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/*
 * Copyright (c) 2011, 2018, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
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 *
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package javafx.scene.transform;

import javafx.beans.property.DoubleProperty;
import javafx.beans.property.DoublePropertyBase;

import com.sun.javafx.geom.transform.Affine3D;
import com.sun.javafx.geom.transform.BaseTransform;
import javafx.geometry.Point2D;
import javafx.geometry.Point3D;


/**
 * This class represents an {@code Affine} object that shears coordinates
 * by the specified multipliers. The matrix representing the shearing transformation
 * around a pivot point {@code (pivotX, pivotY)} with multiplication factors {@code x}
 * and {@code y} is as follows:
 * 
 *              [   1   x   0   -x*pivotY   ]
 *              [   y   1   0   -y*pivotX   ]
 *              [   0   0   1       0       ]
 * 
* *

* For example: *

{@code
 * Text text = new Text("Using Shear for pseudo-italic font");
 * text.setX(20);
 * text.setY(50);
 * text.setFont(new Font(20));
 *
 * text.getTransforms().add(new Shear(-0.35, 0));
 * }
* * @since JavaFX 2.0 */ public class Shear extends Transform { /** * Creates a default Shear (identity). */ public Shear() { } /** * Creates a new instance of Shear. * The pivot point is set to (0,0) * @param x the multiplier by which coordinates are shifted in the direction * of the positive X axis as a factor of their Y coordinate * @param y the multiplier by which coordinates are shifted in the direction * of the positive Y axis as a factor of their X coordinate */ public Shear(double x, double y) { setX(x); setY(y); } /** * Creates a new instance of Shear with pivot. * @param x the multiplier by which coordinates are shifted in the direction * of the positive X axis as a factor of their Y coordinate * @param y the multiplier by which coordinates are shifted in the direction * of the positive Y axis as a factor of their X coordinate * @param pivotX the X coordinate of the shear pivot point * @param pivotY the Y coordinate of the shear pivot point */ public Shear(double x, double y, double pivotX, double pivotY) { setX(x); setY(y); setPivotX(pivotX); setPivotY(pivotY); } /** * Defines the multiplier by which coordinates are shifted in the direction * of the positive X axis as a factor of their Y coordinate. Typical values * are in the range -1 to 1, exclusive. * * @defaultValue 0.0 */ private DoubleProperty x; public final void setX(double value) { xProperty().set(value); } public final double getX() { return x == null ? 0.0 : x.get(); } public final DoubleProperty xProperty() { if (x == null) { x = new DoublePropertyBase() { @Override public void invalidated() { transformChanged(); } @Override public Object getBean() { return Shear.this; } @Override public String getName() { return "x"; } }; } return x; } /** * Defines the multiplier by which coordinates are shifted in the direction * of the positive Y axis as a factor of their X coordinate. Typical values * are in the range -1 to 1, exclusive. * * @defaultValue 0.0 */ private DoubleProperty y; public final void setY(double value) { yProperty().set(value); } public final double getY() { return y == null ? 0.0 : y.get(); } public final DoubleProperty yProperty() { if (y == null) { y = new DoublePropertyBase() { @Override public void invalidated() { transformChanged(); } @Override public Object getBean() { return Shear.this; } @Override public String getName() { return "y"; } }; } return y; } /** * Defines the X coordinate of the shear pivot point. * * @defaultValue 0.0 */ private DoubleProperty pivotX; public final void setPivotX(double value) { pivotXProperty().set(value); } public final double getPivotX() { return pivotX == null ? 0.0 : pivotX.get(); } public final DoubleProperty pivotXProperty() { if (pivotX == null) { pivotX = new DoublePropertyBase() { @Override public void invalidated() { transformChanged(); } @Override public Object getBean() { return Shear.this; } @Override public String getName() { return "pivotX"; } }; } return pivotX; } /** * Defines the Y coordinate of the shear pivot point. * * @defaultValue 0.0 */ private DoubleProperty pivotY; public final void setPivotY(double value) { pivotYProperty().set(value); } public final double getPivotY() { return pivotY == null ? 0.0 : pivotY.get(); } public final DoubleProperty pivotYProperty() { if (pivotY == null) { pivotY = new DoublePropertyBase() { @Override public void invalidated() { transformChanged(); } @Override public Object getBean() { return Shear.this; } @Override public String getName() { return "pivotY"; } }; } return pivotY; } /* ************************************************************************* * * * Element getters * * * **************************************************************************/ @Override public double getMxy() { return getX(); } @Override public double getMyx() { return getY(); } @Override public double getTx() { return -getX() * getPivotY(); } @Override public double getTy() { return -getY() * getPivotX(); } /* ************************************************************************* * * * State getters * * * **************************************************************************/ @Override boolean computeIs2D() { return true; } @Override boolean computeIsIdentity() { return getX() == 0.0 && getY() == 0.0; } /* ************************************************************************* * * * Array getters * * * **************************************************************************/ @Override void fill2DArray(double[] array) { final double sx = getX(); final double sy = getY(); array[0] = 1.0; array[1] = sx; array[2] = -sx * getPivotY(); array[3] = sy; array[4] = 1.0; array[5] = -sy * getPivotX(); } @Override void fill3DArray(double[] array) { final double sx = getX(); final double sy = getY(); array[0] = 1.0; array[1] = sx; array[2] = 0.0; array[3] = -sx * getPivotY(); array[4] = sy; array[5] = 1.0; array[6] = 0.0; array[7] = -sy * getPivotX(); array[8] = 0.0; array[9] = 0.0; array[10] = 1.0; array[11] = 0.0; } /* ************************************************************************* * * * Transform creators * * * **************************************************************************/ @Override public Transform createConcatenation(Transform transform) { if (transform instanceof Affine) { Affine a = (Affine) transform.clone(); a.prepend(this); return a; } final double sx = getX(); final double sy = getY(); final double txx = transform.getMxx(); final double txy = transform.getMxy(); final double txz = transform.getMxz(); final double ttx = transform.getTx(); final double tyx = transform.getMyx(); final double tyy = transform.getMyy(); final double tyz = transform.getMyz(); final double tty = transform.getTy(); return new Affine( txx + sx * tyx, txy + sx * tyy, txz + sx * tyz, ttx + sx * tty - sx * getPivotY(), sy * txx + tyx, sy * txy + tyy, sy * txz + tyz, sy * ttx + tty - sy * getPivotX(), transform.getMzx(), transform.getMzy(), transform.getMzz(), transform.getTz()); } @Override public Transform createInverse() { final double sx = getX(); final double sy = getY(); if (sy == 0.0) { return new Shear(-sx, 0.0, 0.0, getPivotY()); } if (sx == 0.0) { return new Shear(0.0, -sy, getPivotX(), 0.0); } final double px = getPivotX(); final double py = getPivotY(); final double coef = 1.0 / (1.0 - sx * sy); return new Affine( coef, -sx * coef, 0, sx * (py - sy * px) * coef, -sy * coef, 1 + sx * sy * coef, 0, sy * px + sy * (sx * sy * px - sx * py) * coef, 0, 0, 1, 0); } @Override public Shear clone() { return new Shear(getX(), getY(), getPivotX(), getPivotY()); } /* ************************************************************************* * * * Transform, Inverse Transform * * * **************************************************************************/ @Override public Point2D transform(double x, double y) { final double mxy = getX(); final double myx = getY(); return new Point2D( x + mxy * y - mxy * getPivotY(), myx * x + y - myx * getPivotX()); } @Override public Point3D transform(double x, double y, double z) { final double mxy = getX(); final double myx = getY(); return new Point3D( x + mxy * y - mxy * getPivotY(), myx * x + y - myx * getPivotX(), z); } @Override void transform2DPointsImpl(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts) { final double xy = getX(); final double yx = getY(); final double px = getPivotX(); final double py = getPivotY(); while (--numPts >= 0) { final double x = srcPts[srcOff++]; final double y = srcPts[srcOff++]; dstPts[dstOff++] = x + xy * y - xy * py; dstPts[dstOff++] = yx * x + y - yx * px; } } @Override void transform3DPointsImpl(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts) { final double xy = getX(); final double yx = getY(); final double px = getPivotX(); final double py = getPivotY(); while (--numPts >= 0) { final double x = srcPts[srcOff++]; final double y = srcPts[srcOff++]; dstPts[dstOff++] = x + xy * y - xy * py; dstPts[dstOff++] = yx * x + y - yx * px; dstPts[dstOff++] = srcPts[srcOff++]; } } @Override public Point2D deltaTransform(double x, double y) { return new Point2D( x + getX() * y, getY() * x + y); } @Override public Point3D deltaTransform(double x, double y, double z) { return new Point3D( x + getX() * y, getY() * x + y, z); } @Override public Point2D inverseTransform(double x, double y) throws NonInvertibleTransformException { final double sx = getX(); final double sy = getY(); if (sy == 0.0) { final double mxy = -getX(); return new Point2D( x + mxy * y - mxy * getPivotY(), y); } if (sx == 0.0) { final double myx = -getY(); return new Point2D( x, myx * x + y - myx * getPivotX()); } return super.inverseTransform(x, y); } @Override public Point3D inverseTransform(double x, double y, double z) throws NonInvertibleTransformException { final double sx = getX(); final double sy = getY(); if (sy == 0.0) { final double mxy = -getX(); return new Point3D( x + mxy * y - mxy * getPivotY(), y, z); } if (sx == 0.0) { final double myx = -getY(); return new Point3D( x, myx * x + y - myx * getPivotX(), z); } return super.inverseTransform(x, y, z); } @Override void inverseTransform2DPointsImpl(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts) throws NonInvertibleTransformException { final double px = getPivotX(); final double py = getPivotY(); final double sx = getX(); final double sy = getY(); if (sy == 0.0) { final double xy = -sx; while (--numPts >= 0) { final double x = srcPts[srcOff++]; final double y = srcPts[srcOff++]; dstPts[dstOff++] = x + xy * y - xy * py; dstPts[dstOff++] = y; } return; } if (sx == 0.0) { final double yx = -sy; while (--numPts >= 0) { final double x = srcPts[srcOff++]; final double y = srcPts[srcOff++]; dstPts[dstOff++] = x; dstPts[dstOff++] = yx * x + y - yx * px; } return; } super.inverseTransform2DPointsImpl(srcPts, srcOff, dstPts, dstOff, numPts); } @Override void inverseTransform3DPointsImpl(double[] srcPts, int srcOff, double[] dstPts, int dstOff, int numPts) throws NonInvertibleTransformException{ final double px = getPivotX(); final double py = getPivotY(); final double sx = getX(); final double sy = getY(); if (sy == 0.0) { final double xy = -sx; while (--numPts >= 0) { final double x = srcPts[srcOff++]; final double y = srcPts[srcOff++]; dstPts[dstOff++] = x + xy * y - xy * py; dstPts[dstOff++] = y; dstPts[dstOff++] = srcPts[srcOff++]; } return; } if (sx == 0.0) { final double yx = -sy; while (--numPts >= 0) { final double x = srcPts[srcOff++]; final double y = srcPts[srcOff++]; dstPts[dstOff++] = x; dstPts[dstOff++] = yx * x + y - yx * px; dstPts[dstOff++] = srcPts[srcOff++]; } return; } super.inverseTransform3DPointsImpl(srcPts, srcOff, dstPts, dstOff, numPts); } @Override public Point2D inverseDeltaTransform(double x, double y) throws NonInvertibleTransformException { final double sx = getX(); final double sy = getY(); if (sy == 0.0) { return new Point2D( x - getX() * y, y); } if (sx == 0.0) { return new Point2D( x, -getY() * x + y); } return super.inverseDeltaTransform(x, y); } @Override public Point3D inverseDeltaTransform(double x, double y, double z) throws NonInvertibleTransformException { final double sx = getX(); final double sy = getY(); if (sy == 0.0) { return new Point3D( x - getX() * y, y, z); } if (sx == 0.0) { return new Point3D( x, -getY() * x + y, z); } return super.inverseDeltaTransform(x, y, z); } /* ************************************************************************* * * * Other API * * * **************************************************************************/ /** * Returns a string representation of this {@code Shear} object. * @return a string representation of this {@code Shear} object. */ @Override public String toString() { final StringBuilder sb = new StringBuilder("Shear ["); sb.append("x=").append(getX()); sb.append(", y=").append(getY()); sb.append(", pivotX=").append(getPivotX()); sb.append(", pivotY=").append(getPivotY()); return sb.append("]").toString(); } /* ************************************************************************* * * * Internal implementation stuff * * * **************************************************************************/ @Override void apply(final Affine3D trans) { if (getPivotX() != 0 || getPivotY() != 0) { trans.translate(getPivotX(), getPivotY()); trans.shear(getX(), getY()); trans.translate(-getPivotX(), -getPivotY()); } else { trans.shear(getX(), getY()); } } @Override BaseTransform derive(final BaseTransform trans) { return trans.deriveWithConcatenation( 1.0, getY(), getX(), 1.0, getTx(), getTy()); } @Override void validate() { getX(); getPivotX(); getY(); getPivotY(); } @Override void appendTo(Affine a) { a.appendShear(getX(), getY(), getPivotX(), getPivotY()); } @Override void prependTo(Affine a) { a.prependShear(getX(), getY(), getPivotX(), getPivotY()); } }




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