unittests/XRay/ProfileTest.cpp - llvm - Git at Google

 //===- ProfileTest.cpp - XRay Profile unit tests ----------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 #include "llvm/XRay/Profile.h"
 #include "gmock/gmock.h"
 #include "gtest/gtest.h"

 #include <numeric>

 namespace llvm {
 namespace xray {
 namespace {

 using ::testing::AllOf;
 using ::testing::ElementsAre;
 using ::testing::Eq;
 using ::testing::Field;
 using ::testing::Not;
 using ::testing::Pair;
 using ::testing::UnorderedElementsAre;

 TEST(ProfileTest, CreateProfile) { Profile P; }

 TEST(ProfileTest, InternPath) {
   Profile P;
   auto Path0 = P.internPath({3, 2, 1});
   auto Path1 = P.internPath({3, 2, 1});
   auto Path2 = P.internPath({2, 1});
   EXPECT_THAT(Path0, Eq(Path1));
   EXPECT_THAT(Path0, Not(Eq(Path2)));
 }

 TEST(ProfileTest, ExpandPath) {
   Profile P;
   auto PathID = P.internPath({3, 2, 1});
   auto PathOrError = P.expandPath(PathID);
   if (!PathOrError)
     FAIL() << "Error: " << PathOrError.takeError();
   EXPECT_THAT(PathOrError.get(), ElementsAre(3, 2, 1));
 }

 TEST(ProfileTest, AddBlocks) {
   Profile P;
   // Expect an error on adding empty blocks.
   EXPECT_TRUE(errorToBool(P.addBlock({})));

   // Thread blocks may not be empty.
   EXPECT_TRUE(errorToBool(P.addBlock({1, {}})));

   // Thread blocks with data must succeed.
   EXPECT_FALSE(errorToBool(P.addBlock(
       Profile::Block{Profile::ThreadID{1},
                      {
                          {P.internPath({2, 1}), Profile::Data{1, 1000}},
                          {P.internPath({3, 2, 1}), Profile::Data{10, 100}},
                      }})));
 }

 TEST(ProfileTest, CopyProfile) {
   Profile P0, P1;
   EXPECT_FALSE(errorToBool(P0.addBlock(
       Profile::Block{Profile::ThreadID{1},
                      {
                          {P0.internPath({2, 1}), Profile::Data{1, 1000}},
                          {P0.internPath({3, 2, 1}), Profile::Data{10, 100}},
                      }})));
   P1 = P0;
   EXPECT_THAT(
       P1, UnorderedElementsAre(AllOf(
               Field(&Profile::Block::Thread, Eq(Profile::ThreadID{1})),
               Field(&Profile::Block::PathData,
                     UnorderedElementsAre(
                         Pair(P1.internPath({2, 1}),
                              AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
                                    Field(&Profile::Data::CumulativeLocalTime,
                                          Eq(1000u)))),
                         Pair(P1.internPath({3, 2, 1}),
                              AllOf(Field(&Profile::Data::CallCount, Eq(10u)),
                                    Field(&Profile::Data::CumulativeLocalTime,
                                          Eq(100u)))))))));
 }

 TEST(ProfileTest, MoveProfile) {
   Profile P0, P1;
   EXPECT_FALSE(errorToBool(P0.addBlock(
       Profile::Block{Profile::ThreadID{1},
                      {
                          {P0.internPath({2, 1}), Profile::Data{1, 1000}},
                          {P0.internPath({3, 2, 1}), Profile::Data{10, 100}},
                      }})));
   P1 = std::move(P0);
   EXPECT_THAT(
       P1, UnorderedElementsAre(AllOf(
               Field(&Profile::Block::Thread, Eq(Profile::ThreadID{1})),
               Field(&Profile::Block::PathData,
                     UnorderedElementsAre(
                         Pair(P1.internPath({2, 1}),
                              AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
                                    Field(&Profile::Data::CumulativeLocalTime,
                                          Eq(1000u)))),
                         Pair(P1.internPath({3, 2, 1}),
                              AllOf(Field(&Profile::Data::CallCount, Eq(10u)),
                                    Field(&Profile::Data::CumulativeLocalTime,
                                          Eq(100u)))))))));
   EXPECT_THAT(P0, UnorderedElementsAre());
 }

 TEST(ProfileTest, MergeProfilesByThread) {
   Profile P0, P1;

   // Set up the blocks for two different threads in P0.
   EXPECT_FALSE(errorToBool(P0.addBlock(
       Profile::Block{Profile::ThreadID{1},
                      {{P0.internPath({2, 1}), Profile::Data{1, 1000}},
                       {P0.internPath({4, 1}), Profile::Data{1, 1000}}}})));
   EXPECT_FALSE(errorToBool(P0.addBlock(
       Profile::Block{Profile::ThreadID{2},
                      {{P0.internPath({3, 1}), Profile::Data{1, 1000}}}})));

   // Set up the blocks for two different threads in P1.
   EXPECT_FALSE(errorToBool(P1.addBlock(
       Profile::Block{Profile::ThreadID{1},
                      {{P1.internPath({2, 1}), Profile::Data{1, 1000}}}})));
   EXPECT_FALSE(errorToBool(P1.addBlock(
       Profile::Block{Profile::ThreadID{2},
                      {{P1.internPath({3, 1}), Profile::Data{1, 1000}},
                       {P1.internPath({4, 1}), Profile::Data{1, 1000}}}})));

   Profile Merged = mergeProfilesByThread(P0, P1);
   EXPECT_THAT(
       Merged,
       UnorderedElementsAre(
           // We want to see two threads after the merge.
           AllOf(Field(&Profile::Block::Thread, Eq(Profile::ThreadID{1})),
                 Field(&Profile::Block::PathData,
                       UnorderedElementsAre(
                           Pair(Merged.internPath({2, 1}),
                                AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
                                      Field(&Profile::Data::CumulativeLocalTime,
                                            Eq(2000u)))),
                           Pair(Merged.internPath({4, 1}),
                                AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
                                      Field(&Profile::Data::CumulativeLocalTime,
                                            Eq(1000u))))))),
           AllOf(Field(&Profile::Block::Thread, Eq(Profile::ThreadID{2})),
                 Field(&Profile::Block::PathData,
                       UnorderedElementsAre(
                           Pair(Merged.internPath({3, 1}),
                                AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
                                      Field(&Profile::Data::CumulativeLocalTime,
                                            Eq(2000u)))),
                           Pair(Merged.internPath({4, 1}),
                                AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
                                      Field(&Profile::Data::CumulativeLocalTime,
                                            Eq(1000u)))))))));
 }

 TEST(ProfileTest, MergeProfilesByStack) {
   Profile P0, P1;
   EXPECT_FALSE(errorToBool(P0.addBlock(
       Profile::Block{Profile::ThreadID{1},
                      {{P0.internPath({2, 1}), Profile::Data{1, 1000}}}})));
   EXPECT_FALSE(errorToBool(P1.addBlock(
       Profile::Block{Profile::ThreadID{2},
                      {{P1.internPath({2, 1}), Profile::Data{1, 1000}}}})));

   Profile Merged = mergeProfilesByStack(P0, P1);
   EXPECT_THAT(Merged,
               ElementsAre(AllOf(
                   // We expect that we lose the ThreadID dimension in this
                   // algorithm.
                   Field(&Profile::Block::Thread, Eq(Profile::ThreadID{0})),
                   Field(&Profile::Block::PathData,
                         ElementsAre(Pair(
                             Merged.internPath({2, 1}),
                             AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
                                   Field(&Profile::Data::CumulativeLocalTime,
                                         Eq(2000u)))))))));
 }

 TEST(ProfileTest, MergeProfilesByStackAccumulate) {
   std::vector<Profile> Profiles(3);
   EXPECT_FALSE(errorToBool(Profiles[0].addBlock(Profile::Block{
       Profile::ThreadID{1},
       {{Profiles[0].internPath({2, 1}), Profile::Data{1, 1000}}}})));
   EXPECT_FALSE(errorToBool(Profiles[1].addBlock(Profile::Block{
       Profile::ThreadID{2},
       {{Profiles[1].internPath({2, 1}), Profile::Data{1, 1000}}}})));
   EXPECT_FALSE(errorToBool(Profiles[2].addBlock(Profile::Block{
       Profile::ThreadID{3},
       {{Profiles[2].internPath({2, 1}), Profile::Data{1, 1000}}}})));
   Profile Merged = std::accumulate(Profiles.begin(), Profiles.end(), Profile(),
                                    mergeProfilesByStack);
   EXPECT_THAT(Merged,
               ElementsAre(AllOf(
                   // We expect that we lose the ThreadID dimension in this
                   // algorithm.
                   Field(&Profile::Block::Thread, Eq(Profile::ThreadID{0})),
                   Field(&Profile::Block::PathData,
                         ElementsAre(Pair(
                             Merged.internPath({2, 1}),
                             AllOf(Field(&Profile::Data::CallCount, Eq(3u)),
                                   Field(&Profile::Data::CumulativeLocalTime,
                                         Eq(3000u)))))))));
 }

 TEST(ProfileTest, MergeProfilesByThreadAccumulate) {
   std::vector<Profile> Profiles(2);

   // Set up the blocks for two different threads in Profiles[0].
   EXPECT_FALSE(errorToBool(Profiles[0].addBlock(Profile::Block{
       Profile::ThreadID{1},
       {{Profiles[0].internPath({2, 1}), Profile::Data{1, 1000}},
        {Profiles[0].internPath({4, 1}), Profile::Data{1, 1000}}}})));
   EXPECT_FALSE(errorToBool(Profiles[0].addBlock(Profile::Block{
       Profile::ThreadID{2},
       {{Profiles[0].internPath({3, 1}), Profile::Data{1, 1000}}}})));

   // Set up the blocks for two different threads in Profiles[1].
   EXPECT_FALSE(errorToBool(Profiles[1].addBlock(Profile::Block{
       Profile::ThreadID{1},
       {{Profiles[1].internPath({2, 1}), Profile::Data{1, 1000}}}})));
   EXPECT_FALSE(errorToBool(Profiles[1].addBlock(Profile::Block{
       Profile::ThreadID{2},
       {{Profiles[1].internPath({3, 1}), Profile::Data{1, 1000}},
        {Profiles[1].internPath({4, 1}), Profile::Data{1, 1000}}}})));

   Profile Merged = std::accumulate(Profiles.begin(), Profiles.end(), Profile(),
                                    mergeProfilesByThread);
   EXPECT_THAT(
       Merged,
       UnorderedElementsAre(
           // We want to see two threads after the merge.
           AllOf(Field(&Profile::Block::Thread, Eq(Profile::ThreadID{1})),
                 Field(&Profile::Block::PathData,
                       UnorderedElementsAre(
                           Pair(Merged.internPath({2, 1}),
                                AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
                                      Field(&Profile::Data::CumulativeLocalTime,
                                            Eq(2000u)))),
                           Pair(Merged.internPath({4, 1}),
                                AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
                                      Field(&Profile::Data::CumulativeLocalTime,
                                            Eq(1000u))))))),
           AllOf(Field(&Profile::Block::Thread, Eq(Profile::ThreadID{2})),
                 Field(&Profile::Block::PathData,
                       UnorderedElementsAre(
                           Pair(Merged.internPath({3, 1}),
                                AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
                                      Field(&Profile::Data::CumulativeLocalTime,
                                            Eq(2000u)))),
                           Pair(Merged.internPath({4, 1}),
                                AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
                                      Field(&Profile::Data::CumulativeLocalTime,
                                            Eq(1000u)))))))));
 }
 // FIXME: Add a test creating a Trace and generating a Profile
 // FIXME: Add tests for ranking/sorting profile blocks by dimension

 } // namespace
 } // namespace xray
 } // namespace llvm
	//===- ProfileTest.cpp - XRay Profile unit tests ----------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	#include "llvm/XRay/Profile.h"
	#include "gmock/gmock.h"
	#include "gtest/gtest.h"

	#include <numeric>

	namespace llvm {
	namespace xray {
	namespace {

	using ::testing::AllOf;
	using ::testing::ElementsAre;
	using ::testing::Eq;
	using ::testing::Field;
	using ::testing::Not;
	using ::testing::Pair;
	using ::testing::UnorderedElementsAre;

	TEST(ProfileTest, CreateProfile) { Profile P; }

	TEST(ProfileTest, InternPath) {
	Profile P;
	auto Path0 = P.internPath({3, 2, 1});
	auto Path1 = P.internPath({3, 2, 1});
	auto Path2 = P.internPath({2, 1});
	EXPECT_THAT(Path0, Eq(Path1));
	EXPECT_THAT(Path0, Not(Eq(Path2)));
	}

	TEST(ProfileTest, ExpandPath) {
	Profile P;
	auto PathID = P.internPath({3, 2, 1});
	auto PathOrError = P.expandPath(PathID);
	if (!PathOrError)
	FAIL() << "Error: " << PathOrError.takeError();
	EXPECT_THAT(PathOrError.get(), ElementsAre(3, 2, 1));
	}

	TEST(ProfileTest, AddBlocks) {
	Profile P;
	// Expect an error on adding empty blocks.
	EXPECT_TRUE(errorToBool(P.addBlock({})));

	// Thread blocks may not be empty.
	EXPECT_TRUE(errorToBool(P.addBlock({1, {}})));

	// Thread blocks with data must succeed.
	EXPECT_FALSE(errorToBool(P.addBlock(
	Profile::Block{Profile::ThreadID{1},
	{
	{P.internPath({2, 1}), Profile::Data{1, 1000}},
	{P.internPath({3, 2, 1}), Profile::Data{10, 100}},
	}})));
	}

	TEST(ProfileTest, CopyProfile) {
	Profile P0, P1;
	EXPECT_FALSE(errorToBool(P0.addBlock(
	Profile::Block{Profile::ThreadID{1},
	{
	{P0.internPath({2, 1}), Profile::Data{1, 1000}},
	{P0.internPath({3, 2, 1}), Profile::Data{10, 100}},
	}})));
	P1 = P0;
	EXPECT_THAT(
	P1, UnorderedElementsAre(AllOf(
	Field(&Profile::Block::Thread, Eq(Profile::ThreadID{1})),
	Field(&Profile::Block::PathData,
	UnorderedElementsAre(
	Pair(P1.internPath({2, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(1000u)))),
	Pair(P1.internPath({3, 2, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(10u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(100u)))))))));
	}

	TEST(ProfileTest, MoveProfile) {
	Profile P0, P1;
	EXPECT_FALSE(errorToBool(P0.addBlock(
	Profile::Block{Profile::ThreadID{1},
	{
	{P0.internPath({2, 1}), Profile::Data{1, 1000}},
	{P0.internPath({3, 2, 1}), Profile::Data{10, 100}},
	}})));
	P1 = std::move(P0);
	EXPECT_THAT(
	P1, UnorderedElementsAre(AllOf(
	Field(&Profile::Block::Thread, Eq(Profile::ThreadID{1})),
	Field(&Profile::Block::PathData,
	UnorderedElementsAre(
	Pair(P1.internPath({2, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(1000u)))),
	Pair(P1.internPath({3, 2, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(10u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(100u)))))))));
	EXPECT_THAT(P0, UnorderedElementsAre());
	}

	TEST(ProfileTest, MergeProfilesByThread) {
	Profile P0, P1;

	// Set up the blocks for two different threads in P0.
	EXPECT_FALSE(errorToBool(P0.addBlock(
	Profile::Block{Profile::ThreadID{1},
	{{P0.internPath({2, 1}), Profile::Data{1, 1000}},
	{P0.internPath({4, 1}), Profile::Data{1, 1000}}}})));
	EXPECT_FALSE(errorToBool(P0.addBlock(
	Profile::Block{Profile::ThreadID{2},
	{{P0.internPath({3, 1}), Profile::Data{1, 1000}}}})));

	// Set up the blocks for two different threads in P1.
	EXPECT_FALSE(errorToBool(P1.addBlock(
	Profile::Block{Profile::ThreadID{1},
	{{P1.internPath({2, 1}), Profile::Data{1, 1000}}}})));
	EXPECT_FALSE(errorToBool(P1.addBlock(
	Profile::Block{Profile::ThreadID{2},
	{{P1.internPath({3, 1}), Profile::Data{1, 1000}},
	{P1.internPath({4, 1}), Profile::Data{1, 1000}}}})));

	Profile Merged = mergeProfilesByThread(P0, P1);
	EXPECT_THAT(
	Merged,
	UnorderedElementsAre(
	// We want to see two threads after the merge.
	AllOf(Field(&Profile::Block::Thread, Eq(Profile::ThreadID{1})),
	Field(&Profile::Block::PathData,
	UnorderedElementsAre(
	Pair(Merged.internPath({2, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(2000u)))),
	Pair(Merged.internPath({4, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(1000u))))))),
	AllOf(Field(&Profile::Block::Thread, Eq(Profile::ThreadID{2})),
	Field(&Profile::Block::PathData,
	UnorderedElementsAre(
	Pair(Merged.internPath({3, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(2000u)))),
	Pair(Merged.internPath({4, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(1000u)))))))));
	}

	TEST(ProfileTest, MergeProfilesByStack) {
	Profile P0, P1;
	EXPECT_FALSE(errorToBool(P0.addBlock(
	Profile::Block{Profile::ThreadID{1},
	{{P0.internPath({2, 1}), Profile::Data{1, 1000}}}})));
	EXPECT_FALSE(errorToBool(P1.addBlock(
	Profile::Block{Profile::ThreadID{2},
	{{P1.internPath({2, 1}), Profile::Data{1, 1000}}}})));

	Profile Merged = mergeProfilesByStack(P0, P1);
	EXPECT_THAT(Merged,
	ElementsAre(AllOf(
	// We expect that we lose the ThreadID dimension in this
	// algorithm.
	Field(&Profile::Block::Thread, Eq(Profile::ThreadID{0})),
	Field(&Profile::Block::PathData,
	ElementsAre(Pair(
	Merged.internPath({2, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(2000u)))))))));
	}

	TEST(ProfileTest, MergeProfilesByStackAccumulate) {
	std::vector<Profile> Profiles(3);
	EXPECT_FALSE(errorToBool(Profiles[0].addBlock(Profile::Block{
	Profile::ThreadID{1},
	{{Profiles[0].internPath({2, 1}), Profile::Data{1, 1000}}}})));
	EXPECT_FALSE(errorToBool(Profiles[1].addBlock(Profile::Block{
	Profile::ThreadID{2},
	{{Profiles[1].internPath({2, 1}), Profile::Data{1, 1000}}}})));
	EXPECT_FALSE(errorToBool(Profiles[2].addBlock(Profile::Block{
	Profile::ThreadID{3},
	{{Profiles[2].internPath({2, 1}), Profile::Data{1, 1000}}}})));
	Profile Merged = std::accumulate(Profiles.begin(), Profiles.end(), Profile(),
	mergeProfilesByStack);
	EXPECT_THAT(Merged,
	ElementsAre(AllOf(
	// We expect that we lose the ThreadID dimension in this
	// algorithm.
	Field(&Profile::Block::Thread, Eq(Profile::ThreadID{0})),
	Field(&Profile::Block::PathData,
	ElementsAre(Pair(
	Merged.internPath({2, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(3u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(3000u)))))))));
	}

	TEST(ProfileTest, MergeProfilesByThreadAccumulate) {
	std::vector<Profile> Profiles(2);

	// Set up the blocks for two different threads in Profiles[0].
	EXPECT_FALSE(errorToBool(Profiles[0].addBlock(Profile::Block{
	Profile::ThreadID{1},
	{{Profiles[0].internPath({2, 1}), Profile::Data{1, 1000}},
	{Profiles[0].internPath({4, 1}), Profile::Data{1, 1000}}}})));
	EXPECT_FALSE(errorToBool(Profiles[0].addBlock(Profile::Block{
	Profile::ThreadID{2},
	{{Profiles[0].internPath({3, 1}), Profile::Data{1, 1000}}}})));

	// Set up the blocks for two different threads in Profiles[1].
	EXPECT_FALSE(errorToBool(Profiles[1].addBlock(Profile::Block{
	Profile::ThreadID{1},
	{{Profiles[1].internPath({2, 1}), Profile::Data{1, 1000}}}})));
	EXPECT_FALSE(errorToBool(Profiles[1].addBlock(Profile::Block{
	Profile::ThreadID{2},
	{{Profiles[1].internPath({3, 1}), Profile::Data{1, 1000}},
	{Profiles[1].internPath({4, 1}), Profile::Data{1, 1000}}}})));

	Profile Merged = std::accumulate(Profiles.begin(), Profiles.end(), Profile(),
	mergeProfilesByThread);
	EXPECT_THAT(
	Merged,
	UnorderedElementsAre(
	// We want to see two threads after the merge.
	AllOf(Field(&Profile::Block::Thread, Eq(Profile::ThreadID{1})),
	Field(&Profile::Block::PathData,
	UnorderedElementsAre(
	Pair(Merged.internPath({2, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(2000u)))),
	Pair(Merged.internPath({4, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(1000u))))))),
	AllOf(Field(&Profile::Block::Thread, Eq(Profile::ThreadID{2})),
	Field(&Profile::Block::PathData,
	UnorderedElementsAre(
	Pair(Merged.internPath({3, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(2u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(2000u)))),
	Pair(Merged.internPath({4, 1}),
	AllOf(Field(&Profile::Data::CallCount, Eq(1u)),
	Field(&Profile::Data::CumulativeLocalTime,
	Eq(1000u)))))))));
	}
	// FIXME: Add a test creating a Trace and generating a Profile
	// FIXME: Add tests for ranking/sorting profile blocks by dimension

	} // namespace
	} // namespace xray
	} // namespace llvm