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android / platform / libcore / 004c097c61970ff6ba07f5825a8c16a4fdccf286 / . / hotspot / src / jdk.internal.vm.compiler / share / classes / org.graalvm.compiler.asm.aarch64.test / src / org / graalvm / compiler / asm / aarch64 / test / AArch64MacroAssemblerTest.java
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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.
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package org.graalvm.compiler.asm.aarch64.test;
import static org.junit.Assert.assertArrayEquals;
import java.util.EnumSet;
import org.junit.Assert;
import org.junit.Before;
import org.junit.Test;
import org.graalvm.compiler.asm.NumUtil;
import org.graalvm.compiler.asm.aarch64.AArch64Address;
import org.graalvm.compiler.asm.aarch64.AArch64Assembler;
import org.graalvm.compiler.asm.aarch64.AArch64MacroAssembler;
import org.graalvm.compiler.asm.aarch64.AArch64MacroAssembler.AddressGenerationPlan;
import org.graalvm.compiler.test.GraalTest;
import jdk.vm.ci.aarch64.AArch64;
import jdk.vm.ci.aarch64.AArch64.CPUFeature;
import jdk.vm.ci.code.Architecture;
import jdk.vm.ci.code.Register;
import jdk.vm.ci.code.TargetDescription;
public class AArch64MacroAssemblerTest extends GraalTest {
private AArch64MacroAssembler masm;
private TestProtectedAssembler asm;
private Register base;
private Register index;
private Register scratch;
private static EnumSet<AArch64.CPUFeature> computeFeatures() {
EnumSet<AArch64.CPUFeature> features = EnumSet.noneOf(AArch64.CPUFeature.class);
features.add(CPUFeature.FP);
return features;
}
private static EnumSet<AArch64.Flag> computeFlags() {
EnumSet<AArch64.Flag> flags = EnumSet.noneOf(AArch64.Flag.class);
return flags;
}
private static TargetDescription createTarget() {
final int stackFrameAlignment = 16;
final int implicitNullCheckLimit = 4096;
final boolean inlineObjects = true;
Architecture arch = new AArch64(computeFeatures(), computeFlags());
return new TargetDescription(arch, true, stackFrameAlignment, implicitNullCheckLimit, inlineObjects);
}
@Before
public void setupEnvironment() {
TargetDescription target = createTarget();
masm = new AArch64MacroAssembler(target);
asm = new TestProtectedAssembler(target);
base = AArch64.r10;
index = AArch64.r13;
scratch = AArch64.r15;
}
@Test
public void testGenerateAddressPlan() {
AddressGenerationPlan plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(8), false, 0);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.NO_WORK && !plan.needsScratch &&
(plan.addressingMode == AArch64Address.AddressingMode.IMMEDIATE_SCALED || plan.addressingMode == AArch64Address.AddressingMode.IMMEDIATE_UNSCALED));
plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(8), false, 1);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.NO_WORK && !plan.needsScratch &&
(plan.addressingMode == AArch64Address.AddressingMode.IMMEDIATE_SCALED || plan.addressingMode == AArch64Address.AddressingMode.IMMEDIATE_UNSCALED));
plan = AArch64MacroAssembler.generateAddressPlan(-NumUtil.getNbitNumberInt(8) - 1, false, 0);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.NO_WORK && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.IMMEDIATE_UNSCALED);
plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(12), false, 1);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.NO_WORK && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.IMMEDIATE_SCALED);
plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(12) << 2, false, 4);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.NO_WORK && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.IMMEDIATE_SCALED);
plan = AArch64MacroAssembler.generateAddressPlan(0, false, 8);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.NO_WORK && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
plan = AArch64MacroAssembler.generateAddressPlan(0, false, 0);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.NO_WORK && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(9), false, 0);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.ADD_TO_BASE && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(12), false, 8);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.ADD_TO_BASE && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(13), false, 8);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.ADD_TO_BASE && plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
plan = AArch64MacroAssembler.generateAddressPlan(-NumUtil.getNbitNumberInt(12), false, 8);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.ADD_TO_BASE && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
plan = AArch64MacroAssembler.generateAddressPlan(-(NumUtil.getNbitNumberInt(12) << 12), false, 8);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.ADD_TO_BASE && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(12), true, 8);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.ADD_TO_BASE && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(12) << 3, true, 8);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.ADD_TO_INDEX && !plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
plan = AArch64MacroAssembler.generateAddressPlan(NumUtil.getNbitNumberInt(13) << 3, true, 8);
Assert.assertTrue(plan.workPlan == AddressGenerationPlan.WorkPlan.ADD_TO_INDEX && plan.needsScratch && plan.addressingMode == AArch64Address.AddressingMode.REGISTER_OFFSET);
}
@Test
public void testMakeAddressNoAction() {
AArch64Address address = masm.makeAddress(base, NumUtil.getNbitNumberInt(12) << 3, AArch64.zr, false, 8, null, false);
Assert.assertTrue(address.isScaled() && address.getAddressingMode() == AArch64Address.AddressingMode.IMMEDIATE_SCALED && address.getBase().equals(base) &&
address.getOffset().equals(AArch64.zr) && address.getImmediateRaw() == NumUtil.getNbitNumberInt(12));
// No code generated.
compareAssembly();
}
@Test
public void testMakeAddressAddIndex() {
AArch64Address address = masm.makeAddress(base, NumUtil.getNbitNumberInt(8) << 5, index, false, 8, null, true);
Assert.assertTrue(address.isScaled() && address.getAddressingMode() == AArch64Address.AddressingMode.REGISTER_OFFSET && address.getBase().equals(base) && address.getOffset().equals(index));
asm.add(64, index, index, NumUtil.getNbitNumberInt(8) << 2);
compareAssembly();
}
@Test
public void testMakeAddressAddIndexNoOverwrite() {
AArch64Address address = masm.makeAddress(base, NumUtil.getNbitNumberInt(8) << 5, index, false, 8, scratch, false);
Assert.assertTrue(address.isScaled() && address.getAddressingMode() == AArch64Address.AddressingMode.REGISTER_OFFSET && address.getBase().equals(base) && address.getOffset().equals(scratch));
asm.add(64, scratch, index, NumUtil.getNbitNumberInt(8) << 2);
compareAssembly();
}
@Test
public void testMakeAddressAddBaseNoOverwrite() {
AArch64Address address = masm.makeAddress(base, NumUtil.getNbitNumberInt(12), index, false, 8, scratch, false);
Assert.assertTrue(address.isScaled() && address.getAddressingMode() == AArch64Address.AddressingMode.REGISTER_OFFSET && address.getBase().equals(scratch) && address.getOffset().equals(index));
asm.add(64, scratch, base, NumUtil.getNbitNumberInt(12));
compareAssembly();
}
@Test
public void testMakeAddressAddBase() {
AArch64Address address = masm.makeAddress(base, NumUtil.getNbitNumberInt(12), index, false, 8, null, true);
Assert.assertTrue(address.isScaled() && address.getAddressingMode() == AArch64Address.AddressingMode.REGISTER_OFFSET && address.getBase().equals(base) && address.getOffset().equals(index));
asm.add(64, base, base, NumUtil.getNbitNumberInt(12));
compareAssembly();
}
@Test
public void testMakeAddressAddIndexNoOverwriteExtend() {
AArch64Address address = masm.makeAddress(base, NumUtil.getNbitNumberInt(8) << 5, index, true, 8, scratch, false);
Assert.assertTrue(address.isScaled() && address.getAddressingMode() == AArch64Address.AddressingMode.EXTENDED_REGISTER_OFFSET && address.getBase().equals(base) &&
address.getOffset().equals(scratch) && address.getExtendType() == AArch64Assembler.ExtendType.SXTW);
asm.add(32, scratch, index, NumUtil.getNbitNumberInt(8) << 2);
compareAssembly();
}
@Test
public void testMakeAddressAddIndexExtend() {
AArch64Address address = masm.makeAddress(base, NumUtil.getNbitNumberInt(8) << 5, index, true, 8, scratch, true);
Assert.assertTrue(address.isScaled() && address.getAddressingMode() == AArch64Address.AddressingMode.EXTENDED_REGISTER_OFFSET && address.getBase().equals(base) &&
address.getOffset().equals(index) && address.getExtendType() == AArch64Assembler.ExtendType.SXTW);
asm.add(32, index, index, NumUtil.getNbitNumberInt(8) << 2);
compareAssembly();
}
@Test
public void testLoadAddressUnscaled() {
Register dst = AArch64.r26;
AArch64Address address = AArch64Address.createUnscaledImmediateAddress(base, NumUtil.getNbitNumberInt(8));
masm.loadAddress(dst, address, 8);
asm.add(64, dst, base, NumUtil.getNbitNumberInt(8));
compareAssembly();
}
@Test
public void testLoadAddressUnscaled2() {
Register dst = AArch64.r26;
AArch64Address address = AArch64Address.createUnscaledImmediateAddress(base, -NumUtil.getNbitNumberInt(8));
masm.loadAddress(dst, address, 8);
asm.sub(64, dst, base, NumUtil.getNbitNumberInt(8));
compareAssembly();
}
@Test
public void testLoadAddressScaled() {
Register dst = AArch64.r26;
AArch64Address address = AArch64Address.createScaledImmediateAddress(base, NumUtil.getNbitNumberInt(12));
masm.loadAddress(dst, address, 8);
asm.add(64, dst, base, NumUtil.getNbitNumberInt(9) << 3);
asm.add(64, dst, dst, NumUtil.getNbitNumberInt(3) << 12);
compareAssembly();
}
@Test
public void testLoadAddressScaledLowerOnly() {
Register dst = AArch64.r26;
AArch64Address address = AArch64Address.createScaledImmediateAddress(base, NumUtil.getNbitNumberInt(5));
masm.loadAddress(dst, address, 8);
asm.add(64, dst, base, NumUtil.getNbitNumberInt(5) << 3);
compareAssembly();
}
@Test
public void testLoadAddressScaledHigherOnly() {
Register dst = AArch64.r26;
AArch64Address address = AArch64Address.createScaledImmediateAddress(base, 1 << 11);
masm.loadAddress(dst, address, 8);
asm.add(64, dst, base, 1 << 11 << 3);
compareAssembly();
}
@Test
public void testLoadAddressRegisterOffsetUnscaled() {
Register dst = AArch64.r26;
AArch64Address address = AArch64Address.createRegisterOffsetAddress(base, index, false);
masm.loadAddress(dst, address, 4);
asm.add(64, dst, base, index, AArch64Assembler.ShiftType.LSL, 0);
compareAssembly();
}
@Test
public void testLoadAddressRegisterOffsetScaled() {
Register dst = AArch64.r26;
AArch64Address address = AArch64Address.createRegisterOffsetAddress(base, index, true);
masm.loadAddress(dst, address, 4);
asm.add(64, dst, base, index, AArch64Assembler.ShiftType.LSL, 2);
compareAssembly();
}
@Test
public void testLoadAddressExtendedRegisterOffsetUnscaled() {
Register dst = AArch64.r26;
AArch64Address address = AArch64Address.createExtendedRegisterOffsetAddress(base, index, false, AArch64Assembler.ExtendType.SXTW);
masm.loadAddress(dst, address, 4);
asm.add(64, dst, base, index, AArch64Assembler.ExtendType.SXTW, 0);
compareAssembly();
}
@Test
public void testLoadAddressExtendedRegisterOffsetScaled() {
Register dst = AArch64.r26;
AArch64Address address = AArch64Address.createExtendedRegisterOffsetAddress(base, index, true, AArch64Assembler.ExtendType.SXTW);
masm.loadAddress(dst, address, 4);
asm.add(64, dst, base, index, AArch64Assembler.ExtendType.SXTW, 2);
compareAssembly();
}
/**
* Compares assembly generated by the macro assembler to the hand-generated assembly.
*/
private void compareAssembly() {
byte[] expected = asm.close(true);
byte[] actual = masm.close(true);
assertArrayEquals(expected, actual);
}
}