Example 21 with OptOptions
use of org.jikesrvm.compilers.opt.OptOptions in project JikesRVM by JikesRVM.
the class GenerationContextTest method localRegAlwaysReturnsSameRegisterForSameArguments.
@Test
public void localRegAlwaysReturnsSameRegisterForSameArguments() throws Exception {
NormalMethod nm = TestingTools.getNormalMethod(MethodsForTests.class, "emptyInstanceMethodWithoutAnnotations");
OptOptions opts = new OptOptions();
GenerationContext gc = new GenerationContext(nm, null, null, opts, null);
Register regExpected = gc.localReg(0, nm.getDeclaringClass().getTypeRef());
Register regActual = gc.localReg(0, nm.getDeclaringClass().getTypeRef());
assertSame(regActual, regExpected);
}
Also used :
Register(org.jikesrvm.compilers.opt.ir.Register)
NormalMethod(org.jikesrvm.classloader.NormalMethod)
OptOptions(org.jikesrvm.compilers.opt.OptOptions)
Test(org.junit.Test)
Example 22 with OptOptions
use of org.jikesrvm.compilers.opt.OptOptions in project JikesRVM by JikesRVM.
the class GenerationContextTest method constructorCreatesOperandsForStaticMethodWithParameters.
@Test
public void constructorCreatesOperandsForStaticMethodWithParameters() throws Exception {
Class<?>[] argumentTypes = { long.class, int.class, Object.class, double.class };
NormalMethod nm = getNormalMethodForTest("emptyStaticMethodWithParams", argumentTypes);
CompiledMethod cm = new OptCompiledMethod(-1, nm);
OptOptions opts = new OptOptions();
InlineOracle io = new DefaultInlineOracle();
GenerationContext gc = new GenerationContext(nm, null, cm, opts, io);
InlineSequence inlineSequence = new InlineSequence(nm);
assertThatInlineSequenceWasSetCorrectly(gc, inlineSequence);
assertThatNumberOfParametersIs(gc, 4);
RegisterOperand longRegOp = getThisOperand(gc);
assertThat(longRegOp.isLong(), is(true));
assertThatRegOpHasDeclaredType(longRegOp);
RegisterOperand intRegOp = gc.getArguments()[1].asRegister();
assertThat(intRegOp.isInt(), is(true));
assertThatRegOpHasDeclaredType(intRegOp);
RegisterOperand objectRegOp = gc.getArguments()[2].asRegister();
assertThatRegOpHoldsClassType(objectRegOp);
assertThatRegOpHasDeclaredType(objectRegOp);
RegisterOperand doubleRegOp = gc.getArguments()[3].asRegister();
assertThat(doubleRegOp.isDouble(), is(true));
assertThatRegOpHasDeclaredType(doubleRegOp);
Register longReg = gc.localReg(0, TypeReference.Long);
assertThatRegOpIsLocalRegOfRegister(longRegOp, longReg);
Register intReg = gc.localReg(2, TypeReference.Int);
assertThatRegOpIsLocalRegOfRegister(intRegOp, intReg);
Register objectReg = gc.localReg(3, TypeReference.JavaLangObject);
assertThatRegOpIsLocalRegOfRegister(objectRegOp, objectReg);
Register doubleReg = gc.localReg(4, TypeReference.Double);
assertThatRegOpIsLocalRegOfRegister(doubleRegOp, doubleReg);
BasicBlock prologue = gc.getPrologue();
assertThatPrologueBlockIsSetupCorrectly(gc, inlineSequence, prologue);
assertThatFirstInstructionInPrologueIsPrologue(inlineSequence, prologue);
assertThatBlockOnlyHasOneRealInstruction(prologue);
assertThatPrologueOperandIsRegOpFromLocalNr(prologue, longRegOp, 0);
assertThatPrologueOperandIsRegOpFromLocalNr(prologue, intRegOp, 1);
assertThatPrologueOperandIsRegOpFromLocalNr(prologue, objectRegOp, 2);
assertThatPrologueOperandIsRegOpFromLocalNr(prologue, doubleRegOp, 3);
assertThatEpilogueIsForVoidReturnMethod(gc, inlineSequence);
assertThatExitBlockIsSetCorrectly(gc);
assertThatDataIsSavedCorrectly(nm, cm, io, gc);
assertThatReturnValueIsVoid(gc);
assertThatGCHasNoExceptionHandlers(gc);
assertThatRegisterPoolExists(gc);
assertThatChecksWontBeSkipped(gc);
assertThatNoRethrowBlockExists(gc);
}
Also used :
OptCompiledMethod(org.jikesrvm.compilers.opt.runtimesupport.OptCompiledMethod)
DefaultInlineOracle(org.jikesrvm.compilers.opt.inlining.DefaultInlineOracle)
InlineOracle(org.jikesrvm.compilers.opt.inlining.InlineOracle)
BasicBlock(org.jikesrvm.compilers.opt.ir.BasicBlock)
ExceptionHandlerBasicBlock(org.jikesrvm.compilers.opt.ir.ExceptionHandlerBasicBlock)
OptOptions(org.jikesrvm.compilers.opt.OptOptions)
OptCompiledMethod(org.jikesrvm.compilers.opt.runtimesupport.OptCompiledMethod)
CompiledMethod(org.jikesrvm.compilers.common.CompiledMethod)
RegisterOperand(org.jikesrvm.compilers.opt.ir.operand.RegisterOperand)
Register(org.jikesrvm.compilers.opt.ir.Register)
NormalMethod(org.jikesrvm.classloader.NormalMethod)
DefaultInlineOracle(org.jikesrvm.compilers.opt.inlining.DefaultInlineOracle)
InlineSequence(org.jikesrvm.compilers.opt.inlining.InlineSequence)
Test(org.junit.Test)
Example 23 with OptOptions
use of org.jikesrvm.compilers.opt.OptOptions in project JikesRVM by JikesRVM.
the class OptTestHarness method main.
public static void main(String[] args) throws InvocationTargetException, IllegalAccessException {
OptTestHarness oth = new OptTestHarness(new DefaultOutput(), new OptOptions(), new DefaultFileAccess());
oth.mainMethod(args);
}
Also used :
OptOptions(org.jikesrvm.compilers.opt.OptOptions)
Example 24 with OptOptions
use of org.jikesrvm.compilers.opt.OptOptions in project JikesRVM by JikesRVM.
the class DefaultInlineOracle method shouldInline.
@Override
public InlineDecision shouldInline(final CompilationState state) {
final OptOptions opts = state.getOptions();
final boolean verbose = opts.PRINT_DETAILED_INLINE_REPORT;
if (!opts.INLINE) {
return NO("inlining not enabled");
}
final RVMMethod staticCallee = state.obtainTarget();
final NormalMethod rootMethod = state.getRootMethod();
final RVMMethod caller = state.getMethod();
final int bcIndex = state.getRealBytecodeIndex();
if (verbose)
VM.sysWriteln("Begin inline decision for " + "<" + caller + "," + bcIndex + "," + staticCallee + ">");
// Stage 1: We definitely don't inline certain methods
if (!state.isInvokeInterface()) {
if (staticCallee.isNative()) {
reportUnguardedDecisionIfVerbose("NO: native method", verbose);
return NO("native method");
}
if (hasNoInlinePragma(staticCallee, state)) {
reportUnguardedDecisionIfVerbose("NO: pragmaNoInline", verbose);
return NO("pragmaNoInline");
}
// traces (see StackTrace).
if (staticCallee.isObjectInitializer() && staticCallee.getDeclaringClass().isAssignableToThrowable()) {
reportUnguardedDecisionIfVerbose("NO: constructor of class assignable to throwable", verbose);
return NO("constructor of class assignable to throwable");
}
}
// at worse replace one call instruction with another one).
if (!state.isInvokeInterface() && !staticCallee.isAbstract()) {
// above test passes
if (state.getHasPreciseTarget() || !needsGuard(staticCallee)) {
// call is guardless
int inlinedSizeEstimate = inlinedSizeEstimate((NormalMethod) staticCallee, state);
if (inlinedSizeEstimate < opts.INLINE_MAX_ALWAYS_INLINE_TARGET_SIZE) {
// inlining is desirable
if (!state.getSequence().containsMethod(staticCallee)) {
// not recursive
reportUnguardedDecisionIfVerbose("YES: trivial guardless inline", verbose);
return YES(staticCallee, "trivial inline");
}
}
if (hasInlinePragma(staticCallee, state)) {
// inlining is desirable
if (!state.getSequence().containsMethod(staticCallee)) {
// not recursive
reportUnguardedDecisionIfVerbose("YES: pragma inline", verbose);
return YES(staticCallee, "pragma inline");
}
}
}
}
if (opts.getOptLevel() == 0) {
// at opt level 0, trivial unguarded inlines are the only kind we consider
reportUnguardedDecisionIfVerbose("NO: only do trivial inlines at O0", verbose);
return NO("Only do trivial inlines at O0");
}
// than faster boot image compilation.
if (VM.runningVM && rootMethod.inlinedSizeEstimate() > opts.INLINE_MASSIVE_METHOD_SIZE) {
reportUnguardedDecisionIfVerbose("NO: only do trivial inlines into massive methods when the VM is running", verbose);
return NO("Root method is massive; no non-trivial inlines");
}
// Stage 3: Determine based on profile data and static information
// what are the possible targets of this call.
WeightedCallTargets targets = null;
boolean purelyStatic = true;
if (Controller.dcgAvailable() && Controller.options.ADAPTIVE_INLINING) {
targets = Controller.dcg.getCallTargets(caller, bcIndex);
if (targets != null) {
reportProfilingIfVerbose("Found profile data", verbose);
purelyStatic = false;
WeightedCallTargets filteredTargets = targets.filter(staticCallee, state.getHasPreciseTarget());
if (targets != filteredTargets) {
reportProfilingIfVerbose("Profiled callees filtered based on static information", verbose);
targets = filteredTargets;
if (targets == null) {
reportProfilingIfVerbose("After filterting no profile data...", verbose);
// After filtering, no matching profile data, fall back to
// static information to avoid degradations
targets = WeightedCallTargets.create(staticCallee, 0);
purelyStatic = true;
}
}
}
}
// we are inspecting it to determine how/whether to do the inline guard.
synchronized (RVMClass.classLoadListener) {
boolean guardOverrideOnStaticCallee = false;
if (targets == null) {
reportUnguardedDecisionIfVerbose("no profile data", verbose);
// be able to share all the decision making logic.
if (state.isInvokeInterface()) {
if (opts.INLINE_GUARDED_INTERFACES) {
RVMMethod singleImpl = InterfaceHierarchy.getUniqueImplementation(staticCallee);
if (singleImpl != null && hasBody(singleImpl)) {
if (verbose) {
VM.sysWriteln("\tFound a single implementation " + singleImpl + " of an interface method " + staticCallee);
}
targets = WeightedCallTargets.create(singleImpl, 0);
guardOverrideOnStaticCallee = true;
}
}
} else {
// invokestatic, invokevirtual, invokespecial
if (staticCallee.isAbstract()) {
// look for single non-abstract implementation of the abstract method
RVMClass klass = staticCallee.getDeclaringClass();
while (true) {
RVMClass[] subClasses = klass.getSubClasses();
// multiple subclasses => multiple targets
if (subClasses.length != 1)
break;
RVMMethod singleImpl = subClasses[0].findDeclaredMethod(staticCallee.getName(), staticCallee.getDescriptor());
if (singleImpl != null && !singleImpl.isAbstract()) {
// found something
reportProfilingIfVerbose("single impl of abstract method", verbose);
targets = WeightedCallTargets.create(singleImpl, 0);
guardOverrideOnStaticCallee = true;
break;
}
// keep crawling down the hierarchy
klass = subClasses[0];
}
} else {
targets = WeightedCallTargets.create(staticCallee, 0);
}
}
}
// If there is a precise target, then targets contains exactly that target method.
if (targets == null)
return NO("No potential targets identified");
// Stage 4: We have one or more targets. Determine what if anything should be done with them.
final ArrayList<RVMMethod> methodsToInline = new ArrayList<RVMMethod>();
final ArrayList<Boolean> methodsNeedGuard = new ArrayList<Boolean>();
final double callSiteWeight = targets.totalWeight();
// real closures anyone?
final boolean goosc = guardOverrideOnStaticCallee;
// real closures anyone?
final boolean ps = purelyStatic;
targets.visitTargets(new WeightedCallTargets.Visitor() {
@Override
public void visit(RVMMethod callee, double weight) {
if (hasBody(callee)) {
reportInitialProfileState(verbose, callee, weight);
// Don't inline recursively and respect no inline pragmas
InlineSequence seq = state.getSequence();
if (seq.containsMethod(callee)) {
reportSelectionIfVerbose("Reject: recursive", verbose);
return;
}
if (hasNoInlinePragma(callee, state)) {
reportSelectionIfVerbose("Reject: noinline pragma", verbose);
return;
}
// more or less figure out the guard situation early -- impacts size estimate.
boolean needsGuard = !state.getHasPreciseTarget() && (staticCallee != callee || needsGuard(staticCallee));
if (needsGuard && isForbiddenSpeculation(state.getRootMethod(), callee)) {
reportSelectionIfVerbose("Reject: forbidden speculation", verbose);
return;
}
boolean currentlyFinal = (goosc || (staticCallee == callee)) && isCurrentlyFinal(callee, !opts.guardWithClassTest());
boolean preEx = needsGuard && state.getIsExtant() && opts.INLINE_PREEX && currentlyFinal;
if (needsGuard && !preEx) {
if (!opts.INLINE_GUARDED) {
reportSelectionIfVerbose("Reject: guarded inlining disabled", verbose);
return;
}
if (!currentlyFinal && ps) {
reportSelectionIfVerbose("Reject: multiple targets and no profile data", verbose);
return;
}
}
// Estimate cost of performing this inlining action.
// Includes cost of guard & off-branch call if they are going to be generated.
boolean decideYes = false;
if (hasInlinePragma(callee, state)) {
reportSelectionIfVerbose("Select: pragma inline", verbose);
decideYes = true;
} else {
// Preserve previous inlining decisions
// Not the best thing in the world due to phase shifts, but
// it does buy some degree of stability. So, it is probably the lesser
// of two evils.
CompiledMethod prev = state.getRootMethod().getCurrentCompiledMethod();
if (prev != null && prev.getCompilerType() == CompiledMethod.OPT) {
if (((OptCompiledMethod) prev).getMCMap().hasInlinedEdge(caller, bcIndex, callee)) {
reportSelectionIfVerbose("Select: Previously inlined", verbose);
decideYes = true;
}
}
if (!decideYes) {
int inlinedSizeEstimate = inlinedSizeEstimate((NormalMethod) callee, state);
int cost = inliningActionCost(inlinedSizeEstimate, needsGuard, preEx, opts);
int maxCost = opts.INLINE_MAX_TARGET_SIZE;
if (callSiteWeight > Controller.options.INLINE_AI_SEED_MULTIPLIER) {
// real profile data with enough samples for us to trust it.
// Use weight and shape of call site distribution to compute
// a higher maxCost.
double fractionOfSample = weight / callSiteWeight;
if (needsGuard && fractionOfSample < opts.INLINE_AI_MIN_CALLSITE_FRACTION) {
// This call accounts for less than INLINE_AI_MIN_CALLSITE_FRACTION
// of the profiled targets at this call site.
// It is highly unlikely to be profitable to inline it.
reportSelectionIfVerbose("Reject: less than INLINE_AI_MIN_CALLSITE_FRACTION of distribution", verbose);
maxCost = 0;
} else {
if (cost > maxCost) {
/* We're going to increase the maximum callee size (maxCost) we're willing
* to inline based on how "hot" (what % of the total weight in the
* dynamic call graph) the edge is.
*/
double adjustedWeight = AdaptiveInlining.adjustedWeight(weight);
if (adjustedWeight > Controller.options.INLINE_AI_HOT_CALLSITE_THRESHOLD) {
/* A truly hot edge; use the max allowable callee size */
maxCost = opts.INLINE_AI_MAX_TARGET_SIZE;
} else {
/* A warm edge, we will use a value between the static default and the max allowable.
* The code below simply does a linear interpolation between 2x static default
* and max allowable.
* Other alternatives would be to do a log interpolation or some other step function.
*/
int range = opts.INLINE_AI_MAX_TARGET_SIZE - 2 * opts.INLINE_MAX_TARGET_SIZE;
double slope = (range) / Controller.options.INLINE_AI_HOT_CALLSITE_THRESHOLD;
int scaledAdj = (int) (slope * adjustedWeight);
maxCost += opts.INLINE_MAX_TARGET_SIZE + scaledAdj;
}
}
}
}
// Somewhat bogus, but if we get really deeply inlined we start backing off.
int curDepth = state.getInlineDepth();
if (curDepth > opts.INLINE_MAX_INLINE_DEPTH) {
maxCost /= (curDepth - opts.INLINE_MAX_INLINE_DEPTH + 1);
}
decideYes = cost <= maxCost;
if (decideYes) {
reportSelectionIfVerbose("Accept: cost of " + cost + " was below threshold " + maxCost, verbose);
} else {
reportSelectionIfVerbose("Reject: cost of " + cost + " was above threshold " + maxCost, verbose);
}
}
}
if (decideYes) {
// Ok, we're going to inline it.
// Record that and also whether or not we think it needs a guard.
methodsToInline.add(callee);
if (preEx) {
ClassLoadingDependencyManager cldm = (ClassLoadingDependencyManager) RVMClass.classLoadListener;
if (ClassLoadingDependencyManager.TRACE || ClassLoadingDependencyManager.DEBUG) {
cldm.report("PREEX_INLINE: Inlined " + callee + " into " + caller);
}
cldm.addNotOverriddenDependency(callee, state.getCompiledMethod());
if (goosc) {
cldm.addNotOverriddenDependency(staticCallee, state.getCompiledMethod());
}
methodsNeedGuard.add(Boolean.FALSE);
} else {
methodsNeedGuard.add(needsGuard);
}
}
}
}
private void reportInitialProfileState(final boolean verbose, RVMMethod callee, double weight) {
double adjustedWeight = AdaptiveInlining.adjustedWeight(weight);
String sampleString = " samples (";
if (Double.isNaN(adjustedWeight)) {
sampleString += "no DCG available)";
} else {
sampleString += (100 * adjustedWeight) + "%)";
}
reportProfilingIfVerbose("Evaluating target " + callee + " with " + weight + sampleString, verbose);
}
});
// Stage 5: Choose guards and package up the results in an InlineDecision object
if (methodsToInline.isEmpty()) {
InlineDecision d = NO("No desirable targets");
reportGuardedDecisionIfVerbose(d, verbose);
return d;
} else if (methodsToInline.size() == 1) {
RVMMethod target = methodsToInline.get(0);
boolean needsGuard = methodsNeedGuard.get(0);
if (needsGuard) {
if ((guardOverrideOnStaticCallee || target == staticCallee) && isCurrentlyFinal(target, !opts.guardWithClassTest())) {
InlineDecision d = guardedYES(target, chooseGuard(caller, target, staticCallee, state, true), "Guarded inline of single static target");
/*
* Determine if it is allowable to put an OSR point in the failed case of
* the guarded inline instead of generating a real call instruction.
* There are several conditions that must be met for this to be allowable:
* (1) OSR guarded inlining and recompilation must both be enabled
* (2) The current context must be an interruptible method
* (3) The application must be started. This is a rough proxy for the VM
* being fully booted so we can actually get through the OSR process.
* Note: One implication of this requirement is that we will
* never put an OSR on an off-branch of a guarded inline in bootimage
* code.
*/
if (opts.OSR_GUARDED_INLINING && Controller.options.ENABLE_RECOMPILATION && caller.isInterruptible() && OptimizingCompiler.getAppStarted()) {
if (VM.VerifyAssertions)
VM._assert(VM.runningVM);
d.setOSRTestFailed();
}
if (verbose)
VM.sysWriteln("\tDecide: " + d);
return d;
} else {
InlineDecision d = guardedYES(target, chooseGuard(caller, target, staticCallee, state, false), "Guarded inlining of one potential target");
reportGuardedDecisionIfVerbose(d, verbose);
return d;
}
} else {
InlineDecision d = YES(target, "Unique and desirable target");
reportGuardedDecisionIfVerbose(d, verbose);
return d;
}
} else {
RVMMethod[] methods = new RVMMethod[methodsNeedGuard.size()];
byte[] guards = new byte[methods.length];
int idx = 0;
Iterator<RVMMethod> methodIterator = methodsToInline.iterator();
Iterator<Boolean> guardIterator = methodsNeedGuard.iterator();
while (methodIterator.hasNext()) {
RVMMethod target = methodIterator.next();
boolean needsGuard = guardIterator.next();
if (VM.VerifyAssertions) {
if (!needsGuard) {
VM.sysWriteln("Error, inlining for " + methodsToInline.size() + " targets");
VM.sysWriteln("Inlining into " + rootMethod + " at bytecode index " + bcIndex);
VM.sysWriteln("Method: " + target + " doesn't need a guard");
for (int i = 0; i < methodsToInline.size(); i++) {
VM.sysWriteln(" Method " + i + ": " + methodsToInline.get(i));
VM.sysWriteln(" NeedsGuard: " + methodsNeedGuard.get(i));
}
VM._assert(VM.NOT_REACHED);
}
}
methods[idx] = target;
guards[idx] = chooseGuard(caller, target, staticCallee, state, false);
idx++;
}
InlineDecision d = guardedYES(methods, guards, "Inline multiple targets");
reportGuardedDecisionIfVerbose(d, verbose);
return d;
}
}
}
Also used :
OptCompiledMethod(org.jikesrvm.compilers.opt.runtimesupport.OptCompiledMethod)
ArrayList(java.util.ArrayList)
OptOptions(org.jikesrvm.compilers.opt.OptOptions)
OptCompiledMethod(org.jikesrvm.compilers.opt.runtimesupport.OptCompiledMethod)
CompiledMethod(org.jikesrvm.compilers.common.CompiledMethod)
RVMClass(org.jikesrvm.classloader.RVMClass)
RVMMethod(org.jikesrvm.classloader.RVMMethod)
WeightedCallTargets(org.jikesrvm.adaptive.database.callgraph.WeightedCallTargets)
NormalMethod(org.jikesrvm.classloader.NormalMethod)
Iterator(java.util.Iterator)
Example 25 with OptOptions
use of org.jikesrvm.compilers.opt.OptOptions in project JikesRVM by JikesRVM.
the class RuntimeCompiler method recompileWithOpt.
/**
* A wrapper method for those callers that don't want to make
* optimization plans and need a given opt level
* @param method the method to recompile
* @param optLevel the opt level to use
* @return a compiled method id or -1 when the compilation failed
*/
public static int recompileWithOpt(NormalMethod method, int optLevel) {
if (VM.BuildForOptCompiler) {
OptOptions optOptions = (OptOptions) options;
OptOptions newOptions = optOptions.dup();
newOptions.setOptLevel(optLevel);
CompilationPlan plan = new CompilationPlan(method, (OptimizationPlanElement[]) optimizationPlan, null, newOptions);
return recompileWithOpt(plan);
} else {
if (VM.VerifyAssertions)
VM._assert(VM.NOT_REACHED);
return -1;
}
}
Also used :
OptimizationPlanElement(org.jikesrvm.compilers.opt.driver.OptimizationPlanElement)
CompilationPlan(org.jikesrvm.compilers.opt.driver.CompilationPlan)
OptOptions(org.jikesrvm.compilers.opt.OptOptions)
Aggregations
OptOptions (org.jikesrvm.compilers.opt.OptOptions)70
Test (org.junit.Test)48
NormalMethod (org.jikesrvm.classloader.NormalMethod)45
CompiledMethod (org.jikesrvm.compilers.common.CompiledMethod)32
OptCompiledMethod (org.jikesrvm.compilers.opt.runtimesupport.OptCompiledMethod)29
DefaultInlineOracle (org.jikesrvm.compilers.opt.inlining.DefaultInlineOracle)28
InlineOracle (org.jikesrvm.compilers.opt.inlining.InlineOracle)28
RegisterOperand (org.jikesrvm.compilers.opt.ir.operand.RegisterOperand)27
Instruction (org.jikesrvm.compilers.opt.ir.Instruction)19
InlineSequence (org.jikesrvm.compilers.opt.inlining.InlineSequence)17
ExceptionHandlerBasicBlockBag (org.jikesrvm.compilers.opt.ir.ExceptionHandlerBasicBlockBag)14
MethodOperand (org.jikesrvm.compilers.opt.ir.operand.MethodOperand)13
TypeReference (org.jikesrvm.classloader.TypeReference)12
BasicBlock (org.jikesrvm.compilers.opt.ir.BasicBlock)12
ExceptionHandlerBasicBlock (org.jikesrvm.compilers.opt.ir.ExceptionHandlerBasicBlock)12
Register (org.jikesrvm.compilers.opt.ir.Register)12
Operand (org.jikesrvm.compilers.opt.ir.operand.Operand)8
TrueGuardOperand (org.jikesrvm.compilers.opt.ir.operand.TrueGuardOperand)8
ClassConstantOperand (org.jikesrvm.compilers.opt.ir.operand.ClassConstantOperand)7
ObjectConstantOperand (org.jikesrvm.compilers.opt.ir.operand.ObjectConstantOperand)7
