Tighten DCHECK to clarify that users of syncable storage can't request more quota.
[chromium-blink-merge.git] / device / battery / battery_status_manager_linux_unittest.cc
blobd1b882e03c1130c5f68710c81740d02c4f2cbd2f
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "device/battery/battery_status_manager_linux.h"
7 #include "base/values.h"
8 #include "testing/gtest/include/gtest/gtest.h"
10 namespace device {
12 namespace {
14 TEST(BatteryStatusManagerLinuxTest, EmptyDictionary) {
15 base::DictionaryValue dictionary;
16 BatteryStatus default_status;
17 BatteryStatus status = ComputeWebBatteryStatus(dictionary);
19 EXPECT_EQ(default_status.charging, status.charging);
20 EXPECT_EQ(default_status.charging_time, status.charging_time);
21 EXPECT_EQ(default_status.discharging_time, status.discharging_time);
22 EXPECT_EQ(default_status.level, status.level);
25 TEST(BatteryStatusManagerLinuxTest, ChargingHalfFull) {
26 base::DictionaryValue dictionary;
27 dictionary.SetDouble("State", UPOWER_DEVICE_STATE_CHARGING);
28 dictionary.SetDouble("TimeToFull", 0);
29 dictionary.SetDouble("Percentage", 50);
31 BatteryStatus status = ComputeWebBatteryStatus(dictionary);
33 EXPECT_TRUE(status.charging);
34 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.charging_time);
35 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.discharging_time);
36 EXPECT_EQ(0.5, status.level);
39 TEST(BatteryStatusManagerLinuxTest, ChargingTimeToFull) {
40 base::DictionaryValue dictionary;
41 dictionary.SetDouble("State", UPOWER_DEVICE_STATE_CHARGING);
42 dictionary.SetDouble("TimeToFull", 100.f);
43 dictionary.SetDouble("Percentage", 1);
45 BatteryStatus status = ComputeWebBatteryStatus(dictionary);
47 EXPECT_TRUE(status.charging);
48 EXPECT_EQ(100, status.charging_time);
49 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.discharging_time);
50 EXPECT_EQ(.01, status.level);
53 TEST(BatteryStatusManagerLinuxTest, FullyCharged) {
54 base::DictionaryValue dictionary;
55 dictionary.SetDouble("State", UPOWER_DEVICE_STATE_FULL);
56 dictionary.SetDouble("TimeToFull", 100);
57 dictionary.SetDouble("TimeToEmpty", 200);
58 dictionary.SetDouble("Percentage", 100);
60 BatteryStatus status = ComputeWebBatteryStatus(dictionary);
62 EXPECT_TRUE(status.charging);
63 EXPECT_EQ(0, status.charging_time);
64 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.discharging_time);
65 EXPECT_EQ(1, status.level);
68 TEST(BatteryStatusManagerLinuxTest, Discharging) {
69 base::DictionaryValue dictionary;
70 dictionary.SetDouble("State", UPOWER_DEVICE_STATE_DISCHARGING);
71 dictionary.SetDouble("TimeToFull", 0);
72 dictionary.SetDouble("TimeToEmpty", 200);
73 dictionary.SetDouble("Percentage", 90);
75 BatteryStatus status = ComputeWebBatteryStatus(dictionary);
77 EXPECT_FALSE(status.charging);
78 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.charging_time);
79 EXPECT_EQ(200, status.discharging_time);
80 EXPECT_EQ(.9, status.level);
83 TEST(BatteryStatusManagerLinuxTest, DischargingTimeToEmptyUnknown) {
84 base::DictionaryValue dictionary;
85 dictionary.SetDouble("State", UPOWER_DEVICE_STATE_DISCHARGING);
86 dictionary.SetDouble("TimeToFull", 0);
87 dictionary.SetDouble("TimeToEmpty", 0);
88 dictionary.SetDouble("Percentage", 90);
90 BatteryStatus status = ComputeWebBatteryStatus(dictionary);
92 EXPECT_FALSE(status.charging);
93 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.charging_time);
94 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.discharging_time);
95 EXPECT_EQ(.9, status.level);
98 TEST(BatteryStatusManagerLinuxTest, DeviceStateUnknown) {
99 base::DictionaryValue dictionary;
100 dictionary.SetDouble("State", UPOWER_DEVICE_STATE_UNKNOWN);
101 dictionary.SetDouble("TimeToFull", 0);
102 dictionary.SetDouble("TimeToEmpty", 0);
103 dictionary.SetDouble("Percentage", 50);
105 BatteryStatus status = ComputeWebBatteryStatus(dictionary);
107 EXPECT_TRUE(status.charging);
108 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.charging_time);
109 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.discharging_time);
110 EXPECT_EQ(.5, status.level);
113 TEST(BatteryStatusManagerLinuxTest, DeviceStateEmpty) {
114 base::DictionaryValue dictionary;
115 dictionary.SetDouble("State", UPOWER_DEVICE_STATE_EMPTY);
116 dictionary.SetDouble("TimeToFull", 0);
117 dictionary.SetDouble("TimeToEmpty", 0);
118 dictionary.SetDouble("Percentage", 0);
120 BatteryStatus status = ComputeWebBatteryStatus(dictionary);
122 EXPECT_FALSE(status.charging);
123 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.charging_time);
124 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.discharging_time);
125 EXPECT_EQ(0, status.level);
128 TEST(BatteryStatusManagerLinuxTest, LevelRoundedToThreeSignificantDigits) {
129 base::DictionaryValue dictionary;
130 dictionary.SetDouble("State", UPOWER_DEVICE_STATE_DISCHARGING);
131 dictionary.SetDouble("Percentage", 14.56);
133 BatteryStatus status = ComputeWebBatteryStatus(dictionary);
135 EXPECT_FALSE(status.charging);
136 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.charging_time);
137 EXPECT_EQ(std::numeric_limits<double>::infinity(), status.discharging_time);
138 EXPECT_EQ(0.15, status.level);
141 } // namespace
143 } // namespace device