public FlowInfo analyseCode(BlockScope currentScope, FlowContext flowContext, FlowInfo flowInfo) { // Consider the try block and catch block so as to compute the intersection of initializations // and // the minimum exit relative depth amongst all of them. Then consider the subroutine, and append // its // initialization to the try/catch ones, if the subroutine completes normally. If the subroutine // does not // complete, then only keep this result for the rest of the analysis // process the finally block (subroutine) - create a context for the subroutine preTryInitStateIndex = currentScope.methodScope().recordInitializationStates(flowInfo); if (anyExceptionVariable != null) { anyExceptionVariable.useFlag = LocalVariableBinding.USED; } if (returnAddressVariable != null) { // TODO (philippe) if subroutine is escaping, unused returnAddressVariable.useFlag = LocalVariableBinding.USED; } InsideSubRoutineFlowContext insideSubContext; FinallyFlowContext finallyContext; UnconditionalFlowInfo subInfo; if (subRoutineStartLabel == null) { // no finally block insideSubContext = null; finallyContext = null; subInfo = null; } else { // analyse finally block first insideSubContext = new InsideSubRoutineFlowContext(flowContext, this); subInfo = finallyBlock .analyseCode( currentScope, finallyContext = new FinallyFlowContext(flowContext, finallyBlock), flowInfo.copy().unconditionalInits().discardNullRelatedInitializations()) .unconditionalInits(); if (subInfo == FlowInfo.DEAD_END) { isSubRoutineEscaping = true; scope.problemReporter().finallyMustCompleteNormally(finallyBlock); } this.subRoutineInits = subInfo; } // process the try block in a context handling the local exceptions. ExceptionHandlingFlowContext handlingContext = new ExceptionHandlingFlowContext( insideSubContext == null ? flowContext : insideSubContext, tryBlock, caughtExceptionTypes, scope, flowInfo.unconditionalInits()); FlowInfo tryInfo; if (tryBlock.isEmptyBlock()) { tryInfo = flowInfo; tryBlockExit = false; } else { tryInfo = tryBlock.analyseCode(currentScope, handlingContext, flowInfo.copy()); tryBlockExit = !tryInfo.isReachable(); } // check unreachable catch blocks handlingContext.complainIfUnusedExceptionHandlers(scope, this); // process the catch blocks - computing the minimal exit depth amongst try/catch if (catchArguments != null) { int catchCount; catchExits = new boolean[catchCount = catchBlocks.length]; for (int i = 0; i < catchCount; i++) { // keep track of the inits that could potentially have led to this exception handler (for // final assignments diagnosis) FlowInfo catchInfo = flowInfo .copy() .unconditionalInits() .addPotentialInitializationsFrom( handlingContext.initsOnException(caughtExceptionTypes[i]).unconditionalInits()) .addPotentialInitializationsFrom(tryInfo.unconditionalInits()) .addPotentialInitializationsFrom(handlingContext.initsOnReturn); // catch var is always set LocalVariableBinding catchArg = catchArguments[i].binding; FlowContext catchContext = insideSubContext == null ? flowContext : insideSubContext; catchInfo.markAsDefinitelyAssigned(catchArg); catchInfo.markAsDefinitelyNonNull(catchArg); /* "If we are about to consider an unchecked exception handler, potential inits may have occured inside the try block that need to be detected , e.g. try { x = 1; throwSomething();} catch(Exception e){ x = 2} " "(uncheckedExceptionTypes notNil and: [uncheckedExceptionTypes at: index]) ifTrue: [catchInits addPotentialInitializationsFrom: tryInits]." */ if (tryBlock.statements == null) { catchInfo.setReachMode(FlowInfo.UNREACHABLE); } catchInfo = catchBlocks[i].analyseCode(currentScope, catchContext, catchInfo); catchExits[i] = !catchInfo.isReachable(); tryInfo = tryInfo.mergedWith(catchInfo.unconditionalInits()); } } if (subRoutineStartLabel == null) { mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(tryInfo); return tryInfo; } // we also need to check potential multiple assignments of final variables inside the finally // block // need to include potential inits from returns inside the try/catch parts - 1GK2AOF finallyContext.complainOnDeferredChecks( tryInfo.isReachable() ? (tryInfo.addPotentialInitializationsFrom(insideSubContext.initsOnReturn)) : insideSubContext.initsOnReturn, currentScope); if (subInfo == FlowInfo.DEAD_END) { mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(subInfo); return subInfo; } else { FlowInfo mergedInfo = tryInfo.addInitializationsFrom(subInfo); mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(mergedInfo); return mergedInfo; } }
public FlowInfo analyseCode(BlockScope currentScope, FlowContext flowContext, FlowInfo flowInfo) { this.preAssertInitStateIndex = currentScope.methodScope().recordInitializationStates(flowInfo); Constant cst = this.assertExpression.optimizedBooleanConstant(); if ((this.assertExpression.implicitConversion & TypeIds.UNBOXING) != 0) { this.assertExpression.checkNPE(currentScope, flowContext, flowInfo); } boolean isOptimizedTrueAssertion = cst != Constant.NotAConstant && cst.booleanValue() == true; boolean isOptimizedFalseAssertion = cst != Constant.NotAConstant && cst.booleanValue() == false; flowContext.tagBits |= FlowContext.HIDE_NULL_COMPARISON_WARNING; FlowInfo conditionFlowInfo = this.assertExpression.analyseCode(currentScope, flowContext, flowInfo.copy()); flowContext.extendTimeToLiveForNullCheckedField(1); // survive this assert as a Statement flowContext.tagBits &= ~FlowContext.HIDE_NULL_COMPARISON_WARNING; UnconditionalFlowInfo assertWhenTrueInfo = conditionFlowInfo.initsWhenTrue().unconditionalInits(); FlowInfo assertInfo = conditionFlowInfo.initsWhenFalse(); if (isOptimizedTrueAssertion) { assertInfo.setReachMode(FlowInfo.UNREACHABLE_OR_DEAD); } if (this.exceptionArgument != null) { // only gets evaluated when escaping - results are not taken into account FlowInfo exceptionInfo = this.exceptionArgument.analyseCode(currentScope, flowContext, assertInfo.copy()); if (isOptimizedTrueAssertion) { currentScope.problemReporter().fakeReachable(this.exceptionArgument); } else { flowContext.checkExceptionHandlers( currentScope.getJavaLangAssertionError(), this, exceptionInfo, currentScope); } } if (!isOptimizedTrueAssertion) { // add the assert support in the clinit manageSyntheticAccessIfNecessary(currentScope, flowInfo); } // account for potential AssertionError: flowContext.recordAbruptExit(); if (isOptimizedFalseAssertion) { return flowInfo; // if assertions are enabled, the following code will be unreachable // change this if we need to carry null analysis results of the assert // expression downstream } else { CompilerOptions compilerOptions = currentScope.compilerOptions(); if (!compilerOptions.includeNullInfoFromAsserts) { // keep just the initializations info, don't include assert's null info // merge initialization info's and then add back the null info from flowInfo to // make sure that the empty null info of assertInfo doesnt change flowInfo's null info. return ((flowInfo.nullInfoLessUnconditionalCopy()) .mergedWith(assertInfo.nullInfoLessUnconditionalCopy())) .addNullInfoFrom(flowInfo); } return flowInfo .mergedWith(assertInfo.nullInfoLessUnconditionalCopy()) .addInitializationsFrom(assertWhenTrueInfo.discardInitializationInfo()); // keep the merge from the initial code for the definite assignment // analysis, tweak the null part to influence nulls downstream } }
public FlowInfo analyseCode(BlockScope currentScope, FlowContext flowContext, FlowInfo flowInfo) { Constant cst = this.left.optimizedBooleanConstant(); boolean isLeftOptimizedTrue = cst != Constant.NotAConstant && cst.booleanValue() == true; boolean isLeftOptimizedFalse = cst != Constant.NotAConstant && cst.booleanValue() == false; if (isLeftOptimizedFalse) { // FALSE || anything // need to be careful of scenario: // (x || y) || !z, if passing the left info to the right, it would be swapped by the ! FlowInfo mergedInfo = this.left.analyseCode(currentScope, flowContext, flowInfo).unconditionalInits(); flowContext.expireNullCheckedFieldInfo(); mergedInfo = this.right.analyseCode(currentScope, flowContext, mergedInfo); flowContext.expireNullCheckedFieldInfo(); this.mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(mergedInfo); return mergedInfo; } FlowInfo leftInfo = this.left.analyseCode(currentScope, flowContext, flowInfo); flowContext.expireNullCheckedFieldInfo(); // need to be careful of scenario: // (x || y) || !z, if passing the left info to the right, it would be swapped by the ! FlowInfo rightInfo = leftInfo.initsWhenFalse().unconditionalCopy(); this.rightInitStateIndex = currentScope.methodScope().recordInitializationStates(rightInfo); int previousMode = rightInfo.reachMode(); if (isLeftOptimizedTrue) { if ((rightInfo.reachMode() & FlowInfo.UNREACHABLE) == 0) { currentScope.problemReporter().fakeReachable(this.right); rightInfo.setReachMode(FlowInfo.UNREACHABLE_OR_DEAD); } } rightInfo = this.right.analyseCode(currentScope, flowContext, rightInfo); flowContext.expireNullCheckedFieldInfo(); if ((this.left.implicitConversion & TypeIds.UNBOXING) != 0) { this.left.checkNPE(currentScope, flowContext, flowInfo); } if ((this.right.implicitConversion & TypeIds.UNBOXING) != 0) { this.right.checkNPE(currentScope, flowContext, flowInfo); } // The definitely null variables in right info when true should not be missed out while merging // https://bugs.eclipse.org/bugs/show_bug.cgi?id=299900 FlowInfo leftInfoWhenTrueForMerging = leftInfo .initsWhenTrue() .unconditionalCopy() .addPotentialInitializationsFrom(rightInfo.unconditionalInitsWithoutSideEffect()); FlowInfo mergedInfo = FlowInfo.conditional( // merging two true initInfos for such a negative case: if ((t && (b = t)) || f) r = b; // // b may not have been initialized leftInfoWhenTrueForMerging .unconditionalInits() .mergedWith( rightInfo.safeInitsWhenTrue().setReachMode(previousMode).unconditionalInits()), rightInfo.initsWhenFalse()); this.mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(mergedInfo); return mergedInfo; }
public FlowInfo analyseCode(BlockScope currentScope, FlowContext flowContext, FlowInfo flowInfo) { // Consider the try block and catch block so as to compute the intersection of initializations // and // the minimum exit relative depth amongst all of them. Then consider the subroutine, and append // its // initialization to the try/catch ones, if the subroutine completes normally. If the subroutine // does not // complete, then only keep this result for the rest of the analysis // process the finally block (subroutine) - create a context for the subroutine this.preTryInitStateIndex = currentScope.methodScope().recordInitializationStates(flowInfo); if (this.anyExceptionVariable != null) { this.anyExceptionVariable.useFlag = LocalVariableBinding.USED; } if (this.returnAddressVariable != null) { // TODO (philippe) if subroutine is escaping, unused this.returnAddressVariable.useFlag = LocalVariableBinding.USED; } if (this.subRoutineStartLabel == null) { // no finally block -- this is a simplified copy of the else part // process the try block in a context handling the local exceptions. ExceptionHandlingFlowContext handlingContext = new ExceptionHandlingFlowContext( flowContext, this, this.caughtExceptionTypes, null, this.scope, flowInfo.unconditionalInits()); handlingContext.initsOnFinally = new NullInfoRegistry(flowInfo.unconditionalInits()); // only try blocks initialize that member - may consider creating a // separate class if needed FlowInfo tryInfo; if (this.tryBlock.isEmptyBlock()) { tryInfo = flowInfo; } else { tryInfo = this.tryBlock.analyseCode(currentScope, handlingContext, flowInfo.copy()); if ((tryInfo.tagBits & FlowInfo.UNREACHABLE) != 0) this.bits |= ASTNode.IsTryBlockExiting; } // check unreachable catch blocks handlingContext.complainIfUnusedExceptionHandlers(this.scope, this); // process the catch blocks - computing the minimal exit depth amongst try/catch if (this.catchArguments != null) { int catchCount; this.catchExits = new boolean[catchCount = this.catchBlocks.length]; this.catchExitInitStateIndexes = new int[catchCount]; for (int i = 0; i < catchCount; i++) { // keep track of the inits that could potentially have led to this exception handler (for // final assignments diagnosis) FlowInfo catchInfo; if (this.caughtExceptionTypes[i].isUncheckedException(true)) { catchInfo = handlingContext.initsOnFinally.mitigateNullInfoOf( flowInfo .unconditionalCopy() .addPotentialInitializationsFrom( handlingContext.initsOnException(this.caughtExceptionTypes[i])) .addPotentialInitializationsFrom(tryInfo) .addPotentialInitializationsFrom(handlingContext.initsOnReturn)); } else { FlowInfo initsOnException = handlingContext.initsOnException(this.caughtExceptionTypes[i]); catchInfo = flowInfo .nullInfoLessUnconditionalCopy() .addPotentialInitializationsFrom(initsOnException) .addNullInfoFrom( initsOnException) // null info only from here, this is the only way to enter // the catch block .addPotentialInitializationsFrom(tryInfo.nullInfoLessUnconditionalCopy()) .addPotentialInitializationsFrom( handlingContext.initsOnReturn.nullInfoLessUnconditionalCopy()); } // catch var is always set LocalVariableBinding catchArg = this.catchArguments[i].binding; catchInfo.markAsDefinitelyAssigned(catchArg); catchInfo.markAsDefinitelyNonNull(catchArg); /* "If we are about to consider an unchecked exception handler, potential inits may have occured inside the try block that need to be detected , e.g. try { x = 1; throwSomething();} catch(Exception e){ x = 2} " "(uncheckedExceptionTypes notNil and: [uncheckedExceptionTypes at: index]) ifTrue: [catchInits addPotentialInitializationsFrom: tryInits]." */ if (this.tryBlock.statements == null) { catchInfo.setReachMode(FlowInfo.UNREACHABLE); } catchInfo = this.catchBlocks[i].analyseCode(currentScope, flowContext, catchInfo); this.catchExitInitStateIndexes[i] = currentScope.methodScope().recordInitializationStates(catchInfo); this.catchExits[i] = (catchInfo.tagBits & FlowInfo.UNREACHABLE) != 0; tryInfo = tryInfo.mergedWith(catchInfo.unconditionalInits()); } } this.mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(tryInfo); // chain up null info registry if (flowContext.initsOnFinally != null) { flowContext.initsOnFinally.add(handlingContext.initsOnFinally); } return tryInfo; } else { InsideSubRoutineFlowContext insideSubContext; FinallyFlowContext finallyContext; UnconditionalFlowInfo subInfo; // analyse finally block first insideSubContext = new InsideSubRoutineFlowContext(flowContext, this); subInfo = this.finallyBlock .analyseCode( currentScope, finallyContext = new FinallyFlowContext(flowContext, this.finallyBlock), flowInfo.nullInfoLessUnconditionalCopy()) .unconditionalInits(); if (subInfo == FlowInfo.DEAD_END) { this.bits |= ASTNode.IsSubRoutineEscaping; this.scope.problemReporter().finallyMustCompleteNormally(this.finallyBlock); } this.subRoutineInits = subInfo; // process the try block in a context handling the local exceptions. ExceptionHandlingFlowContext handlingContext = new ExceptionHandlingFlowContext( insideSubContext, this, this.caughtExceptionTypes, null, this.scope, flowInfo.unconditionalInits()); handlingContext.initsOnFinally = new NullInfoRegistry(flowInfo.unconditionalInits()); // only try blocks initialize that member - may consider creating a // separate class if needed FlowInfo tryInfo; if (this.tryBlock.isEmptyBlock()) { tryInfo = flowInfo; } else { tryInfo = this.tryBlock.analyseCode(currentScope, handlingContext, flowInfo.copy()); if ((tryInfo.tagBits & FlowInfo.UNREACHABLE) != 0) this.bits |= ASTNode.IsTryBlockExiting; } // check unreachable catch blocks handlingContext.complainIfUnusedExceptionHandlers(this.scope, this); // process the catch blocks - computing the minimal exit depth amongst try/catch if (this.catchArguments != null) { int catchCount; this.catchExits = new boolean[catchCount = this.catchBlocks.length]; this.catchExitInitStateIndexes = new int[catchCount]; for (int i = 0; i < catchCount; i++) { // keep track of the inits that could potentially have led to this exception handler (for // final assignments diagnosis) FlowInfo catchInfo; if (this.caughtExceptionTypes[i].isUncheckedException(true)) { catchInfo = handlingContext.initsOnFinally.mitigateNullInfoOf( flowInfo .unconditionalCopy() .addPotentialInitializationsFrom( handlingContext.initsOnException(this.caughtExceptionTypes[i])) .addPotentialInitializationsFrom(tryInfo) .addPotentialInitializationsFrom(handlingContext.initsOnReturn)); } else { FlowInfo initsOnException = handlingContext.initsOnException(this.caughtExceptionTypes[i]); catchInfo = flowInfo .nullInfoLessUnconditionalCopy() .addPotentialInitializationsFrom(initsOnException) .addNullInfoFrom( initsOnException) // null info only from here, this is the only way to enter // the catch block .addPotentialInitializationsFrom(tryInfo.nullInfoLessUnconditionalCopy()) .addPotentialInitializationsFrom( handlingContext.initsOnReturn.nullInfoLessUnconditionalCopy()); } // catch var is always set LocalVariableBinding catchArg = this.catchArguments[i].binding; catchInfo.markAsDefinitelyAssigned(catchArg); catchInfo.markAsDefinitelyNonNull(catchArg); /* "If we are about to consider an unchecked exception handler, potential inits may have occured inside the try block that need to be detected , e.g. try { x = 1; throwSomething();} catch(Exception e){ x = 2} " "(uncheckedExceptionTypes notNil and: [uncheckedExceptionTypes at: index]) ifTrue: [catchInits addPotentialInitializationsFrom: tryInits]." */ if (this.tryBlock.statements == null) { catchInfo.setReachMode(FlowInfo.UNREACHABLE); } catchInfo = this.catchBlocks[i].analyseCode(currentScope, insideSubContext, catchInfo); this.catchExitInitStateIndexes[i] = currentScope.methodScope().recordInitializationStates(catchInfo); this.catchExits[i] = (catchInfo.tagBits & FlowInfo.UNREACHABLE) != 0; tryInfo = tryInfo.mergedWith(catchInfo.unconditionalInits()); } } // we also need to check potential multiple assignments of final variables inside the finally // block // need to include potential inits from returns inside the try/catch parts - 1GK2AOF finallyContext.complainOnDeferredChecks( handlingContext.initsOnFinally.mitigateNullInfoOf( (tryInfo.tagBits & FlowInfo.UNREACHABLE) == 0 ? flowInfo .unconditionalCopy() .addPotentialInitializationsFrom(tryInfo) . // lighten the influence of the try block, which may have // exited at any point addPotentialInitializationsFrom(insideSubContext.initsOnReturn) : insideSubContext.initsOnReturn), currentScope); // chain up null info registry if (flowContext.initsOnFinally != null) { flowContext.initsOnFinally.add(handlingContext.initsOnFinally); } this.naturalExitMergeInitStateIndex = currentScope.methodScope().recordInitializationStates(tryInfo); if (subInfo == FlowInfo.DEAD_END) { this.mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(subInfo); return subInfo; } else { FlowInfo mergedInfo = tryInfo.addInitializationsFrom(subInfo); this.mergedInitStateIndex = currentScope.methodScope().recordInitializationStates(mergedInfo); return mergedInfo; } } }