diff --git a/examples/lighting-app/linux/ui.cpp b/examples/lighting-app/linux/ui.cpp index c57ccda9868f7d..8ad8e38156a04b 100644 --- a/examples/lighting-app/linux/ui.cpp +++ b/examples/lighting-app/linux/ui.cpp @@ -27,6 +27,7 @@ #include #include +#include #include #include @@ -78,16 +79,20 @@ class DeviceState // OnOff bool mLightIsOn = false; + // Level uint8_t mMinLevel = 0; uint8_t mMaxLevel = 0; Nullable mCurrentLevel; uint16_t mLevelRemainingTime10sOfSec = 0; + // Color control - uint8_t mColorHue = 0; - uint8_t mColorSaturation = 0; - uint16_t mColorX = 0; - uint16_t mColorY = 0; + uint8_t mColorMode = EMBER_ZCL_COLOR_MODE_CURRENT_HUE_AND_CURRENT_SATURATION; + uint8_t mColorHue = 0; + uint8_t mColorSaturation = 0; + uint16_t mColorX = 0; + uint16_t mColorY = 0; + uint16_t mColorTemperatureMireds = 0; // Updates the data (run in the chip event loop) void ChipLoopUpdate(); @@ -104,6 +109,39 @@ class DeviceState DeviceState gDeviceState; +/* + * Converts HSV with assumption that V == 100% into a IMGui color vector + */ +ImVec4 HueSaturationToColor(float hueDegrees, float saturationPercent) +{ + saturationPercent /= 100.0f; + + float x = saturationPercent * static_cast(1 - fabs(fmod(hueDegrees / 60, 2) - 1)); + + if (hueDegrees < 60) + { + return ImVec4(saturationPercent, x, 0, 1.0f); + } + if (hueDegrees < 120) + { + return ImVec4(x, saturationPercent, 0, 1.0f); + } + if (hueDegrees < 180) + { + return ImVec4(0, saturationPercent, x, 1.0f); + } + if (hueDegrees < 240) + { + return ImVec4(0, x, saturationPercent, 1.0f); + } + if (hueDegrees < 300) + { + return ImVec4(x, 0, saturationPercent, 1.0f); + } + + return ImVec4(saturationPercent, 0, x, 1.0f); +} + void DeviceState::Init() { InitQRCode(); @@ -155,35 +193,71 @@ inline ImVec2 operator+(const ImVec2 & a, const ImVec2 & b) void DeviceState::ShowUi() { ImGui::Begin("Light app state"); - ImGui::Text("On-Off:"); + ImGui::Text("On-Off:"); + ImGui::Indent(); if (mLightIsOn) { - ImGui::Text(" Light is ON"); + ImGui::Text("Light is ON"); } else { - ImGui::Text(" Light is OFF"); + ImGui::Text("Light is OFF"); } + // bright yellow vs dark yellow on/off view + ImGui::ColorButton("LightIsOn", mLightIsOn ? ImVec4(1.0f, 1.0f, 0.0f, 1.0f) : ImVec4(0.3f, 0.3f, 0.0f, 1.0f), + 0 /* ImGuiColorEditFlags_* */, ImVec2(80, 80)); + ImGui::Unindent(); + ImGui::Text("Level Control:"); - ImGui::Text(" MIN Level: %d", mMinLevel); + ImGui::Indent(); + ImGui::Text("Remaining Time (1/10s): %d", mLevelRemainingTime10sOfSec); + ImGui::Text("MIN Level: %d", mMinLevel); + ImGui::Text("MAX Level: %d", mMaxLevel); if (mCurrentLevel.IsNull()) { - ImGui::Text(" Current Level: NULL"); + ImGui::Text("Current Level: NULL"); } else { - ImGui::Text(" Current Level: %d", mCurrentLevel.Value()); + int levelValue = mCurrentLevel.Value(); + ImGui::SliderInt("Current Level", &levelValue, mMinLevel, mMaxLevel); } - ImGui::Text(" MAX Level: %d", mMaxLevel); - ImGui::Text(" Remaining Time (1/10s): %d", mLevelRemainingTime10sOfSec); + ImGui::Unindent(); ImGui::Text("Color Control:"); - ImGui::Text(" Current Hue: %d", mColorHue); - ImGui::Text(" Current Saturation: %d", mColorSaturation); - ImGui::Text(" Current X: %d", mColorX); - ImGui::Text(" Current Y: %d", mColorY); + ImGui::Indent(); + const char * mode = // based on ColorMode attribute: spec 3.2.7.9 + (mColorMode == EMBER_ZCL_COLOR_MODE_CURRENT_HUE_AND_CURRENT_SATURATION) + ? "Hue/Saturation" + : (mColorMode == EMBER_ZCL_COLOR_MODE_CURRENT_X_AND_CURRENT_Y) + ? "X/Y" + : (mColorMode == EMBER_ZCL_COLOR_MODE_COLOR_TEMPERATURE) ? "Temperature/Mireds" : "UNKNOWN"; + + ImGui::Text("Mode: %s", mode); + + if (mColorMode == EMBER_ZCL_COLOR_MODE_CURRENT_HUE_AND_CURRENT_SATURATION) + { + const float hueDegrees = (mColorHue * 360.0f) / 254.0f; + const float saturationPercent = 100.0f * (mColorSaturation / 254.0f); + + ImGui::Text("Current Hue: %d (%f deg)", mColorHue, hueDegrees); + ImGui::Text("Current Saturation: %d (%f %%)", mColorSaturation, saturationPercent); + + ImGui::ColorButton("LightColor", HueSaturationToColor(hueDegrees, saturationPercent), 0 /* ImGuiColorEditFlags_* */, + ImVec2(80, 80)); + } + else if (mColorMode == EMBER_ZCL_COLOR_MODE_CURRENT_X_AND_CURRENT_Y) + { + ImGui::Text("Current X: %d", mColorX); + ImGui::Text("Current Y: %d", mColorY); + } + else if (mColorMode == EMBER_ZCL_COLOR_MODE_COLOR_TEMPERATURE) + { + ImGui::Text("Color Temperature Mireds: %d", mColorTemperatureMireds); + } + ImGui::Unindent(); ImGui::End(); @@ -274,10 +348,13 @@ void DeviceState::ChipLoopUpdate() LevelControl::Attributes::RemainingTime::Get(kLightEndpointId, &mLevelRemainingTime10sOfSec); // Color control + ColorControl::Attributes::ColorMode::Get(kLightEndpointId, &mColorMode); + ColorControl::Attributes::CurrentHue::Get(kLightEndpointId, &mColorHue); ColorControl::Attributes::CurrentSaturation::Get(kLightEndpointId, &mColorSaturation); ColorControl::Attributes::CurrentX::Get(kLightEndpointId, &mColorX); ColorControl::Attributes::CurrentY::Get(kLightEndpointId, &mColorY); + ColorControl::Attributes::ColorTemperatureMireds::Get(kLightEndpointId, &mColorTemperatureMireds); } }