public abstract class CFAbstractAnalysis<V extends CFAbstractValue<V>,S extends CFAbstractStore<V,S>,T extends CFAbstractTransfer<V,S,T>> extends Analysis<V,S,T>
CFAbstractAnalysis
is an extensible org.checkerframework.dataflow analysis for the
Checker Framework that tracks the annotations using a flow-sensitive analysis. It uses an AnnotatedTypeFactory
to provide checker-specific logic how to combine types (e.g., what is the
type of a string concatenation, given the types of the two operands) and as an abstraction
function (e.g., determine the annotations on literals).
The purpose of this class is twofold: Firstly, it serves as factory for abstract values,
stores and the transfer function. Furthermore, it makes it easy for the transfer function and the
stores to access the AnnotatedTypeFactory
, the qualifier hierarchy, etc.
Analysis.Worklist
Modifier and Type | Field and Description |
---|---|
protected GenericAnnotatedTypeFactory<V,S,T,? extends CFAbstractAnalysis<V,S,T>> |
atypeFactory
A type factory that can provide static type annotations for AST Trees.
|
protected SourceChecker |
checker
A checker used to do error reporting.
|
protected DependentTypesHelper |
dependentTypesHelper
The dependent type helper used to standardize annotations belonging to the type hierarchy.
|
protected List<Pair<VariableElement,V>> |
fieldValues
Initial abstract types for fields.
|
protected QualifierHierarchy |
qualifierHierarchy
The qualifier hierarchy for which to track annotations.
|
protected TypeHierarchy |
typeHierarchy
The type hierarchy.
|
blockCount, cfg, currentInput, currentNode, currentTree, elseStores, env, finalLocalValues, inputs, isRunning, maxCountBeforeWidening, nodeValues, storesAtReturnStatements, thenStores, transferFunction, types, worklist
Constructor and Description |
---|
CFAbstractAnalysis(BaseTypeChecker checker,
GenericAnnotatedTypeFactory<V,S,T,? extends CFAbstractAnalysis<V,S,T>> factory,
List<Pair<VariableElement,V>> fieldValues) |
CFAbstractAnalysis(BaseTypeChecker checker,
GenericAnnotatedTypeFactory<V,S,T,? extends CFAbstractAnalysis<V,S,T>> factory,
List<Pair<VariableElement,V>> fieldValues,
int maxCountBeforeWidening) |
Modifier and Type | Method and Description |
---|---|
V |
createAbstractValue(AnnotatedTypeMirror type)
Creates an abstract value from the annotated type mirror.
|
abstract V |
createAbstractValue(Set<AnnotationMirror> annotations,
TypeMirror underlyingType) |
abstract S |
createCopiedStore(S s) |
abstract S |
createEmptyStore(boolean sequentialSemantics) |
V |
createSingleAnnotationValue(AnnotationMirror anno,
TypeMirror underlyingType)
Returns an abstract value containing an annotated type with the annotation
anno , and
'top' for all other hierarchies. |
T |
createTransferFunction() |
CFValue |
defaultCreateAbstractValue(CFAbstractAnalysis<CFValue,?,?> analysis,
Set<AnnotationMirror> annotations,
TypeMirror underlyingType)
Default implementation for
createAbstractValue(Set, TypeMirror) . |
List<Pair<VariableElement,V>> |
getFieldValues() |
GenericAnnotatedTypeFactory<V,S,T,? extends CFAbstractAnalysis<V,S,T>> |
getTypeFactory() |
TypeHierarchy |
getTypeHierarchy() |
void |
performAnalysis(ControlFlowGraph cfg,
List<Pair<VariableElement,V>> fieldValues) |
void |
visualizeCFG()
Perform a visualization of the CFG and analysis info for inspection.
|
addStoreBefore, addToWorklist, callTransferFunction, getContainingClass, getContainingMethod, getCurrentTree, getEnv, getExceptionalExitStore, getInput, getInputBefore, getNodesForTree, getNodeValues, getRegularExitStore, getResult, getReturnStatementStores, getStoreBefore, getTransferFunction, getTypes, getValue, getValue, init, isRunning, performAnalysis, performAnalysisBlock, propagateStoresTo, readFromStore, setCurrentTree, updateNodeValues
protected final QualifierHierarchy qualifierHierarchy
protected final TypeHierarchy typeHierarchy
protected final DependentTypesHelper dependentTypesHelper
protected final GenericAnnotatedTypeFactory<V extends CFAbstractValue<V>,S extends CFAbstractStore<V,S>,T extends CFAbstractTransfer<V,S,T>,? extends CFAbstractAnalysis<V extends CFAbstractValue<V>,S extends CFAbstractStore<V,S>,T extends CFAbstractTransfer<V,S,T>>> atypeFactory
protected final SourceChecker checker
protected final List<Pair<VariableElement,V extends CFAbstractValue<V>>> fieldValues
public CFAbstractAnalysis(BaseTypeChecker checker, GenericAnnotatedTypeFactory<V,S,T,? extends CFAbstractAnalysis<V,S,T>> factory, List<Pair<VariableElement,V>> fieldValues, int maxCountBeforeWidening)
public CFAbstractAnalysis(BaseTypeChecker checker, GenericAnnotatedTypeFactory<V,S,T,? extends CFAbstractAnalysis<V,S,T>> factory, List<Pair<VariableElement,V>> fieldValues)
public void performAnalysis(ControlFlowGraph cfg, List<Pair<VariableElement,V>> fieldValues)
public List<Pair<VariableElement,V>> getFieldValues()
public T createTransferFunction()
public abstract S createEmptyStore(boolean sequentialSemantics)
public abstract S createCopiedStore(S s)
s
.public V createAbstractValue(AnnotatedTypeMirror type)
CFAbstractValue
for an explanation.type
.public abstract V createAbstractValue(Set<AnnotationMirror> annotations, TypeMirror underlyingType)
annotations
and underlyingType
.public CFValue defaultCreateAbstractValue(CFAbstractAnalysis<CFValue,?,?> analysis, Set<AnnotationMirror> annotations, TypeMirror underlyingType)
createAbstractValue(Set, TypeMirror)
.public TypeHierarchy getTypeHierarchy()
public GenericAnnotatedTypeFactory<V,S,T,? extends CFAbstractAnalysis<V,S,T>> getTypeFactory()
public void visualizeCFG()
public V createSingleAnnotationValue(AnnotationMirror anno, TypeMirror underlyingType)
anno
, and
'top' for all other hierarchies. The underlying type is underlyingType
.