/* * Copyright (c) 2021, 2022, 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. */ package org.openjdk.bench.loom.ring; import java.util.Objects; import java.util.concurrent.BlockingQueue; import java.util.stream.IntStream; public class Channels { static class DirectChannel implements Channel { private final BlockingQueue q; DirectChannel(BlockingQueue q) { this.q = q; } @Override public void send(T e) { boolean interrupted = false; while (true) { try { q.put(e); break; } catch (InterruptedException x) { interrupted = true; } } if (interrupted) Thread.currentThread().interrupt(); } @Override public T receive() { boolean interrupted = false; T e; while (true) { try { e = q.take(); break; } catch (InterruptedException x) { interrupted = true; } } if (interrupted) Thread.currentThread().interrupt(); return e; } } static abstract class AbstractStackChannel implements Channel { private final BlockingQueue q; protected AbstractStackChannel(BlockingQueue q) { this.q = q; } public void sendImpl(T e) { boolean interrupted = false; while (true) { try { q.put(e); break; } catch (InterruptedException x) { interrupted = true; } } if (interrupted) Thread.currentThread().interrupt(); } public T receiveImpl() { boolean interrupted = false; T e; while (true) { try { e = q.take(); break; } catch (InterruptedException x) { interrupted = true; } } if (interrupted) Thread.currentThread().interrupt(); return e; } } public static class ChannelFixedStackI1 extends AbstractStackChannel { private final int depth; private T sendMsg; // store data in heap, not on stack private T receiveMsg; public ChannelFixedStackI1(BlockingQueue q, int depth) { super(q); this.depth = depth; } @Override public void send(T e) { sendMsg = e; recursiveSend(depth); } @Override public T receive() { recursiveReceive(depth); return receiveMsg; } private void recursiveSend(int depth) { if (depth == 0) { sendImpl(sendMsg); } else { recursiveSend(depth - 1); } } private void recursiveReceive(int depth) { if (depth == 0) { receiveMsg = receiveImpl(); } else { recursiveReceive(depth - 1); } } } public static class ChannelFixedStackI2 extends AbstractStackChannel { private final int depth; private int x2 = 42; private T sendMsg; // store data in heap, not on stack private T receiveMsg; public ChannelFixedStackI2(BlockingQueue q, int depth) { super(q); this.depth = depth; } @Override public void send(T e) { sendMsg = e; recursiveSend(depth, x2); } @Override public T receive() { recursiveReceive(depth, x2); return receiveMsg; } private void recursiveSend(int depth, int x2) { if (depth == 0) { sendImpl(sendMsg); } else { recursiveSend(depth - 1, x2 + 1); } } private void recursiveReceive(int depth, int x2) { if (depth == 0) { receiveMsg = receiveImpl(); } else { recursiveReceive(depth - 1, x2 + 1); } } } public static class ChannelFixedStackI4 extends AbstractStackChannel { private final int depth; private int x2 = 42; private int x3 = 43; private int x4 = 44; private T sendMsg; // store data in heap, not on stack private T receiveMsg; public ChannelFixedStackI4(BlockingQueue q, int depth) { super(q); this.depth = depth; } @Override public void send(T e) { sendMsg = e; recursiveSend(depth, x2, x3, x4); } @Override public T receive() { recursiveReceive(depth, x2, x3, x4); return receiveMsg; } private void recursiveSend(int depth, int x2, int x3, int x4) { if (depth == 0) { sendImpl(sendMsg); } else { recursiveSend(depth - 1, x2 + 1, x3 + 2, x4 + 3); } } private void recursiveReceive(int depth, int x2, int x3, int x4) { if (depth == 0) { receiveMsg = receiveImpl(); } else { recursiveReceive(depth - 1, x2 + 1, x3 + 2, x4 + 3); } } } public static class ChannelFixedStackI8 extends AbstractStackChannel { private final int depth; private int x2 = 42; private int x3 = 43; private int x4 = 44; private int x5 = 45; private int x6 = 46; private int x7 = 47; private int x8 = 48; private T sendMsg; // store data in heap, not on stack private T receiveMsg; public ChannelFixedStackI8(BlockingQueue q, int depth) { super(q); this.depth = depth; } @Override public void send(T e) { sendMsg = e; recursiveSend(depth, x2, x3, x4, x5, x6, x7, x8); } @Override public T receive() { recursiveReceive(depth, x2, x3, x4, x5, x6, x7, x8); return receiveMsg; } private void recursiveSend(int depth, int x2, int x3, int x4, int x5, int x6, int x7, int x8) { if (depth == 0) { sendImpl(sendMsg); } else { recursiveSend(depth - 1, x2 + 1, x3 + 2, x4 + 3, x5 + 4, x6 + 5, x7 + 6, x8 + 7); } } private void recursiveReceive(int depth, int x2, int x3, int x4, int x5, int x6, int x7, int x8) { if (depth == 0) { receiveMsg = receiveImpl(); } else { recursiveReceive(depth - 1, x2 + 1, x3 + 2, x4 + 3, x5 + 4, x6 + 5, x7 + 6, x8 + 7); } } } public static class ChannelFixedStackR1 extends AbstractStackChannel { private final int depth; private int x1; public ChannelFixedStackR1(BlockingQueue q, int depth, int start) { super(q); this.depth = depth; x1 = start + 1; } @Override public void send(T e) { recursiveSend(depth, e, Ref.of(x1)); } @Override public T receive() { return recursiveReceive(depth, Ref.of(x1)); } private void recursiveSend(int depth, T msg, Ref x1) { if (depth == 0) { sendImpl(msg); } else { recursiveSend(depth - 1, msg, x1.inc()); } } private T recursiveReceive(int depth, Ref x1) { if (depth == 0) { return receiveImpl(); } else { return recursiveReceive(depth - 1, x1.inc()); } } } public static class ChannelFixedStackR2 extends AbstractStackChannel { private final int depth; private int x1; private int x2; public ChannelFixedStackR2(BlockingQueue q, int depth, int start) { super(q); this.depth = depth; x1 = start + 1; x2 = start + 2; } @Override public void send(T e) { recursiveSend(depth, e, Ref.of(x1), Ref.of(x2)); } @Override public T receive() { return recursiveReceive(depth, Ref.of(x1), Ref.of(x2)); } private void recursiveSend(int depth, T msg, Ref x1, Ref x2) { if (depth == 0) { sendImpl(msg); } else { recursiveSend(depth - 1, msg, x1.inc(), x2.inc()); } } private T recursiveReceive(int depth, Ref x1, Ref x2) { if (depth == 0) { return receiveImpl(); } else { return recursiveReceive(depth - 1, x1.inc(), x2.inc()); } } } public static class ChannelFixedStackR4 extends AbstractStackChannel { private final int depth; private int x1; private int x2; private int x3; private int x4; public ChannelFixedStackR4(BlockingQueue q, int depth, int start) { super(q); this.depth = depth; x1 = start + 1; x2 = start + 2; x3 = start + 3; x4 = start + 4; } @Override public void send(T e) { recursiveSend(depth, e, Ref.of(x1), Ref.of(x2), Ref.of(x3), Ref.of(x4)); } @Override public T receive() { return recursiveReceive(depth, Ref.of(x1), Ref.of(x2), Ref.of(x3), Ref.of(x4)); } private void recursiveSend(int depth, T msg, Ref x1, Ref x2, Ref x3, Ref x4) { if (depth == 0) { sendImpl(msg); } else { recursiveSend(depth - 1, msg, x1.inc(), x2.inc(), x3.inc(), x4.inc()); } } private T recursiveReceive(int depth, Ref x1, Ref x2, Ref x3, Ref x4) { if (depth == 0) { return receiveImpl(); } else { return recursiveReceive(depth - 1, x1.inc(), x2.inc(), x3.inc(), x4.inc()); } } } public static class ChannelFixedStackR8 extends AbstractStackChannel { private final int depth; private int x1; private int x2; private int x3; private int x4; private int x5; private int x6; private int x7; private int x8; public ChannelFixedStackR8(BlockingQueue q, int depth, int start) { super(q); this.depth = depth; x1 = start + 1; x2 = start + 2; x3 = start + 3; x4 = start + 4; x5 = start + 5; x6 = start + 6; x7 = start + 7; x8 = start + 8; } @Override public void send(T e) { recursiveSend(depth, e, Ref.of(x1), Ref.of(x2), Ref.of(x3), Ref.of(x4), Ref.of(x5), Ref.of(x6), Ref.of(x7), Ref.of(x8)); } @Override public T receive() { return recursiveReceive(depth, Ref.of(x1), Ref.of(x2), Ref.of(x3), Ref.of(x4), Ref.of(x5), Ref.of(x6), Ref.of(x7), Ref.of(x8)); } private void recursiveSend(int depth, T msg, Ref x1, Ref x2, Ref x3, Ref x4, Ref x5, Ref x6, Ref x7, Ref x8) { if (depth == 0) { sendImpl(msg); } else { recursiveSend(depth - 1, msg, x1.inc(), x2.inc(), x3.inc(), x4.inc(), x5.inc(), x6.inc(), x7.inc(), x8.inc()); } } private T recursiveReceive(int depth, Ref x1, Ref x2, Ref x3, Ref x4, Ref x5, Ref x6, Ref x7, Ref x8) { if (depth == 0) { return receiveImpl(); } else { return recursiveReceive(depth - 1, x1.inc(), x2.inc(), x3.inc(), x4.inc(), x5.inc(), x6.inc(), x7.inc(), x8.inc()); } } } static class Ref { private final int v; Ref(int v) { this.v = v; } public static Ref of(int v) { return ((v >= 0) && (v < CACHE_MAX)) ? cache[v] : new Ref(v); } private static final int CACHE_MAX = 1024*2; private static final Ref[] cache = IntStream.range(0, CACHE_MAX).mapToObj(Ref::new).toArray(Ref[]::new); @Override public boolean equals(Object o) { if (this == o) return true; if (!(o instanceof Ref)) return false; Ref ref = (Ref) o; return v == ref.v; } @Override public int hashCode() { return Objects.hash(v); } @Override public String toString() { return "Ref{" + "v=" + v + '}'; } public Ref inc() { return of(v + 1); } } // static class Ref { // private final int v; // // Ref(int v) { // this.v = v; // } // // public static Ref of(int v) { // return getRef(new Ref(v)); // } // // @CompilerControl(CompilerControl.Mode.DONT_INLINE) // private static Ref getRef(Ref x) { // Ref y = cache.get(x); // return y == null ? x : y; // } // // private static final int CACHE_MAX = 1024*2; // // private static final Map cache = IntStream.range(0, CACHE_MAX).mapToObj(Ref::new).collect(Collectors.toMap( k -> k, v-> v)); // // @Override // public boolean equals(Object o) { // if (this == o) return true; // if (!(o instanceof Ref)) return false; // Ref ref = (Ref) o; // return v == ref.v; // } // // @Override // public int hashCode() { // return Objects.hash(v); // } // // @Override // public String toString() { // return "Ref{" + // "v=" + v + // '}'; // } // // public Ref inc() { // return of(v + 1); // } // } }