/**************************************************************************** ** ** Copyright (C) 2021 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 2.10 import QtQuick.Shapes 1.12 /*! \qmltype RegularPolygon \inqmlmodule QtQuick.Studio.Components \since QtQuick.Studio.Components 1.0 \inherits Shape \brief A filled regular polygon with an optional border. */ Shape { id: root width: 200 height: 200 /*! The radius used to draw rounded corners. The default value is 10. If radius is non-zero, the corners will be rounded, otherwise they will be sharp. The radius can also be specified separately for each corner by using the \l bottomLeftRadius, \l bottomRightRadius, \l topLeftRadius, and \l topRightRadius properties. */ property int radius: 10 /*! The gradient of the regular polygon fill color. By default, no gradient is enabled and the value is null. In this case, the fill uses a solid color based on the value of \l fillColor. When set, \l fillColor is ignored and filling is done using one of the \l ShapeGradient subtypes. \note The \l Gradient type cannot be used here. Rather, prefer using one of the advanced subtypes, like \l LinearGradient. */ property alias gradient: path.fillGradient /*! The style of the regular polygon border. \value ShapePath.SolidLine A solid line. This is the default value. \value ShapePath.DashLine Dashes separated by a few pixels. The \l dashPattern property specifies the dash pattern. \sa Qt::PenStyle */ property alias strokeStyle: path.strokeStyle /*! The width of the border of the regular polygon. The default value is 4. A width of 1 creates a thin line. For no line, use a negative value or a transparent color. \note The width of the regular polygon's border does not affect the geometry of the regular polygon itself or its position relative to other items if anchors are used. The border is rendered within the regular polygon's boundaries. */ property alias strokeWidth: path.strokeWidth /*! The color used to draw the border of the regular polygon. When set to \c transparent, no line is drawn. The default value is \c red. \sa QColor */ property alias strokeColor: path.strokeColor /*! The dash pattern of the regular polygon border specified as the dashes and the gaps between them. The dash pattern is specified in units of the pen's width. That is, a dash with the length 5 and width 10 is 50 pixels long. The default value is (4, 2), meaning a dash of 4 * \l strokeWidth pixels followed by a space of 2 * \l strokeWidth pixels. \sa QPen::setDashPattern() */ property alias dashPattern: path.dashPattern property alias joinStyle: path.joinStyle /*! The regular polygon fill color. A gradient for the fill can be specified by using \l gradient. If both a color and a gradient are specified, the gradient is used. When set to \c transparent, no filling occurs. The default value is \c white. */ property alias fillColor: path.fillColor /*! The starting point of the dash pattern for the regular polygon border. 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 /*! Number of sides on the polygon. */ property int sideCount: 6 layer.enabled: root.antialiasing layer.smooth: root.antialiasing layer.samples: root.antialiasing ? 4 : 0 // This is used to make the bounding box of the item a bit bigger so it will draw sharp edges // in case of large stroke width instead of cutting it off. Item { anchors.fill: parent anchors.margins: -root.strokeWidth } ShapePath { id: path joinStyle: ShapePath.MiterJoin strokeWidth: 4 strokeColor: "red" startX: 0 startY: 0 } onSideCountChanged: root.constructPolygon() onRadiusChanged: { // Only construct polygon if radius changed from 0 to 1 or vice versa. if ((root.radius + root.__previousRadius) === 1) root.constructPolygon() root.__previousRadius = root.radius } Component.onCompleted: root.constructPolygon() property real __centerX: root.width / 2 property real __centerY: root.height / 2 property real __radius: Math.min(root.width, root.height) / 2 property int __previousRadius: root.radius property int minRadius: 0 property int maxRadius: root.__radius * Math.cos(root.toRadians(180.0 / root.sideCount)) property int __actualRadius: Math.max(root.minRadius, Math.min(root.maxRadius, root.radius)) function constructPolygon() { root.clearPathElements() if (root.radius === 0) root.constructNonRoundedPolygonPath() else root.constructRoundedPolygonPath() } function toRadians(degrees) { return degrees * (Math.PI / 180.0) } function constructNonRoundedPolygonPath() { for (var cornerNumber = 0; cornerNumber < root.sideCount; cornerNumber++) { let angleToCorner = root.toRadians(cornerNumber * (360.0 / root.sideCount)) if (cornerNumber === 0) { path.startX = Qt.binding(function() { return root.__centerX + root.__radius * Math.cos(0) }) path.startY = Qt.binding(function() { return root.__centerY + root.__radius * Math.sin(0) }) } else { let pathLine = Qt.createQmlObject('import QtQuick 2.15; PathLine {}', path) pathLine.x = Qt.binding(function() { return root.__centerX + root.__radius * Math.cos(angleToCorner) }) pathLine.y = Qt.binding(function() { return root.__centerY + root.__radius * Math.sin(angleToCorner) }) path.pathElements.push(pathLine) } } // Close the polygon var pathLineClose = Qt.createQmlObject('import QtQuick 2.15; PathLine {}', path) pathLineClose.x = Qt.binding(function() { return path.startX } ) pathLineClose.y = Qt.binding(function() { return path.startY } ) path.pathElements.push(pathLineClose) } property real __halfInteriorCornerAngle: 90 - (180.0 / root.sideCount) property real __halfCornerArcSweepAngle: 90 - root.__halfInteriorCornerAngle property real __distanceToCornerArcCenter: root.__radius - root.__actualRadius / Math.sin(root.toRadians(root.__halfInteriorCornerAngle)) function constructRoundedPolygonPath() { for (var cornerNumber = 0; cornerNumber < root.sideCount; cornerNumber++) { let angleToCorner = cornerNumber * (360.0 / root.sideCount) let pathArc = Qt.createQmlObject('import QtQuick 2.15; PathArc { property real centerX; property real centerY }', path) pathArc.centerX = Qt.binding(function() { return root.__centerX + root.__distanceToCornerArcCenter * Math.cos(root.toRadians(angleToCorner)) }) pathArc.centerY = Qt.binding(function() { return root.__centerY + root.__distanceToCornerArcCenter * Math.sin(root.toRadians(angleToCorner)) }) pathArc.x = Qt.binding(function() { return pathArc.centerX + root.__actualRadius * (Math.cos(root.toRadians(angleToCorner + root.__halfCornerArcSweepAngle))) }) pathArc.y = Qt.binding(function() { return pathArc.centerY + root.__actualRadius * (Math.sin(root.toRadians(angleToCorner + root.__halfCornerArcSweepAngle))) }) pathArc.radiusX = Qt.binding(function() { return root.__actualRadius }) pathArc.radiusY = Qt.binding(function() { return root.__actualRadius }) if (cornerNumber === 0) { path.startX = Qt.binding(function() { return pathArc.centerX + root.__actualRadius * (Math.cos(root.toRadians(angleToCorner - root.__halfCornerArcSweepAngle))) }) path.startY = Qt.binding(function() { return pathArc.centerY + root.__actualRadius * (Math.sin(root.toRadians(angleToCorner - root.__halfCornerArcSweepAngle))) }) } else { let pathLine = Qt.createQmlObject('import QtQuick 2.15; PathLine {}', path) pathLine.x = Qt.binding(function() { return pathArc.centerX + root.__actualRadius * (Math.cos(root.toRadians(angleToCorner - root.__halfCornerArcSweepAngle))) }) pathLine.y = Qt.binding(function() { return pathArc.centerY + root.__actualRadius * (Math.sin(root.toRadians(angleToCorner - root.__halfCornerArcSweepAngle))) }) path.pathElements.push(pathLine) } path.pathElements.push(pathArc) } // Close the polygon var pathLineClose = Qt.createQmlObject('import QtQuick 2.15; PathLine {}', path) pathLineClose.x = Qt.binding(function() { return path.startX} ) pathLineClose.y = Qt.binding(function() { return path.startY} ) path.pathElements.push(pathLineClose) } function clearPathElements() { for (var i = 0; i !== path.pathElements.length; ++i) path.pathElements[i].destroy() path.pathElements = [] } }