/* * Copyright (c) 2015, 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, * 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.java2d.marlin; import static sun.java2d.marlin.ArrayCacheConst.ARRAY_SIZES; import static sun.java2d.marlin.ArrayCacheConst.BUCKETS; import static sun.java2d.marlin.ArrayCacheConst.MAX_ARRAY_SIZE; import static sun.java2d.marlin.MarlinUtils.logInfo; import static sun.java2d.marlin.MarlinUtils.logException; import java.lang.ref.WeakReference; import java.util.Arrays; import sun.java2d.marlin.ArrayCacheConst.BucketStats; import sun.java2d.marlin.ArrayCacheConst.CacheStats; /* * Note that the [BYTE/INT/FLOAT/DOUBLE]ArrayCache files are nearly identical except * for a few type and name differences. Typically, the [BYTE]ArrayCache.java file * is edited manually and then [INT/FLOAT/DOUBLE]ArrayCache.java * files are generated with the following command lines: */ // % sed -e 's/(b\yte)[ ]*//g' -e 's/b\yte/int/g' -e 's/B\yte/Int/g' < B\yteArrayCache.java > IntArrayCache.java // % sed -e 's/(b\yte)[ ]*0/0.0f/g' -e 's/(b\yte)[ ]*/(float) /g' -e 's/b\yte/float/g' -e 's/B\yte/Float/g' < B\yteArrayCache.java > FloatArrayCache.java // % sed -e 's/(b\yte)[ ]*0/0.0d/g' -e 's/(b\yte)[ ]*/(double) /g' -e 's/b\yte/double/g' -e 's/B\yte/Double/g' < B\yteArrayCache.java > DoubleArrayCache.java final class ByteArrayCache implements MarlinConst { final boolean clean; private final int bucketCapacity; private WeakReference refBuckets = null; final CacheStats stats; ByteArrayCache(final boolean clean, final int bucketCapacity) { this.clean = clean; this.bucketCapacity = bucketCapacity; this.stats = (DO_STATS) ? new CacheStats(getLogPrefix(clean) + "ByteArrayCache") : null; } Bucket getCacheBucket(final int length) { final int bucket = ArrayCacheConst.getBucket(length); return getBuckets()[bucket]; } private Bucket[] getBuckets() { // resolve reference: Bucket[] buckets = (refBuckets != null) ? refBuckets.get() : null; // create a new buckets ? if (buckets == null) { buckets = new Bucket[BUCKETS]; for (int i = 0; i < BUCKETS; i++) { buckets[i] = new Bucket(clean, ARRAY_SIZES[i], bucketCapacity, (DO_STATS) ? stats.bucketStats[i] : null); } // update weak reference: refBuckets = new WeakReference(buckets); } return buckets; } Reference createRef(final int initialSize) { return new Reference(this, initialSize); } static final class Reference { // initial array reference (direct access) final byte[] initial; private final boolean clean; private final ByteArrayCache cache; Reference(final ByteArrayCache cache, final int initialSize) { this.cache = cache; this.clean = cache.clean; this.initial = createArray(initialSize); if (DO_STATS) { cache.stats.totalInitial += initialSize; } } byte[] getArray(final int length) { if (length <= MAX_ARRAY_SIZE) { return cache.getCacheBucket(length).getArray(); } if (DO_STATS) { cache.stats.oversize++; } if (DO_LOG_OVERSIZE) { logInfo(getLogPrefix(clean) + "ByteArrayCache: " + "getArray[oversize]: length=\t" + length); } return createArray(length); } byte[] widenArray(final byte[] array, final int usedSize, final int needSize) { final int length = array.length; if (DO_CHECKS && length >= needSize) { return array; } if (DO_STATS) { cache.stats.resize++; } // maybe change bucket: // ensure getNewSize() > newSize: final byte[] res = getArray(ArrayCacheConst.getNewSize(usedSize, needSize)); // use wrapper to ensure proper copy: System.arraycopy(array, 0, res, 0, usedSize); // copy only used elements // maybe return current array: putArray(array, 0, usedSize); // ensure array is cleared if (DO_LOG_WIDEN_ARRAY) { logInfo(getLogPrefix(clean) + "ByteArrayCache: " + "widenArray[" + res.length + "]: usedSize=\t" + usedSize + "\tlength=\t" + length + "\tneeded length=\t" + needSize); } return res; } byte[] putArray(final byte[] array) { // dirty array helper: return putArray(array, 0, array.length); } byte[] putArray(final byte[] array, final int fromIndex, final int toIndex) { if (array.length <= MAX_ARRAY_SIZE) { if ((clean || DO_CLEAN_DIRTY) && (toIndex != 0)) { // clean-up array of dirty part[fromIndex; toIndex[ fill(array, fromIndex, toIndex, (byte)0); } // ensure to never store initial arrays in cache: if (array != initial) { cache.getCacheBucket(array.length).putArray(array); } } return initial; } } static final class Bucket { private int tail = 0; private final int arraySize; private final boolean clean; private final byte[][] arrays; private final BucketStats stats; Bucket(final boolean clean, final int arraySize, final int capacity, final BucketStats stats) { this.arraySize = arraySize; this.clean = clean; this.stats = stats; this.arrays = new byte[capacity][]; } byte[] getArray() { if (DO_STATS) { stats.getOp++; } // use cache: if (tail != 0) { final byte[] array = arrays[--tail]; arrays[tail] = null; return array; } if (DO_STATS) { stats.createOp++; } return createArray(arraySize); } void putArray(final byte[] array) { if (DO_CHECKS && (array.length != arraySize)) { logInfo(getLogPrefix(clean) + "ByteArrayCache: " + "bad length = " + array.length); return; } if (DO_STATS) { stats.returnOp++; } // fill cache: if (arrays.length > tail) { arrays[tail++] = array; if (DO_STATS) { stats.updateMaxSize(tail); } } else if (DO_CHECKS) { logInfo(getLogPrefix(clean) + "ByteArrayCache: " + "array capacity exceeded !"); } } } static byte[] createArray(final int length) { return new byte[length]; } static void fill(final byte[] array, final int fromIndex, final int toIndex, final byte value) { // clear array data: Arrays.fill(array, fromIndex, toIndex, value); if (DO_CHECKS) { check(array, fromIndex, toIndex, value); } } static void check(final byte[] array, final int fromIndex, final int toIndex, final byte value) { if (DO_CHECKS) { // check zero on full array: for (int i = 0; i < array.length; i++) { if (array[i] != value) { logException("Invalid value at: " + i + " = " + array[i] + " from: " + fromIndex + " to: " + toIndex + "\n" + Arrays.toString(array), new Throwable()); // ensure array is correctly filled: Arrays.fill(array, value); return; } } } } static String getLogPrefix(final boolean clean) { return (clean) ? "Clean" : "Dirty"; } }