Mercurial > hg > graal-jvmci-8
view jvmci/jdk.vm.ci.sparc/src/jdk/vm/ci/sparc/SPARC.java @ 23315:21fe118a18e6
Backed out changeset 2d1ca131b8be
| author | Doug Simon <doug.simon@oracle.com> |
|---|---|
| date | Tue, 08 Mar 2016 09:17:23 +0100 |
| parents | ef7d87db544a |
| children | 9e1235406b59 |
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/* * Copyright (c) 2013, 2015, 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 jdk.vm.ci.sparc; import static java.nio.ByteOrder.BIG_ENDIAN; import static jdk.vm.ci.code.MemoryBarriers.LOAD_LOAD; import static jdk.vm.ci.code.MemoryBarriers.LOAD_STORE; import static jdk.vm.ci.code.MemoryBarriers.STORE_STORE; import java.util.Set; import jdk.vm.ci.code.Architecture; import jdk.vm.ci.code.Register; import jdk.vm.ci.code.Register.RegisterCategory; import jdk.vm.ci.meta.JavaKind; import jdk.vm.ci.meta.PlatformKind; /** * Represents the SPARC architecture. */ public class SPARC extends Architecture { public static final RegisterCategory CPU = new RegisterCategory("CPU"); public static final RegisterCategory FPUs = new RegisterCategory("FPUs"); public static final RegisterCategory FPUd = new RegisterCategory("FPUd"); public static final RegisterCategory FPUq = new RegisterCategory("FPUq"); // General purpose registers public static final Register g0 = new Register(0, 0, "g0", CPU); public static final Register g1 = new Register(1, 1, "g1", CPU); public static final Register g2 = new Register(2, 2, "g2", CPU); public static final Register g3 = new Register(3, 3, "g3", CPU); public static final Register g4 = new Register(4, 4, "g4", CPU); public static final Register g5 = new Register(5, 5, "g5", CPU); public static final Register g6 = new Register(6, 6, "g6", CPU); public static final Register g7 = new Register(7, 7, "g7", CPU); public static final Register o0 = new Register(8, 8, "o0", CPU); public static final Register o1 = new Register(9, 9, "o1", CPU); public static final Register o2 = new Register(10, 10, "o2", CPU); public static final Register o3 = new Register(11, 11, "o3", CPU); public static final Register o4 = new Register(12, 12, "o4", CPU); public static final Register o5 = new Register(13, 13, "o5", CPU); public static final Register o6 = new Register(14, 14, "o6", CPU); public static final Register o7 = new Register(15, 15, "o7", CPU); public static final Register l0 = new Register(16, 16, "l0", CPU); public static final Register l1 = new Register(17, 17, "l1", CPU); public static final Register l2 = new Register(18, 18, "l2", CPU); public static final Register l3 = new Register(19, 19, "l3", CPU); public static final Register l4 = new Register(20, 20, "l4", CPU); public static final Register l5 = new Register(21, 21, "l5", CPU); public static final Register l6 = new Register(22, 22, "l6", CPU); public static final Register l7 = new Register(23, 23, "l7", CPU); public static final Register i0 = new Register(24, 24, "i0", CPU); public static final Register i1 = new Register(25, 25, "i1", CPU); public static final Register i2 = new Register(26, 26, "i2", CPU); public static final Register i3 = new Register(27, 27, "i3", CPU); public static final Register i4 = new Register(28, 28, "i4", CPU); public static final Register i5 = new Register(29, 29, "i5", CPU); public static final Register i6 = new Register(30, 30, "i6", CPU); public static final Register i7 = new Register(31, 31, "i7", CPU); public static final Register sp = o6; public static final Register fp = i6; // Floating point registers public static final Register f0 = new Register(32, 0, "f0", FPUs); public static final Register f1 = new Register(33, 1, "f1", FPUs); public static final Register f2 = new Register(34, 2, "f2", FPUs); public static final Register f3 = new Register(35, 3, "f3", FPUs); public static final Register f4 = new Register(36, 4, "f4", FPUs); public static final Register f5 = new Register(37, 5, "f5", FPUs); public static final Register f6 = new Register(38, 6, "f6", FPUs); public static final Register f7 = new Register(39, 7, "f7", FPUs); public static final Register f8 = new Register(40, 8, "f8", FPUs); public static final Register f9 = new Register(41, 9, "f9", FPUs); public static final Register f10 = new Register(42, 10, "f10", FPUs); public static final Register f11 = new Register(43, 11, "f11", FPUs); public static final Register f12 = new Register(44, 12, "f12", FPUs); public static final Register f13 = new Register(45, 13, "f13", FPUs); public static final Register f14 = new Register(46, 14, "f14", FPUs); public static final Register f15 = new Register(47, 15, "f15", FPUs); public static final Register f16 = new Register(48, 16, "f16", FPUs); public static final Register f17 = new Register(49, 17, "f17", FPUs); public static final Register f18 = new Register(50, 18, "f18", FPUs); public static final Register f19 = new Register(51, 19, "f19", FPUs); public static final Register f20 = new Register(52, 20, "f20", FPUs); public static final Register f21 = new Register(53, 21, "f21", FPUs); public static final Register f22 = new Register(54, 22, "f22", FPUs); public static final Register f23 = new Register(55, 23, "f23", FPUs); public static final Register f24 = new Register(56, 24, "f24", FPUs); public static final Register f25 = new Register(57, 25, "f25", FPUs); public static final Register f26 = new Register(58, 26, "f26", FPUs); public static final Register f27 = new Register(59, 27, "f27", FPUs); public static final Register f28 = new Register(60, 28, "f28", FPUs); public static final Register f29 = new Register(61, 29, "f29", FPUs); public static final Register f30 = new Register(62, 30, "f30", FPUs); public static final Register f31 = new Register(63, 31, "f31", FPUs); // Double precision registers public static final Register d0 = new Register(64, getDoubleEncoding(0), "d0", FPUd); public static final Register d2 = new Register(65, getDoubleEncoding(2), "d2", FPUd); public static final Register d4 = new Register(66, getDoubleEncoding(4), "d4", FPUd); public static final Register d6 = new Register(67, getDoubleEncoding(6), "d6", FPUd); public static final Register d8 = new Register(68, getDoubleEncoding(8), "d8", FPUd); public static final Register d10 = new Register(69, getDoubleEncoding(10), "d10", FPUd); public static final Register d12 = new Register(70, getDoubleEncoding(12), "d12", FPUd); public static final Register d14 = new Register(71, getDoubleEncoding(14), "d14", FPUd); public static final Register d16 = new Register(72, getDoubleEncoding(16), "d16", FPUd); public static final Register d18 = new Register(73, getDoubleEncoding(18), "d18", FPUd); public static final Register d20 = new Register(74, getDoubleEncoding(20), "d20", FPUd); public static final Register d22 = new Register(75, getDoubleEncoding(22), "d22", FPUd); public static final Register d24 = new Register(76, getDoubleEncoding(24), "d24", FPUd); public static final Register d26 = new Register(77, getDoubleEncoding(26), "d26", FPUd); public static final Register d28 = new Register(78, getDoubleEncoding(28), "d28", FPUd); public static final Register d30 = new Register(79, getDoubleEncoding(28), "d28", FPUd); public static final Register d32 = new Register(80, getDoubleEncoding(32), "d32", FPUd); public static final Register d34 = new Register(81, getDoubleEncoding(34), "d34", FPUd); public static final Register d36 = new Register(82, getDoubleEncoding(36), "d36", FPUd); public static final Register d38 = new Register(83, getDoubleEncoding(38), "d38", FPUd); public static final Register d40 = new Register(84, getDoubleEncoding(40), "d40", FPUd); public static final Register d42 = new Register(85, getDoubleEncoding(42), "d42", FPUd); public static final Register d44 = new Register(86, getDoubleEncoding(44), "d44", FPUd); public static final Register d46 = new Register(87, getDoubleEncoding(46), "d46", FPUd); public static final Register d48 = new Register(88, getDoubleEncoding(48), "d48", FPUd); public static final Register d50 = new Register(89, getDoubleEncoding(50), "d50", FPUd); public static final Register d52 = new Register(90, getDoubleEncoding(52), "d52", FPUd); public static final Register d54 = new Register(91, getDoubleEncoding(54), "d54", FPUd); public static final Register d56 = new Register(92, getDoubleEncoding(56), "d56", FPUd); public static final Register d58 = new Register(93, getDoubleEncoding(58), "d58", FPUd); public static final Register d60 = new Register(94, getDoubleEncoding(60), "d60", FPUd); public static final Register d62 = new Register(95, getDoubleEncoding(62), "d62", FPUd); // Quad precision registers public static final Register q0 = new Register(96, getQuadncoding(0), "q0", FPUq); public static final Register q4 = new Register(97, getQuadncoding(4), "q4", FPUq); public static final Register q8 = new Register(98, getQuadncoding(8), "q8", FPUq); public static final Register q12 = new Register(99, getQuadncoding(12), "q12", FPUq); public static final Register q16 = new Register(100, getQuadncoding(16), "q16", FPUq); public static final Register q20 = new Register(101, getQuadncoding(20), "q20", FPUq); public static final Register q24 = new Register(102, getQuadncoding(24), "q24", FPUq); public static final Register q28 = new Register(103, getQuadncoding(28), "q28", FPUq); public static final Register q32 = new Register(104, getQuadncoding(32), "q32", FPUq); public static final Register q36 = new Register(105, getQuadncoding(36), "q36", FPUq); public static final Register q40 = new Register(106, getQuadncoding(40), "q40", FPUq); public static final Register q44 = new Register(107, getQuadncoding(44), "q44", FPUq); public static final Register q48 = new Register(108, getQuadncoding(48), "q48", FPUq); public static final Register q52 = new Register(109, getQuadncoding(52), "q52", FPUq); public static final Register q56 = new Register(110, getQuadncoding(56), "q56", FPUq); public static final Register q60 = new Register(111, getQuadncoding(60), "q60", FPUq); // @formatter:off public static final Register[] cpuRegisters = { g0, g1, g2, g3, g4, g5, g6, g7, o0, o1, o2, o3, o4, o5, o6, o7, l0, l1, l2, l3, l4, l5, l6, l7, i0, i1, i2, i3, i4, i5, i6, i7 }; public static final Register[] fpusRegisters = { f0, f1, f2, f3, f4, f5, f6, f7, f8, f9, f10, f11, f12, f13, f14, f15, f16, f17, f18, f19, f20, f21, f22, f23, f24, f25, f26, f27, f28, f29, f30, f31 }; public static final Register[] fpudRegisters = { d0, d2, d4, d6, d8, d10, d12, d14, d16, d18, d20, d22, d24, d26, d28, d30, d32, d34, d36, d38, d40, d42, d44, d46, d48, d50, d52, d54, d56, d58, d60, d62 }; public static final Register[] fpuqRegisters = { q0, q4, q8, q12, q16, q20, q24, q28, q32, q36, q40, q44, q48, q52, q56, q60, }; public static final Register[] allRegisters = { g0, g1, g2, g3, g4, g5, g6, g7, o0, o1, o2, o3, o4, o5, o6, o7, l0, l1, l2, l3, l4, l5, l6, l7, i0, i1, i2, i3, i4, i5, i6, i7, f0, f1, f2, f3, f4, f5, f6, f7, f8, f9, f10, f11, f12, f13, f14, f15, f16, f17, f18, f19, f20, f21, f22, f23, f24, f25, f26, f27, f28, f29, f30, f31, d0, d2, d4, d6, d8, d10, d12, d14, d16, d18, d20, d22, d24, d26, d28, d30, d32, d34, d36, d38, d40, d42, d44, d46, d48, d50, d52, d54, d56, d58, d60, d62, q0, q4, q8, q12, q16, q20, q24, q28, q32, q36, q40, q44, q48, q52, q56, q60, }; // @formatter:on /** * Stack bias for stack and frame pointer loads. */ public static final int STACK_BIAS = 0x7ff; /** * Size to keep free for flushing the register-window to stack. */ public static final int REGISTER_SAFE_AREA_SIZE = 128; public final Set<CPUFeature> features; public SPARC(Set<CPUFeature> features) { super("SPARC", SPARCKind.XWORD, BIG_ENDIAN, false, allRegisters, LOAD_LOAD | LOAD_STORE | STORE_STORE, 1, 8); this.features = features; } @Override public Register[] getAvailableValueRegisters() { return allRegisters; } @Override public boolean canStoreValue(RegisterCategory category, PlatformKind kind) { SPARCKind sparcKind = (SPARCKind) kind; switch (sparcKind) { case BYTE: case HWORD: case WORD: case XWORD: return CPU.equals(category); case SINGLE: case V32_BYTE: case V32_HWORD: return FPUs.equals(category); case DOUBLE: case V64_BYTE: case V64_HWORD: case V64_WORD: case V64_SINGLE: return FPUd.equals(category); case QUAD: return FPUq.equals(category); default: return false; } } @Override public PlatformKind getLargestStorableKind(RegisterCategory category) { if (category.equals(CPU)) { return SPARCKind.XWORD; } else if (category.equals(FPUd)) { return SPARCKind.DOUBLE; } else if (category.equals(FPUs)) { return SPARCKind.SINGLE; } else if (category.equals(FPUq)) { return SPARCKind.QUAD; } else { throw new IllegalArgumentException("Unknown register category: " + category); } } @Override public PlatformKind getPlatformKind(JavaKind javaKind) { switch (javaKind) { case Boolean: case Byte: return SPARCKind.BYTE; case Short: case Char: return SPARCKind.HWORD; case Int: return SPARCKind.WORD; case Long: case Object: return SPARCKind.XWORD; case Float: return SPARCKind.SINGLE; case Double: return SPARCKind.DOUBLE; default: throw new IllegalArgumentException("Unknown JavaKind: " + javaKind); } } private static int getDoubleEncoding(int reg) { assert reg < 64 && ((reg & 1) == 0); return (reg & 0x1e) | ((reg & 0x20) >> 5); } private static int getQuadncoding(int reg) { assert reg < 64 && ((reg & 1) == 0); return (reg & 0x1c) | ((reg & 0x20) >> 5); } public Set<CPUFeature> getFeatures() { return features; } public boolean hasFeature(CPUFeature feature) { return features.contains(feature); } public enum CPUFeature { VIS1, VIS2, VIS3, CBCOND, V8, HARDWARE_MUL32, HARDWARE_DIV32, HARDWARE_FSMULD, HARDWARE_POPC, V9, SUN4V, BLK_INIT_INSTRUCTIONS, FMAF, FMAU, SPARC64_FAMILY, M_FAMILY, T_FAMILY, T1_MODEL, SPARC5, AES, SHA1, SHA256, SHA512 } }