pragma Singleton pragma ComponentBehavior: Bound import QtQuick import Quickshell import Quickshell.Services.UPower import qs.Common Singleton { id: root property bool suppressSound: true property bool previousPluggedState: false readonly property var scale: 100 / SettingsData.batteryChargeLimit Timer { id: startupTimer interval: 500 repeat: false running: true onTriggered: root.suppressSound = false } readonly property string preferredBatteryOverride: Quickshell.env("DMS_PREFERRED_BATTERY") // List of laptop batteries readonly property var batteries: UPower.devices.values.filter(dev => dev.isLaptopBattery) readonly property var readyBatteries: batteries.filter(b => b.ready) readonly property var stateKnownBatteries: batteries.filter(b => b.ready && b.state !== UPowerDeviceState.Unknown) property real _lastBatteryLevel: 0 property bool _lastIsCharging: false property real _lastChangeRate: 0 property real _lastBatteryEnergy: 0 property real _lastBatteryCapacity: 0 readonly property bool usePreferred: preferredBatteryOverride && preferredBatteryOverride.length > 0 readonly property UPowerDevice preferredDevice: { if (!usePreferred) return null; const override = preferredBatteryOverride.toLowerCase(); return batteries.find(dev => dev.nativePath.toLowerCase().includes(override)) || null; } readonly property bool preferredDeviceKnown: preferredDevice && preferredDevice.ready && preferredDevice.state !== UPowerDeviceState.Unknown // Main battery (for backward compatibility) readonly property UPowerDevice device: { if (usePreferred) { if (preferredDeviceKnown) return preferredDevice; return stateKnownBatteries[0] || null; } return stateKnownBatteries[0] || readyBatteries[0] || batteries[0] || null; } // Whether at least one battery is available readonly property bool batteryAvailable: batteries.length > 0 // Aggregated charge level (percentage) readonly property real batteryLevel: { if (!batteryAvailable) return 0; if (batteryCapacity === 0) { if (usePreferred && preferredDeviceKnown) { const val = Math.round(preferredDevice.percentage * 100 * scale); _lastBatteryLevel = val; return val; } if (usePreferred && preferredDevice) return _lastBatteryLevel; const validBatteries = stateKnownBatteries.filter(b => b.ready && b.percentage >= 0); if (validBatteries.length === 0) return _lastBatteryLevel; const avgPercentage = validBatteries.reduce((sum, b) => sum + b.percentage, 0) / validBatteries.length; const val = Math.round(avgPercentage * 100 * scale); _lastBatteryLevel = val; return val; } const energy = batteryEnergy; const cap = batteryCapacity; if (cap === 0) return _lastBatteryLevel; const val = Math.round((energy * 100) / cap * scale); _lastBatteryLevel = val; return val; } readonly property bool isCharging: { if (!batteryAvailable) return false; if (usePreferred && preferredDeviceKnown) { const preferredCharging = preferredDevice.state === UPowerDeviceState.Charging; _lastIsCharging = preferredCharging; return preferredCharging; } if (usePreferred && preferredDevice) return _lastIsCharging; const val = stateKnownBatteries.some(b => b.state === UPowerDeviceState.Charging); if (stateKnownBatteries.length > 0) _lastIsCharging = val; return stateKnownBatteries.length > 0 ? val : _lastIsCharging; } // Is the system plugged in (Is not running on battery) readonly property bool isPluggedIn: !UPower.onBattery readonly property bool isLowBattery: batteryAvailable && batteryLevel <= 20 onIsPluggedInChanged: { if (suppressSound || !batteryAvailable) { previousPluggedState = isPluggedIn; return; } if (SettingsData.soundsEnabled && SettingsData.soundPluggedIn) { if (isPluggedIn && !previousPluggedState) { AudioService.playPowerPlugSound(); } else if (!isPluggedIn && previousPluggedState) { AudioService.playPowerUnplugSound(); } } const profileValue = BatteryService.isPluggedIn ? SettingsData.acProfileName : SettingsData.batteryProfileName; if (profileValue !== "") { const targetProfile = parseInt(profileValue); if (!isNaN(targetProfile) && PowerProfiles.profile !== targetProfile) { PowerProfiles.profile = targetProfile; } } previousPluggedState = isPluggedIn; } // Aggregated charge/discharge rate readonly property real changeRate: { if (!batteryAvailable) return 0; if (usePreferred && preferredDeviceKnown) { _lastChangeRate = preferredDevice.changeRate; return _lastChangeRate; } if (usePreferred && preferredDevice) return _lastChangeRate; if (stateKnownBatteries.length === 0) return _lastChangeRate; const val = stateKnownBatteries.reduce((sum, b) => sum + b.changeRate, 0); _lastChangeRate = val; return val; } // Aggregated battery health readonly property string batteryHealth: { if (!batteryAvailable) return "N/A"; if (usePreferred && preferredDeviceKnown && preferredDevice.healthSupported) return `${Math.round(preferredDevice.healthPercentage)}%`; const validBatteries = stateKnownBatteries.filter(b => b.ready && b.healthSupported && b.healthPercentage > 0); if (validBatteries.length === 0) return "N/A"; const avgHealth = validBatteries.reduce((sum, b) => sum + b.healthPercentage, 0) / validBatteries.length; return `${Math.round(avgHealth)}%`; } readonly property real batteryEnergy: { if (!batteryAvailable) return 0; if (usePreferred && preferredDeviceKnown) { _lastBatteryEnergy = preferredDevice.energy; return _lastBatteryEnergy; } if (usePreferred && preferredDevice) return _lastBatteryEnergy; if (stateKnownBatteries.length === 0) return _lastBatteryEnergy; const val = stateKnownBatteries.reduce((sum, b) => sum + b.energy, 0); _lastBatteryEnergy = val; return val; } // Total battery capacity (Wh) readonly property real batteryCapacity: { if (!batteryAvailable) return 0; if (usePreferred && preferredDeviceKnown) { _lastBatteryCapacity = preferredDevice.energyCapacity; return _lastBatteryCapacity; } if (usePreferred && preferredDevice) return _lastBatteryCapacity; if (stateKnownBatteries.length === 0) return _lastBatteryCapacity; const val = stateKnownBatteries.reduce((sum, b) => sum + b.energyCapacity, 0); _lastBatteryCapacity = val; return val; } function translateBatteryState(state) { switch (state) { case UPowerDeviceState.Charging: return I18n.tr("Charging", "battery status"); case UPowerDeviceState.Discharging: return I18n.tr("Discharging", "battery status"); case UPowerDeviceState.Empty: return I18n.tr("Empty", "battery status"); case UPowerDeviceState.FullyCharged: return I18n.tr("Fully Charged", "battery status"); case UPowerDeviceState.PendingCharge: return I18n.tr("Pending Charge", "battery status"); case UPowerDeviceState.PendingDischarge: return I18n.tr("Pending Discharge", "battery status"); default: return I18n.tr("Unknown", "battery status"); } } // Aggregated battery status readonly property string batteryStatus: { if (!batteryAvailable) { return I18n.tr("No battery", "battery status"); } const targetBatteries = stateKnownBatteries.length > 0 ? stateKnownBatteries : batteries; if (isCharging && !targetBatteries.some(b => b.changeRate > 0)) return I18n.tr("Plugged In", "battery status"); const states = targetBatteries.map(b => b.state); if (states.every(s => s === states[0])) return translateBatteryState(states[0]); return isCharging ? I18n.tr("Charging", "battery status") : (isPluggedIn ? I18n.tr("Plugged In", "battery status") : I18n.tr("Discharging", "battery status")); } readonly property bool suggestPowerSaver: false readonly property var bluetoothDevices: { const bluetoothTypes = [UPowerDeviceType.BluetoothGeneric, UPowerDeviceType.Headphones, UPowerDeviceType.Headset, UPowerDeviceType.Keyboard, UPowerDeviceType.Mouse, UPowerDeviceType.Speakers]; const btDevices = UPower.devices.values.filter(dev => dev && dev.ready && bluetoothTypes.includes(dev.type)).map(dev => { return { "name": dev.model || UPowerDeviceType.toString(dev.type), "percentage": Math.round(dev.percentage * 100), "type": dev.type }; }); return btDevices; } // Format time remaining for charge/discharge function formatTimeRemaining() { if (!batteryAvailable) { return "Unknown"; } let totalTime = 0; totalTime = (isCharging) ? ((batteryCapacity - batteryEnergy) / changeRate) : (batteryEnergy / changeRate); const avgTime = Math.abs(totalTime * 3600); if (!avgTime || avgTime <= 0 || avgTime > 86400) return "Unknown"; const hours = Math.floor(avgTime / 3600); const minutes = Math.floor((avgTime % 3600) / 60); return hours > 0 ? `${hours}h ${minutes}m` : `${minutes}m`; } function getBatteryIcon() { if (!batteryAvailable) { return "power"; } if (isCharging) { if (batteryLevel >= 90) { return "battery_charging_full"; } if (batteryLevel >= 80) { return "battery_charging_90"; } if (batteryLevel >= 60) { return "battery_charging_80"; } if (batteryLevel >= 50) { return "battery_charging_60"; } if (batteryLevel >= 30) { return "battery_charging_50"; } if (batteryLevel >= 20) { return "battery_charging_30"; } return "battery_charging_20"; } if (isPluggedIn) { if (batteryLevel >= 90) { return "battery_charging_full"; } if (batteryLevel >= 80) { return "battery_charging_90"; } if (batteryLevel >= 60) { return "battery_charging_80"; } if (batteryLevel >= 50) { return "battery_charging_60"; } if (batteryLevel >= 30) { return "battery_charging_50"; } if (batteryLevel >= 20) { return "battery_charging_30"; } return "battery_charging_20"; } if (batteryLevel >= 95) { return "battery_full"; } if (batteryLevel >= 85) { return "battery_6_bar"; } if (batteryLevel >= 70) { return "battery_5_bar"; } if (batteryLevel >= 55) { return "battery_4_bar"; } if (batteryLevel >= 40) { return "battery_3_bar"; } if (batteryLevel >= 25) { return "battery_2_bar"; } return "battery_1_bar"; } }