base/power_monitor/battery_level_provider_unittest.cc - cobalt - Git at Google

 // Copyright 2020 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "base/power_monitor/battery_level_provider.h"

 #include "testing/gtest/include/gtest/gtest.h"

 namespace base {
 namespace {

 class FakeBatteryLevelProvider : public BatteryLevelProvider {
  public:
   using BatteryDetails = BatteryLevelProvider::BatteryDetails;

   FakeBatteryLevelProvider() = default;

   static BatteryState MakeBatteryState(
       const std::vector<BatteryDetails>& battery_details) {
     return BatteryLevelProvider::MakeBatteryState(battery_details);
   }
 };

 }  // namespace

 using BatteryDetails = FakeBatteryLevelProvider::BatteryDetails;

 TEST(BatteryLevelProviderTest, NoBattery) {
   auto state = FakeBatteryLevelProvider::MakeBatteryState({});
   EXPECT_EQ(0, state.battery_count);
   EXPECT_TRUE(state.is_external_power_connected);
   EXPECT_FALSE(state.current_capacity.has_value());
   EXPECT_FALSE(state.full_charged_capacity.has_value());
   EXPECT_NE(base::TimeTicks(), state.capture_time);
 }

 TEST(BatteryLevelProviderTest, SingleBatteryWithExternalPower) {
   auto state = FakeBatteryLevelProvider::MakeBatteryState(
 #if defined(STARBOARD)
       {BatteryDetails({true,
                        42,
                        100})});
 #else
       {BatteryDetails({.is_external_power_connected = true,
                        .current_capacity = 42,
                        .full_charged_capacity = 100})});
 #endif
   EXPECT_EQ(1, state.battery_count);
   EXPECT_TRUE(state.is_external_power_connected);
   EXPECT_EQ(42U, state.current_capacity);
   EXPECT_EQ(100U, state.full_charged_capacity);
   EXPECT_NE(base::TimeTicks(), state.capture_time);
 }

 TEST(BatteryLevelProviderTest, SingleBatteryDischarging) {
   auto state = FakeBatteryLevelProvider::MakeBatteryState(
 #if defined(STARBOARD)
       {BatteryDetails({false,
                        42,
                        100})});
 #else
       {BatteryDetails({.is_external_power_connected = false,
                        .current_capacity = 42,
                        .full_charged_capacity = 100})});
 #endif
   EXPECT_EQ(1, state.battery_count);
   EXPECT_FALSE(state.is_external_power_connected);
   EXPECT_EQ(42U, state.current_capacity);
   EXPECT_EQ(100U, state.full_charged_capacity);
   EXPECT_NE(base::TimeTicks(), state.capture_time);
 }

 TEST(BatteryLevelProviderTest, MultipleBatteriesWithExternalPower) {
   auto state = FakeBatteryLevelProvider::MakeBatteryState(
 #if defined(STARBOARD)
       {BatteryDetails({false,
                        42,
                        100}),
        BatteryDetails({true,
                        10,
                        100})});
 #else
       {BatteryDetails({.is_external_power_connected = false,
                        .current_capacity = 42,
                        .full_charged_capacity = 100}),
        BatteryDetails({.is_external_power_connected = true,
                        .current_capacity = 10,
                        .full_charged_capacity = 100})});
 #endif
   EXPECT_EQ(2, state.battery_count);
   EXPECT_TRUE(state.is_external_power_connected);
   EXPECT_EQ(absl::nullopt, state.current_capacity);
   EXPECT_EQ(absl::nullopt, state.full_charged_capacity);
   EXPECT_NE(base::TimeTicks(), state.capture_time);
 }

 TEST(BatteryLevelProviderTest, MultipleBatteriesDischarging) {
   auto state = FakeBatteryLevelProvider::MakeBatteryState(
 #if defined(STARBOARD)
       {BatteryDetails({false,
                        42,
                        100}),
        BatteryDetails({false,
                        10,
                        100})});
 #else
       {BatteryDetails({.is_external_power_connected = false,
                        .current_capacity = 42,
                        .full_charged_capacity = 100}),
        BatteryDetails({.is_external_power_connected = false,
                        .current_capacity = 10,
                        .full_charged_capacity = 100})});
 #endif
   EXPECT_EQ(2, state.battery_count);
   EXPECT_FALSE(state.is_external_power_connected);
   EXPECT_EQ(absl::nullopt, state.current_capacity);
   EXPECT_EQ(absl::nullopt, state.full_charged_capacity);
   EXPECT_NE(base::TimeTicks(), state.capture_time);
 }

 TEST(BatteryLevelProviderTest, SingleBatteryMAh) {
   auto state = FakeBatteryLevelProvider::MakeBatteryState({BatteryDetails(
 #if defined(STARBOARD)
       {false,
        42,
        100,
        12,
        BatteryLevelProvider::BatteryLevelUnit::kMAh})});
 #else
       {.is_external_power_connected = false,
        .current_capacity = 42,
        .full_charged_capacity = 100,
        .voltage_mv = 12,
        .charge_unit = BatteryLevelProvider::BatteryLevelUnit::kMAh})});
 #endif
   EXPECT_EQ(1, state.battery_count);
   EXPECT_FALSE(state.is_external_power_connected);
   EXPECT_EQ(42U, state.current_capacity);
   EXPECT_EQ(100U, state.full_charged_capacity);
   EXPECT_TRUE(state.voltage_mv.has_value());
   EXPECT_EQ(12U, *state.voltage_mv);
   EXPECT_EQ(BatteryLevelProvider::BatteryLevelUnit::kMAh, state.charge_unit);
   EXPECT_NE(base::TimeTicks(), state.capture_time);
 }

 }  // namespace base
	// Copyright 2020 The Chromium Authors
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "base/power_monitor/battery_level_provider.h"

	#include "testing/gtest/include/gtest/gtest.h"

	namespace base {
	namespace {

	class FakeBatteryLevelProvider : public BatteryLevelProvider {
	public:
	using BatteryDetails = BatteryLevelProvider::BatteryDetails;

	FakeBatteryLevelProvider() = default;

	static BatteryState MakeBatteryState(
	const std::vector<BatteryDetails>& battery_details) {
	return BatteryLevelProvider::MakeBatteryState(battery_details);
	}
	};

	} // namespace

	using BatteryDetails = FakeBatteryLevelProvider::BatteryDetails;

	TEST(BatteryLevelProviderTest, NoBattery) {
	auto state = FakeBatteryLevelProvider::MakeBatteryState({});
	EXPECT_EQ(0, state.battery_count);
	EXPECT_TRUE(state.is_external_power_connected);
	EXPECT_FALSE(state.current_capacity.has_value());
	EXPECT_FALSE(state.full_charged_capacity.has_value());
	EXPECT_NE(base::TimeTicks(), state.capture_time);
	}

	TEST(BatteryLevelProviderTest, SingleBatteryWithExternalPower) {
	auto state = FakeBatteryLevelProvider::MakeBatteryState(
	#if defined(STARBOARD)
	{BatteryDetails({true,
	42,
	100})});
	#else
	{BatteryDetails({.is_external_power_connected = true,
	.current_capacity = 42,
	.full_charged_capacity = 100})});
	#endif
	EXPECT_EQ(1, state.battery_count);
	EXPECT_TRUE(state.is_external_power_connected);
	EXPECT_EQ(42U, state.current_capacity);
	EXPECT_EQ(100U, state.full_charged_capacity);
	EXPECT_NE(base::TimeTicks(), state.capture_time);
	}

	TEST(BatteryLevelProviderTest, SingleBatteryDischarging) {
	auto state = FakeBatteryLevelProvider::MakeBatteryState(
	#if defined(STARBOARD)
	{BatteryDetails({false,
	42,
	100})});
	#else
	{BatteryDetails({.is_external_power_connected = false,
	.current_capacity = 42,
	.full_charged_capacity = 100})});
	#endif
	EXPECT_EQ(1, state.battery_count);
	EXPECT_FALSE(state.is_external_power_connected);
	EXPECT_EQ(42U, state.current_capacity);
	EXPECT_EQ(100U, state.full_charged_capacity);
	EXPECT_NE(base::TimeTicks(), state.capture_time);
	}

	TEST(BatteryLevelProviderTest, MultipleBatteriesWithExternalPower) {
	auto state = FakeBatteryLevelProvider::MakeBatteryState(
	#if defined(STARBOARD)
	{BatteryDetails({false,
	42,
	100}),
	BatteryDetails({true,
	10,
	100})});
	#else
	{BatteryDetails({.is_external_power_connected = false,
	.current_capacity = 42,
	.full_charged_capacity = 100}),
	BatteryDetails({.is_external_power_connected = true,
	.current_capacity = 10,
	.full_charged_capacity = 100})});
	#endif
	EXPECT_EQ(2, state.battery_count);
	EXPECT_TRUE(state.is_external_power_connected);
	EXPECT_EQ(absl::nullopt, state.current_capacity);
	EXPECT_EQ(absl::nullopt, state.full_charged_capacity);
	EXPECT_NE(base::TimeTicks(), state.capture_time);
	}

	TEST(BatteryLevelProviderTest, MultipleBatteriesDischarging) {
	auto state = FakeBatteryLevelProvider::MakeBatteryState(
	#if defined(STARBOARD)
	{BatteryDetails({false,
	42,
	100}),
	BatteryDetails({false,
	10,
	100})});
	#else
	{BatteryDetails({.is_external_power_connected = false,
	.current_capacity = 42,
	.full_charged_capacity = 100}),
	BatteryDetails({.is_external_power_connected = false,
	.current_capacity = 10,
	.full_charged_capacity = 100})});
	#endif
	EXPECT_EQ(2, state.battery_count);
	EXPECT_FALSE(state.is_external_power_connected);
	EXPECT_EQ(absl::nullopt, state.current_capacity);
	EXPECT_EQ(absl::nullopt, state.full_charged_capacity);
	EXPECT_NE(base::TimeTicks(), state.capture_time);
	}

	TEST(BatteryLevelProviderTest, SingleBatteryMAh) {
	auto state = FakeBatteryLevelProvider::MakeBatteryState({BatteryDetails(
	#if defined(STARBOARD)
	{false,
	42,
	100,
	12,
	BatteryLevelProvider::BatteryLevelUnit::kMAh})});
	#else
	{.is_external_power_connected = false,
	.current_capacity = 42,
	.full_charged_capacity = 100,
	.voltage_mv = 12,
	.charge_unit = BatteryLevelProvider::BatteryLevelUnit::kMAh})});
	#endif
	EXPECT_EQ(1, state.battery_count);
	EXPECT_FALSE(state.is_external_power_connected);
	EXPECT_EQ(42U, state.current_capacity);
	EXPECT_EQ(100U, state.full_charged_capacity);
	EXPECT_TRUE(state.voltage_mv.has_value());
	EXPECT_EQ(12U, *state.voltage_mv);
	EXPECT_EQ(BatteryLevelProvider::BatteryLevelUnit::kMAh, state.charge_unit);
	EXPECT_NE(base::TimeTicks(), state.capture_time);
	}

	} // namespace base