// Copyright (C) 2016 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only import QtQuick import QtQuick.Window import QtQuick.VirtualKeyboard /*! \qmltype TraceInputArea \inqmlmodule QtQuick.VirtualKeyboard.Components \ingroup qmlclass \ingroup qtvirtualkeyboard-components-qml \inherits MultiPointTouchArea \since QtQuick.VirtualKeyboard 2.0 \brief A specialized MultiPointTouchArea for collecting touch input data. This type handles the trace interaction between the touch screen and the input engine. The traces are rendered using the delegate from the \l {KeyboardStyle::}{traceCanvasDelegate} property of the current \l KeyboardStyle. */ MultiPointTouchArea { id: traceInputArea /*! Pattern recognition mode of this input area. The default value is \l {InputEngine::patternRecognitionModes} {InputEngine.PatternRecognitionMode.None}. */ property int patternRecognitionMode: InputEngine.PatternRecognitionMode.None /*! List of horizontal rulers in the input area. The rulers are defined as a number of pixels from the top edge of the boundingBox. Here is an example that demonstrates how to define rulers: \code horizontalRulers: [boundingBox.height / 3, boundingBox.height / 3 * 2] verticalRulers: [boundingBox.width / 3, boundingBox.width / 3 * 2] \endcode */ property var horizontalRulers /*! List of vertical rulers in the input area. The rulers are defined as a number of pixels from the left edge of the boundingBox. */ property var verticalRulers /*! Bounding box for the trace input. This property is readonly and is automatically updated based on the item size and margins. */ readonly property rect boundingBox: (width > 0 && height > 0) ? Qt.rect(traceInputArea.x + traceInputArea.anchors.leftMargin, traceInputArea.y + traceInputArea.anchors.topMargin, traceInputArea.width, traceInputArea.height) : Qt.rect(0, 0, 0, 0) /*! Canvas type of this trace input area. This property can be used to distinguish between different types of canvases. For example, in full screen handwriting mode this property is set to \c "fullscreen", and in keyboard handwriting mode this property is set to \c "keyboard". */ property string canvasType property var __activeTraceCanvases: ({}) property var __traceCanvasList: ([]) property var __recycledTraceCanvasList: ([]) Component.onCompleted: { for (var i = 0; i < 6; i++) { __recycledTraceCanvasList.push(__createTraceCanvas()) } } function __getTraceCanvas() { while (__recycledTraceCanvasList.length == 0 && __traceCanvasList.length >= 15 && !__traceCanvasList.shift().recycle()) {} return __recycledTraceCanvasList.length > 0 ? __recycledTraceCanvasList.pop() : __createTraceCanvas() } function __createTraceCanvas() { var traceCanvas = keyboard.style.traceCanvasDelegate.createObject(traceInputArea) traceCanvas.onRecycle.connect(__onTraceCanvasRecycled) traceCanvas.anchors.fill = traceCanvas.parent return traceCanvas } function __onTraceCanvasRecycled(traceCanvas) { var index = __traceCanvasList.findIndex(function(otherCanvas) { return traceCanvas === otherCanvas }) if (index !== -1) { __traceCanvasList.splice(index, index + 1) } __recycledTraceCanvasList.push(traceCanvas) } property var __traceCaptureDeviceInfo: ({ channels: ['t'], sampleRate: 60, uniform: false, latency: 0.0, dpi: Screen.pixelDensity * 25.4 }) property var __traceScreenInfo: ({ boundingBox: traceInputArea.boundingBox, horizontalRulers: traceInputArea.horizontalRulers, verticalRulers: traceInputArea.verticalRulers, canvasType: traceInputArea.canvasType }) enabled: patternRecognitionMode !== InputEngine.PatternRecognitionMode.None && InputContext.inputEngine.patternRecognitionModes.indexOf(patternRecognitionMode) !== -1 onPressed: (touchPoints) => { if (!keyboard.style.traceCanvasDelegate) return for (var i = 0; i < touchPoints.length; i++) { var traceId = touchPoints[i].pointId var trace = InputContext.inputEngine.traceBegin(traceId, patternRecognitionMode, __traceCaptureDeviceInfo, __traceScreenInfo) if (trace) { var traceCanvas = __getTraceCanvas() if (traceCanvas) { traceCanvas.trace = trace var index = trace.addPoint(Qt.point(touchPoints[i].x, touchPoints[i].y)) if (trace.channels.indexOf('t') !== -1) { var dt = new Date() trace.setChannelData('t', index, dt.getTime()) } __activeTraceCanvases[traceId] = traceCanvas } else { __activeTraceCanvases[traceId] = null } } else { __activeTraceCanvases[traceId] = null } } } onUpdated: (touchPoints) => { for (var i = 0; i < touchPoints.length; i++) { var traceId = touchPoints[i].pointId var traceCanvas = __activeTraceCanvases[traceId] if (traceCanvas) { var trace = traceCanvas.trace var index = trace.addPoint(Qt.point(touchPoints[i].x, touchPoints[i].y)) if (trace.channels.indexOf('t') !== -1) { var dt = new Date() trace.setChannelData('t', index, dt.getTime()) } } } } onReleased: (touchPoints) => { for (var i = 0; i < touchPoints.length; i++) { var traceId = touchPoints[i].pointId var traceCanvas = __activeTraceCanvases[traceId] if (traceCanvas) { if (traceCanvas.trace) { traceCanvas.trace.final = true InputContext.inputEngine.traceEnd(traceCanvas.trace) } __traceCanvasList.push(traceCanvas) __activeTraceCanvases[traceId] = null } } } onCanceled: (touchPoints) => { for (var i = 0; i < touchPoints.length; i++) { var traceId = touchPoints[i].pointId var traceCanvas = __activeTraceCanvases[traceId] if (traceCanvas) { if (traceCanvas.trace) { traceCanvas.trace.final = true traceCanvas.trace.canceled = true InputContext.inputEngine.traceEnd(traceCanvas.trace) } __traceCanvasList.push(traceCanvas) __activeTraceCanvases[traceId] = null } } } }