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komplex-hub/build/qml/QtQuick/Studio/Components/BorderItem.qml
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**
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**
** This file is part of Qt Quick Studio Components.
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import QtQuick
import QtQuick.Shapes
/*!
\qmltype BorderItem
\inqmlmodule QtQuick.Studio.Components
\since QtQuick.Studio.Components 1.0
\inherits Shape
\brief A border drawn in four segments: left, top, right, and bottom.
The Border type is used to create borders out of four segments: left, top, right, and bottom.
The \l drawLeft, \l drawTop, \l drawRight, and \l drawBottom properties can be used to determine
whether each of the segments is visible.
The \l borderMode property determines whether the border is drawn along the inside or outside
edge of the item, or on top of the edge.
The \l radius property specifies whether the border corners are rounded. The radius can also be
specified separately for each corner. Because this introduces curved edges to the corners, it
may be appropriate to set the \c antialiasing property that is inherited from \l Item to improve
the appearance of the border.
The \l joinStyle property specifies how to connect two border line segments.
The \l strokeColor, \l strokeWidth, and \l strokeStyle properties specify the appearance of the
border line. The \l dashPattern and \l dashOffset properties specify the appearance of dashed
lines.
The \l capStyle property specifies whether line ends are square or rounded.
\section2 Example Usage
You can use the Border component in \QDS to create different kinds of borders.
\image studio-border.webp
The QML code looks as follows:
\code
BorderItem {
id: openLeft
width: 99
height: 99
antialiasing: true
drawLeft: false
strokeColor: "gray"
}
BorderItem {
id: openTop
width: 99
height: 99
antialiasing: true
strokeColor: "#808080"
drawTop: false
}
BorderItem {
id: asymmetricalCorners
width: 99
height: 99
antialiasing: true
bottomLeftRadius: 0
topRightRadius: 0
strokeColor: "#808080"
}
BorderItem {
id: dashedBorder
width: 99
height: 99
antialiasing: true
strokeStyle: 4
strokeColor: "#808080"
}
\endcode
*/
Shape {
id: root
width: 200
height: 150
/*!
\include CommonItemDescriptions.qdocinc {component-radius} {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 radius of the top left border corner.
\sa radius
*/
property int topLeftRadius: root.radius
/*!
The radius of the bottom left border corner.
\sa radius
*/
property int bottomLeftRadius: root.radius
/*!
The radius of the top right border corner.
\sa radius
*/
property int topRightRadius: root.radius
/*!
The radius of the bottom right border corner.
\sa radius
*/
property int bottomRightRadius: root.radius
/*!
Whether the border corner is beveled.
*/
property bool bevel: false
/*!
The bevel of the top left border corner.
\sa bevel
*/
property bool topLeftBevel: root.bevel
/*!
The bevel of the top right border corner.
\sa bevel
*/
property bool topRightBevel: root.bevel
/*!
The bevel of the bottom right border corner.
\sa bevel
*/
property bool bottomRightBevel: root.bevel
/*!
The bevel of the bottom left border corner.
\sa bevel
*/
property bool bottomLeftBevel: root.bevel
/*!
The width of the border line.
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 border does not affect its position relative to other items if
anchors are used.
*/
property alias strokeWidth: path.strokeWidth
/*!
\include CommonItemDescriptions.qdocinc {component-strokeColor} {border}
*/
property alias strokeColor: path.strokeColor
/*!
The dash pattern of the border line 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.
Each dash is also subject to cap styles, and therefore a dash of 1 with square cap set will
extend 0.5 pixels out in each direction resulting in a total width of 2.
The default \l capStyle is \c {ShapePath.SquareCap}, meaning that a square line end covers the
end point and extends beyond it by half the line width.
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
/*!
\include CommonItemDescriptions.qdocinc component-joinStyle
*/
//property alias joinStyle: path.joinStyle
property int joinStyle: ShapePath.MiterJoin //workaround for regression in Qt 6.6.1 (QDS-11845)
/*!
\include CommonItemDescriptions.qdocinc component-capStyle
*/
//property alias capStyle: path.capStyle
property int capStyle: ShapePath.SquareCap //workaround for regression in Qt 6.6.1 (QDS-11845)
/*!
\include CommonItemDescriptions.qdocinc {component-strokeStyle} {border}
*/
//property alias strokeStyle: path.strokeStyle
property int strokeStyle: ShapePath.SolidLine //workaround for regression in Qt 6.6.1 (QDS-11845)
/*!
The starting point of the dash pattern for the border line.
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
//property alias fillColor: path.fillColor
/*!
Whether the top border is visible.
The border segment is drawn if this property is set to \c true.
*/
property bool drawTop: true
/*!
Whether the bottom border is visible.
The border segment is drawn if this property is set to \c true.
*/
property bool drawBottom: true
/*!
Whether the right border is visible.
The border segment is drawn if this property is set to \c true.
*/
property bool drawRight: true
/*!
Whether the left border is visible.
The border segment is drawn if this property is set to \c true.
*/
property bool drawLeft: true
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
/*!
\include CommonItemDescriptions.qdocinc component-borderMode
*/
property int borderMode: 0
property real borderOffset: {
if (root.borderMode === 0)
return root.strokeWidth * 0.5
if (root.borderMode === 1)
return 0
return -root.strokeWidth * 0.5
}
/*!
\include CommonItemDescriptions.qdocinc component-adjustBorderRadius
*/
property bool adjustBorderRadius: false
Item {
anchors.fill: parent
anchors.margins: {
if (root.borderMode === 0)
return 0
if (root.borderMode === 1)
return -root.strokeWidth * 0.5
return -root.strokeWidth
}
}
onRadiusChanged: Qt.callLater(root.calculateIndependentRadii)
onTopLeftRadiusChanged: Qt.callLater(root.calculateIndependentRadii)
onTopRightRadiusChanged: Qt.callLater(root.calculateIndependentRadii)
onBottomLeftRadiusChanged: Qt.callLater(root.calculateIndependentRadii)
onBottomRightRadiusChanged: Qt.callLater(root.calculateIndependentRadii)
onWidthChanged: Qt.callLater(root.calculateIndependentRadii)
onHeightChanged: Qt.callLater(root.calculateIndependentRadii)
function calculateIndependentRadii() {
let minDimension = Math.min(root.width, root.height)
let maxRadius = Math.floor(minDimension / 2)
let mixed = !(root.radius === root.topLeftRadius
&& root.radius === root.topRightRadius
&& root.radius === root.bottomLeftRadius
&& root.radius === root.bottomRightRadius)
// Uniform radii
if (!mixed) {
path.__topLeftRadius = Math.min(root.topLeftRadius, maxRadius)
path.__topRightRadius = Math.min(root.topRightRadius, maxRadius)
path.__bottomRightRadius = Math.min(root.bottomRightRadius, maxRadius)
path.__bottomLeftRadius = Math.min(root.bottomLeftRadius, maxRadius)
return
}
// Mixed radii
let topLeftRadiusMin = Math.min(minDimension, root.topLeftRadius)
let topRightRadiusMin = Math.min(minDimension, root.topRightRadius)
let bottomLeftRadiusMin = Math.min(minDimension, root.bottomLeftRadius)
let bottomRightRadiusMin = Math.min(minDimension, root.bottomRightRadius)
// Top radii
let topRadii = root.topLeftRadius + root.topRightRadius
if (topRadii > root.width) {
let topLeftRadiusFactor = root.topLeftRadius / topRadii
let tlr = Math.round(root.width * topLeftRadiusFactor)
topLeftRadiusMin = Math.min(topLeftRadiusMin, tlr)
topRightRadiusMin = Math.min(topRightRadiusMin, root.width - tlr)
}
// Right radii
let rightRadii = root.topRightRadius + root.bottomRightRadius
if (rightRadii > root.height) {
let topRightRadiusFactor = root.topRightRadius / rightRadii
let trr = Math.round(root.height * topRightRadiusFactor)
topRightRadiusMin = Math.min(topRightRadiusMin, trr)
bottomRightRadiusMin = Math.min(bottomRightRadiusMin, root.height - trr)
}
// Bottom radii
let bottomRadii = root.bottomRightRadius + root.bottomLeftRadius
if (bottomRadii > root.width) {
let bottomRightRadiusFactor = root.bottomRightRadius / bottomRadii
let brr = Math.round(root.width * bottomRightRadiusFactor)
bottomRightRadiusMin = Math.min(bottomRightRadiusMin, brr)
bottomLeftRadiusMin = Math.min(bottomLeftRadiusMin, root.width - brr)
}
// Left radii
let leftRadii = root.bottomLeftRadius + root.topLeftRadius
if (leftRadii > root.height) {
let bottomLeftRadiusFactor = root.bottomLeftRadius / leftRadii
let blr = Math.round(root.height * bottomLeftRadiusFactor)
bottomLeftRadiusMin = Math.min(bottomLeftRadiusMin, blr)
topLeftRadiusMin = Math.min(topLeftRadiusMin, root.height - blr)
}
path.__topLeftRadius = topLeftRadiusMin
path.__topRightRadius = topRightRadiusMin
path.__bottomLeftRadius = bottomLeftRadiusMin
path.__bottomRightRadius = bottomRightRadiusMin
}
ShapePath {
id: path
property int __topLeftRadius: 0
property int __topRightRadius: 0
property int __bottomRightRadius: 0
property int __bottomLeftRadius: 0
readonly property real __borderRadiusAdjustment: {
if (root.adjustBorderRadius) {
if (root.borderMode === 1)
return (root.strokeWidth * 0.5)
if (root.borderMode === 2)
return root.strokeWidth
}
return 0
}
capStyle: root.capStyle
strokeStyle: root.strokeStyle
joinStyle: root.joinStyle
strokeWidth: 4
strokeColor: "red"
fillColor: "transparent"
startX: path.__topLeftRadius + root.borderOffset + path.__borderRadiusAdjustment
startY: root.borderOffset
}
onDrawTopChanged: root.constructBorderItem()
onDrawRightChanged: root.constructBorderItem()
onDrawBottomChanged: root.constructBorderItem()
onDrawLeftChanged: root.constructBorderItem()
function constructBorderItem() {
root.clearPathElements()
// Top line
if (root.drawTop) {
let pathLine = Qt.createQmlObject('import QtQuick 2.15; PathLine {}', path)
pathLine.x = Qt.binding(function() { return root.width - path.__topRightRadius - root.borderOffset - path.__borderRadiusAdjustment })
pathLine.y = Qt.binding(function() { return root.borderOffset })
path.pathElements.push(pathLine)
} else {
let pathMove = Qt.createQmlObject('import QtQuick 2.15; PathMove {}', path)
pathMove.x = Qt.binding(function() { return root.width - root.borderOffset })
pathMove.y = Qt.binding(function() { return path.__topRightRadius + root.borderOffset + path.__borderRadiusAdjustment })
path.pathElements.push(pathMove)
}
// Top right corner
if (root.drawTop && root.drawRight) {
let pathArc = Qt.createQmlObject('import QtQuick 2.15; PathArc {}', path)
pathArc.x = Qt.binding(function() { return root.width - root.borderOffset })
pathArc.y = Qt.binding(function() { return path.__topRightRadius + root.borderOffset + path.__borderRadiusAdjustment })
pathArc.radiusX = Qt.binding(function() { return root.topRightBevel ? 50000 : path.__topRightRadius + path.__borderRadiusAdjustment })
pathArc.radiusY = Qt.binding(function() { return root.topRightBevel ? 50000 : path.__topRightRadius + path.__borderRadiusAdjustment })
path.pathElements.push(pathArc)
}
// Right line
if (root.drawRight) {
let pathLine = Qt.createQmlObject('import QtQuick 2.15; PathLine {}', path)
pathLine.x = Qt.binding(function() { return root.width - root.borderOffset })
pathLine.y = Qt.binding(function() { return root.height - path.__bottomRightRadius - root.borderOffset - path.__borderRadiusAdjustment })
path.pathElements.push(pathLine)
} else {
let pathMove = Qt.createQmlObject('import QtQuick 2.15; PathMove {}', path)
pathMove.x = Qt.binding(function() { return root.width - path.__bottomRightRadius - root.borderOffset - path.__borderRadiusAdjustment })
pathMove.y = Qt.binding(function() { return root.height - root.borderOffset })
path.pathElements.push(pathMove)
}
// Bottom right corner
if (root.drawBottom && root.drawRight) {
let pathArc = Qt.createQmlObject('import QtQuick 2.15; PathArc {}', path)
pathArc.x = Qt.binding(function() { return root.width - path.__bottomRightRadius - root.borderOffset - path.__borderRadiusAdjustment })
pathArc.y = Qt.binding(function() { return root.height - root.borderOffset })
pathArc.radiusX = Qt.binding(function() { return root.bottomRightBevel ? 50000 : path.__bottomRightRadius + path.__borderRadiusAdjustment })
pathArc.radiusY = Qt.binding(function() { return root.bottomRightBevel ? 50000 : path.__bottomRightRadius + path.__borderRadiusAdjustment })
path.pathElements.push(pathArc)
}
// Bottom line
if (root.drawBottom) {
let pathLine = Qt.createQmlObject('import QtQuick 2.15; PathLine {}', path)
pathLine.x = Qt.binding(function() { return path.__bottomLeftRadius + root.borderOffset + path.__borderRadiusAdjustment })
pathLine.y = Qt.binding(function() { return root.height - root.borderOffset })
path.pathElements.push(pathLine)
} else {
let pathMove = Qt.createQmlObject('import QtQuick 2.15; PathMove {}', path)
pathMove.x = Qt.binding(function() { return root.borderOffset })
pathMove.y = Qt.binding(function() { return root.height - path.__bottomLeftRadius - root.borderOffset - path.__borderRadiusAdjustment })
path.pathElements.push(pathMove)
}
// Bottom left corner
if (root.drawBottom && root.drawLeft) {
let pathArc = Qt.createQmlObject('import QtQuick 2.15; PathArc {}', path)
pathArc.x = Qt.binding(function() { return root.borderOffset })
pathArc.y = Qt.binding(function() { return root.height - path.__bottomLeftRadius - root.borderOffset - path.__borderRadiusAdjustment })
pathArc.radiusX = Qt.binding(function() { return root.bottomLeftBevel ? 50000 : path.__bottomLeftRadius + path.__borderRadiusAdjustment })
pathArc.radiusY = Qt.binding(function() { return root.bottomLeftBevel ? 50000 : path.__bottomLeftRadius + path.__borderRadiusAdjustment })
path.pathElements.push(pathArc)
}
// Left line
if (root.drawLeft) {
let pathLine = Qt.createQmlObject('import QtQuick 2.15; PathLine {}', path)
pathLine.x = Qt.binding(function() { return root.borderOffset })
pathLine.y = Qt.binding(function() { return path.__topLeftRadius + root.borderOffset + path.__borderRadiusAdjustment })
path.pathElements.push(pathLine)
}
// No need to use PathMove, if left line shouldn't be drawn we just leave the shape open.
// Top left corner
if (root.drawTop && root.drawLeft) {
let pathArc = Qt.createQmlObject('import QtQuick 2.15; PathArc {}', path)
pathArc.x = Qt.binding(function() { return path.__topLeftRadius + root.borderOffset + path.__borderRadiusAdjustment })
pathArc.y = Qt.binding(function() { return root.borderOffset })
pathArc.radiusX = Qt.binding(function() { return root.topLeftBevel ? 50000 : path.__topLeftRadius + path.__borderRadiusAdjustment })
pathArc.radiusY = Qt.binding(function() { return root.topLeftBevel ? 50000 : path.__topLeftRadius + path.__borderRadiusAdjustment })
path.pathElements.push(pathArc)
}
}
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.calculateIndependentRadii()
root.constructBorderItem()
}
}