/**************************************************************************** ** ** Copyright (C) 2024 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of Qt Quick Studio Components. ** ** $QT_BEGIN_LICENSE:GPL$ ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 or (at your option) any later version ** approved by the KDE Free Qt Foundation. The licenses are as published by ** the Free Software Foundation and appearing in the file LICENSE.GPL3 ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ import QtQuick import QtQuick.Shapes /*! \qmltype ArcItem \inqmlmodule QtQuick.Studio.Components \since QtQuick.Studio.Components 1.0 \inherits Shape \brief An arc that ends at the specified position and uses the specified radius. An arc is specified by setting values in degrees for the \l begin and \l end properties. The arc can be just a line or a filled outline. The \l strokeColor, \l strokeWidth, and \l strokeStyle properties specify the appearance of the line or outline. The \l dashPattern and \l dashOffset properties specify the appearance of dashed lines. The area between the arc's start and end points or the area inside the outline are painted using either a solid fill color, specified using the \l fillColor property, or a gradient, defined using one of the \l ShapeGradient subtypes and set using the \l gradient property. If both a color and a gradient are specified, the gradient is used. To create an arc with an outline, set the \l outlineArc property to \c true. The \l arcWidth property specifies the width of the arc outline, including the stroke. The width of the outline between the start and end points is calculated automatically. The \l round, \l roundBegin, and \l roundEnd properties specify whether the end points of the arc outline have rounded caps. For an arc that does not have an outline, the \l capStyle property specifies whether the line ends are square or rounded. Because an arc has curves, it may be appropriate to set the \c antialiasing property that is inherited from \l Item to improve its appearance. \section2 Example Usage You can use the Arc component in \QDS to create different kinds of arcs. \image studio-arc.webp The QML code looks as follows: \code ArcItem { id: arc x: 667 y: 490 fillColor: "#00ffffff" capStyle: 32 end: 180 strokeWidth: 6 strokeColor: "#000000" } ArcItem { id: arcOutline x: 910 y: 490 strokeColor: "gray" arcWidth: 13 end: 180 fillColor: "light gray" antialiasing: true round: true outlineArc: true } ArcItem { id: circle x: 811 y: 490 fillColor: "#02ffffff" end: 360 strokeWidth: 5 strokeColor: "#000000" } ArcItem { id: circleOutline x: 1046 y: 490 antialiasing: false outlineArc: true round: true strokeColor: "gray" fillColor: "light gray" strokeWidth: 1 end: 360 } \endcode */ Shape { id: root width: 100 height: 100 /*! \include CommonItemDescriptions.qdocinc {component-gradient} {arc} */ property alias gradient: path.fillGradient /*! \include CommonItemDescriptions.qdocinc {component-strokeWidth} {arc} The total width of an arc that has an outline (that is, the outline and the fill) is specified by \l arcWidth. */ property alias strokeWidth: path.strokeWidth /*! \include CommonItemDescriptions.qdocinc {component-strokeColor} {arc} */ property alias strokeColor: path.strokeColor /*! \include CommonItemDescriptions.qdocinc {component-dashPattern} {arc} */ property alias dashPattern: path.dashPattern /*! \include CommonItemDescriptions.qdocinc component-joinStyle */ //property alias joinStyle: path.joinStyle property int joinStyle: ShapePath.BevelJoin //workaround for regression in Qt 6.6.1 (QDS-11845) /*! \include CommonItemDescriptions.qdocinc component-capStyle */ //property alias capStyle: path.capStyle property int capStyle: ShapePath.FlatCap //workaround for regression in Qt 6.6.1 (QDS-11845) /*! \include CommonItemDescriptions.qdocinc {component-strokeStyle} {arc} */ //property alias strokeStyle: path.strokeStyle property int strokeStyle: ShapePath.SolidLine //workaround for regression in Qt 6.6.1 (QDS-11845) /*! \include CommonItemDescriptions.qdocinc {component-fillColor} {arc} If the arc is just a line, the area between its \l begin and \l end points is filled. If the arc has an outline, the area within the outline is filled. */ property alias fillColor: path.fillColor /*! The starting point of the dash pattern for the arc or arc outline. The offset is measured in terms of the units used to specify the dash pattern. For example, a pattern where each stroke is four units long, followed by a gap of two units, will begin with the stroke when drawn as a line. However, if the dash offset is set to 4.0, any line drawn will begin with the gap. Values of the offset up to 4.0 will cause part of the stroke to be drawn first, and values of the offset between 4.0 and 6.0 will cause the line to begin with part of the gap. The default value is 0. \sa QPen::setDashOffset() */ property alias dashOffset: path.dashOffset /*! The position in degrees where the arc begins. The default value is 0. To create a circle, set the value of \c begin to 0 and the value of the \c end to 360. */ property real begin: 0 /*! The position in degrees where the arc ends. The default value is 90. To create a circle, set the value of \c end to 360 and the value of the \c begin to 0. */ property real end: 90 /*! The total width of an arc that has an outline, including the outline and fill. The default value is 10. \sa strokeWidth */ property real arcWidth: 10 /*! The area between the \l begin and \l end points of the arc. */ property real alpha: root.clamp(root.sortedEnd() - root.sortedBegin(), 0, 359.9) property bool __preferredRendererTypeAvailable: root.preferredRendererType !== undefined property bool __curveRendererActive: root.__preferredRendererTypeAvailable && root.rendererType === Shape.CurveRenderer layer.enabled: root.antialiasing && !root.__curveRendererActive layer.smooth: root.antialiasing && !root.__curveRendererActive layer.samples: root.antialiasing && !root.__curveRendererActive ? 4 : 0 /*! Whether the arc has an outline. \sa arcWidth, round, roundBegin, roundEnd */ property bool outlineArc: false /*! Whether the arc outline end points have round caps. The \l roundBegin and \l roundEnd properties can be used to specify the caps separately for the end points. */ property bool round: false /*! Whether the arc outline ends with a round cap. \sa Qt::PenCapStyle, round, roundBegin */ property bool roundEnd: root.round /*! Whether the arc outline begins with a round cap. \sa Qt::PenCapStyle, round, roundEnd */ property bool roundBegin: root.round function clamp(num, min, max) { return Math.max(min, Math.min(num, max)) } function toRadians(degrees) { return degrees * (Math.PI / 180.0) } function myCos(angleInDegrees) { return Math.cos(root.toRadians(angleInDegrees)) } function mySin(angleInDegrees) { return Math.sin(root.toRadians(angleInDegrees)) } function polarToCartesianX(centerX, centerY, radius, angleInDegrees) { return centerX + radius * Math.cos(root.toRadians(angleInDegrees)) } function polarToCartesianY(centerX, centerY, radius, angleInDegrees) { return centerY + radius * Math.sin(root.toRadians(angleInDegrees)) } function sortedBegin() { return Math.min(root.begin, root.end) } function sortedEnd() { return Math.min(Math.max(root.begin, root.end), root.sortedBegin() + 359.9) } function isArcFull() { return root.alpha > 359.5 } onAlphaChanged: { if (root.__wasFull !== root.isArcFull()) root.constructArcItem() root.__wasFull = root.isArcFull() } onOutlineArcChanged: root.constructArcItem() onRoundChanged: root.constructArcItem() onRoundBeginChanged: root.constructArcItem() onRoundEndChanged: root.constructArcItem() property bool __wasFull: false property real maxArcWidth: Math.min(path.__xRadius, path.__yRadius) ShapePath { id: path property real __xRadius: root.width / 2 - root.strokeWidth / 2 property real __yRadius: root.height / 2 - root.strokeWidth / 2 property real __arcWidth: Math.min(Math.min(path.__xRadius, path.__yRadius), root.arcWidth) property real __xCenter: root.width / 2 property real __yCenter: root.height / 2 strokeColor: "red" strokeWidth: 4 capStyle: root.capStyle strokeStyle: root.strokeStyle joinStyle: root.joinStyle startX: root.polarToCartesianX(path.__xCenter, path.__yCenter, path.__xRadius, root.sortedBegin() - 90) startY: root.polarToCartesianY(path.__xCenter, path.__yCenter, path.__yRadius, root.sortedBegin() - 90) } function constructArcItem() { root.clearPathElements() // Outer arc let outerArc = Qt.createComponent("QtQuick", "PathArc").createObject(path) outerArc.x = Qt.binding(function() { return root.polarToCartesianX(path.__xCenter, path.__yCenter, path.__xRadius, root.sortedEnd() - 90) }) outerArc.y = Qt.binding(function() { return root.polarToCartesianY(path.__xCenter, path.__yCenter, path.__yRadius, root.sortedEnd() - 90) }) outerArc.radiusX = Qt.binding(function() { return path.__xRadius }) outerArc.radiusY = Qt.binding(function() { return path.__yRadius }) outerArc.useLargeArc = Qt.binding(function() { return root.alpha > 180 }) path.pathElements.push(outerArc) // Straight end if (!root.roundEnd && root.outlineArc && !root.isArcFull()) { let pathLine = Qt.createComponent("QtQuick", "PathLine").createObject(path) pathLine.relativeX = Qt.binding(function() { return -path.__arcWidth * root.myCos(root.sortedEnd() - 90) }) pathLine.relativeY = Qt.binding(function() { return -path.__arcWidth * root.mySin(root.sortedEnd() - 90) }) path.pathElements.push(pathLine) } // Round end if (root.roundEnd && root.outlineArc && !root.isArcFull()) { let pathArc = Qt.createComponent("QtQuick", "PathArc").createObject(path) pathArc.relativeX = Qt.binding(function() { return -path.__arcWidth * root.myCos(root.sortedEnd() - 90) }) pathArc.relativeY = Qt.binding(function() { return -path.__arcWidth * root.mySin(root.sortedEnd() - 90) }) pathArc.radiusX = Qt.binding(function() { return path.__arcWidth / 2 }) pathArc.radiusY = Qt.binding(function() { return path.__arcWidth / 2 }) path.pathElements.push(pathArc) } // Open end if (root.outlineArc && root.isArcFull()) { let pathMove = Qt.createComponent("QtQuick", "PathMove").createObject(path) pathMove.relativeX = Qt.binding(function() { return -path.__arcWidth * root.myCos(root.sortedEnd() - 90) }) pathMove.relativeY = Qt.binding(function() { return -path.__arcWidth * root.mySin(root.sortedEnd() - 90) }) path.pathElements.push(pathMove) } // Inner arc if (root.outlineArc) { let innerArc = Qt.createComponent("QtQuick", "PathArc").createObject(path) innerArc.x = Qt.binding(function() { return path.startX - path.__arcWidth * root.myCos(root.sortedBegin() - 90) }) innerArc.y = Qt.binding(function() { return path.startY - path.__arcWidth * root.mySin(root.sortedBegin() - 90) }) innerArc.radiusX = Qt.binding(function() { return path.__xRadius - path.__arcWidth }) innerArc.radiusY = Qt.binding(function() { return path.__yRadius - path.__arcWidth }) innerArc.useLargeArc = Qt.binding(function() { return root.alpha > 180 }) innerArc.direction = PathArc.Counterclockwise path.pathElements.push(innerArc) } // Straight begin if (!root.roundBegin && root.outlineArc && !root.isArcFull()) { let pathLine = Qt.createComponent("QtQuick", "PathLine").createObject(path) pathLine.x = Qt.binding(function() { return path.startX }) pathLine.y = Qt.binding(function() { return path.startY }) path.pathElements.push(pathLine) } // Round begin if (root.roundBegin && root.outlineArc && !root.isArcFull()) { let pathArc = Qt.createComponent("QtQuick", "PathArc").createObject(path) pathArc.x = Qt.binding(function() { return path.startX }) pathArc.y = Qt.binding(function() { return path.startY }) pathArc.radiusX = Qt.binding(function() { return path.__arcWidth / 2 }) pathArc.radiusY = Qt.binding(function() { return path.__arcWidth / 2 }) path.pathElements.push(pathArc) } // Open begin if (root.outlineArc && root.isArcFull()) { let pathMove = Qt.createComponent("QtQuick", "PathMove").createObject(path) pathMove.x = Qt.binding(function() { return path.startX }) pathMove.y = Qt.binding(function() { return path.startY }) path.pathElements.push(pathMove) } } function clearPathElements() { for (var i = 0; i !== path.pathElements.length; ++i) path.pathElements[i].destroy() path.pathElements = [] } Component.onCompleted: { // If preferredRendererType wasn't set initially make CurveRenderer the default if (root.__preferredRendererTypeAvailable && root.preferredRendererType === Shape.UnknownRenderer) root.preferredRendererType = Shape.CurveRenderer root.__wasFull = root.isArcFull() root.constructArcItem() } }