1==testKey1);
BOOST_CHECK(!(testKey1==testKey5));
BOOST_CHECK(!(testKey1!=testKey1));
BOOST_CHECK(testKey1!=testKey5);
BOOST_CHECK(testKey1==testKey2 && testKey2==testKey1);
BOOST_CHECK(testKey0==testKey1 && testKey1==testKey2 && testKey0==testKey2);
BOOST_CHECK(testKey1.GetPacketId()==1);
BOOST_CHECK(testKey1.GetVersion()==1);
std::vector<CommandHandlerKey> vect =
{
CommandHandlerKey(0,1), CommandHandlerKey(2,0), CommandHandlerKey(1,0),
CommandHandlerKey(2,1), CommandHandlerKey(1,1), CommandHandlerKey(0,1),
CommandHandlerKey(2,0), CommandHandlerKey(0,0)
};
std::sort(vect.begin(), vect.end());
std::vector<CommandHandlerKey> expectedVect =
{
CommandHandlerKey(0,0), CommandHandlerKey(0,1), CommandHandlerKey(0,1),
CommandHandlerKey(1,0), CommandHandlerKey(1,1), CommandHandlerKey(2,0),
CommandHandlerKey(2,0), CommandHandlerKey(2,1)
};
BOOST_CHECK(vect == expectedVect);
}
BOOST_AUTO_TEST_CASE(CheckEncodeVersion)
{
mlutil::Version version1(12);
BOOST_CHECK(version1.GetMajor() == 0);
BOOST_CHECK(version1.GetMinor() == 0);
BOOST_CHECK(version1.GetPatch() == 12);
mlutil::Version version2(4108);
BOOST_CHECK(version2.GetMajor() == 0);
BOOST_CHECK(version2.GetMinor() == 1);
BOOST_CHECK(version2.GetPatch() == 12);
mlutil::Version version3(4198412);
BOOST_CHECK(version3.GetMajor() == 1);
BOOST_CHECK(version3.GetMinor() == 1);
BOOST_CHECK(version3.GetPatch() == 12);
mlutil::Version version4(0);
BOOST_CHECK(version4.GetMajor() == 0);
BOOST_CHECK(version4.GetMinor() == 0);
BOOST_CHECK(version4.GetPatch() == 0);
mlutil::Version version5(1,0,0);
BOOST_CHECK(version5.GetEncodedValue() == 4194304);
}
BOOST_AUTO_TEST_CASE(CheckPacketClass)
{
const char* data = "test";
unsigned int length = static_cast<unsigned int>(std::strlen(data));
Packet packetTest1(472580096,length,data);
BOOST_CHECK_THROW(Packet packetTest2(472580096,0,""), armnn::Exception);
Packet packetTest3(472580096,0, nullptr);
BOOST_CHECK(packetTest1.GetLength() == length);
BOOST_CHECK(packetTest1.GetData() == data);
BOOST_CHECK(packetTest1.GetPacketFamily() == 7);
BOOST_CHECK(packetTest1.GetPacketId() == 43);
BOOST_CHECK(packetTest1.GetPacketType() == 3);
BOOST_CHECK(packetTest1.GetPacketClass() == 5);
}
// Create Derived Classes
class TestFunctorA : public CommandHandlerFunctor
{
public:
using CommandHandlerFunctor::CommandHandlerFunctor;
int GetCount() { return m_Count; }
void operator()(const Packet& packet) override
{
m_Count++;
}
private:
int m_Count = 0;
};
class TestFunctorB : public TestFunctorA
{
using TestFunctorA::TestFunctorA;
};
class TestFunctorC : public TestFunctorA
{
using TestFunctorA::TestFunctorA;
};
BOOST_AUTO_TEST_CASE(CheckCommandHandlerFunctor)
{
// Hard code the version as it will be the same during a single profiling session
uint32_t version = 1;
TestFunctorA testFunctorA(461, version);
TestFunctorB testFunctorB(963, version);
TestFunctorC testFunctorC(983, version);
CommandHandlerKey keyA(testFunctorA.GetPacketId(), testFunctorA.GetVersion());
CommandHandlerKey keyB(testFunctorB.GetPacketId(), testFunctorB.GetVersion());
CommandHandlerKey keyC(testFunctorC.GetPacketId(), testFunctorC.GetVersion());
// Create the unwrapped map to simulate the Command Handler Registry
std::map<CommandHandlerKey, CommandHandlerFunctor*> registry;
registry.insert(std::make_pair(keyB, &testFunctorB));
registry.insert(std::make_pair(keyA, &testFunctorA));
registry.insert(std::make_pair(keyC, &testFunctorC));
// Check the order of the map is correct
auto it = registry.begin();
BOOST_CHECK(it->first==keyA);
it++;
BOOST_CHECK(it->first==keyB);
it++;
BOOST_CHECK(it->first==keyC);
Packet packetA(500000000, 0, nullptr);
Packet packetB(600000000, 0, nullptr);
Packet packetC(400000000, 0, nullptr);
// Check the correct operator of derived class is called
registry.at(CommandHandlerKey(packetA.GetPacketId(), version))->operator()(packetA);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 0);
BOOST_CHECK(testFunctorC.GetCount() == 0);
registry.at(CommandHandlerKey(packetB.GetPacketId(), version))->operator()(packetB);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 1);
BOOST_CHECK(testFunctorC.GetCount() == 0);
registry.at(CommandHandlerKey(packetC.GetPacketId(), version))->operator()(packetC);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 1);
BOOST_CHECK(testFunctorC.GetCount() == 1);
}
BOOST_AUTO_TEST_CASE(CheckCommandHandlerRegistry)
{
// Hard code the version as it will be the same during a single profiling session
uint32_t version = 1;
TestFunctorA testFunctorA(461, version);
TestFunctorB testFunctorB(963, version);
TestFunctorC testFunctorC(983, version);
// Create the Command Handler Registry
CommandHandlerRegistry registry;
// Register multiple different derived classes
registry.RegisterFunctor(&testFunctorA, testFunctorA.GetPacketId(), testFunctorA.GetVersion());
registry.RegisterFunctor(&testFunctorB, testFunctorB.GetPacketId(), testFunctorB.GetVersion());
registry.RegisterFunctor(&testFunctorC, testFunctorC.GetPacketId(), testFunctorC.GetVersion());
Packet packetA(500000000, 0, nullptr);
Packet packetB(600000000, 0, nullptr);
Packet packetC(400000000, 0, nullptr);
// Check the correct operator of derived class is called
registry.GetFunctor(packetA.GetPacketId(), version)->operator()(packetA);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 0);
BOOST_CHECK(testFunctorC.GetCount() == 0);
registry.GetFunctor(packetB.GetPacketId(), version)->operator()(packetB);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 1);
BOOST_CHECK(testFunctorC.GetCount() == 0);
registry.GetFunctor(packetC.GetPacketId(), version)->operator()(packetC);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 1);
BOOST_CHECK(testFunctorC.GetCount() == 1);
// Re-register an existing key with a new function
registry.RegisterFunctor(&testFunctorC, testFunctorA.GetPacketId(), version);
registry.GetFunctor(packetA.GetPacketId(), version)->operator()(packetC);
BOOST_CHECK(testFunctorA.GetCount() == 1);
BOOST_CHECK(testFunctorB.GetCount() == 1);
BOOST_CHECK(testFunctorC.GetCount() == 2);
// Check that non-existent key returns nullptr for its functor
BOOST_CHECK_THROW(registry.GetFunctor(0, 0), armnn::Exception);
}
BOOST_AUTO_TEST_SUITE_END()