Mercurial > hg > openjdk > hsx21
view test/compiler/7047069/Test7047069.java @ 2508:ea0da5474c23
7047069: Array can dynamically change size when assigned to an object field
Summary: Fix initialization of a newly-allocated array with arraycopy
Reviewed-by: never
| author | kvn |
|---|---|
| date | Fri, 27 May 2011 12:47:48 -0700 |
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/* * Copyright (c) 2011, 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. * * 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. * */ /** * @test * @bug 7047069 * @summary Array can dynamically change size when assigned to an object field * * @run main/othervm -Xbatch Test7047069 */ import java.util.*; import java.awt.geom.*; public class Test7047069 { static boolean verbose; static final int GROW_SIZE = 24; // Multiple of cubic & quad curve size float squareflat; // Square of the flatness parameter // for testing against squared lengths int limit; // Maximum number of recursion levels float hold[] = new float[14]; // The cache of interpolated coords // Note that this must be long enough // to store a full cubic segment and // a relative cubic segment to avoid // aliasing when copying the coords // of a curve to the end of the array. // This is also serendipitously equal // to the size of a full quad segment // and 2 relative quad segments. int holdEnd; // The index of the last curve segment // being held for interpolation int holdIndex; // The index of the curve segment // that was last interpolated. This // is the curve segment ready to be // returned in the next call to // currentSegment(). int levels[]; // The recursion level at which // each curve being held in storage // was generated. int levelIndex; // The index of the entry in the // levels array of the curve segment // at the holdIndex public static void subdivide(float src[], int srcoff, float left[], int leftoff, float right[], int rightoff) { float x1 = src[srcoff + 0]; float y1 = src[srcoff + 1]; float ctrlx = src[srcoff + 2]; float ctrly = src[srcoff + 3]; float x2 = src[srcoff + 4]; float y2 = src[srcoff + 5]; if (left != null) { left[leftoff + 0] = x1; left[leftoff + 1] = y1; } if (right != null) { right[rightoff + 4] = x2; right[rightoff + 5] = y2; } x1 = (x1 + ctrlx) / 2f; y1 = (y1 + ctrly) / 2f; x2 = (x2 + ctrlx) / 2f; y2 = (y2 + ctrly) / 2f; ctrlx = (x1 + x2) / 2f; ctrly = (y1 + y2) / 2f; if (left != null) { left[leftoff + 2] = x1; left[leftoff + 3] = y1; left[leftoff + 4] = ctrlx; left[leftoff + 5] = ctrly; } if (right != null) { right[rightoff + 0] = ctrlx; right[rightoff + 1] = ctrly; right[rightoff + 2] = x2; right[rightoff + 3] = y2; } } public static double getFlatnessSq(float coords[], int offset) { return Line2D.ptSegDistSq(coords[offset + 0], coords[offset + 1], coords[offset + 4], coords[offset + 5], coords[offset + 2], coords[offset + 3]); } public Test7047069() { this.squareflat = .0001f * .0001f; holdIndex = hold.length - 6; holdEnd = hold.length - 2; hold[holdIndex + 0] = (float) (Math.random() * 100); hold[holdIndex + 1] = (float) (Math.random() * 100); hold[holdIndex + 2] = (float) (Math.random() * 100); hold[holdIndex + 3] = (float) (Math.random() * 100); hold[holdIndex + 4] = (float) (Math.random() * 100); hold[holdIndex + 5] = (float) (Math.random() * 100); levelIndex = 0; this.limit = 10; this.levels = new int[limit + 1]; } /* * Ensures that the hold array can hold up to (want) more values. * It is currently holding (hold.length - holdIndex) values. */ void ensureHoldCapacity(int want) { if (holdIndex - want < 0) { int have = hold.length - holdIndex; int newsize = hold.length + GROW_SIZE; float newhold[] = new float[newsize]; System.arraycopy(hold, holdIndex, newhold, holdIndex + GROW_SIZE, have); if (verbose) System.err.println("old hold = "+hold+"["+hold.length+"]"); if (verbose) System.err.println("replacement hold = "+newhold+"["+newhold.length+"]"); hold = newhold; if (verbose) System.err.println("new hold = "+hold+"["+hold.length+"]"); if (verbose) System.err.println("replacement hold still = "+newhold+"["+newhold.length+"]"); holdIndex += GROW_SIZE; holdEnd += GROW_SIZE; } } private boolean next() { if (holdIndex >= holdEnd) { return false; } int level = levels[levelIndex]; while (level < limit) { if (getFlatnessSq(hold, holdIndex) < squareflat) { break; } ensureHoldCapacity(4); subdivide(hold, holdIndex, hold, holdIndex - 4, hold, holdIndex); holdIndex -= 4; // Now that we have subdivided, we have constructed // two curves of one depth lower than the original // curve. One of those curves is in the place of // the former curve and one of them is in the next // set of held coordinate slots. We now set both // curves level values to the next higher level. level++; levels[levelIndex] = level; levelIndex++; levels[levelIndex] = level; } // This curve segment is flat enough, or it is too deep // in recursion levels to try to flatten any more. The // two coordinates at holdIndex+4 and holdIndex+5 now // contain the endpoint of the curve which can be the // endpoint of an approximating line segment. holdIndex += 4; levelIndex--; return true; } public static void main(String argv[]) { verbose = (argv.length > 0); for (int i = 0; i < 100000; i++) { Test7047069 st = new Test7047069(); while (st.next()) {} } } }