forked from mbk-lab/rui_orig
197 lines
7.3 KiB
Go
197 lines
7.3 KiB
Go
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package rui
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import (
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"strconv"
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"strings"
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)
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// Path is a path interface
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type Path interface {
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// Reset erases the Path
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Reset()
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// MoveTo begins a new sub-path at the point specified by the given (x, y) coordinates
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MoveTo(x, y float64)
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// LineTo adds a straight line to the current sub-path by connecting
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// the sub-path's last point to the specified (x, y) coordinates
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LineTo(x, y float64)
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// ArcTo adds a circular arc to the current sub-path, using the given control points and radius.
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// The arc is automatically connected to the path's latest point with a straight line, if necessary.
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// x0, y0 - coordinates of the first control point;
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// x1, y1 - coordinates of the second control point;
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// radius - the arc's radius. Must be non-negative.
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ArcTo(x0, y0, x1, y1, radius float64)
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// Arc adds a circular arc to the current sub-path.
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// x, y - coordinates of the arc's center;
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// radius - the arc's radius. Must be non-negative;
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// startAngle - the angle at which the arc starts, measured clockwise from the positive
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// x-axis and expressed in radians.
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// endAngle - the angle at which the arc ends, measured clockwise from the positive
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// x-axis and expressed in radians.
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// clockwise - if true, causes the arc to be drawn clockwise between the start and end angles,
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// otherwise - counter-clockwise
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Arc(x, y, radius, startAngle, endAngle float64, clockwise bool)
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// BezierCurveTo adds a cubic Bézier curve to the current sub-path. The starting point is
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// the latest point in the current path.
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// cp0x, cp0y - coordinates of the first control point;
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// cp1x, cp1y - coordinates of the second control point;
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// x, y - coordinates of the end point.
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BezierCurveTo(cp0x, cp0y, cp1x, cp1y, x, y float64)
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// QuadraticCurveTo adds a quadratic Bézier curve to the current sub-path.
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// cpx, cpy - coordinates of the control point;
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// x, y - coordinates of the end point.
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QuadraticCurveTo(cpx, cpy, x, y float64)
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// Ellipse adds an elliptical arc to the current sub-path
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// x, y - coordinates of the ellipse's center;
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// radiusX - the ellipse's major-axis radius. Must be non-negative;
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// radiusY - the ellipse's minor-axis radius. Must be non-negative;
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// rotation - the rotation of the ellipse, expressed in radians;
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// startAngle - the angle at which the ellipse starts, measured clockwise
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// from the positive x-axis and expressed in radians;
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// endAngle - the angle at which the ellipse ends, measured clockwise
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// from the positive x-axis and expressed in radians.
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// clockwise - if true, draws the ellipse clockwise, otherwise draws counter-clockwise
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Ellipse(x, y, radiusX, radiusY, rotation, startAngle, endAngle float64, clockwise bool)
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// Close adds a straight line from the current point to the start of the current sub-path.
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// If the shape has already been closed or has only one point, this function does nothing.
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Close()
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scriptText() string
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}
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type pathData struct {
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script strings.Builder
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}
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// NewPath creates a new empty Path
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func NewPath() Path {
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path := new(pathData)
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path.script.Grow(4096)
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path.script.WriteString("\nctx.beginPath();")
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return path
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}
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func (path *pathData) Reset() {
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path.script.Reset()
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path.script.WriteString("\nctx.beginPath();")
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}
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func (path *pathData) MoveTo(x, y float64) {
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path.script.WriteString("\nctx.moveTo(")
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path.script.WriteString(strconv.FormatFloat(x, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(y, 'g', -1, 64))
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path.script.WriteString(");")
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}
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func (path *pathData) LineTo(x, y float64) {
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path.script.WriteString("\nctx.lineTo(")
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path.script.WriteString(strconv.FormatFloat(x, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(y, 'g', -1, 64))
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path.script.WriteString(");")
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}
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func (path *pathData) ArcTo(x0, y0, x1, y1, radius float64) {
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if radius > 0 {
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path.script.WriteString("\nctx.arcTo(")
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path.script.WriteString(strconv.FormatFloat(x0, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(y0, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(x1, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(y1, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(radius, 'g', -1, 64))
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path.script.WriteString(");")
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}
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}
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func (path *pathData) Arc(x, y, radius, startAngle, endAngle float64, clockwise bool) {
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if radius > 0 {
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path.script.WriteString("\nctx.arc(")
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path.script.WriteString(strconv.FormatFloat(x, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(y, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(radius, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(startAngle, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(endAngle, 'g', -1, 64))
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if !clockwise {
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path.script.WriteString(",true);")
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} else {
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path.script.WriteString(");")
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}
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}
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}
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func (path *pathData) BezierCurveTo(cp0x, cp0y, cp1x, cp1y, x, y float64) {
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path.script.WriteString("\nctx.bezierCurveTo(")
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path.script.WriteString(strconv.FormatFloat(cp0x, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(cp0y, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(cp1x, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(cp1y, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(x, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(y, 'g', -1, 64))
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path.script.WriteString(");")
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}
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func (path *pathData) QuadraticCurveTo(cpx, cpy, x, y float64) {
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path.script.WriteString("\nctx.quadraticCurveTo(")
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path.script.WriteString(strconv.FormatFloat(cpx, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(cpy, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(x, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(y, 'g', -1, 64))
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path.script.WriteString(");")
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}
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func (path *pathData) Ellipse(x, y, radiusX, radiusY, rotation, startAngle, endAngle float64, clockwise bool) {
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if radiusX > 0 && radiusY > 0 {
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path.script.WriteString("\nctx.ellipse(")
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path.script.WriteString(strconv.FormatFloat(x, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(y, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(radiusX, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(radiusY, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(rotation, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(startAngle, 'g', -1, 64))
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path.script.WriteRune(',')
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path.script.WriteString(strconv.FormatFloat(endAngle, 'g', -1, 64))
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if !clockwise {
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path.script.WriteString(",true);")
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} else {
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path.script.WriteString(");")
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}
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}
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}
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func (path *pathData) Close() {
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path.script.WriteString("\nctx.close();")
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}
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func (path *pathData) scriptText() string {
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return path.script.String()
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}
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