/* * Copyright (c) 2021, Red Hat, Inc. 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. */ package compiler.arraycopy.stress; import java.util.Random; public abstract class AbstractStressArrayCopy { /** * Max array size to test. This should be reasonably high to test * massive vectorized copies, plus cases that cross the cache lines and * (small) page boundaries. But it should also be reasonably low to * keep the test costs down. * * A rough guideline: * - AVX-512: 64-byte copies over 32 registers copies roughly 2K per step. * - AArch64: small pages can be about 64K large */ static final int MAX_SIZE = 128*1024 + 1; /** * Arrays up to this size would be tested exhaustively: with all combinations * of source/destination starts and copy lengths. Exercise restraint when bumping * this value, as the test costs are proportional to N^3 of this setting. */ static final int EXHAUSTIVE_SIZES = Integer.getInteger("exhaustiveSizes", 192); /* * Larger arrays would fuzzed with this many attempts. */ static final int FUZZ_COUNT = Integer.getInteger("fuzzCount", 300); public static void throwSeedError(int len, int pos) { throw new RuntimeException("Error after seed: " + len + " elements, at pos " + pos); } public static void throwContentsError(int l, int r, int len, int pos) { throwError("in contents", l, r, len, pos); } public static void throwHeadError(int l, int r, int len, int pos) { throwError("in head", l, r, len, pos); } public static void throwTailError(int l, int r, int len, int pos) { throwError("in tail", l, r, len, pos); } private static void throwError(String phase, int l, int r, int len, int pos) { throw new RuntimeException("Error " + phase + ": " + len + " elements, " + "[" + l + ", " + (l+len) + ") -> " + "[" + r + ", " + (r+len) + "), " + "at pos " + pos); } protected abstract void testWith(int size, int l, int r, int len); private void checkBounds(int size, int l, int r, int len) { if (l >= size) throw new IllegalStateException("l is out of bounds"); if (l + len > size) throw new IllegalStateException("l+len is out of bounds"); if (r >= size) throw new IllegalStateException("r is out of bounds"); if (r + len > size) throw new IllegalStateException("r+len is out of bounds: " + l + " " + r + " " + len + " " + size); } private void checkDisjoint(int size, int l, int r, int len) { if (l == r) throw new IllegalStateException("Not disjoint: l == r"); if (l < r && l + len > r) throw new IllegalStateException("Not disjoint"); if (l > r && r + len > l) throw new IllegalStateException("Not disjoint"); } private void checkConjoint(int size, int l, int r, int len) { if (l == r) return; // Definitely conjoint, even with zero len if (l < r && l + len < r) throw new IllegalStateException("Not conjoint"); if (l > r && r + len < l) throw new IllegalStateException("Not conjoint"); } public void exhaustiveWith(int size) { for (int l = 0; l < size; l++) { for (int r = 0; r < size; r++) { int maxLen = Math.min(size - l, size - r); for (int len = 0; len <= maxLen; len++) { checkBounds(size, l, r, len); testWith(size, l, r, len); } } } } public void fuzzWith(Random rand, int size) { // Some basic checks first testWith(size, 0, 1, 1); testWith(size, 0, 1, size-1); // Test disjoint: for (int c = 0; c < FUZZ_COUNT; c++) { int l = rand.nextInt(size / 2); int len = rand.nextInt((size - l) / 2); int r = (l + len + 1) + rand.nextInt(size - 2*len - l - 1); checkBounds(size, l, r, len); checkDisjoint(size, l, r, len); testWith(size, l, r, len); testWith(size, r, l, len); } // Test conjoint: for (int c = 0; c < FUZZ_COUNT; c++) { int l = rand.nextInt(size); int len = rand.nextInt(size - l); int r = Math.min(l + (len > 0 ? rand.nextInt(len) : 0), size - len); checkBounds(size, l, r, len); checkConjoint(size, l, r, len); testWith(size, l, r, len); testWith(size, r, l, len); } } public void run(Random rand) { // Exhaustive on all small arrays for (int size = 1; size <= EXHAUSTIVE_SIZES; size++) { exhaustiveWith(size); } // Fuzz powers of ten for (int size = 10; size < MAX_SIZE; size *= 10) { if (size <= EXHAUSTIVE_SIZES) continue; fuzzWith(rand, size - 1); fuzzWith(rand, size); fuzzWith(rand, size + 1); } // Fuzz powers of two for (int size = 2; size < MAX_SIZE; size *= 2) { if (size <= EXHAUSTIVE_SIZES) continue; fuzzWith(rand, size - 1); fuzzWith(rand, size); fuzzWith(rand, size + 1); } } }