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Java example source code file (Order1.java)

This example Java source code file (Order1.java) is included in the alvinalexander.com "Java Source Code Warehouse" project. The intent of this project is to help you "Learn Java by Example" TM.

Learn more about this Java project at its project page.

Java - Java tags/keywords

awt, curve, decreasing, geometry, increasing, internalerror, order1, tfory, util, xfort, xfory, yfort

The Order1.java Java example source code

/*
 * Copyright (c) 1998, 2006, 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,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

package sun.awt.geom;

import java.awt.geom.Rectangle2D;
import java.awt.geom.PathIterator;
import java.util.Vector;

final class Order1 extends Curve {
    private double x0;
    private double y0;
    private double x1;
    private double y1;
    private double xmin;
    private double xmax;

    public Order1(double x0, double y0,
                  double x1, double y1,
                  int direction)
    {
        super(direction);
        this.x0 = x0;
        this.y0 = y0;
        this.x1 = x1;
        this.y1 = y1;
        if (x0 < x1) {
            this.xmin = x0;
            this.xmax = x1;
        } else {
            this.xmin = x1;
            this.xmax = x0;
        }
    }

    public int getOrder() {
        return 1;
    }

    public double getXTop() {
        return x0;
    }

    public double getYTop() {
        return y0;
    }

    public double getXBot() {
        return x1;
    }

    public double getYBot() {
        return y1;
    }

    public double getXMin() {
        return xmin;
    }

    public double getXMax() {
        return xmax;
    }

    public double getX0() {
        return (direction == INCREASING) ? x0 : x1;
    }

    public double getY0() {
        return (direction == INCREASING) ? y0 : y1;
    }

    public double getX1() {
        return (direction == DECREASING) ? x0 : x1;
    }

    public double getY1() {
        return (direction == DECREASING) ? y0 : y1;
    }

    public double XforY(double y) {
        if (x0 == x1 || y <= y0) {
            return x0;
        }
        if (y >= y1) {
            return x1;
        }
        // assert(y0 != y1); /* No horizontal lines... */
        return (x0 + (y - y0) * (x1 - x0) / (y1 - y0));
    }

    public double TforY(double y) {
        if (y <= y0) {
            return 0;
        }
        if (y >= y1) {
            return 1;
        }
        return (y - y0) / (y1 - y0);
    }

    public double XforT(double t) {
        return x0 + t * (x1 - x0);
    }

    public double YforT(double t) {
        return y0 + t * (y1 - y0);
    }

    public double dXforT(double t, int deriv) {
        switch (deriv) {
        case 0:
            return x0 + t * (x1 - x0);
        case 1:
            return (x1 - x0);
        default:
            return 0;
        }
    }

    public double dYforT(double t, int deriv) {
        switch (deriv) {
        case 0:
            return y0 + t * (y1 - y0);
        case 1:
            return (y1 - y0);
        default:
            return 0;
        }
    }

    public double nextVertical(double t0, double t1) {
        return t1;
    }

    public boolean accumulateCrossings(Crossings c) {
        double xlo = c.getXLo();
        double ylo = c.getYLo();
        double xhi = c.getXHi();
        double yhi = c.getYHi();
        if (xmin >= xhi) {
            return false;
        }
        double xstart, ystart, xend, yend;
        if (y0 < ylo) {
            if (y1 <= ylo) {
                return false;
            }
            ystart = ylo;
            xstart = XforY(ylo);
        } else {
            if (y0 >= yhi) {
                return false;
            }
            ystart = y0;
            xstart = x0;
        }
        if (y1 > yhi) {
            yend = yhi;
            xend = XforY(yhi);
        } else {
            yend = y1;
            xend = x1;
        }
        if (xstart >= xhi && xend >= xhi) {
            return false;
        }
        if (xstart > xlo || xend > xlo) {
            return true;
        }
        c.record(ystart, yend, direction);
        return false;
    }

    public void enlarge(Rectangle2D r) {
        r.add(x0, y0);
        r.add(x1, y1);
    }

    public Curve getSubCurve(double ystart, double yend, int dir) {
        if (ystart == y0 && yend == y1) {
            return getWithDirection(dir);
        }
        if (x0 == x1) {
            return new Order1(x0, ystart, x1, yend, dir);
        }
        double num = x0 - x1;
        double denom = y0 - y1;
        double xstart = (x0 + (ystart - y0) * num / denom);
        double xend = (x0 + (yend - y0) * num / denom);
        return new Order1(xstart, ystart, xend, yend, dir);
    }

    public Curve getReversedCurve() {
        return new Order1(x0, y0, x1, y1, -direction);
    }

    public int compareTo(Curve other, double yrange[]) {
        if (!(other instanceof Order1)) {
            return super.compareTo(other, yrange);
        }
        Order1 c1 = (Order1) other;
        if (yrange[1] <= yrange[0]) {
            throw new InternalError("yrange already screwed up...");
        }
        yrange[1] = Math.min(Math.min(yrange[1], y1), c1.y1);
        if (yrange[1] <= yrange[0]) {
            throw new InternalError("backstepping from "+yrange[0]+" to "+yrange[1]);
        }
        if (xmax <= c1.xmin) {
            return (xmin == c1.xmax) ? 0 : -1;
        }
        if (xmin >= c1.xmax) {
            return 1;
        }
        /*
         * If "this" is curve A and "other" is curve B, then...
         * xA(y) = x0A + (y - y0A) (x1A - x0A) / (y1A - y0A)
         * xB(y) = x0B + (y - y0B) (x1B - x0B) / (y1B - y0B)
         * xA(y) == xB(y)
         * x0A + (y - y0A) (x1A - x0A) / (y1A - y0A)
         *    == x0B + (y - y0B) (x1B - x0B) / (y1B - y0B)
         * 0 == x0A (y1A - y0A) (y1B - y0B) + (y - y0A) (x1A - x0A) (y1B - y0B)
         *    - x0B (y1A - y0A) (y1B - y0B) - (y - y0B) (x1B - x0B) (y1A - y0A)
         * 0 == (x0A - x0B) (y1A - y0A) (y1B - y0B)
         *    + (y - y0A) (x1A - x0A) (y1B - y0B)
         *    - (y - y0B) (x1B - x0B) (y1A - y0A)
         * If (dxA == x1A - x0A), etc...
         * 0 == (x0A - x0B) * dyA * dyB
         *    + (y - y0A) * dxA * dyB
         *    - (y - y0B) * dxB * dyA
         * 0 == (x0A - x0B) * dyA * dyB
         *    + y * dxA * dyB - y0A * dxA * dyB
         *    - y * dxB * dyA + y0B * dxB * dyA
         * 0 == (x0A - x0B) * dyA * dyB
         *    + y * dxA * dyB - y * dxB * dyA
         *    - y0A * dxA * dyB + y0B * dxB * dyA
         * 0 == (x0A - x0B) * dyA * dyB
         *    + y * (dxA * dyB - dxB * dyA)
         *    - y0A * dxA * dyB + y0B * dxB * dyA
         * y == ((x0A - x0B) * dyA * dyB
         *       - y0A * dxA * dyB + y0B * dxB * dyA)
         *    / (-(dxA * dyB - dxB * dyA))
         * y == ((x0A - x0B) * dyA * dyB
         *       - y0A * dxA * dyB + y0B * dxB * dyA)
         *    / (dxB * dyA - dxA * dyB)
         */
        double dxa = x1 - x0;
        double dya = y1 - y0;
        double dxb = c1.x1 - c1.x0;
        double dyb = c1.y1 - c1.y0;
        double denom = dxb * dya - dxa * dyb;
        double y;
        if (denom != 0) {
            double num = ((x0 - c1.x0) * dya * dyb
                          - y0 * dxa * dyb
                          + c1.y0 * dxb * dya);
            y = num / denom;
            if (y <= yrange[0]) {
                // intersection is above us
                // Use bottom-most common y for comparison
                y = Math.min(y1, c1.y1);
            } else {
                // intersection is below the top of our range
                if (y < yrange[1]) {
                    // If intersection is in our range, adjust valid range
                    yrange[1] = y;
                }
                // Use top-most common y for comparison
                y = Math.max(y0, c1.y0);
            }
        } else {
            // lines are parallel, choose any common y for comparison
            // Note - prefer an endpoint for speed of calculating the X
            // (see shortcuts in Order1.XforY())
            y = Math.max(y0, c1.y0);
        }
        return orderof(XforY(y), c1.XforY(y));
    }

    public int getSegment(double coords[]) {
        if (direction == INCREASING) {
            coords[0] = x1;
            coords[1] = y1;
        } else {
            coords[0] = x0;
            coords[1] = y0;
        }
        return PathIterator.SEG_LINETO;
    }
}

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