org.eclipse.jdt.internal.compiler.ast.NullAnnotationMatching Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of ecj Show documentation
Show all versions of ecj Show documentation
Eclipse Compiler for Java(TM)
/*******************************************************************************
* Copyright (c) 2013, 2016 GK Software AG and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* Stephan Herrmann - initial API and implementation
* Till Brychcy - Contributions for
* Bug 467482 - TYPE_USE null annotations: Incorrect "Redundant null check"-warning
*******************************************************************************/
package org.eclipse.jdt.internal.compiler.ast;
import org.eclipse.jdt.core.compiler.IProblem;
import org.eclipse.jdt.internal.compiler.flow.FlowContext;
import org.eclipse.jdt.internal.compiler.flow.FlowInfo;
import org.eclipse.jdt.internal.compiler.impl.CompilerOptions;
import org.eclipse.jdt.internal.compiler.lookup.AnnotationBinding;
import org.eclipse.jdt.internal.compiler.lookup.ArrayBinding;
import org.eclipse.jdt.internal.compiler.lookup.BinaryTypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.BinaryTypeBinding.ExternalAnnotationStatus;
import org.eclipse.jdt.internal.compiler.lookup.Binding;
import org.eclipse.jdt.internal.compiler.lookup.BlockScope;
import org.eclipse.jdt.internal.compiler.lookup.CaptureBinding;
import org.eclipse.jdt.internal.compiler.lookup.InvocationSite;
import org.eclipse.jdt.internal.compiler.lookup.LookupEnvironment;
import org.eclipse.jdt.internal.compiler.lookup.MethodBinding;
import org.eclipse.jdt.internal.compiler.lookup.ParameterizedTypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.ProblemMethodBinding;
import org.eclipse.jdt.internal.compiler.lookup.ProblemReasons;
import org.eclipse.jdt.internal.compiler.lookup.RawTypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.ReferenceBinding;
import org.eclipse.jdt.internal.compiler.lookup.Scope;
import org.eclipse.jdt.internal.compiler.lookup.Substitution;
import org.eclipse.jdt.internal.compiler.lookup.TagBits;
import org.eclipse.jdt.internal.compiler.lookup.TypeBinding;
import org.eclipse.jdt.internal.compiler.lookup.TypeBindingVisitor;
import org.eclipse.jdt.internal.compiler.lookup.TypeIds;
import org.eclipse.jdt.internal.compiler.lookup.TypeVariableBinding;
import org.eclipse.jdt.internal.compiler.lookup.VariableBinding;
import org.eclipse.jdt.internal.compiler.lookup.WildcardBinding;
import org.eclipse.jdt.internal.compiler.problem.ProblemSeverities;
/**
* Performs matching of null type annotations.
* Instances are used to encode result from this analysis.
* @since 3.10
*/
public class NullAnnotationMatching {
public static final NullAnnotationMatching NULL_ANNOTATIONS_OK = new NullAnnotationMatching(Severity.OK, FlowInfo.UNKNOWN, null);
public static final NullAnnotationMatching NULL_ANNOTATIONS_OK_NONNULL = new NullAnnotationMatching(Severity.OK, FlowInfo.NON_NULL, null);
public static final NullAnnotationMatching NULL_ANNOTATIONS_UNCHECKED = new NullAnnotationMatching(Severity.UNCHECKED, FlowInfo.UNKNOWN, null);
public static final NullAnnotationMatching NULL_ANNOTATIONS_MISMATCH = new NullAnnotationMatching(Severity.MISMATCH, FlowInfo.UNKNOWN, null);
public enum CheckMode {
/** in this mode we check normal assignment compatibility. */
COMPATIBLE {
@Override boolean requiredNullableMatchesAll() {
return true;
}
},
/** in this mode we check similar to isTypeArgumentContained. */
EXACT,
/** in this mode we check compatibility of a type argument against the corresponding type parameter. */
BOUND_CHECK,
/** similar to COMPATIBLE, but for type variables we look for instantiations, rather than treating them as "free type variables". */
BOUND_SUPER_CHECK,
/** allow covariant return types, but no other deviations. */
OVERRIDE_RETURN {
@Override CheckMode toDetail() {
return OVERRIDE;
}
},
/** in this mode we do not tolerate incompatibly missing annotations on type parameters (for overriding analysis) */
OVERRIDE {
@Override boolean requiredNullableMatchesAll() {
return true;
}
@Override CheckMode toDetail() {
return OVERRIDE;
}
};
boolean requiredNullableMatchesAll() {
return false;
}
CheckMode toDetail() {
return CheckMode.EXACT;
}
}
private enum Severity {
/** No problem detected. */
OK,
/** No real problem, but could issue an {@link IProblem#NonNullTypeVariableFromLegacyMethod} or similar. */
LEGACY_WARNING,
/** Need unchecked conversion from unannotated to annotated. */
UNCHECKED,
/** Definite nullity mismatch. */
MISMATCH;
public Severity max(Severity severity) {
if (compareTo(severity) < 0)
return severity;
return this;
}
public boolean isAnyMismatch() {
return compareTo(LEGACY_WARNING) > 0;
}
}
private final Severity severity;
/** If non-null this field holds the supertype of the provided type which was used for direct matching. */
public final TypeBinding superTypeHint;
public final int nullStatus;
NullAnnotationMatching(Severity severity, int nullStatus, TypeBinding superTypeHint) {
this.severity = severity;
this.superTypeHint = superTypeHint;
this.nullStatus = nullStatus;
}
public boolean isAnyMismatch() { return this.severity.isAnyMismatch(); }
public boolean isUnchecked() { return this.severity == Severity.UNCHECKED; }
public boolean isDefiniteMismatch() { return this.severity == Severity.MISMATCH; }
public boolean wantToReport() { return this.severity == Severity.LEGACY_WARNING; }
public boolean isPotentiallyNullMismatch() {
return !isDefiniteMismatch() && this.nullStatus != -1 && (this.nullStatus & FlowInfo.POTENTIALLY_NULL) != 0;
}
public String superTypeHintName(CompilerOptions options, boolean shortNames) {
return String.valueOf(this.superTypeHint.nullAnnotatedReadableName(options, shortNames));
}
/** Check null-ness of 'var' against a possible null annotation */
public static int checkAssignment(BlockScope currentScope, FlowContext flowContext,
VariableBinding var, FlowInfo flowInfo, int nullStatus, Expression expression, TypeBinding providedType)
{
if (providedType == null) return FlowInfo.UNKNOWN; // assume we already reported an error
long lhsTagBits = 0L;
boolean hasReported = false;
boolean usesNullTypeAnnotations = currentScope.environment().usesNullTypeAnnotations();
if (!usesNullTypeAnnotations) {
lhsTagBits = var.tagBits & TagBits.AnnotationNullMASK;
} else {
if (expression instanceof ConditionalExpression && expression.isPolyExpression()) {
// drill into both branches:
ConditionalExpression ce = ((ConditionalExpression) expression);
int status1 = NullAnnotationMatching.checkAssignment(currentScope, flowContext, var, flowInfo, ce.ifTrueNullStatus, ce.valueIfTrue, ce.valueIfTrue.resolvedType);
int status2 = NullAnnotationMatching.checkAssignment(currentScope, flowContext, var, flowInfo, ce.ifFalseNullStatus, ce.valueIfFalse, ce.valueIfFalse.resolvedType);
if (status1 == status2)
return status1;
return nullStatus; // if both branches disagree use the precomputed & merged nullStatus
}
lhsTagBits = var.type.tagBits & TagBits.AnnotationNullMASK;
NullAnnotationMatching annotationStatus = analyse(var.type, providedType, null, null, nullStatus, expression, CheckMode.COMPATIBLE);
if (annotationStatus.isAnyMismatch()) {
flowContext.recordNullityMismatch(currentScope, expression, providedType, var.type, flowInfo, nullStatus, annotationStatus);
hasReported = true;
} else {
if (annotationStatus.wantToReport())
annotationStatus.report(currentScope);
if (annotationStatus.nullStatus != FlowInfo.UNKNOWN) {
return annotationStatus.nullStatus;
}
}
}
if (lhsTagBits == TagBits.AnnotationNonNull && nullStatus != FlowInfo.NON_NULL) {
if (!hasReported)
flowContext.recordNullityMismatch(currentScope, expression, providedType, var.type, flowInfo, nullStatus, null);
return FlowInfo.NON_NULL;
} else if (lhsTagBits == TagBits.AnnotationNullable && nullStatus == FlowInfo.UNKNOWN) { // provided a legacy type?
if (usesNullTypeAnnotations && providedType.isTypeVariable() && (providedType.tagBits & TagBits.AnnotationNullMASK) == 0)
return FlowInfo.POTENTIALLY_NULL | FlowInfo.POTENTIALLY_NON_NULL; // -> free type variable can mean either nullable or nonnull
return FlowInfo.POTENTIALLY_NULL | FlowInfo.POTENTIALLY_UNKNOWN; // -> combine info from lhs & rhs
}
return nullStatus;
}
/**
* Find any mismatches between the two given types, which are caused by null type annotations.
* @param requiredType
* @param providedType
* @param nullStatus we are only interested in NULL or NON_NULL, -1 indicates that we are in a recursion, where flow info is ignored
* @return a status object representing the severity of mismatching plus optionally a supertype hint
*/
public static NullAnnotationMatching analyse(TypeBinding requiredType, TypeBinding providedType, int nullStatus) {
return analyse(requiredType, providedType, null, null, nullStatus, null, CheckMode.COMPATIBLE);
}
/**
* Find any mismatches between the two given types, which are caused by null type annotations.
* @param requiredType
* @param providedType
* @param providedSubstitute in inheritance situations this maps the providedType into the realm of the subclass, needed for TVB identity checks.
* Pass null if not interested in these added checks.
* @param substitution TODO
* @param nullStatus we are only interested in NULL or NON_NULL, -1 indicates that we are in a recursion, where flow info is ignored
* @param providedExpression optionally holds the provided expression of type 'providedType'
* @param mode controls the kind of check performed (see {@link CheckMode}).
* @return a status object representing the severity of mismatching plus optionally a supertype hint
*/
public static NullAnnotationMatching analyse(TypeBinding requiredType, TypeBinding providedType, TypeBinding providedSubstitute, Substitution substitution,
int nullStatus, Expression providedExpression, CheckMode mode)
{
if (!requiredType.enterRecursiveFunction())
return NullAnnotationMatching.NULL_ANNOTATIONS_OK;
try {
Severity severity = Severity.OK;
TypeBinding superTypeHint = null;
NullAnnotationMatching okStatus = NullAnnotationMatching.NULL_ANNOTATIONS_OK;
if (areSameTypes(requiredType, providedType, providedSubstitute)) {
if ((requiredType.tagBits & TagBits.AnnotationNonNull) != 0)
return okNonNullStatus(providedExpression);
return okStatus;
}
if (requiredType instanceof TypeVariableBinding && substitution != null && (mode == CheckMode.EXACT || mode == CheckMode.COMPATIBLE || mode == CheckMode.BOUND_SUPER_CHECK)) {
requiredType.exitRecursiveFunction();
requiredType = Scope.substitute(substitution, requiredType);
if (!requiredType.enterRecursiveFunction())
return NullAnnotationMatching.NULL_ANNOTATIONS_OK;
if (areSameTypes(requiredType, providedType, providedSubstitute)) {
if ((requiredType.tagBits & TagBits.AnnotationNonNull) != 0)
return okNonNullStatus(providedExpression);
return okStatus;
}
}
if (mode == CheckMode.BOUND_CHECK && requiredType instanceof TypeVariableBinding) {
boolean passedBoundCheck = (substitution instanceof ParameterizedTypeBinding) && (((ParameterizedTypeBinding) substitution).tagBits & TagBits.PassedBoundCheck) != 0;
if (!passedBoundCheck) {
// during bound check against a type variable check the provided type against all upper bounds:
TypeBinding superClass = requiredType.superclass();
if (superClass != null && (superClass.hasNullTypeAnnotations() || substitution != null)) { // annotations may enter when substituting a nested type variable
NullAnnotationMatching status = analyse(superClass, providedType, null, substitution, nullStatus, providedExpression, CheckMode.BOUND_SUPER_CHECK);
severity = severity.max(status.severity);
if (severity == Severity.MISMATCH)
return new NullAnnotationMatching(severity, nullStatus, superTypeHint);
}
TypeBinding[] superInterfaces = requiredType.superInterfaces();
if (superInterfaces != null) {
for (int i = 0; i < superInterfaces.length; i++) {
if (superInterfaces[i].hasNullTypeAnnotations() || substitution != null) { // annotations may enter when substituting a nested type variable
NullAnnotationMatching status = analyse(superInterfaces[i], providedType, null, substitution, nullStatus, providedExpression, CheckMode.BOUND_SUPER_CHECK);
severity = severity.max(status.severity);
if (severity == Severity.MISMATCH)
return new NullAnnotationMatching(severity, nullStatus, superTypeHint);
}
}
}
}
}
if (requiredType instanceof ArrayBinding) {
long[] requiredDimsTagBits = ((ArrayBinding)requiredType).nullTagBitsPerDimension;
if (requiredDimsTagBits != null) {
int dims = requiredType.dimensions();
if (requiredType.dimensions() == providedType.dimensions()) {
long[] providedDimsTagBits = ((ArrayBinding)providedType).nullTagBitsPerDimension;
if (providedDimsTagBits == null)
providedDimsTagBits = new long[dims+1]; // set to unspec'd at all dimensions
int currentNullStatus = nullStatus;
for (int i=0; i<=dims; i++) {
long requiredBits = validNullTagBits(requiredDimsTagBits[i]);
long providedBits = validNullTagBits(providedDimsTagBits[i]);
if (i == 0 && requiredBits == TagBits.AnnotationNullable && nullStatus != -1 && mode.requiredNullableMatchesAll()) {
// toplevel nullable array: no need to check
if (nullStatus == FlowInfo.NULL)
break; // null value has no details
} else {
if (i > 0)
currentNullStatus = -1; // don't use beyond the outermost dimension
Severity dimSeverity = computeNullProblemSeverity(requiredBits, providedBits, currentNullStatus, i == 0 ? mode : mode.toDetail(), false);
if (i > 0 && dimSeverity == Severity.UNCHECKED
&& providedExpression instanceof ArrayAllocationExpression
&& providedBits == 0 && requiredBits != 0)
{
Expression[] dimensions = ((ArrayAllocationExpression) providedExpression).dimensions;
Expression previousDim = dimensions[i-1];
if (previousDim instanceof IntLiteral && previousDim.constant.intValue() == 0) {
dimSeverity = Severity.OK; // element of empty dimension matches anything
nullStatus = -1;
break;
}
}
severity = severity.max(dimSeverity);
if (severity == Severity.MISMATCH)
return NullAnnotationMatching.NULL_ANNOTATIONS_MISMATCH;
}
if (severity == Severity.OK)
nullStatus = -1;
}
} else if (providedType.id == TypeIds.T_null) {
if (dims > 0 && requiredDimsTagBits[0] == TagBits.AnnotationNonNull)
return NullAnnotationMatching.NULL_ANNOTATIONS_MISMATCH;
}
}
} else if (requiredType.hasNullTypeAnnotations() || providedType.hasNullTypeAnnotations() || requiredType.isTypeVariable()) {
long requiredBits = requiredNullTagBits(requiredType, mode);
if (requiredBits == TagBits.AnnotationNullable && nullStatus != -1 && mode.requiredNullableMatchesAll()) {
// at toplevel (having a nullStatus) nullable matches all
} else {
long providedBits = providedNullTagBits(providedType);
Severity s = computeNullProblemSeverity(requiredBits, providedBits, nullStatus, mode, requiredType.isTypeVariable());
if (s.isAnyMismatch() && requiredType.isWildcard() && requiredBits != 0) {
if (((WildcardBinding) requiredType).determineNullBitsFromDeclaration(null, null) == 0) {
// wildcard has its nullBits from the type variable: avoid redundant warning.
s = Severity.OK;
}
}
severity = severity.max(s);
if (!severity.isAnyMismatch() && (providedBits & TagBits.AnnotationNullMASK) == TagBits.AnnotationNonNull)
okStatus = okNonNullStatus(providedExpression);
}
if (severity != Severity.MISMATCH && nullStatus != FlowInfo.NULL) { // null value has no details
TypeBinding providedSuper = providedType.findSuperTypeOriginatingFrom(requiredType);
TypeBinding providedSubstituteSuper = providedSubstitute != null ? providedSubstitute.findSuperTypeOriginatingFrom(requiredType) : null;
if (severity == Severity.UNCHECKED && requiredType.isTypeVariable() && providedType.isTypeVariable() && (providedSuper == requiredType || providedSubstituteSuper == requiredType)) { //$IDENTITY-COMPARISON$
severity = Severity.OK;
}
if (providedSuper != providedType) //$IDENTITY-COMPARISON$
superTypeHint = providedSuper;
if (requiredType.isParameterizedType() && providedSuper instanceof ParameterizedTypeBinding) { // TODO(stephan): handle providedType.isRaw()
TypeBinding[] requiredArguments = ((ParameterizedTypeBinding) requiredType).arguments;
TypeBinding[] providedArguments = ((ParameterizedTypeBinding) providedSuper).arguments;
TypeBinding[] providedSubstitutes = (providedSubstituteSuper instanceof ParameterizedTypeBinding) ? ((ParameterizedTypeBinding)providedSubstituteSuper).arguments : null;
if (requiredArguments != null && providedArguments != null && requiredArguments.length == providedArguments.length) {
for (int i = 0; i < requiredArguments.length; i++) {
TypeBinding providedArgSubstitute = providedSubstitutes != null ? providedSubstitutes[i] : null;
NullAnnotationMatching status = analyse(requiredArguments[i], providedArguments[i], providedArgSubstitute, substitution, -1, providedExpression, mode.toDetail());
severity = severity.max(status.severity);
if (severity == Severity.MISMATCH)
return new NullAnnotationMatching(severity, nullStatus, superTypeHint);
}
}
}
TypeBinding requiredEnclosing = requiredType.enclosingType();
TypeBinding providedEnclosing = providedType.enclosingType();
if (requiredEnclosing != null && providedEnclosing != null) {
TypeBinding providedEnclSubstitute = providedSubstitute != null ? providedSubstitute.enclosingType() : null;
NullAnnotationMatching status = analyse(requiredEnclosing, providedEnclosing, providedEnclSubstitute, substitution, -1, providedExpression, mode);
severity = severity.max(status.severity);
}
}
}
if (!severity.isAnyMismatch())
return okStatus;
return new NullAnnotationMatching(severity, nullStatus, superTypeHint);
} finally {
requiredType.exitRecursiveFunction();
}
}
public void report(Scope scope) {
// nop
}
public static NullAnnotationMatching okNonNullStatus(final Expression providedExpression) {
if (providedExpression instanceof MessageSend) {
final MethodBinding method = ((MessageSend) providedExpression).binding;
if (method != null && method.isValidBinding()) {
MethodBinding originalMethod = method.original();
TypeBinding originalDeclaringClass = originalMethod.declaringClass;
if (originalDeclaringClass instanceof BinaryTypeBinding
&& ((BinaryTypeBinding) originalDeclaringClass).externalAnnotationStatus.isPotentiallyUnannotatedLib()
&& originalMethod.returnType.isTypeVariable()
&& (originalMethod.returnType.tagBits & TagBits.AnnotationNullMASK) == 0)
{
final int severity = ((BinaryTypeBinding) originalDeclaringClass).externalAnnotationStatus == ExternalAnnotationStatus.NO_EEA_FILE
? ProblemSeverities.Warning : ProblemSeverities.Info; // reduce severity if not configured to for external annotations
return new NullAnnotationMatching(Severity.LEGACY_WARNING, FlowInfo.UNKNOWN, null) {
@Override
public void report(Scope scope) {
scope.problemReporter().nonNullTypeVariableInUnannotatedBinary(scope.environment(), method, providedExpression, severity);
}
};
}
}
}
return NullAnnotationMatching.NULL_ANNOTATIONS_OK_NONNULL;
}
/** Are both types identical wrt the unannotated type and any null type annotations? Only unstructured types and captures are considered. */
protected static boolean areSameTypes(TypeBinding requiredType, TypeBinding providedType, TypeBinding providedSubstitute) {
if (requiredType == providedType) //$IDENTITY-COMPARISON$ // short cut for really-really-same types
return true;
if (requiredType.isParameterizedType() || requiredType.isArrayType())
return false; // not analysing details here
if (TypeBinding.notEquals(requiredType, providedType)) {
if (requiredType instanceof CaptureBinding) {
// when providing exactly the lower bound of the required type we're definitely fine:
TypeBinding lowerBound = ((CaptureBinding)requiredType).lowerBound;
if (lowerBound != null && areSameTypes(lowerBound, providedType, providedSubstitute))
return (requiredType.tagBits & TagBits.AnnotationNullMASK) == (providedType.tagBits & TagBits.AnnotationNullMASK);
} else if (requiredType.kind() == Binding.TYPE_PARAMETER && requiredType == providedSubstitute) { //$IDENTITY-COMPARISON$
return true;
} else if (providedType instanceof CaptureBinding) {
// when requiring exactly the upper bound of the provided type we're fine, too:
TypeBinding upperBound = ((CaptureBinding)providedType).upperBound();
if (upperBound != null && areSameTypes(requiredType, upperBound, providedSubstitute))
return (requiredType.tagBits & TagBits.AnnotationNullMASK) == (providedType.tagBits & TagBits.AnnotationNullMASK);
}
return false;
}
return (requiredType.tagBits & TagBits.AnnotationNullMASK) == (providedType.tagBits & TagBits.AnnotationNullMASK);
}
// interpreting 'type' as a required type, compute the required null bits
// we inspect the main type plus bounds of type variables and wildcards
static long requiredNullTagBits(TypeBinding type, CheckMode mode) {
long tagBits = type.tagBits & TagBits.AnnotationNullMASK;
if (tagBits != 0)
return validNullTagBits(tagBits);
if (type.isWildcard()) {
return TagBits.AnnotationNullMASK;
}
if (type.isTypeVariable()) {
// assume we must require @NonNull, unless lower @Nullable bound
// (annotation directly on the TV has already been checked above)
if (type.isCapture()) {
TypeBinding lowerBound = ((CaptureBinding) type).lowerBound;
if (lowerBound != null) {
tagBits = lowerBound.tagBits & TagBits.AnnotationNullMASK;
if (tagBits == TagBits.AnnotationNullable)
return TagBits.AnnotationNullable; // type cannot require @NonNull
}
}
switch (mode) {
case BOUND_CHECK: // no pessimistic checks during boundcheck (we *have* the instantiation)
case BOUND_SUPER_CHECK:
case OVERRIDE: // no pessimistic checks during override check (comparing two *declarations*)
case OVERRIDE_RETURN:
break;
default:
return TagBits.AnnotationNonNull; // instantiation could require @NonNull
}
}
return 0;
}
// interpreting 'type' as a provided type, compute the provide null bits
// we inspect the main type plus bounds of type variables and wildcards
static long providedNullTagBits(TypeBinding type) {
long tagBits = type.tagBits & TagBits.AnnotationNullMASK;
if (tagBits != 0)
return validNullTagBits(tagBits);
if (type.isWildcard()) { // wildcard can be 'provided' during inheritance checks
return TagBits.AnnotationNullMASK;
}
if (type.isTypeVariable()) { // incl. captures
TypeVariableBinding typeVariable = (TypeVariableBinding)type;
boolean haveNullBits = false;
if (typeVariable.isCapture()) {
TypeBinding lowerBound = ((CaptureBinding) typeVariable).lowerBound;
if (lowerBound != null) {
tagBits = lowerBound.tagBits & TagBits.AnnotationNullMASK;
if (tagBits == TagBits.AnnotationNullable)
return TagBits.AnnotationNullable; // cannot be @NonNull
haveNullBits |= (tagBits != 0);
}
}
if (typeVariable.firstBound != null) {
long boundBits = typeVariable.firstBound.tagBits & TagBits.AnnotationNullMASK;
if (boundBits == TagBits.AnnotationNonNull)
return TagBits.AnnotationNonNull; // cannot be @Nullable
haveNullBits |= (boundBits != 0);
}
if (haveNullBits)
return TagBits.AnnotationNullMASK; // could be either, can only match to a wildcard accepting both
}
return 0;
}
/**
* Use only if no suitable flowInfo is available.
*/
public static int nullStatusFromExpressionType(TypeBinding type) {
if (type.isFreeTypeVariable())
return FlowInfo.FREE_TYPEVARIABLE;
long bits = type.tagBits & TagBits.AnnotationNullMASK;
if (bits == 0)
return FlowInfo.UNKNOWN;
if (bits == TagBits.AnnotationNonNull)
return FlowInfo.NON_NULL;
return FlowInfo.POTENTIALLY_NON_NULL | FlowInfo.POTENTIALLY_NULL;
}
public static long validNullTagBits(long bits) {
bits &= TagBits.AnnotationNullMASK;
return bits == TagBits.AnnotationNullMASK ? 0 : bits;
}
/** Provided that both types are {@link TypeBinding#equalsEquals}, return the one that is more likely to show null at runtime. */
public static TypeBinding moreDangerousType(TypeBinding one, TypeBinding two) {
if (one == null) return null;
long oneNullBits = validNullTagBits(one.tagBits);
long twoNullBits = validNullTagBits(two.tagBits);
if (oneNullBits != twoNullBits) {
if (oneNullBits == TagBits.AnnotationNullable)
return one; // nullable is dangerous
if (twoNullBits == TagBits.AnnotationNullable)
return two; // nullable is dangerous
// below this point we have unknown vs. nonnull, which is which?
if (oneNullBits == 0)
return one; // unknown is more dangerous than nonnull
return two; // unknown is more dangerous than nonnull
} else if (one != two) { //$IDENTITY-COMPARISON$
if (analyse(one, two, -1).isAnyMismatch())
return two; // two doesn't snugly fit into one, so it must be more dangerous
}
return one;
}
/**
* Evaluate problem severity from the given details:
* @param requiredBits null tagBits of the required type
* @param providedBits null tagBits of the provided type
* @param nullStatus -1 means: don't use, other values see constants in FlowInfo
* @param mode check mode (see {@link CheckMode})
* @param requiredIsTypeVariable is the required type a type variable (possibly: "free type variable")?
* @return see {@link #severity} for interpretation of values
*/
private static Severity computeNullProblemSeverity(long requiredBits, long providedBits, int nullStatus, CheckMode mode, boolean requiredIsTypeVariable) {
if (requiredBits == providedBits)
return Severity.OK;
if (requiredBits == 0) {
switch (mode) {
case COMPATIBLE:
case BOUND_CHECK:
case BOUND_SUPER_CHECK:
case EXACT:
return Severity.OK;
case OVERRIDE_RETURN:
if (providedBits == TagBits.AnnotationNonNull)
return Severity.OK; // covariant redefinition to nonnull is good
if (!requiredIsTypeVariable)
return Severity.OK; // refining an unconstrained non-TVB return to nullable is also legal
return Severity.UNCHECKED;
case OVERRIDE:
return Severity.UNCHECKED; // warn about dropped annotation
}
} else if (requiredBits == TagBits.AnnotationNullMASK) {
return Severity.OK; // OK since LHS accepts either
} else if (requiredBits == TagBits.AnnotationNonNull) {
switch (mode) {
case COMPATIBLE:
case BOUND_SUPER_CHECK:
if (nullStatus == FlowInfo.NON_NULL)
return Severity.OK; // OK by flow analysis
//$FALL-THROUGH$
case BOUND_CHECK:
case EXACT:
case OVERRIDE_RETURN:
case OVERRIDE:
if (providedBits == 0)
return Severity.UNCHECKED;
return Severity.MISMATCH;
}
} else if (requiredBits == TagBits.AnnotationNullable) {
switch (mode) {
case COMPATIBLE:
case OVERRIDE_RETURN:
case BOUND_SUPER_CHECK:
return Severity.OK; // in these modes everything is compatible to nullable
case BOUND_CHECK:
case EXACT:
if (providedBits == 0)
return Severity.UNCHECKED;
return Severity.MISMATCH;
case OVERRIDE:
return Severity.MISMATCH;
}
}
return Severity.OK; // shouldn't get here, requiredBits should be one of the listed cases
}
static class SearchContradictions extends TypeBindingVisitor {
ReferenceBinding typeWithContradiction;
@Override
public boolean visit(ReferenceBinding referenceBinding) {
if ((referenceBinding.tagBits & TagBits.AnnotationNullMASK) == TagBits.AnnotationNullMASK) {
this.typeWithContradiction = referenceBinding;
return false;
}
return true;
}
@Override
public boolean visit(TypeVariableBinding typeVariable) {
if (!visit((ReferenceBinding)typeVariable))
return false;
long allNullBits = typeVariable.tagBits & TagBits.AnnotationNullMASK;
if (typeVariable.firstBound != null)
allNullBits = typeVariable.firstBound.tagBits & TagBits.AnnotationNullMASK;
for (TypeBinding otherBound : typeVariable.otherUpperBounds())
allNullBits |= otherBound.tagBits & TagBits.AnnotationNullMASK;
if (allNullBits == TagBits.AnnotationNullMASK) {
this.typeWithContradiction = typeVariable;
return false;
}
return true;
}
@Override
public boolean visit(RawTypeBinding rawType) {
return visit((ReferenceBinding)rawType);
}
@Override
public boolean visit(WildcardBinding wildcardBinding) {
long allNullBits = wildcardBinding.tagBits & TagBits.AnnotationNullMASK;
switch (wildcardBinding.boundKind) {
case Wildcard.EXTENDS:
allNullBits |= wildcardBinding.bound.tagBits & TagBits.AnnotationNonNull;
break;
case Wildcard.SUPER:
allNullBits |= wildcardBinding.bound.tagBits & TagBits.AnnotationNullable;
break;
}
if (allNullBits == TagBits.AnnotationNullMASK) {
this.typeWithContradiction = wildcardBinding;
return false;
}
return true;
}
@Override
public boolean visit(ParameterizedTypeBinding parameterizedTypeBinding) {
if (!visit((ReferenceBinding) parameterizedTypeBinding))
return false;
return super.visit(parameterizedTypeBinding);
}
}
/**
* After a method has substituted type parameters, check if this resulted in any contradictory null annotations.
* Problems are either reported directly (if scope != null) or by returning a ProblemMethodBinding.
*/
public static MethodBinding checkForContradictions(MethodBinding method, Object location, Scope scope) {
int start = 0, end = 0;
if (location instanceof InvocationSite) {
start = ((InvocationSite) location).sourceStart();
end = ((InvocationSite) location).sourceEnd();
} else if (location instanceof ASTNode) {
start = ((ASTNode) location).sourceStart;
end = ((ASTNode) location).sourceEnd;
}
SearchContradictions searchContradiction = new SearchContradictions();
TypeBindingVisitor.visit(searchContradiction, method.returnType);
if (searchContradiction.typeWithContradiction != null) {
if (scope == null)
return new ProblemMethodBinding(method, method.selector, method.parameters, ProblemReasons.ContradictoryNullAnnotations);
scope.problemReporter().contradictoryNullAnnotationsInferred(method, start, end, location instanceof FunctionalExpression);
// note: if needed, we might want to update the method by removing the contradictory annotations??
return method;
}
Expression[] arguments = null;
if (location instanceof Invocation)
arguments = ((Invocation)location).arguments();
for (int i = 0; i < method.parameters.length; i++) {
TypeBindingVisitor.visit(searchContradiction, method.parameters[i]);
if (searchContradiction.typeWithContradiction != null) {
if (scope == null)
return new ProblemMethodBinding(method, method.selector, method.parameters, ProblemReasons.ContradictoryNullAnnotations);
if (arguments != null && i < arguments.length)
scope.problemReporter().contradictoryNullAnnotationsInferred(method, arguments[i]);
else
scope.problemReporter().contradictoryNullAnnotationsInferred(method, start, end, location instanceof FunctionalExpression);
return method;
}
}
return method;
}
public static boolean hasContradictions(TypeBinding type) {
SearchContradictions searchContradiction = new SearchContradictions();
TypeBindingVisitor.visit(searchContradiction, type);
return searchContradiction.typeWithContradiction != null;
}
public static TypeBinding strongerType(TypeBinding type1, TypeBinding type2, LookupEnvironment environment) {
if ((type1.tagBits & TagBits.AnnotationNonNull) != 0)
return mergeTypeAnnotations(type1, type2, true, environment);
return mergeTypeAnnotations(type2, type1, true, environment); // don't bother to distinguish unannotated vs. @Nullable, since both can accept null
}
public static TypeBinding[] weakerTypes(TypeBinding[] parameters1, TypeBinding[] parameters2, LookupEnvironment environment) {
TypeBinding[] newParameters = new TypeBinding[parameters1.length];
for (int i = 0; i < newParameters.length; i++) {
long tagBits1 = parameters1[i].tagBits;
long tagBits2 = parameters2[i].tagBits;
if ((tagBits1 & TagBits.AnnotationNullable) != 0)
newParameters[i] = mergeTypeAnnotations(parameters1[i], parameters2[i], true, environment); // @Nullable must be preserved
else if ((tagBits2 & TagBits.AnnotationNullable) != 0)
newParameters[i] = mergeTypeAnnotations(parameters2[i], parameters1[i], true, environment); // @Nullable must be preserved
else if ((tagBits1 & TagBits.AnnotationNonNull) == 0)
newParameters[i] = mergeTypeAnnotations(parameters1[i], parameters2[i], true, environment); // unannotated must be preserved
else
newParameters[i] = mergeTypeAnnotations(parameters2[i], parameters1[i], true, environment); // either unannotated, or both are @NonNull
}
return newParameters;
}
private static TypeBinding mergeTypeAnnotations(TypeBinding type, TypeBinding otherType, boolean top, LookupEnvironment environment) {
TypeBinding mainType = type;
if (!top) {
// for all but the top level type superimpose other's type annotation onto type
AnnotationBinding[] otherAnnotations = otherType.getTypeAnnotations();
if (otherAnnotations != Binding.NO_ANNOTATIONS)
mainType = environment.createAnnotatedType(type, otherAnnotations);
}
if (mainType.isParameterizedType() && otherType.isParameterizedType()) {
ParameterizedTypeBinding ptb = (ParameterizedTypeBinding) type, otherPTB = (ParameterizedTypeBinding) otherType;
TypeBinding[] typeArguments = ptb.arguments;
TypeBinding[] otherTypeArguments = otherPTB.arguments;
TypeBinding[] newTypeArguments = new TypeBinding[typeArguments.length];
for (int i = 0; i < typeArguments.length; i++) {
newTypeArguments[i] = mergeTypeAnnotations(typeArguments[i], otherTypeArguments[i], false, environment);
}
return environment.createParameterizedType(ptb.genericType(), newTypeArguments, ptb.enclosingType());
}
return mainType;
}
@SuppressWarnings("nls")
@Override
public String toString() {
if (this == NULL_ANNOTATIONS_OK) return "OK";
if (this == NULL_ANNOTATIONS_MISMATCH) return "MISMATCH";
if (this == NULL_ANNOTATIONS_OK_NONNULL) return "OK NonNull";
if (this == NULL_ANNOTATIONS_UNCHECKED) return "UNCHECKED";
StringBuilder buf = new StringBuilder();
buf.append("Analysis result: severity="+this.severity);
buf.append(" nullStatus="+this.nullStatus);
return buf.toString();
}
}