/** \file test_ExtendedColorHueStrategy.cpp Copyright Notice\n Copyright (C) 2017 Jan Rogall - developer\n Copyright (C) 2017 Moritz Wirger - developer\n This file is part of hueplusplus. hueplusplus is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. hueplusplus is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with hueplusplus. If not, see . **/ #include #include #include #include #include "TestTransaction.h" #include "testhelper.h" #include "hueplusplus/ExtendedColorHueStrategy.h" #include "json/json.hpp" #include "mocks/mock_HttpHandler.h" #include "mocks/mock_Light.h" using namespace hueplusplus; TEST(ExtendedColorHueStrategy, alertHueSaturation) { using namespace ::testing; std::shared_ptr handler(std::make_shared()); EXPECT_CALL( *handler, GETJson("/api/" + getBridgeUsername() + "/lights/1", nlohmann::json::object(), getBridgeIp(), 80)) .Times(AtLeast(1)) .WillRepeatedly(Return(nlohmann::json::object())); MockLight light(handler); const HueSaturation hueSat {200, 100}; // Needs to update the state so transactions are correctly trimmed const auto setColorLambda = [&](const HueSaturation& hueSat, int transition) { light.getState()["state"]["colormode"] = "hs"; light.getState()["state"]["on"] = true; light.getState()["state"]["hue"] = hueSat.hue; light.getState()["state"]["sat"] = hueSat.saturation; return true; }; // Invalid state { light.getState()["state"]["colormode"] = "invalid"; light.getState()["state"]["on"] = false; EXPECT_FALSE(ExtendedColorHueStrategy().alertHueSaturation(hueSat, light)); } // Colormode not ct is forwarded to SimpleColorHueStrategy { const nlohmann::json state = {{"colormode", "hs"}, {"on", true}, {"xy", {0.1, 0.1}}, {"hue", 300}, {"sat", 100}, {"bri", 254}, {"ct", 300}}; light.getState()["state"] = state; EXPECT_CALL(Const(light), getColorHueSaturation()) .Times(AnyNumber()) .WillRepeatedly(Return(HueSaturation {300, 100})); TestTransaction reverseTransaction = light.transaction().setColorHue(300).setTransition(1); InSequence s; EXPECT_CALL(light, setColorHueSaturation(hueSat, 1)).WillOnce(Invoke(setColorLambda)); EXPECT_CALL(light, alert()).WillOnce(Return(true)); reverseTransaction.expectSuccessfulPut(handler, Exactly(1)); EXPECT_TRUE(ExtendedColorHueStrategy().alertHueSaturation(hueSat, light)); Mock::VerifyAndClearExpectations(handler.get()); } // Colormode ct { const nlohmann::json state = {{"colormode", "ct"}, {"on", true}, {"xy", {0.1, 0.1}}, {"sat", 100}, {"bri", 254}, {"ct", 300}}; light.getState()["state"] = state; TestTransaction reverseTransaction = light.transaction().setColorTemperature(300).setTransition(1); InSequence s; EXPECT_CALL(light, setColorHueSaturation(hueSat, 1)).WillOnce(Invoke(setColorLambda)); EXPECT_CALL(light, alert()).WillOnce(Return(false)); EXPECT_FALSE(ExtendedColorHueStrategy().alertHueSaturation(hueSat, light)); light.getState()["state"] = state; Mock::VerifyAndClearExpectations(handler.get()); EXPECT_CALL(light, setColorHueSaturation(hueSat, 1)).WillOnce(Invoke(setColorLambda)); EXPECT_CALL(light, alert()).WillOnce(Return(true)); reverseTransaction.expectSuccessfulPut(handler, Exactly(1)); EXPECT_TRUE(ExtendedColorHueStrategy().alertHueSaturation(hueSat, light)); Mock::VerifyAndClearExpectations(handler.get()); } // Colormode ct, off { const nlohmann::json state = {{"colormode", "ct"}, {"on", false}, {"xy", {0., 1.}}, {"sat", 100}, {"bri", 254}, {"ct", 300}}; light.getState()["state"] = state; TestTransaction reverseTransaction = light.transaction().setColorTemperature(300).setOn(false).setTransition(1); InSequence s; EXPECT_CALL(light, setColorHueSaturation(hueSat, 1)).WillOnce(Invoke(setColorLambda)); EXPECT_CALL(light, alert()).WillOnce(Return(true)); reverseTransaction.expectSuccessfulPut(handler, Exactly(1)); EXPECT_TRUE(ExtendedColorHueStrategy().alertHueSaturation(hueSat, light)); Mock::VerifyAndClearExpectations(handler.get()); } } TEST(ExtendedColorHueStrategy, alertXY) { using namespace ::testing; std::shared_ptr handler(std::make_shared()); EXPECT_CALL( *handler, GETJson("/api/" + getBridgeUsername() + "/lights/1", nlohmann::json::object(), getBridgeIp(), 80)) .Times(AtLeast(1)) .WillRepeatedly(Return(nlohmann::json::object())); MockLight light(handler); const XYBrightness xy {{0.1f, 0.1f}, 1.f}; // Needs to update the state so transactions are correctly trimmed const auto setColorLambda = [&](const XYBrightness& xy, int transition) { light.getState()["state"]["colormode"] = "xy"; light.getState()["state"]["on"] = true; light.getState()["state"]["xy"] = {xy.xy.x, xy.xy.y}; light.getState()["state"]["bri"] = static_cast(std::round(xy.brightness * 254.f)); return true; }; // Invalid colormode { light.getState()["state"]["colormode"] = "invalid"; light.getState()["state"]["on"] = false; EXPECT_FALSE(ExtendedColorHueStrategy().alertXY({{0.1f, 0.1f}, 1.f}, light)); } // Colormode not ct is forwarded to SimpleColorHueStrategy { const nlohmann::json state = {{"colormode", "hs"}, {"on", true}, {"xy", {0.1, 0.1}}, {"hue", 200}, {"sat", 100}, {"bri", 254}, {"ct", 300}}; light.getState()["state"] = state; EXPECT_CALL(Const(light), getBrightness()).Times(AnyNumber()).WillRepeatedly(Return(254)); HueSaturation hueSat {200, 100}; EXPECT_CALL(Const(light), getColorHueSaturation()).Times(AnyNumber()).WillRepeatedly(Return(hueSat)); TestTransaction reverseTransaction = light.transaction().setColor(hueSat).setTransition(1); InSequence s; EXPECT_CALL(light, setColorXY(xy, 1)).WillOnce(Invoke(setColorLambda)); EXPECT_CALL(light, alert()).WillOnce(Return(true)); reverseTransaction.expectSuccessfulPut(handler, Exactly(1)); EXPECT_TRUE(SimpleColorHueStrategy().alertXY(xy, light)); Mock::VerifyAndClearExpectations(handler.get()); } // Colormode ct { const nlohmann::json state = { {"colormode", "ct"}, {"on", true}, {"xy", {0.1, 0.1}}, {"sat", 100}, {"bri", 128}, {"ct", 300} }; light.getState()["state"] = state; EXPECT_CALL(Const(light), getBrightness()).Times(AnyNumber()).WillRepeatedly(Return(128)); TestTransaction reverseTransaction = light.transaction().setColorTemperature(300).setBrightness(128).setTransition(1); InSequence s; EXPECT_CALL(light, setColorXY(xy, 1)).WillOnce(Invoke(setColorLambda)); EXPECT_CALL(light, alert()).WillOnce(Return(false)); EXPECT_FALSE(ExtendedColorHueStrategy().alertXY(xy, light)); light.getState()["state"] = state; Mock::VerifyAndClearExpectations(handler.get()); EXPECT_CALL(light, setColorXY(xy, 1)).WillOnce(Invoke(setColorLambda)); EXPECT_CALL(light, alert()).WillOnce(Return(true)); reverseTransaction.expectSuccessfulPut(handler, Exactly(1)); EXPECT_TRUE(ExtendedColorHueStrategy().alertXY(xy, light)); Mock::VerifyAndClearExpectations(handler.get()); } // Colormode ct, off { const nlohmann::json state = { {"colormode", "ct"}, {"on", false}, {"xy", {0., 1.}}, {"sat", 100}, {"bri", 254}, {"ct", 300} }; light.getState()["state"] = state; EXPECT_CALL(Const(light), getBrightness()).Times(AnyNumber()).WillRepeatedly(Return(254)); TestTransaction reverseTransaction = light.transaction().setColorTemperature(300).setOn(false).setTransition(1); InSequence s; EXPECT_CALL(light, setColorXY(xy, 1)).WillOnce(Invoke(setColorLambda)); EXPECT_CALL(light, alert()).WillOnce(Return(true)); reverseTransaction.expectSuccessfulPut(handler, Exactly(1)); EXPECT_TRUE(ExtendedColorHueStrategy().alertXY(xy, light)); Mock::VerifyAndClearExpectations(handler.get()); } }