garnet/lib/measure/time_between_unittest.cc - fuchsia - Git at Google

 // Copyright 2017 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "garnet/lib/measure/time_between.h"

 #include <vector>

 #include "garnet/lib/measure/test_events.h"
 #include "gtest/gtest.h"

 namespace tracing {
 namespace measure {

 namespace {

 TEST(MeasureTimeBetweenTest, Instant) {
   std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec({42u,
                                                          {"first_event", "category_foo"},
                                                          Anchor::Begin,
                                                          {"second_event", "category_foo"},
                                                          Anchor::Begin})};

   MeasureTimeBetween measure(std::move(specs));
   measure.Process(test::Instant("first_event", "category_foo", 1u));
   measure.Process(test::Instant("first_event", "category_foo", 2u));
   measure.Process(test::Instant("second_event", "category_foo", 4u));
   measure.Process(test::Instant("second_event", "category_foo", 10u));
   measure.Process(test::Instant("first_event", "category_foo", 12u));
   measure.Process(test::Instant("second_event", "category_foo", 13u));

   auto results = measure.results();
   EXPECT_EQ(1u, results.size());
   EXPECT_EQ(std::vector<uint64_t>({2u, 1u}), results[42u]);
 }

 // Verifies that we can measure the time between consecutive occurences of the
 // same event.
 TEST(MeasureTimeBetweenTest, SameEvent) {
   std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
       {42u, {"bar", "category_foo"}, Anchor::Begin, {"bar", "category_foo"}, Anchor::Begin})};

   MeasureTimeBetween measure(std::move(specs));
   measure.Process(test::Instant("bar", "category_foo", 1u));
   measure.Process(test::Instant("bar", "category_foo", 1u));
   measure.Process(test::Instant("bar", "category_foo", 4u));
   measure.Process(test::Instant("bar", "category_foo", 20u));

   auto results = measure.results();
   EXPECT_EQ(1u, results.size());
   EXPECT_EQ(std::vector<uint64_t>({0u, 3u, 16u}), results[42u]);
 }

 TEST(MeasureTimeBetweenTest, AnchorsEndBegin) {
   std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec({42u,
                                                          {"first_event", "category_foo"},
                                                          Anchor::End,
                                                          {"second_event", "category_foo"},
                                                          Anchor::Begin})};

   MeasureTimeBetween measure(std::move(specs));
   measure.Process(test::DurationBegin("first_event", "category_foo", 1u));
   measure.Process(test::DurationEnd("first_event", "category_foo", 3u));
   measure.Process(test::DurationBegin("second_event", "category_foo", 4u));
   measure.Process(test::DurationEnd("second_event", "category_foo", 8u));

   auto results = measure.results();
   EXPECT_EQ(1u, results.size());
   EXPECT_EQ(std::vector<uint64_t>({1u}), results[42u]);
 }

 TEST(MeasureTimeBetweenTest, AnchorsBeginEnd) {
   std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec({42u,
                                                          {"first_event", "category_foo"},
                                                          Anchor::End,
                                                          {"second_event", "category_foo"},
                                                          Anchor::Begin})};

   MeasureTimeBetween measure(std::move(specs));
   measure.Process(test::DurationBegin("first_event", "category_foo", 1u));
   measure.Process(test::DurationEnd("first_event", "category_foo", 3u));
   measure.Process(test::DurationBegin("second_event", "category_foo", 4u));
   measure.Process(test::DurationEnd("second_event", "category_foo", 8u));

   auto results = measure.results();
   EXPECT_EQ(1u, results.size());
   EXPECT_EQ(std::vector<uint64_t>({1u}), results[42u]);
 }

 TEST(MeasureTimeBetweenTest, AnchorsSameEvent) {
   std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
       {42u, {"bar", "category_foo"}, Anchor::End, {"bar", "category_foo"}, Anchor::Begin})};

   MeasureTimeBetween measure(std::move(specs));
   measure.Process(test::DurationBegin("bar", "category_foo", 1u));
   measure.Process(test::DurationEnd("bar", "category_foo", 3u));
   measure.Process(test::DurationBegin("bar", "category_foo", 4u));
   measure.Process(test::DurationEnd("bar", "category_foo", 8u));
   measure.Process(test::DurationBegin("bar", "category_foo", 16u));
   measure.Process(test::DurationEnd("bar", "category_foo", 20u));

   auto results = measure.results();
   EXPECT_EQ(1u, results.size());
   EXPECT_EQ(std::vector<uint64_t>({1u, 8u}), results[42u]);
 }

 TEST(MeasureTimeBetweenTest, AnchorsSameEventCompleteEndToBegin) {
   std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
       {42u, {"bar", "category_foo"}, Anchor::End, {"bar", "category_foo"}, Anchor::Begin})};

   MeasureTimeBetween measure(std::move(specs));
   measure.Process(test::DurationComplete("bar", "category_foo", 1u, 3u));
   measure.Process(test::DurationComplete("bar", "category_foo", 4u, 8u));
   measure.Process(test::DurationComplete("bar", "category_foo", 16u, 20u));

   auto results = measure.results();
   EXPECT_EQ(1u, results.size());
   EXPECT_EQ(std::vector<uint64_t>({1u, 8u}), results[42u]);
 }

 TEST(MeasureTimeBetweenTest, AnchorsSameEventCompleteBeginToEnd) {
   std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
       {42u, {"bar", "category_foo"}, Anchor::Begin, {"bar", "category_foo"}, Anchor::End})};

   MeasureTimeBetween measure(std::move(specs));
   measure.Process(test::DurationComplete("bar", "category_foo", 1u, 3u));
   measure.Process(test::DurationComplete("bar", "category_foo", 4u, 8u));
   measure.Process(test::DurationComplete("bar", "category_foo", 16u, 20u));

   auto results = measure.results();
   EXPECT_EQ(1u, results.size());
   EXPECT_EQ(std::vector<uint64_t>({7u, 16u}), results[42u]);
 }

 TEST(MeasureTimeBetweenTest, AsyncAndFlow) {
   std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
       {42u, {"bar", "async_event"}, Anchor::End, {"bar", "flow_event"}, Anchor::Begin})};

   MeasureTimeBetween measure(std::move(specs));
   measure.Process(test::AsyncBegin(1000u, "bar", "async_event", 1u));
   measure.Process(test::AsyncEnd(1000u, "bar", "async_event", 5u));
   measure.Process(test::FlowBegin(1001u, "bar", "flow_event", 7u));
   measure.Process(test::FlowEnd(1001u, "bar", "flow_event", 10u));

   auto results = measure.results();
   EXPECT_EQ(1u, results.size());
   EXPECT_EQ(std::vector<uint64_t>({2u}), results[42u]);
 }

 }  // namespace

 }  // namespace measure
 }  // namespace tracing
	// Copyright 2017 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "garnet/lib/measure/time_between.h"

	#include <vector>

	#include "garnet/lib/measure/test_events.h"
	#include "gtest/gtest.h"

	namespace tracing {
	namespace measure {

	namespace {

	TEST(MeasureTimeBetweenTest, Instant) {
	std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec({42u,
	{"first_event", "category_foo"},
	Anchor::Begin,
	{"second_event", "category_foo"},
	Anchor::Begin})};

	MeasureTimeBetween measure(std::move(specs));
	measure.Process(test::Instant("first_event", "category_foo", 1u));
	measure.Process(test::Instant("first_event", "category_foo", 2u));
	measure.Process(test::Instant("second_event", "category_foo", 4u));
	measure.Process(test::Instant("second_event", "category_foo", 10u));
	measure.Process(test::Instant("first_event", "category_foo", 12u));
	measure.Process(test::Instant("second_event", "category_foo", 13u));

	auto results = measure.results();
	EXPECT_EQ(1u, results.size());
	EXPECT_EQ(std::vector<uint64_t>({2u, 1u}), results[42u]);
	}

	// Verifies that we can measure the time between consecutive occurences of the
	// same event.
	TEST(MeasureTimeBetweenTest, SameEvent) {
	std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
	{42u, {"bar", "category_foo"}, Anchor::Begin, {"bar", "category_foo"}, Anchor::Begin})};

	MeasureTimeBetween measure(std::move(specs));
	measure.Process(test::Instant("bar", "category_foo", 1u));
	measure.Process(test::Instant("bar", "category_foo", 1u));
	measure.Process(test::Instant("bar", "category_foo", 4u));
	measure.Process(test::Instant("bar", "category_foo", 20u));

	auto results = measure.results();
	EXPECT_EQ(1u, results.size());
	EXPECT_EQ(std::vector<uint64_t>({0u, 3u, 16u}), results[42u]);
	}

	TEST(MeasureTimeBetweenTest, AnchorsEndBegin) {
	std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec({42u,
	{"first_event", "category_foo"},
	Anchor::End,
	{"second_event", "category_foo"},
	Anchor::Begin})};

	MeasureTimeBetween measure(std::move(specs));
	measure.Process(test::DurationBegin("first_event", "category_foo", 1u));
	measure.Process(test::DurationEnd("first_event", "category_foo", 3u));
	measure.Process(test::DurationBegin("second_event", "category_foo", 4u));
	measure.Process(test::DurationEnd("second_event", "category_foo", 8u));

	auto results = measure.results();
	EXPECT_EQ(1u, results.size());
	EXPECT_EQ(std::vector<uint64_t>({1u}), results[42u]);
	}

	TEST(MeasureTimeBetweenTest, AnchorsBeginEnd) {
	std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec({42u,
	{"first_event", "category_foo"},
	Anchor::End,
	{"second_event", "category_foo"},
	Anchor::Begin})};

	MeasureTimeBetween measure(std::move(specs));
	measure.Process(test::DurationBegin("first_event", "category_foo", 1u));
	measure.Process(test::DurationEnd("first_event", "category_foo", 3u));
	measure.Process(test::DurationBegin("second_event", "category_foo", 4u));
	measure.Process(test::DurationEnd("second_event", "category_foo", 8u));

	auto results = measure.results();
	EXPECT_EQ(1u, results.size());
	EXPECT_EQ(std::vector<uint64_t>({1u}), results[42u]);
	}

	TEST(MeasureTimeBetweenTest, AnchorsSameEvent) {
	std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
	{42u, {"bar", "category_foo"}, Anchor::End, {"bar", "category_foo"}, Anchor::Begin})};

	MeasureTimeBetween measure(std::move(specs));
	measure.Process(test::DurationBegin("bar", "category_foo", 1u));
	measure.Process(test::DurationEnd("bar", "category_foo", 3u));
	measure.Process(test::DurationBegin("bar", "category_foo", 4u));
	measure.Process(test::DurationEnd("bar", "category_foo", 8u));
	measure.Process(test::DurationBegin("bar", "category_foo", 16u));
	measure.Process(test::DurationEnd("bar", "category_foo", 20u));

	auto results = measure.results();
	EXPECT_EQ(1u, results.size());
	EXPECT_EQ(std::vector<uint64_t>({1u, 8u}), results[42u]);
	}

	TEST(MeasureTimeBetweenTest, AnchorsSameEventCompleteEndToBegin) {
	std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
	{42u, {"bar", "category_foo"}, Anchor::End, {"bar", "category_foo"}, Anchor::Begin})};

	MeasureTimeBetween measure(std::move(specs));
	measure.Process(test::DurationComplete("bar", "category_foo", 1u, 3u));
	measure.Process(test::DurationComplete("bar", "category_foo", 4u, 8u));
	measure.Process(test::DurationComplete("bar", "category_foo", 16u, 20u));

	auto results = measure.results();
	EXPECT_EQ(1u, results.size());
	EXPECT_EQ(std::vector<uint64_t>({1u, 8u}), results[42u]);
	}

	TEST(MeasureTimeBetweenTest, AnchorsSameEventCompleteBeginToEnd) {
	std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
	{42u, {"bar", "category_foo"}, Anchor::Begin, {"bar", "category_foo"}, Anchor::End})};

	MeasureTimeBetween measure(std::move(specs));
	measure.Process(test::DurationComplete("bar", "category_foo", 1u, 3u));
	measure.Process(test::DurationComplete("bar", "category_foo", 4u, 8u));
	measure.Process(test::DurationComplete("bar", "category_foo", 16u, 20u));

	auto results = measure.results();
	EXPECT_EQ(1u, results.size());
	EXPECT_EQ(std::vector<uint64_t>({7u, 16u}), results[42u]);
	}

	TEST(MeasureTimeBetweenTest, AsyncAndFlow) {
	std::vector<TimeBetweenSpec> specs = {TimeBetweenSpec(
	{42u, {"bar", "async_event"}, Anchor::End, {"bar", "flow_event"}, Anchor::Begin})};

	MeasureTimeBetween measure(std::move(specs));
	measure.Process(test::AsyncBegin(1000u, "bar", "async_event", 1u));
	measure.Process(test::AsyncEnd(1000u, "bar", "async_event", 5u));
	measure.Process(test::FlowBegin(1001u, "bar", "flow_event", 7u));
	measure.Process(test::FlowEnd(1001u, "bar", "flow_event", 10u));

	auto results = measure.results();
	EXPECT_EQ(1u, results.size());
	EXPECT_EQ(std::vector<uint64_t>({2u}), results[42u]);
	}

	} // namespace

	} // namespace measure
	} // namespace tracing