Packages

  • package root
    Definition Classes
    root
  • package org
    Definition Classes
    root
  • package opalj

    OPAL is a Scala-based framework for the static analysis, manipulation and creation of Java bytecode.

    OPAL is a Scala-based framework for the static analysis, manipulation and creation of Java bytecode. OPAL is designed with performance, scalability and adaptability in mind.

    Its main components are:

    • a library (Common) which provides generally useful data-structures and algorithms for static analyses.
    • a framework for parsing Java bytecode (Bytecode Infrastructure) that can be used to create arbitrary representations.
    • a library to create a one-to-one in-memory representation of Java bytecode (Bytecode Disassembler).
    • a library to create a representation of Java bytecode that facilitates writing simple static analyses (Bytecode Representation - org.opalj.br).
    • a scalable, easily customizable framework for the abstract interpretation of Java bytecode (Abstract Interpretation Framework - org.opalj.ai).
    • a library to extract dependencies between code elements and to facilitate checking architecture definitions.
    • a library for the lightweight manipulation and creation of Java bytecode.

    General Design Decisions

    Thread Safety

    Unless explicitly noted, OPAL is thread safe. I.e., the classes defined by OPAL can be considered to be thread safe unless otherwise stated. (For example, it is possible to read and process class files concurrently without explicit synchronization on the client side.)

    No null Values

    Unless explicitly noted, OPAL does not null values I.e., fields that are accessible will never contain null values and methods will never return null. If a method accepts null as a value for a parameter or returns a null value it is always explicitly documented. In general, the behavior of methods that are passed null values is undefined unless explicitly documented.

    No Typecasts for Collections

    For efficiency reasons, OPAL sometimes uses mutable data-structures internally. After construction time, these data-structures are generally represented using their generic interfaces (e.g., scala.collection.{Set,Map}). However, a downcast (e.g., to add/remove elements) is always forbidden as it would effectively prevent thread-safety. Furthermore, the concrete data-structure is always considered an implementation detail and may change at any time.

    Assertions

    OPAL makes heavy use of Scala's Assertion Facility to facilitate writing correct code. Hence, for production builds (after thorough testing(!)) it is highly recommend to build OPAL again using -Xdisable-assertions.

    Definition Classes
    org
  • package ai

    Implementation of an abstract interpretation (ai) framework – also referred to as OPAL.

    Implementation of an abstract interpretation (ai) framework – also referred to as OPAL.

    Please note, that OPAL/the abstract interpreter just refers to the classes and traits defined in this package (ai). The classes and traits defined in the sub-packages (in particular in domain) are not considered to be part of the core of OPAL/the abstract interpreter.

    Definition Classes
    opalj
    Note

    This framework assumes that the analyzed bytecode is valid; i.e., the JVM's bytecode verifier would be able to verify the code. Furthermore, load-time errors (e.g., LinkageErrors) are – by default – completely ignored to facilitate the analysis of parts of a project. In general, if the presented bytecode is not valid, the result is undefined (i.e., OPAL may report meaningless results, crash or run indefinitely).

    See also

    org.opalj.ai.Domain - The core interface between the abstract interpretation framework and the abstract domain that is responsible for performing the abstract computations.

    org.opalj.ai.AI - Implements the abstract interpreter that processes a methods code and uses an analysis-specific domain to perform the abstract computations.

  • package domain

    This package contains definitions of common domains that can be used for the implementation of analyses.

    This package contains definitions of common domains that can be used for the implementation of analyses.

    Types of Domains

    In general, we distinguish two types of domains. First, domains that define a general interface (on top of the one defined by Domain), but do not directly provide an implementation. Hence, whenever you develop a new Domain you should consider implementing/using these domains to maximize reusability. Second, Domains that implement a specific interface (trait). In this case, we further distinguish between domains that provide a default implementation (per interface only one of these Domains can be used to create a final Domain) and those that can be stacked and basically refine the overall functionality.

    Examples

    • Domains That Define a General Interface
      • Origin defines two types which domains that provide information abou the origin of a value should consider to implement.
      • TheProject defines a standard mechanism how a domain can access the current project.
      • TheClassHierarchy defines a standard mechanism how to get the project's class hierarchy.
      • ...
    • Domains That Provide a Default Implementation
      • Origin defines the functionality to return a value's origin if the value supports that.
      • TheProject default implementation of the TheClassHierarchy trait that uses the project's class hierarchy.
      • DefaultHandlingOfMethodResults basically implements a Domain's methods related to return instructions an uncaught exceptions.
      • ...
    • Domains That Implement Stackable Functionality
      • RecordThrownExceptions records information about all uncaught exceptions by intercepting a Domain's respective methods. However, it does provide a default implementation. Hence, a typical pattern is:
    class MyDomain extends Domain with ...
        with DefaultHandlingOfMethodResults with RecordThrownExceptions

    Thread Safety

    Unless explicitly documented, a domain is never thread-safe. The general programming model is to use one Domain object per code block/method and therefore, thread-safety is not required for Domains that are used for the evaluation of methods. However domains that are used to adapt/transfer values should be thread safe (see ValuesCoordinatingDomain for further details).

    Definition Classes
    ai
  • package l1

    Commonly useful methods.

    Commonly useful methods.

    Definition Classes
    domain
  • ArrayValues
  • ClassValues
  • ConcretePrimitiveValuesConversions
  • ConstraintsBetweenIntegerValues
  • DefaultArrayValuesBinding
  • DefaultClassValuesBinding
  • DefaultDomain
  • DefaultDomainWithCFG
  • DefaultDomainWithCFGAndDefUse
  • DefaultIntegerRangeValues
  • DefaultIntegerSetValues
  • DefaultIntegerValues
  • DefaultIntervalValuesDomain
  • DefaultJavaObjectToDomainValueConversion
  • DefaultLongSetValues
  • DefaultLongValues
  • DefaultReferenceValuesBinding
  • DefaultReferenceValuesDomain
  • DefaultSetValuesDomain
  • DefaultSingletonValuesDomain
  • DefaultStringValuesBinding
  • IfNullParameterAnalysis
  • IntegerRangeValues
  • IntegerSetValues
  • IntegerValues
  • LongSetValues
  • LongSetValuesShiftOperators
  • LongValues
  • LongValuesShiftOperators
  • MaxArrayLengthRefinement
  • MethodReturnValuesAnalysis
  • NullPropertyRefinement
  • OwnershipAnalysis
  • RecordAllThrownExceptions
  • ReferenceValues
  • RefinedReturnType
  • ReflectiveInvoker
  • SimpleDefUseAnalysis
  • StringBuilderValues
  • StringValues
c

org.opalj.ai.domain.l1

DefaultDomainWithCFG

class DefaultDomainWithCFG[Source] extends DefaultDomain[Source] with RecordCFG

Configuration of a domain that uses the most capable l1 domains and which also records the abstract-interpretation time control flow graph.

Source
DefaultDomain.scala
Linear Supertypes
RecordCFG, DefaultDomain[Source], ConcretePrimitiveValuesConversions, TypeLevelPrimitiveValuesConversions, LongValuesShiftOperators, DefaultLongValues, LongValues, ConcreteLongValues, DefaultIntegerRangeValues, IntegerRangeValues, ConcreteIntegerValues, IntegerRangeValuesFactory, NullPropertyRefinement, MaxArrayLengthRefinement, DefaultClassValuesBinding, ClassValues, DefaultStringValuesBinding, StringValues, PostEvaluationMemoryManagement, DefaultJavaObjectToDomainValueConversion, AsDomainValue, DefaultReferenceValuesBinding, DefaultExceptionsFactory, ReferenceValues, Origin, DefaultTypeLevelReferenceValues, TypeLevelReferenceValues, AsJavaObject, GeneralizedArrayHandling, SpecialMethodsHandling, TypeLevelInvokeInstructions, MethodCallsHandling, TypeLevelFieldAccessInstructions, DefaultTypeLevelDoubleValues, TypeLevelDoubleValues, DefaultTypeLevelFloatValues, TypeLevelFloatValues, DefaultTypeLevelHandlingOfMethodResults, DefaultTypeLevelHandlingForReturnInstructions, DefaultTypeLevelHandlingOfVoidReturns, DefaultTypeLevelHandlingForThrownExceptions, l0.ReturnInstructionsDomain, MonitorInstructionsTracker, CustomInitialization, IgnoreSynchronization, ThrowAllPotentialExceptionsConfiguration, DefaultDomainValueBinding, TheMethod, TheCode, TheProject, ThePropertyStore, LogContextProvider, TheClassHierarchy, CorrelationalDomain, CorrelationalDomainSupport, IdentityBasedCorrelationChangeDetection, JoinStabilization, Domain, Configuration, TypedValuesFactory, PrimitiveValuesConversionsDomain, ai.ReturnInstructionsDomain, MonitorInstructionsDomain, MethodCallsDomain, FieldAccessesDomain, ReferenceValuesDomain, ReferenceValuesFactory, ExceptionsFactory, DoubleValuesDomain, DoubleValuesFactory, FloatValuesDomain, FloatValuesFactory, LongValuesDomain, LongValuesFactory, IntegerValuesDomain, IntegerValuesFactory, CoreDomainFunctionality, SubroutinesDomain, ValuesDomain, AnyRef, Any
Ordering
  1. Alphabetic
  2. By Inheritance
Inherited
  1. DefaultDomainWithCFG
  2. RecordCFG
  3. DefaultDomain
  4. ConcretePrimitiveValuesConversions
  5. TypeLevelPrimitiveValuesConversions
  6. LongValuesShiftOperators
  7. DefaultLongValues
  8. LongValues
  9. ConcreteLongValues
  10. DefaultIntegerRangeValues
  11. IntegerRangeValues
  12. ConcreteIntegerValues
  13. IntegerRangeValuesFactory
  14. NullPropertyRefinement
  15. MaxArrayLengthRefinement
  16. DefaultClassValuesBinding
  17. ClassValues
  18. DefaultStringValuesBinding
  19. StringValues
  20. PostEvaluationMemoryManagement
  21. DefaultJavaObjectToDomainValueConversion
  22. AsDomainValue
  23. DefaultReferenceValuesBinding
  24. DefaultExceptionsFactory
  25. ReferenceValues
  26. Origin
  27. DefaultTypeLevelReferenceValues
  28. TypeLevelReferenceValues
  29. AsJavaObject
  30. GeneralizedArrayHandling
  31. SpecialMethodsHandling
  32. TypeLevelInvokeInstructions
  33. MethodCallsHandling
  34. TypeLevelFieldAccessInstructions
  35. DefaultTypeLevelDoubleValues
  36. TypeLevelDoubleValues
  37. DefaultTypeLevelFloatValues
  38. TypeLevelFloatValues
  39. DefaultTypeLevelHandlingOfMethodResults
  40. DefaultTypeLevelHandlingForReturnInstructions
  41. DefaultTypeLevelHandlingOfVoidReturns
  42. DefaultTypeLevelHandlingForThrownExceptions
  43. ReturnInstructionsDomain
  44. MonitorInstructionsTracker
  45. CustomInitialization
  46. IgnoreSynchronization
  47. ThrowAllPotentialExceptionsConfiguration
  48. DefaultDomainValueBinding
  49. TheMethod
  50. TheCode
  51. TheProject
  52. ThePropertyStore
  53. LogContextProvider
  54. TheClassHierarchy
  55. CorrelationalDomain
  56. CorrelationalDomainSupport
  57. IdentityBasedCorrelationChangeDetection
  58. JoinStabilization
  59. Domain
  60. Configuration
  61. TypedValuesFactory
  62. PrimitiveValuesConversionsDomain
  63. ReturnInstructionsDomain
  64. MonitorInstructionsDomain
  65. MethodCallsDomain
  66. FieldAccessesDomain
  67. ReferenceValuesDomain
  68. ReferenceValuesFactory
  69. ExceptionsFactory
  70. DoubleValuesDomain
  71. DoubleValuesFactory
  72. FloatValuesDomain
  73. FloatValuesFactory
  74. LongValuesDomain
  75. LongValuesFactory
  76. IntegerValuesDomain
  77. IntegerValuesFactory
  78. CoreDomainFunctionality
  79. SubroutinesDomain
  80. ValuesDomain
  81. AnyRef
  82. Any
  1. Hide All
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Visibility
  1. Public
  2. All

Instance Constructors

  1. new DefaultDomainWithCFG(project: Project[Source], method: Method)

Type Members

  1. class IllegalValue extends Value

    Represents a value that has no well defined state/type.

    Represents a value that has no well defined state/type. Such values are the result of a join of two incompatible values and are generally only found in registers (in the locals) and then identify a value that is dead.

    Attributes
    protected
    Definition Classes
    ValuesDomain
    See also

    org.opalj.ai.Domain.Value for further details.

  2. trait RETValue extends Value
    Definition Classes
    ValuesDomain
  3. class ReturnAddressValue extends RETValue

    Stores a single return address (i.e., a program counter/index into the code array).

    Stores a single return address (i.e., a program counter/index into the code array).

    Definition Classes
    ValuesDomain
    Note

    Though the framework completely handles all aspects related to return address values, it is nevertheless necessary that this class inherits from Value as return addresses are stored on the stack/in the registers. However, if the Value trait should be refined, all additional methods may – from the point-of-view of OPAL-AI - just throw an OperationNotSupportedException as these additional methods will never be called by OPAL-AI.

  4. class ReturnAddressValues extends RETValue

    A collection of (not furhter stored) return address values.

    A collection of (not furhter stored) return address values. Primarily used when we join the executions of subroutines.

    Definition Classes
    ValuesDomain
  5. trait TypedValue[+T <: Type] extends Value with KnownType
    Definition Classes
    ValuesDomain
  6. trait Value extends AnyRef

    Abstracts over a concrete operand stack value or a value stored in one of the local variables/registers.

    Abstracts over a concrete operand stack value or a value stored in one of the local variables/registers.

    Use Of Value/Dependencies On Value

    In general, subclasses and users of a Domain should not have/declare a direct dependency on Value. Instead they should use DomainValue as otherwise extensibility of a Domain may be hampered or even be impossible. The only exceptions are, of course, classes that directly inherit from this class.

    Refining Value

    If you directly extend/refine this trait (i.e., in a subclass of the Domain trait you write something like trait Value extends super.Value), make sure that you also extend all classes/traits that inherit from this type (this may require a deep mixin composition and that you refine the type DomainType accordingly). However, OPAL was designed such that extending this class should – in general – not be necessary. It may also be easier to encode the desired semantics – as far as possible – as part of the domain.

    Implementing Value

    Standard inheritance from this trait is always supported and is the primary mechanism to model an abstract domain's lattice w.r.t. some special type of value. In general, the implementation should try to avoid creating new instances of values unless strictly required to model the domain's semantics. This will greatly improve the overall performance as this framework heavily uses reference-based equality checks to speed up the evaluation.

    Definition Classes
    ValuesDomain
    Note

    OPAL does not rely on any special equality semantics w.r.t. values and never directly or indirectly calls a Value's equals or eq method. Hence, a domain can encode equality such that it best fits its need. However, some of the provided domains rely on the following semantics for equals: Two domain values have to be equal (==) iff they represent the same information. This includes additional information, such as, the value of the origin. E.g., a value (AnIntegerValue) that represents an arbitrary Integer value has to return true if the domain value with which it is compared also represents an arbitrary Integer value (AnIntegerValue). However, it may still be necessary to use multiple objects to represent an arbitrary integer value if, e.g., constraints should be attached to specific values. For example, after a comparison of an integer value with a predefined value (e.g., AnIntegerValue < 4) it is possible to constrain the respective value on the subsequent paths (< 4 on one path and >= 4 on the other path). To make that possible, it is however necessary to distinguish the AnIntegervalue from some other AnIntegerValue to avoid constraining unrelated values.

    public void foo(int a,int b) {
        if(a < 4) {
            z = a - 2 // here a is constrained (< 4), b and z are unconstrained
        }
        else {
            z = a + 2 // here a is constrained (>= 4), b and z are unconstrained
        }
    }

    In general, equals is only defined for values belonging to the same domain. If values need to be compared across domains, they need to be adapted to a target domain first.

  7. trait MultipleOriginsValue extends (Origin.this)#ValueWithOriginInformation

    Marker trait which should be mixed in by DomainValue classes that capture information about all (multiple) origins of a value.

    Marker trait which should be mixed in by DomainValue classes that capture information about all (multiple) origins of a value.

    Definition Classes
    Origin
  8. trait SingleOriginValue extends (Origin.this)#ValueWithOriginInformation

    Should be mixed in by DomainValues that have a single origin.

    Should be mixed in by DomainValues that have a single origin.

    Definition Classes
    Origin
  9. trait ValueWithOriginInformation extends AnyRef

    Common supertrait of all domain values which provide comprehensive origin information.

    Common supertrait of all domain values which provide comprehensive origin information.

    Definition Classes
    Origin
  10. trait DoubleValue extends (TypeLevelDoubleValues.this)#TypedValue[DoubleType] with IsDoubleValue[(TypeLevelDoubleValues.this)#DoubleValue]

    Abstracts over double values at the type level.

    Abstracts over double values at the type level.

    Definition Classes
    TypeLevelDoubleValues
  11. trait FloatValue extends (TypeLevelFloatValues.this)#TypedValue[FloatType] with IsFloatValue[(TypeLevelFloatValues.this)#FloatValue]

    Abstracts over all values with computational type float.

    Abstracts over all values with computational type float.

    Definition Classes
    TypeLevelFloatValues
  12. trait ArrayAbstraction extends AnyRef
    Definition Classes
    TypeLevelReferenceValues
  13. trait SReferenceValue[T <: ReferenceType] extends (TypeLevelReferenceValues.this)#ReferenceValue

    A reference value with a single (upper) type (bound).

    A reference value with a single (upper) type (bound).

    Attributes
    protected[this]
    Definition Classes
    TypeLevelReferenceValues
  14. class ClassValue extends (ClassValues.this)#SObjectValue

    All values (Class<...> c) that represent the same type (e.g.

    All values (Class<...> c) that represent the same type (e.g. java.lang.String) are actually represented by the same class (object) value at runtime.

    Attributes
    protected
    Definition Classes
    ClassValues
  15. type AReferenceValue = ReferenceValue
  16. type ArrayLoadResult = Computation[DomainValue, ExceptionValues]

    Computation that returns the value stored in an array at a given index or an exception.

    Computation that returns the value stored in an array at a given index or an exception. The exceptions that may be thrown are: NullPointerException and ArrayIndexOutOfBoundsException.

    Definition Classes
    ReferenceValuesDomain
  17. type ArrayStoreResult = Computation[Nothing, ExceptionValues]

    Computation that succeeds (updates the value stored in the array at the given index) or that throws an exception.

    Computation that succeeds (updates the value stored in the array at the given index) or that throws an exception. The exceptions that may be thrown are: NullPointerException, ArrayIndexOutOfBoundsException and ArrayStoreException.

    Definition Classes
    ReferenceValuesDomain
  18. type DomainArrayValue = ArrayValue
  19. type DomainClassValue = ClassValue
    Definition Classes
    DefaultClassValuesBindingClassValues
  20. final type DomainIllegalValue = IllegalValue

    Abstracts over the concrete type of IllegalValue.

    Abstracts over the concrete type of IllegalValue.

    This type needs to be refined whenever the class IllegalValue is refined or the type DomainValue is refined.

    Definition Classes
    DefaultDomainValueBindingValuesDomain
  21. type DomainMultipleReferenceValues = MultipleReferenceValues
  22. type DomainNullValue = NullValue
  23. type DomainObjectValue = ObjectValue
  24. type DomainReferenceValue = ReferenceValue
  25. final type DomainReturnAddressValue = ReturnAddressValue

    Abstracts over the concrete type of ReturnAddressValue.

    Abstracts over the concrete type of ReturnAddressValue. Needs to be fixed by some sub-trait/sub-class. In the simplest case (i.e., when neither the Value trait nor the ReturnAddressValue trait was refined) it is sufficient to write:

    type DomainReturnAddressValue = ReturnAddressValue
    Definition Classes
    DefaultDomainValueBindingValuesDomain
  26. final type DomainReturnAddressValues = ReturnAddressValues
  27. type DomainSingleOriginReferenceValue = SingleOriginReferenceValue
  28. type DomainStringValue = StringValue
  29. final type DomainTypedValue[+T <: Type] = TypedValue[T]
  30. final type DomainValue = Value

    Abstracts over the concrete type of Value.

    Abstracts over the concrete type of Value. Needs to be refined by traits that inherit from Domain and which extend Domain's Value trait.

    Definition Classes
    DefaultDomainValueBindingValuesDomain
  31. type ExceptionValue = DomainReferenceValue

    A simple type alias of the type DomainValue; used to facilitate comprehension.

    A simple type alias of the type DomainValue; used to facilitate comprehension.

    Definition Classes
    ValuesDomain
  32. type ExceptionValues = Iterable[ExceptionValue]

    A type alias for Iterables of ExceptionValues; used to facilitate comprehension.

    A type alias for Iterables of ExceptionValues; used to facilitate comprehension.

    Definition Classes
    ValuesDomain
  33. type IntegerValueOrArithmeticException = Computation[DomainValue, ExceptionValue]

    Computation that returns a numeric value or an ObjectType.ArithmeticException.

    Computation that returns a numeric value or an ObjectType.ArithmeticException.

    Definition Classes
    IntegerValuesDomain
  34. type Locals = collection.mutable.Locals[DomainValue]

    An instruction's current register values/locals are represented using an array.

    An instruction's current register values/locals are represented using an array.

    Definition Classes
    ValuesDomain
  35. type LocalsArray = Array[Locals]
    Definition Classes
    ValuesDomain
  36. type LongValueOrArithmeticException = Computation[DomainValue, ExceptionValue]
    Definition Classes
    LongValuesDomain
  37. type MethodCallResult = Computation[DomainValue, ExceptionValues]
    Definition Classes
    MethodCallsDomain
  38. type Operands = Chain[DomainValue]

    An instruction's operands are represented using a list where the first element of the list represents the top level operand stack value.

    An instruction's operands are represented using a list where the first element of the list represents the top level operand stack value.

    Definition Classes
    ValuesDomain
  39. type OperandsArray = Array[Operands]
    Definition Classes
    ValuesDomain
  40. type RefId = Int

    Two domain values that have the same refid are guaranteed to refer to the same object at runtime (must-alias).

    Two domain values that have the same refid are guaranteed to refer to the same object at runtime (must-alias).

    The refid enables us to distinguish two values created/returned by the same instruction - two values with the same origin - but at a different point in time. Such values may or may not be different; i.e., those values may or may not refer to the same object on the heap/stack.

    RefIds are required to determine changes in the memory layout. I.e., to determine if two values created by the same instruction are aliases or "just" maybe aliases. This information is particularly relevant if two values - stored in registers - are no longer guaranteed to be aliases!

    Definition Classes
    ReferenceValues
  41. type Refinements = IdentityHashMap[AReferenceValue, AReferenceValue]

    A map that contains the refined values (the map's values) of some old values (the map's keys).

    A map that contains the refined values (the map's values) of some old values (the map's keys).

    Definition Classes
    ReferenceValues
  42. class AnIntegerValue extends (DefaultIntegerRangeValues.this)#AnIntegerValue

    Represents a specific but unknown Integer value.

    Represents a specific but unknown Integer value.

    Definition Classes
    DefaultIntegerRangeValues
    Note

    The functionality to propagate a constraint crucially depends on the fact that two integer values that are not guaranteed to represent the same runtime value are represented by two different instances of "AnIntegerValue"; otherwise, propagating the constraint that some value (after some kind of check) has to have a special value may affect unrelated values!

  43. class IntegerRange extends (DefaultIntegerRangeValues.this)#IntegerRange

    Represents a specific integer value in the range [lowerBound,upperBound].

    Represents a specific integer value in the range [lowerBound,upperBound].

    Definition Classes
    DefaultIntegerRangeValues
  44. class TheLongValue extends (DefaultLongValues.this)#TheLongValue

    Represents a concrete long value.

    Represents a concrete long value.

    Definition Classes
    DefaultLongValues
  45. sealed trait IntegerLikeValue extends (IntegerRangeValues.this)#TypedValue[CTIntType] with IsIntegerValue[(IntegerRangeValues.this)#IntegerLikeValue]

    Abstracts over all values with computational type integer.

    Abstracts over all values with computational type integer.

    Definition Classes
    IntegerRangeValues
  46. trait ALongValue extends (LongValues.this)#LongValue

    Represents an (unknown) long value.

    Represents an (unknown) long value.

    Models the top value of this domain's lattice.

    Definition Classes
    LongValues
  47. sealed trait LongValue extends (LongValues.this)#TypedValue[LongType] with IsLongValue[(LongValues.this)#LongValue]

    Abstracts over all values with computational type long.

    Abstracts over all values with computational type long.

    Definition Classes
    LongValues
  48. class ArrayValue extends (ReferenceValues.this)#ArrayValue with (ReferenceValues.this)#NonNullSingleOriginSReferenceValue
    Attributes
    protected
    Definition Classes
    ReferenceValues
  49. class MObjectValue extends (ReferenceValues.this)#MObjectValue with (ReferenceValues.this)#ObjectValue
    Attributes
    protected
    Definition Classes
    ReferenceValues
  50. class MultipleReferenceValues extends (ReferenceValues.this)#ReferenceValue with (ReferenceValues.this)#MultipleOriginsValue

    A MultipleReferenceValues tracks multiple reference values (of type NullValue, ArrayValue, SObjectValue and MObjectValue) that have different origins.

    A MultipleReferenceValues tracks multiple reference values (of type NullValue, ArrayValue, SObjectValue and MObjectValue) that have different origins. I.e., per value origin one domain value is used to abstract over the properties of that respective value.

    Attributes
    protected
    Definition Classes
    ReferenceValues
  51. trait NonNullSingleOriginReferenceValue extends (ReferenceValues.this)#SingleOriginReferenceValue
    Definition Classes
    ReferenceValues
  52. trait NonNullSingleOriginSReferenceValue extends (ReferenceValues.this)#NonNullSingleOriginReferenceValue
    Definition Classes
    ReferenceValues
  53. class NullValue extends (ReferenceValues.this)#NullValue with (ReferenceValues.this)#SingleOriginReferenceValue
    Attributes
    protected
    Definition Classes
    ReferenceValues
  54. trait ObjectValue extends (ReferenceValues.this)#ObjectValue with (ReferenceValues.this)#NonNullSingleOriginReferenceValue
    Definition Classes
    ReferenceValues
  55. trait ReferenceValue extends (ReferenceValues.this)#ReferenceValue

    Representation of some reference value; this includes Object, Array and Null values.

    Representation of some reference value; this includes Object, Array and Null values.

    This trait defines the additional methods needed for the refinement of the new properties.

    Definition Classes
    ReferenceValues
  56. class SObjectValue extends (ReferenceValues.this)#SObjectValue with (ReferenceValues.this)#ObjectValue with (ReferenceValues.this)#NonNullSingleOriginSReferenceValue

    Attributes
    protected
    Definition Classes
    ReferenceValues
  57. trait SingleOriginReferenceValue extends (ReferenceValues.this)#ReferenceValue with (ReferenceValues.this)#SingleOriginValue with UID

    Represents all DomainReferenceValues that represent a reference value where – in the current analysis context – the value has a single origin.

    Represents all DomainReferenceValues that represent a reference value where – in the current analysis context – the value has a single origin.

    Definition Classes
    ReferenceValues
    Note

    To make it possible to store SingleOriginReferenceValues in UIDSets - which in particular provide fast filter and tail methods compared to the standard sets - the UID trait is implemented.

  58. class StringValue extends (StringValues.this)#SObjectValue

    Attributes
    protected
    Definition Classes
    StringValues

Value Members

  1. object ConcreteIntegerValue
    Definition Classes
    ConcreteIntegerValues
  2. object ConcreteLongValue
    Definition Classes
    ConcreteLongValues
  3. implicit object SingleOriginValueOrdering extends Ordering[(Origin.this)#SingleOriginValue]
    Definition Classes
    Origin
  4. object ADoubleValue extends (DefaultTypeLevelDoubleValues.this)#DoubleValue with Product with Serializable

    Represents an unknown double value.

    Represents an unknown double value.

    Definition Classes
    DefaultTypeLevelDoubleValues
  5. object AFloatValue extends (DefaultTypeLevelFloatValues.this)#FloatValue with Product with Serializable
    Definition Classes
    DefaultTypeLevelFloatValues
  6. object ArrayValue

    Enables matching of DomainValues that are array values.

    Enables matching of DomainValues that are array values.

    Definition Classes
    DefaultTypeLevelReferenceValues
  7. object MObjectValue
  8. object SObjectValue
  9. object IsNull
    Definition Classes
    TypeLevelReferenceValues
  10. object IsPrecise
    Definition Classes
    TypeLevelReferenceValues
  11. object UpperTypeBound
    Definition Classes
    TypeLevelReferenceValues
  12. object ClassValue
    Definition Classes
    ClassValues
  13. final def !=(arg0: Any): Boolean
    Definition Classes
    AnyRef → Any
  14. final def ##(): Int
    Definition Classes
    AnyRef → Any
  15. final def ==(arg0: Any): Boolean
    Definition Classes
    AnyRef → Any
  16. final val AReferenceValue: ClassTag[AReferenceValue]
  17. def AnIntegerValue(): AnIntegerValue

    Factory method to create a new instance of AnIntegerValue.

    Factory method to create a new instance of AnIntegerValue.

    Definition Classes
    DefaultIntegerRangeValues
  18. final def ArithmeticException(origin: ValueOrigin): ExceptionValue

    Creates a non-null object that represent a ArithmeticException and that has the given origin.

    Creates a non-null object that represent a ArithmeticException and that has the given origin. If the ArithmeticException was created by the VM while evaluating an instruction with the program counter pc you use the method ValueOriginForVMLevelValue to translate that pc to the appropriate ValueOrigin.

    Definition Classes
    DefaultExceptionsFactoryExceptionsFactory
  19. final def ArrayIndexOutOfBoundsException(origin: ValueOrigin): ExceptionValue

    Creates a non-null object that represent a ArrayIndexOutOfBoundsException and that has the given origin.

    Creates a non-null object that represent a ArrayIndexOutOfBoundsException and that has the given origin. If the ArrayIndexOutOfBoundsException was created by the VM while evaluating an instruction with the program counter pc you use the method ValueOriginForVMLevelValue to translate that pc to the appropriate ValueOrigin.

    Definition Classes
    DefaultExceptionsFactoryExceptionsFactory
  20. final def ArrayStoreException(origin: ValueOrigin): ExceptionValue

    Creates a non-null object that represent a ArrayStoreException and that has the given origin.

    Creates a non-null object that represent a ArrayStoreException and that has the given origin. If the ArrayStoreException was created by the VM while evaluating an instruction with the program counter pc you use the method ValueOriginForVMLevelValue to translate that pc to the appropriate ValueOrigin.

    Definition Classes
    DefaultExceptionsFactoryExceptionsFactory
  21. def ArrayValue(origin: ValueOrigin, isNull: Answer, isPrecise: Boolean, theUpperTypeBound: ArrayType, t: RefId): DomainArrayValue
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    DefaultReferenceValuesBindingReferenceValues
  22. def ArrayValue(pc: PC, arrayType: ArrayType): DomainArrayValue

    Creates a new DomainValue that represents an array value with unknown values and where the specified type may also just be an upper type bound (unless the component type is a primitive type or an array of primitives.)

    Creates a new DomainValue that represents an array value with unknown values and where the specified type may also just be an upper type bound (unless the component type is a primitive type or an array of primitives.)

    Typical Usage

    This factory method is (typically) used to create a domain value that represents an array if we know nothing specific about the array. E.g., if you want to analyze a method that takes an array as a parameter.

    Summary

    The properties of the value are:

    • Type: Upper Bound (unless the elementType is a base type)
    • Null: Unknown
    • Size: Unknown
    • Content: Unknown
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    ReferenceValuesTypeLevelReferenceValues
    Note

    Java's arrays are co-variant. I.e., Object[] a = new Serializable[100]; is valid.

  23. def BooleanValue(origin: ValueOrigin, value: Boolean): DomainTypedValue[CTIntType]

    Factory method to create a representation of a boolean value with the given initial value and origin.

    Factory method to create a representation of a boolean value with the given initial value and origin.

    The domain may ignore the information about the value and the origin (origin).

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  24. def BooleanValue(origin: ValueOrigin): DomainTypedValue[CTIntType]

    Factory method to create a representation of a boolean value if we know the origin of the value.

    Factory method to create a representation of a boolean value if we know the origin of the value.

    The domain may ignore the information about the origin (origin).

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  25. def ByteValue(origin: ValueOrigin, value: Byte): DomainTypedValue[CTIntType]

    Factory method to create a DomainValue that represents the given byte value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents the given byte value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the value and the origin (origin).

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  26. def ByteValue(origin: ValueOrigin): DomainTypedValue[CTIntType]

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the origin (origin).

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  27. def CharValue(origin: ValueOrigin, value: Char): DomainTypedValue[CTIntType]

    Factory method to create a DomainValue that represents the given char value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents the given char value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  28. def CharValue(origin: ValueOrigin): DomainTypedValue[CTIntType]

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the origin (origin).

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  29. final def ClassCastException(origin: ValueOrigin): ExceptionValue

    Creates a non-null object that represent a ClassCastException and that has the given origin.

    Creates a non-null object that represent a ClassCastException and that has the given origin. If the ClassCastException was created by the VM while evaluating an instruction with the program counter pc you use the method ValueOriginForVMLevelValue to translate that pc to the appropriate ValueOrigin.

    Definition Classes
    DefaultExceptionsFactoryExceptionsFactory
  30. final def ClassNotFoundException(origin: ValueOrigin): ExceptionValue
  31. def ClassValue(origin: ValueOrigin, value: Type, refId: RefId): DomainClassValue
    Definition Classes
    DefaultClassValuesBinding
  32. def ClassValue(origin: ValueOrigin, value: Type): DomainClassValue

    Factory method to create a DomainValue that represents a runtime value of type "Class<T>" and that was created by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents a runtime value of type "Class<T>" and that was created by the instruction with the specified program counter.

    This function is called by OPAL when a class constant (LDC(_W) instruction) is put on the stack.

    The domain may ignore the information about the value and the origin (vo).

    Summary

    The properties of the domain value are:

    • Initialized: Yes and the type represented by the class is the given type.
    • Type: java.lang.Class<t:Type>
    • Null: No
    Definition Classes
    DefaultClassValuesBindingClassValuesReferenceValuesTypeLevelReferenceValuesReferenceValuesFactory
  33. final def ConstantFieldValue(pc: PC, cv: ConstantFieldValue[_]): DomainValue

    Creates the domain value that represents the constant field value.

    Creates the domain value that represents the constant field value.

    Definition Classes
    Domain
  34. final def DefaultValue(origin: ValueOrigin, theType: FieldType): DomainValue

    Creates a DomainValue that represents a value with the given type and which is initialized using the JVM's default value for that type.

    Creates a DomainValue that represents a value with the given type and which is initialized using the JVM's default value for that type. E.g., for IntegerValues the value is set to 0. In case of a ReferenceType the value is the ReferenceValuesFactory#NullValue.

    Definition Classes
    TypedValuesFactory
  35. final val DomainArrayValue: ClassTag[DomainArrayValue]
  36. val DomainClassValue: ClassTag[DomainClassValue]
    Definition Classes
    DefaultClassValuesBindingClassValues
  37. final val DomainMultipleReferenceValues: ClassTag[DomainMultipleReferenceValues]
  38. final val DomainNullValue: ClassTag[DomainNullValue]
  39. final val DomainObjectValue: ClassTag[DomainObjectValue]
  40. final val DomainReferenceValue: ClassTag[DomainReferenceValue]

    The class tag can be used to create type safe arrays or to extract the concrete type of the domain value.

    The class tag can be used to create type safe arrays or to extract the concrete type of the domain value.

    val DomainReferenceValue(v) = value // of type "DomainValue"
    // v is now of the type DomainReferenceValue
    Definition Classes
    DefaultReferenceValuesBindingValuesDomain
  41. final val DomainSingleOriginReferenceValue: ClassTag[DomainSingleOriginReferenceValue]
  42. final val DomainStringValue: ClassTag[DomainStringValue]
  43. final val DomainValue: ClassTag[DomainValue]

    The class tag for the type DomainValue.

    The class tag for the type DomainValue.

    Required to generate instances of arrays in which values of type DomainValue can be stored in a type-safe manner.

    Initialization

    In the sub-trait or class that fixes the type of DomainValue it is necessary to implement this abstract val using:

    val DomainValueTag : ClassTag[DomainValue] = implicitly

    (As of Scala 2.10 it is necessary that you do not use implicit in the subclass - it will compile, but fail at runtime.)

    Definition Classes
    DefaultDomainValueBindingValuesDomain
  44. final def DoubleValue(valueOrigin: ValueOrigin, value: Double): DoubleValue

    Factory method to create a DomainValue that represents the given double value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents the given double value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the value and the origin (vo).

    Definition Classes
    DefaultTypeLevelDoubleValuesDoubleValuesFactory
  45. final def DoubleValue(valueOrigin: ValueOrigin): DoubleValue

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter, but where we have no knowledge about the precise value.

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter, but where we have no knowledge about the precise value.

    The domain may ignore the information about the origin (vo).

    Definition Classes
    DefaultTypeLevelDoubleValuesDoubleValuesFactory
  46. def FloatValue(valueOrigin: ValueOrigin, value: Float): FloatValue

    Factory method to create a DomainValue with the specified origin.

    Factory method to create a DomainValue with the specified origin. The origin is typically the program counter of the instruction that created this value/where the value was observed for the first time.

    The domain may ignore the information about the origin (origin).

    Definition Classes
    DefaultTypeLevelFloatValuesFloatValuesFactory
  47. def FloatValue(valueOrigin: ValueOrigin): FloatValue

    Factory method to create a DomainValue with the specified origin.

    Factory method to create a DomainValue with the specified origin. The origin is typically the program counter of the instruction that created this value/where the value was observed for the first time.

    The domain may ignore the information about the origin (origin).

    Definition Classes
    DefaultTypeLevelFloatValuesFloatValuesFactory
  48. final def IllegalMonitorStateException(origin: ValueOrigin): ExceptionValue

    Creates a non-null object that represent an IllegalMonitorStateException and that has the given origin.

    Creates a non-null object that represent an IllegalMonitorStateException and that has the given origin. If the IllegalMonitorStateException was created by the VM while evaluating an instruction with the program counter pc you should use the method ValueOriginForVMLevelValue to translate that pc to the appropriate ValueOrigin.

    Definition Classes
    DefaultExceptionsFactoryExceptionsFactory
  49. def InitializedArrayValue(pc: PC, arrayType: ArrayType, counts: Chain[Int]): DomainArrayValue

    Factory method to create a DomainValue that represents an array that was successfully created and which has the given type.

    Factory method to create a DomainValue that represents an array that was successfully created and which has the given type.

    The domain may ignore the information about the origin (pc) and the precise size of each dimension.

    Summary

    The properties of the domain value are:

    • Type: Precise
    • Null: No
    • Content: Unknown
    counts

    The size of each dimension if available. counts may not be empty but may not contain information about all dimensions; the following condition always has to hold: counts.length <= arrayType.dimensions.

    Definition Classes
    ReferenceValuesTypeLevelReferenceValuesReferenceValuesFactory
  50. def InitializedObjectValue(pc: PC, objectType: ObjectType): DomainObjectValue

    Factory method to create a DomainValue that represents an initialized reference value of the given type and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents an initialized reference value of the given type and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    General Remarks

    The given type usually identifies a class type (not an interface type) that is not abstract, but in some cases (e.g. consider java.awt.Toolkit()) it may be useful/meaningful to relax this requirement and to state that the class precisely represents the runtime type – even so the class is abstract. However, such decisions need to be made by the domain.

    This method is used by the OPAL framework to create reference values that are normally internally created by the JVM (in particular exceptions such as NullPointExeception and ClassCastException). However, it can generally be used to create initialized objects/arrays.

    Summary

    The properties of the domain value are:

    • Initialized: Yes
    • Type: precise (i.e., this type is not an upper bound, the type correctly models the runtime type.)
    • Null: No (This value is not null.)
    Definition Classes
    ReferenceValuesTypeLevelReferenceValuesReferenceValuesFactory
  51. final def IntegerConstant0: DomainTypedValue[CTIntType]

    Factory method to create a representation of the integer constant value 0.

    Factory method to create a representation of the integer constant value 0.

    OPAL in particular uses this special value for performing subsequent computations against the fixed value 0 (e.g., for if_XX instructions).

    (The origin (ValueOrigin) that is used is the ConstantValueOrigin to signify that this value was not created by the program.)

    The domain may ignore the information about the value.

    Definition Classes
    IntegerValuesFactory
  52. final def IntegerRange(lb: Int, ub: Int): IntegerRange

    Creates a new IntegerRange value with the given bounds.

    Creates a new IntegerRange value with the given bounds.

    Definition Classes
    DefaultIntegerRangeValuesIntegerRangeValues
    Annotations
    @inline()
  53. final def IntegerRange(origin: ValueOrigin, lowerBound: Int, upperBound: Int): DomainTypedValue[CTIntType]

    Creates a new IntegerRange value with the given bounds.

    Creates a new IntegerRange value with the given bounds.

    Definition Classes
    IntegerRangeValuesIntegerRangeValuesFactory
  54. def IntegerRange(value: Int): DomainTypedValue[CTIntType]

    Creates a new IntegerRange value with the lower and upper bound set to the given value.

    Creates a new IntegerRange value with the lower and upper bound set to the given value.

    Definition Classes
    IntegerRangeValues
  55. def IntegerValue(origin: ValueOrigin, value: Int): DomainTypedValue[CTIntType]

    Factory method to create a DomainValue that represents the given integer value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents the given integer value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the value and the origin (origin).

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  56. def IntegerValue(origin: ValueOrigin): DomainTypedValue[CTIntType]

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the origin (origin).

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  57. def LongValue(origin: ValueOrigin, value: Long): TheLongValue

    Factory method to create a DomainValue that represents the given long value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents the given long value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the value and the origin (vo).

    Definition Classes
    DefaultLongValuesLongValuesFactory
  58. def LongValue(origin: ValueOrigin): ALongValue.type

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the origin (vo).

    Definition Classes
    DefaultLongValuesLongValuesFactory
  59. final val MetaInformationUpdateIllegalValue: MetaInformationUpdate[DomainIllegalValue]

    The result of the merge of two incompatible values has to be reported as a MetaInformationUpdate[DomainIllegalValue].

    The result of the merge of two incompatible values has to be reported as a MetaInformationUpdate[DomainIllegalValue].

    Definition Classes
    DefaultDomainValueBindingValuesDomain
  60. def MethodCallResult(potentialExceptions: Iterable[ExceptionValue]): MethodCallResult

    Factory method called to create a MethodCallResult.

    Factory method called to create a MethodCallResult.

    Attributes
    protected[this]
    Definition Classes
    MethodCallsHandling
  61. def MethodCallResult(returnValue: DomainValue, exceptions: Iterable[ExceptionValue]): MethodCallResult

    Factory method called to create a MethodCallResult.

    Factory method called to create a MethodCallResult.

    Attributes
    protected[this]
    Definition Classes
    MethodCallsHandling
  62. def MethodHandle(origin: ValueOrigin, handle: MethodHandle): DomainReferenceValue

    Called by the AI framework for each load constant method handle (org.opalj.br.instructions.LoadMethodHandle) instruction to get a representation of/a DomainValue that represents the handle.

    Called by the AI framework for each load constant method handle (org.opalj.br.instructions.LoadMethodHandle) instruction to get a representation of/a DomainValue that represents the handle.

    handle

    A valid method handle.

    returns

    An InitializedObjectValue(ObjectType.MethodHandle). Hence, this method needs to be overridden if resolution of MethodHandle based method calls should be performed.

    Definition Classes
    ReferenceValuesFactory
  63. def MethodType(origin: ValueOrigin, descriptor: MethodDescriptor): DomainReferenceValue

    Called by the framework for each load constant method type (org.opalj.br.instructions.LoadMethodType) instruction to get a domain-specific representation of the method descriptor as a MethodType.

    Called by the framework for each load constant method type (org.opalj.br.instructions.LoadMethodType) instruction to get a domain-specific representation of the method descriptor as a MethodType.

    descriptor

    A valid method descriptor.

    returns

    An InitializedObjectValue(ObjectType.MethodType). Hence, this method needs to be overridden if resolution of MethodType based method calls should be performed.

    Definition Classes
    ReferenceValuesFactory
  64. def MultipleReferenceValues(values: UIDSet[DomainSingleOriginReferenceValue], isNull: Answer, isPrecise: Boolean, theUpperTypeBound: UIDSet[_ <: ReferenceType], refId: RefId): DomainMultipleReferenceValues
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    DefaultReferenceValuesBindingReferenceValues
  65. def MultipleReferenceValues(values: UIDSet[DomainSingleOriginReferenceValue]): DomainMultipleReferenceValues
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    DefaultReferenceValuesBindingReferenceValues
  66. final def NegativeArraySizeException(origin: ValueOrigin): ExceptionValue

    Creates a non-null object that represent a NegativeArraySizeException and that has the given origin.

    Creates a non-null object that represent a NegativeArraySizeException and that has the given origin. If the NegativeArraySizeException was created by the VM while evaluating an instruction with the program counter pc you use the method ValueOriginForVMLevelValue to translate that pc to the appropriate ValueOrigin.

    Definition Classes
    DefaultExceptionsFactoryExceptionsFactory
  67. def NewArray(pc: PC, counts: Operands, arrayType: ArrayType): DomainArrayValue

    Factory method to create a new domain value that represents a newly created array (non-null) with the size determined by count that is empty.

    Factory method to create a new domain value that represents a newly created array (non-null) with the size determined by count that is empty.

    Typical Usage

    This factory method is (implicitly) used, e.g., by OPAL when a multianewarray instruction is found.

    Summary

    The properties of the value are:

    • Type: Precise
    • Null: No
    • Size: Depending on the values in counts
    • Content: Empty (i.e., default values w.r.t. to the array's component type)
    Definition Classes
    ReferenceValuesTypeLevelReferenceValues
  68. def NewArray(pc: PC, count: DomainValue, arrayType: ArrayType): DomainArrayValue

    Factory method to create a new domain value that represents a newly created array (non-null) with the size determined by count that is empty.

    Factory method to create a new domain value that represents a newly created array (non-null) with the size determined by count that is empty.

    Typical Usage

    This factory method is (implicitly) used, e.g., by OPAL when a newarray instruction is found.

    Summary

    The properties of the value are:

    • Type: Precise
    • Null: No
    • Size: Count
    • Content: Empty (i.e., default values w.r.t. to the array's component type)
    Definition Classes
    ReferenceValuesTypeLevelReferenceValues
  69. def NewObject(origin: ValueOrigin, objectType: ObjectType): DomainObjectValue

    Creates a new DomainValue that represents a new, uninitialized instance of an object of the given type.

    Creates a new DomainValue that represents a new, uninitialized instance of an object of the given type. The object was created by the (NEW) instruction with the specified program counter.

    OPAL calls this method when it evaluates newobject instructions. If the bytecode is valid a call of one of the object's constructors will subsequently initialize the object.

    Summary

    The properties of the domain value are:

    • Initialized: no (only the memory is allocated for the object)
    • Type: precise (i.e., this type is not an upper bound, the type correctly models the runtime type.)
    • Null: No (This value is not null.)
    Definition Classes
    StringValuesReferenceValuesTypeLevelReferenceValuesReferenceValuesFactory
    Note

    Instances of arrays are created by the newarray and multianewarray instructions and in both cases an exception may be thrown (e.g., NegativeArraySizeException).

  70. def NonNullObjectValue(pc: PC, objectType: ObjectType): DomainObjectValue

    Represents a non-null reference value with the given type as an upper type bound.

    Represents a non-null reference value with the given type as an upper type bound.

    The domain may ignore the information about the value and the origin (vo).

    Summary

    The properties of the domain value are:

    • Initialized: Yes (the constructor was called)
    • Type: Upper Bound
    • Null: No (This value is not null.)
    Definition Classes
    ReferenceValuesTypeLevelReferenceValuesReferenceValuesFactory
  71. final def NullPointerException(origin: ValueOrigin): ExceptionValue

    Creates a non-null object that represent a NullPointerException and that has the given origin.

    Creates a non-null object that represent a NullPointerException and that has the given origin. If the NullPointerException was created by the VM while evaluating an instruction with the program counter pc you should use the method ValueOriginForVMLevelValue to translate that pc to the appropriate ValueOrigin.

    Definition Classes
    DefaultExceptionsFactoryExceptionsFactory
  72. def NullValue(origin: ValueOrigin): DomainNullValue

    Factory method to create a DomainValue that represents value null and and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents value null and and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the value and the origin (pc).

    Summary

    The properties of the domain value are:

    • Initialized: N/A
    • Type: Null
    • Null: Yes
    Definition Classes
    DefaultReferenceValuesBindingTypeLevelReferenceValuesReferenceValuesFactory
  73. def ObjectValue(origin: ValueOrigin, isNull: Answer, upperTypeBound: UIDSet[ObjectType], refId: RefId): DomainObjectValue
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    DefaultReferenceValuesBindingReferenceValues
  74. def ObjectValue(origin: ValueOrigin, isNull: Answer, isPrecise: Boolean, theUpperTypeBound: ObjectType, refId: RefId): SObjectValue
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    DefaultReferenceValuesBindingReferenceValues
  75. def ObjectValue(origin: ValueOrigin, isNull: Answer, isPrecise: Boolean, theUpperTypeBound: ObjectType): DomainObjectValue
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    ReferenceValues
  76. def ObjectValue(origin: ValueOrigin, isNull: Answer, upperTypeBound: UIDSet[ObjectType]): DomainObjectValue
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    ReferenceValues
  77. def ObjectValue(pc: PC, upperTypeBound: UIDSet[ObjectType]): DomainObjectValue

    Factory method to create a DomainValue that represents either an class-/interface value that has the given types as an upper bound or the value null.

    Factory method to create a DomainValue that represents either an class-/interface value that has the given types as an upper bound or the value null. However, the information whether the value is null or not is not available. Furthermore, the type may also just be an upper bound and it is not known if the value is properly initialized.

    Summary

    The properties of the domain value are:

    • Initialized: Unknown (i.e., it is not guaranteed that the constructor was called.)
    • Type: Upper Bound
    • Null: Unknown
    • Content: Unknown
    Definition Classes
    ReferenceValuesTypeLevelReferenceValues
  78. def ObjectValue(pc: PC, objectType: ObjectType): DomainObjectValue

    Factory method to create a DomainValue that represents either an class-/interface value that has the given type or the value null.

    Factory method to create a DomainValue that represents either an class-/interface value that has the given type or the value null. However, the information whether the value is null or not is not available. Furthermore, the type may also just be an upper bound and it is not known if the value is properly initialized.

    Summary

    The properties of the domain value are:

    • Initialized: Unknown
    • Type: Upper Bound
    • Null: Unknown
    • Content: Unknown
    Definition Classes
    ReferenceValuesTypeLevelReferenceValues
  79. final def RefIdUpdate[T](value: T): MetaInformationUpdate[T]

    Creates an update object that characterizes a reference id update.

    Creates an update object that characterizes a reference id update.

    Basically, just a wrapper for a MetaInformationUpdate; the purpose is to better communicate the underlying purpose.

    Definition Classes
    ReferenceValues
    Annotations
    @inline()
  80. final def ReferenceValue(origin: ValueOrigin, isNull: Answer, isPrecise: Boolean, upperTypeBound: UIDSet[_ <: ReferenceType], refId: RefId): DomainSingleOriginReferenceValue
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    ReferenceValues
  81. final def ReferenceValue(origin: ValueOrigin, isNull: Answer, isPrecise: Boolean, theUpperTypeBound: ReferenceType): DomainSingleOriginReferenceValue
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    ReferenceValues
  82. def ReferenceValue(origin: ValueOrigin, isNull: Answer, isPrecise: Boolean, theUpperTypeBound: ReferenceType, refId: RefId): DomainSingleOriginReferenceValue
    Attributes
    protected[org.opalj.ai.domain]
    Definition Classes
    ReferenceValues
  83. def ReferenceValue(pc: PC, upperTypeBound: ReferenceType): AReferenceValue

    Factory method to create a DomainValue that represents either a reference value that has the given type and is initialized or the value null.

    Factory method to create a DomainValue that represents either a reference value that has the given type and is initialized or the value null. However, the information whether the value is null or not is not available. Furthermore, the type may also just be an upper bound.

    The domain may ignore the information about the value and the origin, but it has to remain possible for the domain to identify the component type of an array.

    Summary

    The properties of the domain value are:

    • Initialized: Yes (if non-null the constructor was called/the array was initialized)
    • Type: Upper Bound
    • Null: Unknown
    • Content: Unknown
    Definition Classes
    TypeLevelReferenceValuesReferenceValuesFactory
  84. final def ReturnAddressValue(address: Int): ReturnAddressValue

    Factory method to create an instance of a ReturnAddressValue.

    Factory method to create an instance of a ReturnAddressValue.

    Definition Classes
    DefaultDomainValueBindingValuesDomain
  85. def ShortValue(origin: ValueOrigin, value: Short): DomainTypedValue[CTIntType]

    Factory method to create a DomainValue that represents the given short value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents the given short value and that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  86. def ShortValue(origin: ValueOrigin): DomainTypedValue[CTIntType]

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    Factory method to create a DomainValue that was created (explicitly or implicitly) by the instruction with the specified program counter.

    The domain may ignore the information about the origin (origin).

    Definition Classes
    DefaultIntegerRangeValuesIntegerValuesFactory
  87. def StringValue(origin: ValueOrigin, value: String, refId: RefId): DomainStringValue
  88. final def StringValue(origin: ValueOrigin, value: String): DomainObjectValue

    Factory method to create a DomainValue that represents the given string value and that was created by the instruction with the specified program counter.

    Factory method to create a DomainValue that represents the given string value and that was created by the instruction with the specified program counter.

    This function is called by OPAL-AI when a string constant (LDC(_W) instruction) is put on the stack.

    The domain may ignore the information about the value and the origin (vo).

    Summary

    The properties of the domain value are:

    • Initialized: Yes and the String's value is the given value. The string may be empty (""), but it is never null.
    • Type: java.lang.String
    • Null: No
    value

    A non-null string. (The string may be empty, though.)

    Definition Classes
    StringValuesReferenceValuesTypeLevelReferenceValuesReferenceValuesFactory
  89. final def StructuralUpdateIllegalValue: StructuralUpdate[Nothing]

    The result of merging two values should never be reported as a StructuralUpdate if the computed value is an IllegalValue.

    The result of merging two values should never be reported as a StructuralUpdate if the computed value is an IllegalValue. The JVM semantics guarantee that the value will not be used and, hence, continuing the interpretation is meaningless.

    Definition Classes
    ValuesDomain
    Note

    This method is solely defined for documentation purposes and to catch implementation errors early on.

  90. final val TheIllegalValue: DomainIllegalValue

    The singleton instance of the IllegalValue.

    The singleton instance of the IllegalValue.

    Definition Classes
    DefaultDomainValueBindingValuesDomain
  91. final val TheReturnAddressValues: ReturnAddressValues

    The singleton instance of ReturnAddressValues

    The singleton instance of ReturnAddressValues

    Definition Classes
    DefaultDomainValueBindingValuesDomain
  92. final def Throwable(origin: ValueOrigin): ExceptionValue

    Creates a non-null object that represent a Throwable object and that has the given origin.

    Creates a non-null object that represent a Throwable object and that has the given origin. If the Throwable was created by the VM while evaluating an instruction with the program counter pc you should use the method ValueOriginForVMLevelValue to translate that pc to the appropriate ValueOrigin.

    Definition Classes
    DefaultExceptionsFactoryExceptionsFactory
  93. def TypedValue(origin: ValueOrigin, valueType: Type): DomainValue

    Factory method to create domain values with a specific type.

    Factory method to create domain values with a specific type. I.e., values for which we have some type information but no precise value or source information. However, the value is guaranteed to be null or properly initialized.

    For example, if valueType is a reference type it may be possible that the actual value is null, but such knowledge is not available.

    The framework uses this method when a method is to be analyzed, but no parameter values are given and initial values need to be generated. This method is not used elsewhere by the framework.

    Definition Classes
    TypedValuesFactory
  94. final def VMArithmeticException(pc: PC): ExceptionValue
    Definition Classes
    ExceptionsFactory
  95. final def VMArrayIndexOutOfBoundsException(pc: PC): ExceptionValue
    Definition Classes
    ExceptionsFactory
  96. final def VMArrayStoreException(pc: PC): ExceptionValue
    Definition Classes
    ExceptionsFactory
  97. final def VMClassCastException(pc: PC): ExceptionValue
    Definition Classes
    ExceptionsFactory
  98. final def VMClassNotFoundException(pc: PC): ExceptionValue
    Definition Classes
    ExceptionsFactory
  99. final def VMIllegalMonitorStateException(pc: PC): ExceptionValue
    Definition Classes
    ExceptionsFactory
  100. final def VMNegativeArraySizeException(pc: PC): ExceptionValue
    Definition Classes
    ExceptionsFactory
  101. final def VMNullPointerException(pc: PC): ExceptionValue
    Definition Classes
    ExceptionsFactory
  102. final def VMThrowable(pc: PC): ExceptionValue
    Definition Classes
    ExceptionsFactory
  103. def aaload(pc: PC, index: DomainValue, arrayref: DomainValue): ArrayLoadResult
  104. def aastore(pc: PC, value: DomainValue, index: DomainValue, arrayref: DomainValue): ArrayStoreResult
  105. def abortProcessingExceptionsOfCalledMethodsOnUnknownException: Boolean

    If true the processing of the exception handlers related to an invoke statement will be aborted if the relation between the type of the thrown exception and the caught type is unknown.

    If true the processing of the exception handlers related to an invoke statement will be aborted if the relation between the type of the thrown exception and the caught type is unknown.

    returns

    false

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  106. def abortProcessingThrownExceptionsOnUnknownException: Boolean

    If true the processing of the exception handlers related to an athrow statement will be aborted if the relation between the type of the thrown exception and the caught type is unknown.

    If true the processing of the exception handlers related to an athrow statement will be aborted if the relation between the type of the thrown exception and the caught type is unknown.

    returns

    false

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  107. def abruptMethodExecution(pc: br.PC, exceptionValue: ExceptionValue): Unit

    Called by the abstract interpreter when an exception is thrown that is not (guaranteed to be) handled within the same method.

    Called by the abstract interpreter when an exception is thrown that is not (guaranteed to be) handled within the same method.

    Definition Classes
    RecordCFGReturnInstructionsDomain
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  108. def abstractInterpretationEnded(aiResult: AIResult { val domain: DefaultDomainWithCFG.this.type }): Unit

    Called by the abstract interpreter when the abstract interpretation of a method has ended.

    Called by the abstract interpreter when the abstract interpretation of a method has ended. The abstract interpretation of a method ends if either the fixpoint is reached or the interpretation was aborted.

    By default this method does nothing.

    Domains that override this method are expected to also call super.abstractInterpretationEnded(aiResult).

    Definition Classes
    RecordCFGCoreDomainFunctionality
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  109. def afterBaseJoin(pc: PC): Unit

    This method is called after all values which differ have been joined, but before joinPostProcessing will be called.

    This method is called after all values which differ have been joined, but before joinPostProcessing will be called.

    Attributes
    protected[this]
    Definition Classes
    JoinStabilizationCoreDomainFunctionality
  110. def afterEvaluation(pc: PC, instruction: Instruction, oldOperands: Operands, oldLocals: Locals, targetPC: PC, isExceptionalControlFlow: Boolean, newOperands: Operands, newLocals: Locals): (Operands, Locals)

    This methods is called after the evaluation of the instruction with the given pc with respect to targetPC, but before the values are propagated (joined) and before it is checked whether the interpretation needs to be continued.

    This methods is called after the evaluation of the instruction with the given pc with respect to targetPC, but before the values are propagated (joined) and before it is checked whether the interpretation needs to be continued. I.e., if the operands (newOperands) or locals (newLocals) are further refined then the refined operands and locals are joined (if necessary).

    Definition Classes
    NullPropertyRefinementCoreDomainFunctionality
    Note

    During the evaluation of the instruction it is possible that this method is called multiple times with different targetPCs. The latter is not only true for control flow instructions, but also for those instructions that may raise an exception. This method can and is intended to be overridden to further refine the operand stack/the locals. However, the overriding method should always forward the (possibly refined) operands and locals to the super method (stackable traits).

  111. final def allExecuted: BitSet

    Computes the set of all executed instructions.

    Computes the set of all executed instructions.

    Definition Classes
    RecordCFG
  112. def allReachable(pc: br.PC): IntArraySet

    Computes the transitive hull of all instructions reachable from the given instruction.

    Computes the transitive hull of all instructions reachable from the given instruction.

    Definition Classes
    RecordCFG
  113. def allReachable(pcs: IntArraySet): IntArraySet

    Computes the transitive hull of all instructions reachable from the given set of instructions.

    Computes the transitive hull of all instructions reachable from the given set of instructions.

    Definition Classes
    RecordCFG
  114. def allSuccessorsOf(pc: br.PC): PCs

    Returns the set of all instructions executed after the instruction with the given pc.

    Returns the set of all instructions executed after the instruction with the given pc. If this set is empty, either the instruction belongs to dead code, the instruction is a return instruction or the instruction throws an exception that is never handled internally.

    Definition Classes
    RecordCFG
    Note

    The set is recalculated on demand.

  115. def areturn(pc: br.PC, value: DomainValue): Computation[Nothing, ExceptionValue]

    The given value, which is a value with computational type reference, is returned by the return instruction with the given pc.

    The given value, which is a value with computational type reference, is returned by the return instruction with the given pc.

    Definition Classes
    RecordCFGReturnInstructionsDomain
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  116. def arraylength(pc: PC, arrayref: DomainValue): Computation[DomainValue, ExceptionValue]

    Returns the array's length or throws a NullPointerException if the given reference is null.

    Returns the array's length or throws a NullPointerException if the given reference is null.

    Definition Classes
    MaxArrayLengthRefinementTypeLevelReferenceValuesReferenceValuesDomain
    Note

    It is in general not necessary to override this method. If you need some special handling refine the trait ArrayValue.

  117. def arrayload(pc: PC, index: DomainValue, arrayref: DomainValue): ArrayLoadResult

    Loads the value stored in the array at the given index or throws an exception (NullPointerException or IndexOutOfBoundsException).

    Loads the value stored in the array at the given index or throws an exception (NullPointerException or IndexOutOfBoundsException).

    Definition Classes
    TypeLevelReferenceValuesGeneralizedArrayHandling
    Note

    It is in general not necessary to override this method. If you need some special handling refine the load method defined by the trait ArrayValue.

  118. def arraystore(pc: PC, value: DomainValue, index: DomainValue, arrayref: DomainValue): ArrayStoreResult

    Stores the given value in the array at the given index or throws an exception (NullPointerException, ArrayStoreException or IndexOutOfBoundsException).

    Stores the given value in the array at the given index or throws an exception (NullPointerException, ArrayStoreException or IndexOutOfBoundsException).

    Definition Classes
    TypeLevelReferenceValuesGeneralizedArrayHandling
    Note

    It is in general not necessary to override this method. If you need some special handling refine the store method defined by the trait ArrayValue.

  119. def asArrayAbstraction(value: DomainValue): ArrayAbstraction
    Definition Classes
    TypeLevelReferenceValues
  120. final def asInstanceOf[T0]: T0
    Definition Classes
    Any
  121. def asObjectValue(value: DomainValue): DomainObjectValue
    Definition Classes
    TypeLevelReferenceValues
  122. def asReferenceValue(value: DomainValue): AReferenceValue

    Returns the given value as a DomainReferenceValue.

    Returns the given value as a DomainReferenceValue. Basically just performs a type cast and is intended to be used to communicate that the value has to be a reference value (if the underlying byte code is valid.)

    Definition Classes
    TypeLevelReferenceValues
  123. def baload(pc: PC, index: DomainValue, arrayref: DomainValue): ArrayLoadResult
  124. def bastore(pc: PC, value: DomainValue, index: DomainValue, arrayref: DomainValue): ArrayStoreResult
  125. def bbCFG: CFG
    Definition Classes
    RecordCFG
  126. def beforeBaseJoin(pc: PC): Unit

    This method is called immediately before a join operation with regard to the specified pc is performed.

    This method is called immediately before a join operation with regard to the specified pc is performed.

    Attributes
    protected[this]
    Definition Classes
    CoreDomainFunctionality
    Note

    This method is intended to be overwritten by clients to perform custom operations.

  127. def caload(pc: PC, index: DomainValue, arrayref: DomainValue): ArrayLoadResult
  128. def castore(pc: PC, value: DomainValue, index: DomainValue, arrayref: DomainValue): ArrayStoreResult
  129. def cfgAsGraph(): DefaultMutableNode[Chain[br.PC]]

    Creates a graph representation of the CFG.

    Creates a graph representation of the CFG.

    Definition Classes
    RecordCFG
    Note

    This implementation is for debugging purposes only. It is NOT performance optimized!

    ,

    The returned graph is recomputed whenever this method is called.

  130. final def classFile: ClassFile
    Definition Classes
    TheMethod
    Annotations
    @inline()
  131. implicit final def classHierarchy: ClassHierarchy

    Returns the project's class hierarchy.

    Returns the project's class hierarchy.

    Definition Classes
    TheProjectTheClassHierarchy
    Annotations
    @inline()
  132. def clone(): AnyRef
    Attributes
    protected[java.lang]
    Definition Classes
    AnyRef
    Annotations
    @native() @throws( ... )
  133. final val code: Code

    Returns the code block that is currently analyzed.

    Returns the code block that is currently analyzed.

    Definition Classes
    TheMethodTheCode
  134. def d2f(pc: PC, value: DomainValue): DomainValue
  135. def d2i(pc: PC, value: DomainValue): DomainValue
  136. def d2l(pc: PC, value: DomainValue): DomainValue
  137. def dadd(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  138. def daload(pc: PC, index: DomainValue, arrayref: DomainValue): ArrayLoadResult
  139. def dastore(pc: PC, value: DomainValue, index: DomainValue, arrayref: DomainValue): ArrayStoreResult
  140. def dcmpg(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  141. def dcmpl(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  142. def ddiv(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  143. def dmul(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  144. def dneg(pc: PC, value: DomainValue): DomainValue
  145. def doGetfield(pc: PC, objectref: DomainValue, fieldValue: DomainValue): Computation[DomainValue, ExceptionValue]
  146. def doGetstatic(pc: PC, fieldValue: DomainValue): Computation[DomainValue, Nothing]
  147. def dominatorTree: DominatorTree

    Returns the dominator tree; see org.opalj.graphs.DominatorTree$.apply[D<:org\.opalj\.graphs\.AbstractDominatorTree]* for details regarding the properties of the dominator tree.

    Returns the dominator tree; see org.opalj.graphs.DominatorTree$.apply[D<:org\.opalj\.graphs\.AbstractDominatorTree]* for details regarding the properties of the dominator tree.

    Definition Classes
    RecordCFG
    Note

    To get the list of all evaluated instructions and their dominators.

    val result = AI(...,...,...)
    val evaluated = result.evaluatedInstructions
  148. def drem(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  149. def dreturn(pc: br.PC, value: DomainValue): Computation[Nothing, ExceptionValue]

    The given value, which is a value with computational type double, is returned by the return instruction with the given pc.

    The given value, which is a value with computational type double, is returned by the return instruction with the given pc.

    Definition Classes
    RecordCFGReturnInstructionsDomain
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  150. def dsub(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  151. final def eq(arg0: AnyRef): Boolean
    Definition Classes
    AnyRef
  152. def equals(arg0: Any): Boolean
    Definition Classes
    AnyRef → Any
  153. def evaluationCompleted(pc: PC, worklist: Chain[PC], evaluated: Chain[PC], operandsArray: OperandsArray, localsArray: LocalsArray, tracer: Option[AITracer]): Unit

    Called by the framework after evaluating the instruction with the given pc.

    Called by the framework after evaluating the instruction with the given pc. I.e., the state of all potential successor instructions was updated and the flow method was called – potentially multiple times – accordingly.

    By default this method does nothing.

    Definition Classes
    CoreDomainFunctionality
  154. def exceptionHandlerSuccessorsOf(pc: br.PC): PCs

    Returns the program counter(s) of the instruction(s) that is(are) executed next if the evaluation of this instruction may raise an exception.

    Returns the program counter(s) of the instruction(s) that is(are) executed next if the evaluation of this instruction may raise an exception.

    The returned set is always empty for instructions that cannot raise exceptions, such as the StackManagementInstructions.

    Definition Classes
    RecordCFG
    Note

    The successor instructions are necessarily the handlers of catch blocks.

    ,

    The org.opalj.br.instructions.ATHROW has successors if and only if the thrown exception is directly handled inside this code block.

  155. def exitPCs: BitSet

    Returns all PCs that may lead to the (ab)normal termination of the method.

    Returns all PCs that may lead to the (ab)normal termination of the method. I.e., those instructions (in particular method call instructions, but potentially also array access instructions and (I]L)DIV|MOD instructions etc.) that may throw some unhandled exceptions will also be returned; even if the instruction may also have regular and also exception handlers!

    Definition Classes
    RecordCFG
  156. def f2d(pc: PC, value: DomainValue): DomainValue
  157. def f2i(pc: PC, value: DomainValue): DomainValue
  158. def f2l(pc: PC, value: DomainValue): DomainValue
  159. def fadd(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  160. def faload(pc: PC, index: DomainValue, arrayref: DomainValue): ArrayLoadResult
  161. def fastore(pc: PC, value: DomainValue, index: DomainValue, arrayref: DomainValue): ArrayStoreResult
  162. def fcmpg(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  163. def fcmpl(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  164. def fdiv(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  165. def finalize(): Unit
    Attributes
    protected[java.lang]
    Definition Classes
    AnyRef
    Annotations
    @throws( classOf[java.lang.Throwable] )
  166. def flow(currentPC: br.PC, currentOperands: Operands, currentLocals: Locals, successorPC: br.PC, isSuccessorScheduled: Answer, isExceptionalControlFlow: Boolean, abruptSubroutineTerminationCount: Int, wasJoinPerformed: Boolean, worklist: Chain[br.PC], operandsArray: OperandsArray, localsArray: LocalsArray, tracer: Option[AITracer]): Chain[br.PC]

    Called by the framework after performing a computation to inform the domain about the result.

    Called by the framework after performing a computation to inform the domain about the result. That is, after evaluating the effect of the instruction with currentPC on the current stack and register and (if necessary) joining the updated stack and registers with the stack and registers associated with the instruction successorPC. (Hence, this method is ONLY called for return instructions if the return instruction throws an IllegalMonitorStateException.) This function basically informs the domain about the instruction that may be evaluated next. The flow function is called for every possible successor of the instruction with currentPC. This includes all branch targets as well as those instructions that handle exceptions.

    In some cases it will even be the case that flow is called multiple times with the same pair of program counters: (currentPC, successorPC). This may happen, e.g., in case of a switch instruction where multiple values have the same body/target instruction and we do not have precise information about the switch value. E.g., as in the following snippet:

    switch (i) {  // pc: X => Y (for "1"), Y (for "2"), Y (for "3")
    case 1:
    case 2:
    case 3: System.out.println("Great.");            // pc: Y
    default: System.out.println("Not So Great.");    // pc: Z
    }

    The flow function is also called after instructions that are domain independent such as dup and load instructions which just manipulate the registers and stack in a generic way. This enables the domain to precisely follow the evaluation progress and in particular to perform control-flow dependent analyses.

    currentPC

    The program counter of the instruction that is currently evaluated by the abstract interpreter.

    currentOperands

    The current operands. I.e., the operand stack before the instruction is evaluated.

    currentLocals

    The current locals. I.e., the locals before the instruction is evaluated.

    successorPC

    The program counter of an instruction that is a potential successor of the instruction with currentPC. In general the AI framework adds the pc of the successor instruction to the beginning of the worklist unless it is a join instruction. In this case the pc is added to the end – in the context of the current (sub)routine. Hence, the AI framework first evaluates all paths leading to a join instruction before the join instruction will be evaluated.

    isSuccessorScheduled

    Yes if the successor instruction is or was scheduled. I.e., Yes is returned if the worklist contains successorPC, No if the worklist does not contain successorPC. Unknown is returned if the AI framework did not process the worklist and doesn't know anything about the scheduled successors. Note that this value is independent of the subroutine in which the value may be scheduled. If an implementation schedules successorPC the the super call has to set isSuccessorScheduled to Yes.

    isExceptionalControlFlow

    true if and only if the evaluation of the instruction with the program counter currentPC threw an exception; false otherwise. Hence, if this parameter is true the instruction with successorPC is the first instruction of the handler.

    abruptSubroutineTerminationCount

    > 0 if and only if we have an exceptional control flow that terminates one or more subroutines. In this case the successor instruction is scheduled (if at all) after all subroutines that will be terminated by the exception.

    wasJoinPerformed

    true if a join was performed. I.e., the successor instruction is an instruction (Code.cfJoins) that was already previously evaluated and where multiple paths potentially join.

    worklist

    The current list of instructions that will be evaluated next.

    If subroutines are not used (i.e., Java >= 5)

    If you want to force the evaluation of the instruction with the program counter successorPC it is sufficient to test whether the list already contains successorPC and – if not – to prepend it. If the worklist already contains successorPC then the domain is allowed to move the PC to the beginning of the worklist.

    If the code contains subroutines (JSR/RET)

    If the PC does not belong to the same (current) (sub)routine, it is not allowed to be moved to the beginning of the worklist. (Subroutines can only be found in code generated by old Java compilers; before Java 6. Subroutines are identified by jsr/ret instructions. A subroutine can be identified by going back in the worklist and by looking for specific "program counters" (e.g., SUBROUTINE_START, SUBROUTINE_END). These program counters mark the beginning of a subroutine. In other words, an instruction can be freely moved around unless a special program counter value is found. All special program counters use negative values. Additionally, neither the negative values nor the positive values between two negative values should be changed. Furthermore, no value (PC) should be put between negative values that capture subroutine information. If the domain updates the worklist, it is the responsibility of the domain to call the tracer and to inform it about the changes. Note that the worklist is not allowed to contain duplicates related to the evaluation of the current (sub-)routine.

    operandsArray

    The array that associates every instruction with its operand stack that is in effect. Note, that only those elements of the array contain values that are related to instructions that were evaluated in the past; the other elements are null. Furthermore, it identifies the operandsArray of the subroutine that will execute the instruction with successorPC. The operandsArray may be null for the current instruction (not the successor instruction) if the execution of the current instruction leads to the termination of the current subroutine. In this case the information about the operands and locals associated with all instructions belonging to the subroutine is reset.

    localsArray

    The array that associates every instruction with its current register values. Note, that only those elements of the array contain values that are related to instructions that were evaluated in the past. The other elements are null. Furthermore, it identifies the localsArray of the subroutine that will execute the instruction with successorPC. The localsArray may be null for the current instruction (not the successor instruction) if the execution of the current instruction leads to the termination of the current subroutine. In this case the information about the operands and locals associated with all instructions belonging to the subroutine is reset.

    returns

    The updated worklist. In most cases this is simply the given worklist. The default case is also to return the given worklist.

    Definition Classes
    RecordCFGCoreDomainFunctionality
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  167. def fmul(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  168. def fneg(pc: PC, value: DomainValue): DomainValue
  169. def foreachOrigin(value: DomainValue, f: (ValueOrigin) ⇒ Unit): Unit
    Definition Classes
    Origin
  170. final def foreachPredecessorOf(pc: br.PC)(f: (br.PC) ⇒ Unit): Unit
    Definition Classes
    RecordCFG
  171. def foreachSuccessorOf(pc: br.PC)(f: (br.PC) ⇒ Unit): Unit
    Definition Classes
    RecordCFG
  172. def frem(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  173. def freturn(pc: br.PC, value: DomainValue): Computation[Nothing, ExceptionValue]

    The given value, which is a value with computational type float, is returned by the return instruction with the given pc.

    The given value, which is a value with computational type float, is returned by the return instruction with the given pc.

    Definition Classes
    RecordCFGReturnInstructionsDomain
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  174. def fsub(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  175. final def getClass(): Class[_]
    Definition Classes
    AnyRef → Any
    Annotations
    @native()
  176. def getPotentialExceptions(pc: PC): List[ExceptionValue]
    Attributes
    protected[this]
    Definition Classes
    MethodCallsHandling
  177. def getfield(pc: PC, objectref: DomainValue, declaringClass: ObjectType, fieldName: String, fieldType: FieldType): Computation[DomainValue, ExceptionValue]

    Returns the field's value and/or a new NullPointerException if the given objectref represents the value null.

    Returns the field's value and/or a new NullPointerException if the given objectref represents the value null.

    returns

    The field's value or a new NullPointerException.

    Definition Classes
    TypeLevelFieldAccessInstructionsFieldAccessesDomain
  178. def getstatic(pc: PC, declaringClass: ObjectType, name: String, fieldType: FieldType): Computation[DomainValue, Nothing]

    Returns the field's value.

    Returns the field's value.

    Definition Classes
    ClassValuesFieldAccessesDomain
  179. def handleInstanceBasedInvoke(pc: PC, methodDescriptor: MethodDescriptor, targetMethods: Set[Method], receiverIsNull: Answer, operands: Operands): MethodCallResult

    methodDescriptor

    The method descriptor as specified by the invoke instruction. In case of the invocation of a signature polymorphic method using org.opalj.br.instructions.INVOKEVIRTUAL the descriptor of the invoked method may differ from the descriptor used by the method. Nevertheless, the MethodCallResult has to satisfy the requirements of the caller. In particular regarding the return type.

    Attributes
    protected[this]
    Definition Classes
    MethodCallsHandling
  180. def handleInstanceBasedInvoke(pc: PC, methodDescriptor: MethodDescriptor, operands: Operands): MethodCallResult
    Attributes
    protected[this]
    Definition Classes
    MethodCallsHandling
  181. def handleInstanceBasedInvoke(pc: PC, methodDescriptor: MethodDescriptor, receiverIsNull: Answer): MethodCallResult
    Attributes
    protected[this]
    Definition Classes
    MethodCallsHandling
  182. def handleInvoke(pc: PC, methodDescriptor: MethodDescriptor): MethodCallResult
    Attributes
    protected[this]
    Definition Classes
    MethodCallsHandling
  183. def handleReturn(pc: PC): Computation[Nothing, ExceptionValue]

    Creates a computation object that encapsulates the result of a computation that may throw an IllegalMonitorStateException if a monitor is (potentially) used.

    Creates a computation object that encapsulates the result of a computation that may throw an IllegalMonitorStateException if a monitor is (potentially) used. The primary example are the (XXX)return instructions.

    pc

    The program counter of a return instruction.

    Attributes
    protected[this]
    Definition Classes
    ReturnInstructionsDomain
  184. final def handlesException(exceptionHandler: ExceptionHandler): Boolean

    Returns true if the exception handler may handle at least one exception thrown by an instruction in its try block.

    Returns true if the exception handler may handle at least one exception thrown by an instruction in its try block.

    Definition Classes
    RecordCFG
  185. final def hasMultiplePredecessors(pc: br.PC): Boolean

    Returns true if the instruction with the given pc has multiple direct predecessors (more than one).

    Returns true if the instruction with the given pc has multiple direct predecessors (more than one).

    Definition Classes
    RecordCFG
  186. final def hasMultipleSuccessors(pc: br.PC): Boolean
    Definition Classes
    RecordCFG
  187. def hasNoSuccessor(pc: br.PC): Boolean
    Definition Classes
    RecordCFG
  188. def hasSuccessor(pc: br.PC, regularSuccessorsOnly: Boolean, p: (br.PC) ⇒ Boolean): Boolean

    Tests if the instruction with the given pc has a successor instruction with a pc' that satisfies the given predicate p.

    Tests if the instruction with the given pc has a successor instruction with a pc' that satisfies the given predicate p.

    Definition Classes
    RecordCFG
  189. def hashCode(): Int
    Definition Classes
    AnyRef → Any
    Annotations
    @native()
  190. def i2b(pc: PC, value: DomainValue): DomainValue
  191. def i2c(pc: PC, value: DomainValue): DomainValue
  192. def i2d(pc: PC, value: DomainValue): DomainValue
  193. def i2f(pc: PC, value: DomainValue): DomainValue
  194. def i2l(pc: PC, value: DomainValue): DomainValue
  195. def i2s(pc: PC, value: DomainValue): DomainValue
  196. def iadd(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  197. def iaload(pc: PC, index: DomainValue, arrayref: DomainValue): ArrayLoadResult
  198. def iand(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  199. def iastore(pc: PC, value: DomainValue, index: DomainValue, arrayref: DomainValue): ArrayStoreResult
  200. def idiv(pc: PC, numerator: DomainValue, denominator: DomainValue): IntegerValueOrArithmeticException
  201. def iinc(pc: PC, value: DomainValue, increment: Int): DomainValue
  202. def imul(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  203. def ineg(pc: PC, value: DomainValue): DomainValue
  204. def infiniteLoopHeaders: IntArraySet

    Returns the first instructions of the infinite loops of the current method.

    Returns the first instructions of the infinite loops of the current method. An infinite loop is a set of instructions that does not have a connection to any instruction outside of the loop (closed strongly connected component). I.e., whatever path is taken, all remaining paths will eventualy include the loop header instruction. The very vast majority of methods does not have infinite loops.

    Definition Classes
    RecordCFG
  205. def initProperties(code: Code, cfJoins: BitSet, initialLocals: Locals): Unit

    Override this method to perform custom initialization steps.

    Override this method to perform custom initialization steps.

    Always use abstract override and call the super method; it is recommended to complete the initialization of this domain before calling the super method.

    Definition Classes
    RecordCFGCustomInitialization
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  206. def intAreEqual(pc: PC, value1: DomainValue, value2: DomainValue): Answer

    Tests if the two given integer values are equal.

    Tests if the two given integer values are equal.

    value1

    A value with computational type integer.

    value2

    A value with computational type integer.

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
  207. def intAreNotEqual(pc: PC, value1: DomainValue, value2: DomainValue): Answer

    Tests if the two given integer values are not equal.

    Tests if the two given integer values are not equal.

    value1

    A value with computational type integer.

    value2

    A value with computational type integer.

    Definition Classes
    IntegerValuesDomain
  208. def intEstablishAreEqual(pc: PC, value1: DomainValue, value2: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
    Note

    This function is ONLY defined if a corresponding test (value1 == value2) returned org.opalj.Unknown. I.e., this method is only allowed to be called if there is something to establish! I.e., the domain values are real ranges (not single values, e.g., [1,1]) that overlap.

  209. def intEstablishAreNotEqual(pc: PC, value1: DomainValue, value2: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
    Note

    This function is ONLY defined if a corresponding test (value1 != value2) returned org.opalj.Unknown. I.e., this method is only allowed to be called if there is something to establish! I.e., the domain values are real ranges (not single values, e.g., [1,1]) that overlap.

  210. def intEstablishIsLessThan(pc: PC, left: DomainValue, right: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
    Note

    This function is ONLY defined if a corresponding test (value1 < value2) returned org.opalj.Unknown. I.e., this method is only allowed to be called if there is something to establish! I.e., the domain values are real ranges (not single values, e.g., [1,1]) that overlap.

  211. def intEstablishIsLessThanOrEqualTo(pc: PC, left: DomainValue, right: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
    Note

    This function is ONLY defined if a corresponding test (value1 <= value2) returned org.opalj.Unknown. I.e., this method is only allowed to be called if there is something to establish! I.e., the domain values are real ranges (not single values, e.g., [1,1]) that overlap.

  212. def intEstablishValue(pc: PC, theValue: Int, value: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Sets the given domain value to theValue.

    Sets the given domain value to theValue.

    This function is called by OPAL before it starts to explore the branch where this condition has to hold. (This function is, e.g., called whenever we explore the branches of a switch-case statement.) I.e., the constraint is established before a potential join operation.

    value

    An integer domain value that does also, but not exclusively represents theValue.

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
  213. def intIs0(pc: PC, value: DomainValue): Answer

    Tests if the given integer value is 0 or maybe 0.

    Tests if the given integer value is 0 or maybe 0.

    value

    A value with computational type integer.

    Definition Classes
    IntegerValuesDomain
  214. def intIsGreaterThan(pc: PC, largerValue: DomainValue, smallerValue: DomainValue): Answer

    Tests if the first integer value is larger than the second value.

    Tests if the first integer value is larger than the second value.

    largerValue

    A value with computational type integer.

    smallerValue

    A value with computational type integer.

    Definition Classes
    IntegerValuesDomain
  215. def intIsGreaterThan0(pc: PC, value: DomainValue): Answer

    Tests if the given integer value is > 0 or maybe > 0.

    Tests if the given integer value is > 0 or maybe > 0.

    value

    A value with computational type integer.

    Definition Classes
    IntegerValuesDomain
  216. def intIsGreaterThanOrEqualTo(pc: PC, largerOrEqualValue: DomainValue, smallerOrEqualValue: DomainValue): Answer

    Tests if the first integer value is larger than or equal to the second value.

    Tests if the first integer value is larger than or equal to the second value.

    largerOrEqualValue

    A value with computational type integer.

    smallerOrEqualValue

    A value with computational type integer.

    Definition Classes
    IntegerValuesDomain
  217. def intIsGreaterThanOrEqualTo0(pc: PC, value: DomainValue): Answer

    Tests if the given value is greater than or equal to 0 or maybe greater than or equal to 0.

    Tests if the given value is greater than or equal to 0 or maybe greater than or equal to 0.

    value

    A value with computational type integer.

    Definition Classes
    IntegerValuesDomain
  218. def intIsLessThan(pc: PC, left: DomainValue, right: DomainValue): Answer

    Tests if the first integer value is smaller than the second value.

    Tests if the first integer value is smaller than the second value.

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
  219. def intIsLessThan0(pc: PC, value: DomainValue): Answer

    Tests if the given integer value is < 0 or maybe < 0.

    Tests if the given integer value is < 0 or maybe < 0.

    value

    A value with computational type integer.

    Definition Classes
    IntegerValuesDomain
  220. def intIsLessThanOrEqualTo(pc: PC, left: DomainValue, right: DomainValue): Answer

    Tests if the first integer value is less than or equal to the second value.

    Tests if the first integer value is less than or equal to the second value.

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
  221. def intIsLessThanOrEqualTo0(pc: PC, value: DomainValue): Answer

    Tests if the given integer value is less than or equal to 0 or maybe less than or equal to 0.

    Tests if the given integer value is less than or equal to 0 or maybe less than or equal to 0.

    value

    A value with computational type integer.

    Definition Classes
    IntegerValuesDomain
  222. def intIsNot0(pc: PC, value: DomainValue): Answer

    Tests if the given integer value is not 0 or maybe not 0.

    Tests if the given integer value is not 0 or maybe not 0.

    value

    A value with computational type integer.

    Definition Classes
    IntegerValuesDomain
  223. def intIsSomeValueInRange(pc: PC, value: DomainValue, lowerBound: Int, upperBound: Int): Answer

    Returns Yes iff at least one possible extension of the given value is in the specified range; that is, if the intersection of the range of values captured by the given value and the specified range is non-empty.

    Returns Yes iff at least one possible extension of the given value is in the specified range; that is, if the intersection of the range of values captured by the given value and the specified range is non-empty.

    For example, if the given value captures all positive integer values and the specified range is [-1,1] then the answer has to be Yes. If we know nothing about the potential extension of the given value the answer will be Unknown. The answer is No iff both ranges are non-overlapping.

    value

    A value that has to be of computational type integer.

    lowerBound

    The range's lower bound (inclusive).

    upperBound

    The range's upper bound (inclusive).

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
  224. def intIsSomeValueNotInRange(pc: PC, value: DomainValue, lowerBound: Int, upperBound: Int): Answer

    Returns Yes iff at least one (possible) extension of a given value is not in the specified range; that is, if the set difference of the range of values captured by the given value and the specified range is non-empty.

    Returns Yes iff at least one (possible) extension of a given value is not in the specified range; that is, if the set difference of the range of values captured by the given value and the specified range is non-empty. For example, if the given value has the integer value 10 and the specified range is [0,Integer.MAX_VALUE] then the answer has to be No. But, if the given value represents the range [-5,Integer.MAX_VALUE] and the specified range is again [0,Integer.MAX_VALUE] then the answer has to be Yes.

    The answer is Yes iff the analysis determined that at runtime value will have a value that is not in the specified range. If the analysis(domain) is not able to determine whether the value is or is not in the given range then the answer has to be Unknown.

    value

    A value that has to be of computational type integer.

    lowerBound

    The range's lower bound (inclusive).

    upperBound

    The range's upper bound (inclusive).

    Definition Classes
    IntegerRangeValuesIntegerValuesDomain
  225. final def intValue[T](value: DomainValue)(f: (Int) ⇒ T)(orElse: ⇒ T): T

    If the given value encapsulates a precise integer value then the function ifThen is called with the respective value otherwise orElse is called.

    If the given value encapsulates a precise integer value then the function ifThen is called with the respective value otherwise orElse is called.

    Definition Classes
    IntegerRangeValuesConcreteIntegerValues
    Annotations
    @inline()
  226. final def intValueOption(value: DomainValue): Option[Int]

    Returns the current Int value represented by the domain value if it exists.

    Returns the current Int value represented by the domain value if it exists.

    Definition Classes
    IntegerRangeValuesConcreteIntegerValues
    Annotations
    @inline()
    Note

    This method returns None if the DomainValue does not represent an Integer value or the precise value is not known. I.e., this method never fails.

  227. final def intValues[T](value1: DomainValue, value2: DomainValue)(f: (Int, Int) ⇒ T)(orElse: ⇒ T): T
    Attributes
    protected
    Definition Classes
    IntegerRangeValues
    Annotations
    @inline()
  228. def invokedynamic(pc: PC, bootstrapMethod: BootstrapMethod, name: String, methodDescriptor: MethodDescriptor, operands: Operands): MethodCallResult
  229. def invokeinterface(pc: PC, declaringClass: ObjectType, name: String, methodDescriptor: MethodDescriptor, operands: Operands): MethodCallResult
  230. def invokespecial(pc: PC, declaringClass: ObjectType, isInterface: Boolean, name: String, methodDescriptor: MethodDescriptor, operands: Operands): MethodCallResult
    Definition Classes
    StringValuesMethodCallsDomain
  231. def invokestatic(pc: PC, declaringClass: ObjectType, isInterface: Boolean, name: String, methodDescriptor: MethodDescriptor, operands: Operands): MethodCallResult
    Definition Classes
    ClassValuesMethodCallsDomain
  232. def invokevirtual(pc: PC, declaringClass: ReferenceType, name: String, methodDescriptor: MethodDescriptor, operands: Operands): MethodCallResult
  233. def ior(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  234. def irem(pc: PC, left: DomainValue, right: DomainValue): IntegerValueOrArithmeticException
  235. def ireturn(pc: br.PC, value: DomainValue): Computation[Nothing, ExceptionValue]

    The given value, which is a value with computational type integer, is returned by the return instruction with the given pc.

    The given value, which is a value with computational type integer, is returned by the return instruction with the given pc.

    Definition Classes
    RecordCFGReturnInstructionsDomain
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  236. def isDirectRegularPredecessorOf(pc: br.PC, successorPC: br.PC): Boolean
    Definition Classes
    RecordCFG
  237. final def isInstanceOf[T0]: Boolean
    Definition Classes
    Any
  238. def isMonitorInstructionUsed: Boolean
    Definition Classes
    MonitorInstructionsTracker
  239. def isNull(values: Iterable[AReferenceValue]): Answer

    Determines the common null-ness property of the given reference values.

    Determines the common null-ness property of the given reference values.

    Attributes
    protected
    Definition Classes
    ReferenceValues
  240. def isPrecise(values: Iterable[AReferenceValue]): Boolean

    Determines if the runtime object type referred to by the given values is always the same.

    Determines if the runtime object type referred to by the given values is always the same. I.e., it determines if all values are precise and have the same upperTypeBound. Null values are ignored when determining the precision.

    Attributes
    protected
    Definition Classes
    ReferenceValues
  241. def isRegularPredecessorOf(pc: br.PC, successorPC: br.PC): Boolean

    Tests if the instruction with the given pc is a direct or indirect predecessor of the given successor instruction.

    Tests if the instruction with the given pc is a direct or indirect predecessor of the given successor instruction.

    If pc equals successorPC true is returned.

    Definition Classes
    RecordCFG
    Note

    This method will traverse the entire graph if successorPC is not a regular predecessor of pc. Hence, consider using the (Post)DominatorTree.

  242. def isSubtypeOf(subtype: ReferenceType, supertype: ReferenceType): Answer

    Definition Classes
    TheClassHierarchy
    See also

    Delegates to org.opalj.br.ClassHierarchy's isSubtypeOf method.

    Domain.isSubtypeOf

  243. final def isValueSubtypeOf(value: DomainValue, supertype: ReferenceType): Answer

    Tries to determine – under the assumption that the given value is not null – if the runtime type of the given reference value could be a subtype of the specified reference type supertype.

    Tries to determine – under the assumption that the given value is not null – if the runtime type of the given reference value could be a subtype of the specified reference type supertype. I.e., if the type of the value is not precisely known, then all subtypes of the value's type are also taken into consideration when analyzing the subtype relation and only if we can guarantee that none is a subtype of the given supertype the answer will be No.

    Definition Classes
    TypeLevelReferenceValuesReferenceValuesDomain
    Note

    The returned value is only meaningful if value does not represent the runtime value null.

  244. def ishl(pc: PC, value: DomainValue, shift: DomainValue): DomainValue
  245. def ishr(pc: PC, value: DomainValue, shift: DomainValue): DomainValue
  246. def isub(pc: PC, left: DomainValue, right: DomainValue): DomainValue
  247. def iushr(pc: PC, value: DomainValue, shift: DomainValue): DomainValue
  248. def ixor(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue
  249. def join(pc: PC, thisOperands: Operands, thisLocals: Locals, otherOperands: Operands, otherLocals: Locals): Update[(Operands, Locals)]

    Joins the given operand stacks and local variables.

    Joins the given operand stacks and local variables.

    In general there should be no need to refine this method. Overriding this method should only be done for analysis purposes.

    Performance

    This method heavily relies on reference comparisons to speed up the overall process of performing an abstract interpretation of a method. Hence, a computation should – whenever possible – return (one of) the original object(s) if that value has the same abstract state as the result. Furthermore, if all original values capture the same abstract state as the result of the computation, the "left" value/the value that was already used in the past should be returned.

    returns

    The joined operand stack and registers. Returns NoUpdate if this memory layout already subsumes the other memory layout.

    Definition Classes
    CoreDomainFunctionality
    Note

    The operand stacks are guaranteed to contain compatible values w.r.t. the computational type (unless the bytecode is not valid or OPAL contains an error). I.e., if the result of joining two operand stack values is an IllegalValue we assume that the domain implementation is incorrect. However, the joining of two register values can result in an illegal value - which identifies the value as being dead.

    ,

    The size of the operands stacks that are to be joined and the number of registers/locals that are to be joined can be expected to be identical under the assumption that the bytecode is valid and the framework contains no bugs.

  250. def joinPostProcessing(updateType: UpdateType, pc: PC, oldOperands: Operands, oldLocals: Locals, newOperands: Operands, newLocals: Locals): Update[(Operands, Locals)]

    Enables the customization of the behavior of the base join method.

    Enables the customization of the behavior of the base join method.

    This method in particular enables, in case of a MetaInformationUpdate, to raise the update type to force the continuation of the abstract interpretation process.

    Methods should always override this method and should call the super method.

    updateType

    The current update type. The level can be raised. It is an error to lower the update level.

    oldOperands

    The old operands, before the join. Should not be changed.

    oldLocals

    The old locals, before the join. Should not be changed.

    newOperands

    The new operands; may be updated.

    newLocals

    The new locals; may be updated.

    Attributes
    protected[this]
    Definition Classes
    IdentityBasedCorrelationChangeDetectionCoreDomainFunctionality
  251. def joinValues(pc: PC, left: DomainValue, right: DomainValue): Update[DomainValue]
    Attributes
    protected[this]
    Definition Classes
    JoinStabilizationCoreDomainFunctionality
  252. val joinedValues: Map[IdentityPair[AnyRef, AnyRef], Update[DomainValue]]
    Attributes
    protected[this]
    Definition Classes
    JoinStabilization
  253. def jumpBackTargetPCs: IntArraySet

    The set of instructions to which a jump back is performed.

    The set of instructions to which a jump back is performed.

    Definition Classes
    RecordCFG
  254. def jumpToSubroutine(pc: br.PC, branchTarget: br.PC, returnTarget: br.PC): Unit

    pc

    The pc of the jsr(w) instruction.

    Definition Classes
    RecordCFGSubroutinesDomain
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  255. final def justThrows(value: ExceptionValue): ThrowsException[ExceptionValues]
    Definition Classes
    ReferenceValuesFactory
  256. def justThrowsException(pc: br.PC): Boolean

    Returns true if the execution of the given instruction – identified by its pc – always just throws an exception that is (potentially) handled by the method.

    Returns true if the execution of the given instruction – identified by its pc – always just throws an exception that is (potentially) handled by the method.

    Definition Classes
    RecordCFG
  257. def l2d(pc: PC, value: DomainValue): DomainValue

    Conversion of the given long value to a double value.

    Conversion of the given long value to a double value.

    returns

    The result of calling DoubleValue(pc).

    Definition Classes
    ConcretePrimitiveValuesConversionsTypeLevelPrimitiveValuesConversionsPrimitiveValuesConversionsDomain
  258. def l2f(pc: PC, value: DomainValue): DomainValue

    Conversion of the given long value to a float value.

    Conversion of the given long value to a float value.

    returns

    The result of calling FloatValue(pc).

    Definition Classes
    ConcretePrimitiveValuesConversionsTypeLevelPrimitiveValuesConversionsPrimitiveValuesConversionsDomain
  259. def l2i(pc: PC, value: DomainValue): DomainValue

    Conversion of the given long value to an integer value.

    Conversion of the given long value to an integer value.

    returns

    The result of calling IntegerValue(pc).

    Definition Classes
    ConcretePrimitiveValuesConversionsTypeLevelPrimitiveValuesConversionsPrimitiveValuesConversionsDomain
  260. def ladd(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue

    Add of two long values.

    Add of two long values.

    pc

    The pc of the add(+) instruction.

    value1

    A long value (guaranteed by the JVM's semantics).

    value2

    A long value (guaranteed by the JVM's semantics).

    Definition Classes
    LongValuesLongValuesDomain
  261. def laload(pc: PC, index: DomainValue, arrayref: DomainValue): ArrayLoadResult
  262. def land(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue

    Boolean and of two long values.

    Boolean and of two long values.

    pc

    The pc of the "&" instruction.

    value1

    A long value (guaranteed by the JVM's semantics).

    value2

    A long value (guaranteed by the JVM's semantics).

    Definition Classes
    LongValuesLongValuesDomain
  263. def lastore(pc: PC, value: DomainValue, index: DomainValue, arrayref: DomainValue): ArrayStoreResult
  264. def lcmp(pc: PC, left: DomainValue, right: DomainValue): DomainValue

    Comparison (==) of two long values.

    Comparison (==) of two long values.

    pc

    The pc of the comparison instruction.

    returns

    A domain value that encapsulates an integer value with the value -1,0 or 1.

    Definition Classes
    LongValuesLongValuesDomain
  265. def ldiv(pc: PC, numerator: DomainValue, denominator: DomainValue): LongValueOrArithmeticException

    Division of two long values.

    Division of two long values.

    pc

    The pc of the div (/) instruction.

    returns

    The return value is the calculated value and/or (depending on the domain) an ArithmeticException if value2 is 0.

    Definition Classes
    LongValuesLongValuesDomain
  266. def lmul(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue

    Multiplication of two long values.

    Multiplication of two long values.

    pc

    The pc of the mul (/) instruction.

    value1

    A long value (guaranteed by the JVM's semantics).

    value2

    A long value (guaranteed by the JVM's semantics).

    Definition Classes
    LongValuesLongValuesDomain
  267. def lneg(pc: PC, value: DomainValue): DomainValue

    Negation of a long value.

    Negation of a long value.

    pc

    The pc of the neg instruction.

    value

    A long value (guaranteed by the JVM's semantics).

    Definition Classes
    LongValuesLongValuesDomain
  268. implicit final def logContext: LogContext
    Definition Classes
    TheProjectLogContextProvider
  269. final def longValue[T](value: DomainValue)(ifThen: (Long) ⇒ T)(orElse: ⇒ T): T

    If the given value represents one specific long value then the function ifThen is called with the respective value otherwise orElse is called.

    If the given value represents one specific long value then the function ifThen is called with the respective value otherwise orElse is called.

    Definition Classes
    LongValuesConcreteLongValues
    Annotations
    @inline()
  270. final def longValueOption(value: DomainValue): Option[Long]

    Returns the current Long value represented by the domain value if it exists.

    Returns the current Long value represented by the domain value if it exists.

    Definition Classes
    LongValuesConcreteLongValues
    Annotations
    @inline()
    Note

    This method returns None if the DomainValue does not represent a Long value or the precise value is not known. I.e., this method never fails.

  271. final def longValues[T](value1: DomainValue, value2: DomainValue)(ifThen: (Long, Long) ⇒ T)(orElse: ⇒ T): T
    Attributes
    protected
    Definition Classes
    LongValues
    Annotations
    @inline()
  272. def lor(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue

    Boolean or of two long values.

    Boolean or of two long values.

    pc

    The pc of the "boolean or" (|) instruction.

    value1

    A long value (guaranteed by the JVM's semantics).

    value2

    A long value (guaranteed by the JVM's semantics).

    Definition Classes
    LongValuesLongValuesDomain
  273. def lrem(pc: PC, left: DomainValue, right: DomainValue): LongValueOrArithmeticException

    Remainder of two long values.

    Remainder of two long values.

    pc

    The pc of the div (/) instruction.

    returns

    The return value is the calculated value and/or (depending on the domain) an ArithmeticException if value2 is 0.

    Definition Classes
    LongValuesLongValuesDomain
  274. def lreturn(pc: br.PC, value: DomainValue): Computation[Nothing, ExceptionValue]

    The given value, which is a value with computational type long, is returned by the return instruction with the given pc.

    The given value, which is a value with computational type long, is returned by the return instruction with the given pc.

    Definition Classes
    RecordCFGReturnInstructionsDomain
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  275. def lshl(pc: PC, longValue: DomainValue, shiftValue: DomainValue): DomainTypedValue[LongType]

    Shift left of a long value.

    Shift left of a long value.

    pc

    The pc of the "shift left" instruction.

    Definition Classes
    LongValuesShiftOperatorsLongValuesDomain
  276. def lshr(pc: PC, longValue: DomainValue, shiftValue: DomainValue): DomainTypedValue[LongType]

    Shift right of a long value.

    Shift right of a long value.

    pc

    The pc of the "shift right" instruction.

    Definition Classes
    LongValuesShiftOperatorsLongValuesDomain
  277. def lsub(pc: PC, left: DomainValue, right: DomainValue): DomainValue

    Subtraction of two long values.

    Subtraction of two long values.

    pc

    The pc of the sub(-) instruction.

    Definition Classes
    LongValuesLongValuesDomain
  278. def lushr(pc: PC, longValue: DomainValue, shiftValue: DomainValue): DomainTypedValue[LongType]

    Unsigned shift right of a long value.

    Unsigned shift right of a long value.

    pc

    The pc of the "unsigned shift right" instruction.

    Definition Classes
    LongValuesShiftOperatorsLongValuesDomain
  279. def lxor(pc: PC, value1: DomainValue, value2: DomainValue): DomainValue

    xor of two long values.

    xor of two long values.

    pc

    The pc of the "xor" instruction.

    value1

    A long value (guaranteed by the JVM's semantics).

    value2

    A long value (guaranteed by the JVM's semantics).

    Definition Classes
    LongValuesLongValuesDomain
  280. def maxCardinalityOfIntegerRanges: Long

    Determines the maximum number of values captured by an integer value range.

    Determines the maximum number of values captured by an integer value range.

    This setting is only used when true ranges are merged; in case of a join of two concrete values we will always create an IntegerRange value. If the cardinality is exceeded, we will also first create ranges based on the boundaries determined by the defaul data types (byte,short,char).

    This setting can be adapted at runtime.

    Definition Classes
    IntegerRangeValues
  281. def mergeDEComputations(pc: PC, c1: Computation[DomainValue, ExceptionValue], c2: Computation[DomainValue, ExceptionValue]): Computation[DomainValue, ExceptionValue]

    Merges two computations that both resulted in at most one DomainValue or at most one ExceptionValue.

    Merges two computations that both resulted in at most one DomainValue or at most one ExceptionValue.

    If values are merged the merged value will use the specified pc.

    Attributes
    protected[this]
    Definition Classes
    TypeLevelReferenceValues
  282. def mergeDEsComputations(pc: PC, c1: Computation[DomainValue, ExceptionValues], c2: Computation[DomainValue, ExceptionValues]): Computation[DomainValue, ExceptionValues]

    Merges two computations that both return some DomainValue and some ExceptionValues.

    Merges two computations that both return some DomainValue and some ExceptionValues. If values are merged the merged value will use the specified pc.

    Attributes
    protected[this]
    Definition Classes
    TypeLevelReferenceValues
  283. def mergeDomainValues(pc: PC, v1: DomainValue, v2: DomainValue): DomainValue

    Merges the given domain value v1 with the domain value v2 and returns the merged value which is v1 if v1 is an abstraction of v2, v2 if v2 is an abstraction of v1 or some other value if a new value is computed that abstracts over both values.

    Merges the given domain value v1 with the domain value v2 and returns the merged value which is v1 if v1 is an abstraction of v2, v2 if v2 is an abstraction of v1 or some other value if a new value is computed that abstracts over both values.

    This operation is commutative.

    Definition Classes
    ValuesDomain
  284. def mergeEsComputations(pc: PC, c1: Computation[Nothing, ExceptionValues], c2: Computation[Nothing, ExceptionValues]): Computation[Nothing, ExceptionValues]

    Merges two computations that both resulted in at most one ExceptionValue each.

    Merges two computations that both resulted in at most one ExceptionValue each.

    If values are merged the merged value will use the specified pc.

    Attributes
    protected[this]
    Definition Classes
    TypeLevelReferenceValues
  285. def mergeMultipleExceptionValues(pc: PC, v1s: ExceptionValues, v2s: ExceptionValues): ExceptionValues

    Merges those exceptions that have the same upper type bound.

    Merges those exceptions that have the same upper type bound. This ensures that per upper type bound only one ValuesDomain.DomainValue (which may be a MultipleReferenceValues) is used. For those values that are merged, the given pc is used.

    Definition Classes
    TypeLevelReferenceValues
  286. val method: Method
    Definition Classes
    DefaultDomainTheMethod
  287. def monitorenter(pc: PC, value: DomainValue): Computation[Nothing, ExceptionValue]

    Handles a monitorenter instruction.

    Handles a monitorenter instruction.

    Definition Classes
    MonitorInstructionsTrackerMonitorInstructionsDomain
    Note

    A monitor enter instruction may throw a NullPointerException.

  288. def monitorexit(pc: PC, value: DomainValue): Computation[Nothing, ExceptionValues]

    Handles a monitorexit instruction.

    Handles a monitorexit instruction.

    Definition Classes
    MonitorInstructionsTrackerMonitorInstructionsDomain
    Note

    A monitor exit instruction may throw a NullPointerException or an IllegalMonitorStateException.

  289. def multianewarray(pc: PC, counts: Operands, arrayType: ArrayType): Computation[DomainArrayValue, ExceptionValue]

    Creates a multi-dimensional array.

    Creates a multi-dimensional array.

    Definition Classes
    TypeLevelReferenceValuesReferenceValuesDomain
    Note

    It is generally not necessary to override this method as it handles all cases in a generic manner.

    ,

    The componentType may be (again) an array type.

  290. final def ne(arg0: AnyRef): Boolean
    Definition Classes
    AnyRef
  291. def newarray(pc: PC, count: DomainValue, componentType: FieldType): Computation[DomainValue, ExceptionValue]

    Creates a new array.

    Creates a new array.

    Definition Classes
    TypeLevelReferenceValuesReferenceValuesDomain
    Note

    It is generally not necessary to override this method as it handles all cases in a generic manner.

  292. def nextRefId(): RefId

    Returns the next unused time stamp.

    Returns the next unused time stamp.

    Definition Classes
    ReferenceValues
  293. final def notify(): Unit
    Definition Classes
    AnyRef
    Annotations
    @native()
  294. final def notifyAll(): Unit
    Definition Classes
    AnyRef
    Annotations
    @native()
  295. final def nullRefId: RefId
    Definition Classes
    ReferenceValues
  296. def origin(value: DomainValue): Iterable[ValueOrigin]

    Returns the origin(s) of the given value if the information is available.

    Returns the origin(s) of the given value if the information is available.

    returns

    The source(s) of the given value if the information is available. Whether the information is available depends on the concrete domains. This trait only defines a general contract how to get access to a value's origin (I.e., the origin of the instruction which created the respective value.) By default this method returns an empty Iterable.

    Definition Classes
    Origin
  297. def pdtBasedControlDependencies: DominanceFrontiers

    Computes the control dependencies graph based on the post dominator tree.

    Computes the control dependencies graph based on the post dominator tree.

    Internally, a post dominator tree is used for methods without infinite loops; i.e., we compute non-termination insensitive control dependencies. Note that – dues to exceptions which may lead to abnormal returns

    Definition Classes
    RecordCFG
  298. def postDominatorTree: PostDominatorTree

    Returns the org.opalj.graphs.PostDominatorTree (PDT).

    Definition Classes
    RecordCFG
    Note

    If the method/CFG contains infinite loops (see #infiniteLoopHeaders) then the instructions which jump back to the infinite loop headers (from within the loop) are also used as additional exit nodes.

    ,

    The construction of PostDominatorTrees for methods with multiple exit nodes and also – potentially - infinite loops has several limitations; in particular, if the results are used for computing control-dependence information.

  299. def predecessorsOf(pc: br.PC): PCs

    Returns the program counter(s) of the instruction(s) that is(are) executed before the instruction with the given pc.

    Returns the program counter(s) of the instruction(s) that is(are) executed before the instruction with the given pc.

    If the instruction with the given pc was never executed an empty set is returned.

    pc

    A valid program counter.

    Definition Classes
    RecordCFG
  300. val project: Project[Source]
    Definition Classes
    DefaultDomainTheProject
  301. def properties(pc: PC, propertyToString: (AnyRef) ⇒ String = (v) ⇒ v.toString): Option[String]

    Returns a string representation of the properties associated with the instruction with the respective program counter.

    Returns a string representation of the properties associated with the instruction with the respective program counter.

    Associating properties with an instruction and maintaining those properties is, however, at the sole responsibility of the Domain.

    This method is predefined to facilitate the development of support tools and is not used by the abstract interpretation framework.

    Domains that define (additional) properties should (abstract) override this method and should return a textual representation of the property.

    Definition Classes
    ValuesDomain
  302. final lazy val propertyStore: PropertyStore
    Definition Classes
    TheProjectThePropertyStore
  303. def providesOriginInformationFor(ct: ComputationalType): Boolean

    Implementers are expected to "abstract override" this method to make it possible to stack several domain implementations which provide origin information.

    Implementers are expected to "abstract override" this method to make it possible to stack several domain implementations which provide origin information.

    Definition Classes
    ReferenceValuesOrigin
  304. def putfield(pc: PC, objectref: DomainValue, value: DomainValue, declaringClass: ObjectType, fieldName: String, fieldType: FieldType): Computation[Nothing, ExceptionValue]

    Sets the field's value if the given objectref is not null(in the Domain).

    Sets the field's value if the given objectref is not null(in the Domain). In the latter case a NullPointerException is thrown.

    Definition Classes
    TypeLevelFieldAccessInstructionsFieldAccessesDomain
  305. def putstatic(pc: PC, value: DomainValue, declaringClass: ObjectType, fieldName: String, fieldType: FieldType): Computation[Nothing, Nothing]

    Sets the field's value.

    Sets the field's value.

    Definition Classes
    TypeLevelFieldAccessInstructionsFieldAccessesDomain
  306. def refAreEqual(pc: PC, v1: DomainValue, v2: DomainValue): Answer

    Returns Yes if both DomainReferenceValues definitively identify the same object at runtime.

    Returns Yes if both DomainReferenceValues definitively identify the same object at runtime.

    Using this domain, it is in general not possible to determine that two values are definitively not reference equal unless they are type incompatible.

    Definition Classes
    ReferenceValuesTypeLevelReferenceValuesReferenceValuesDomain
  307. def refAreNotEqual(pc: PC, value1: DomainValue, value2: DomainValue): Answer

    Compares the given values for reference inequality.

    Compares the given values for reference inequality. Returns No if both values point to the same instance and returns Yes if both objects are known not to point to the same instance. The latter is, e.g., trivially the case when both values have a different concrete type. Otherwise Unknown is returned.

    If both values are representing the null value the org.opalj.Answer is Yes.

    value1

    A value of computational type reference.

    value2

    A value of computational type reference.

    Definition Classes
    ReferenceValuesDomain
  308. def refEstablishAreEqual(pc: PC, value1: DomainValue, value2: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Called by OPAL when two values were compared for reference equality and we are going to analyze the branch where the comparison succeeded.

    Called by OPAL when two values were compared for reference equality and we are going to analyze the branch where the comparison succeeded.

    Definition Classes
    ReferenceValuesDomain
  309. def refEstablishAreNotEqual(pc: PC, value1: DomainValue, value2: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Called by OPAL when two values were compared for reference equality and we are going to analyze the branch where the comparison failed.

    Called by OPAL when two values were compared for reference equality and we are going to analyze the branch where the comparison failed.

    Definition Classes
    ReferenceValuesDomain
  310. def refEstablishIsNonNull(pc: PC, value: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Refines the "null"ness property (isNull == No) of the given value.

    Refines the "null"ness property (isNull == No) of the given value.

    Calls refineIsNull on the given ReferenceValue and replaces every occurrence on the stack/in a register with the updated value.

    value

    A ReferenceValue that does not represent the value null.

    Definition Classes
    ReferenceValuesReferenceValuesDomain
  311. def refEstablishIsNull(pc: PC, value: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Updates the "null"ness property (isNull == Yes) of the given value.

    Updates the "null"ness property (isNull == Yes) of the given value.

    Calls refineIsNull on the given ReferenceValue and replaces every occurrence on the stack/in a register with the updated value.

    value

    A ReferenceValue.

    Definition Classes
    ReferenceValuesReferenceValuesDomain
  312. def refIsNonNull(pc: PC, value: DomainValue): Answer

    Returns Yes if given value is never null, Unknown if the values is maybe null and No otherwise.

    Returns Yes if given value is never null, Unknown if the values is maybe null and No otherwise.

    value

    A value of computational type reference.

    Definition Classes
    ReferenceValuesDomain
  313. final def refIsNull(pc: PC, value: DomainValue): Answer

    Determines the nullness-property of the given value.

    Determines the nullness-property of the given value.

    value

    A value of type ReferenceValue.

    Definition Classes
    TypeLevelReferenceValuesReferenceValuesDomain
  314. def refSetUpperTypeBoundOfTopOperand(pc: PC, bound: ReferenceType, operands: Operands, locals: Locals): (Operands, Locals)

    Called by the abstract interpreter when the type bound of the top most stack value needs to be refined.

    Called by the abstract interpreter when the type bound of the top most stack value needs to be refined. This method is only called by the abstract interpreter iff an immediately preceding subtype query (typeOf(value) <: bound) returned Unknown. This method must not be ignored – w.r.t. refining the top-most stack value; it is e.g., used by org.opalj.br.instructions.CHECKCAST instructions.

    A domain that is able to identify aliases can use this information to propagate the information to the other aliases.

    Definition Classes
    ReferenceValuesTypeLevelReferenceValuesReferenceValuesDomain
  315. def refTopOperandIsNull(pc: PC, operands: Operands, locals: Locals): (Operands, Locals)

    Sets the is null property of the top-most stack value to Yes.

    Sets the is null property of the top-most stack value to Yes. This method is called by the framework when the top-most operand stack value has to be null, but a previous isNull check returned Unknown. E.g., after a org.opalj.br.instructions.CHECKCAST that fails unless the value is "null".

    This method can be ignored; i.e., the return value can be (operands,locals). However, a domain that is able to identify aliases can use this information to propagate the information to the other aliases.

    Definition Classes
    ReferenceValuesTypeLevelReferenceValuesReferenceValuesDomain
  316. def refineIsNull(pc: PC, value: DomainValue, isNull: Answer, operands: Operands, locals: Locals): (Operands, Locals)
    Attributes
    protected[this]
    Definition Classes
    ReferenceValues
  317. def regularSuccessorsOf(pc: br.PC): PCs

    Returns the program counter(s) of the instruction(s) that is(are) executed next if the evaluation of this instruction may succeed without raising an exception.

    Returns the program counter(s) of the instruction(s) that is(are) executed next if the evaluation of this instruction may succeed without raising an exception.

    The returned set is always empty for return instructions. It is also empty for instructions that always throw an exception (e.g., an integer value that is divided by zero will always result in a NullPointException.)

    Definition Classes
    RecordCFG
    Note

    The org.opalj.br.instructions.ATHROW instruction will never have a regularSuccessor. The return instructions will never have any successors.

  318. def returnFromSubroutine(pc: PC, lvIndex: Int): Unit

    pc

    The pc of the ret instruction.

    Definition Classes
    SubroutinesDomain
  319. def returnVoid(pc: br.PC): Computation[Nothing, ExceptionValue]

    Called when a return instruction with the given pc is reached.

    Called when a return instruction with the given pc is reached. In other words, when the method returns normally.

    Definition Classes
    RecordCFGReturnInstructionsDomain
    Note

    If another domain always overrides this method the invocation of this one has to be ensured; otherwise the recorded CFG will be incomplete.

  320. def saload(pc: PC, index: DomainValue, arrayref: DomainValue): ArrayLoadResult
  321. def sastore(pc: PC, value: DomainValue, index: DomainValue, arrayref: DomainValue): ArrayStoreResult
  322. def schedule(successorPC: PC, abruptSubroutineTerminationCount: Int, worklist: Chain[PC]): Chain[PC]

    This function can be called when the instruction successorPC needs to be scheduled.

    This function can be called when the instruction successorPC needs to be scheduled. The function will test if the instruction is already scheduled and – if so – returns the given worklist. Otherwise the instruction is scheduled in the correct (subroutine-)context.

    Attributes
    protected[this]
    Definition Classes
    CoreDomainFunctionality
  323. def sideEffectOnlyOrExceptions(pc: PC, value: DomainValue): Computation[Nothing, ExceptionValue]
    Attributes
    protected[this]
    Definition Classes
    IgnoreSynchronization
  324. def simpleClassForNameCall(pc: PC, className: String): MethodCallResult
    Attributes
    protected[org.opalj.ai.domain.l1]
    Definition Classes
    ClassValues
  325. def subroutineStartPCs: PCs

    Returns the PCs of the first instructions of all subroutines; that is, the instructions a JSR instruction jumps to.

    Returns the PCs of the first instructions of all subroutines; that is, the instructions a JSR instruction jumps to.

    Definition Classes
    RecordCFG
  326. final def successorsOf(pc: br.PC, regularSuccessorOnly: Boolean): PCs
    Definition Classes
    RecordCFG
  327. def summarize(pc: PC, values: Iterable[DomainValue]): DomainValue

    Creates a summary of the given domain values by summarizing and joining the given values.

    Creates a summary of the given domain values by summarizing and joining the given values. For the precise details regarding the calculation of a summary see Value.summarize(...).

    pc

    The program counter that will be used for the summary value if a new value is returned that abstracts over/summarizes the given values.

    values

    An Iterable over one or more values.

    Definition Classes
    ValuesDomain
    Note

    The current algorithm is generic and should satisfy most needs, but it is not very efficient. However, it should be easy to tailor it for a specific domain/domain values, if need be.

  328. final def synchronized[T0](arg0: ⇒ T0): T0
    Definition Classes
    AnyRef
  329. def throwArithmeticExceptions: Boolean

    If true, all instructions that may raise an arithmetic exception (e.g., idiv, ldiv) should do so if it is impossible to statically determine that no exception will occur.

    If true, all instructions that may raise an arithmetic exception (e.g., idiv, ldiv) should do so if it is impossible to statically determine that no exception will occur. But, if we can statically determine that the operation will raise an exception then the exception will be thrown – independently of this setting. Furthermore, if we can statically determine that no exception will be raised, no exception will be thrown. Hence, this setting only affects computations with values with incomplete information.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  330. def throwArrayIndexOutOfBoundsException: Boolean

    If true an ArrayIndexOutOfBoundsException is thrown if the index cannot be verified to be valid.

    If true an ArrayIndexOutOfBoundsException is thrown if the index cannot be verified to be valid.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  331. def throwArrayStoreException: Boolean

    If true an ArrayStoreException is thrown if it cannot be verified that the value can be stored in the array.

    If true an ArrayStoreException is thrown if it cannot be verified that the value can be stored in the array.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  332. def throwClassCastException: Boolean

    If true a ClassCastException is thrown by CHECKCAST instructions if it cannot be verified that no ClassCastException will be thrown.

    If true a ClassCastException is thrown by CHECKCAST instructions if it cannot be verified that no ClassCastException will be thrown.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  333. def throwClassNotFoundException: Boolean

    Throw a ClassNotFoundException if the a specific reference type is not known in the current context.

    Throw a ClassNotFoundException if the a specific reference type is not known in the current context. The context is typically a specific Project.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  334. def throwExceptionsOnMethodCall: ExceptionsRaisedByCalledMethod

    Determines the behavior how method calls are handled when the exceptions that the called method may throw are unknown.

    Determines the behavior how method calls are handled when the exceptions that the called method may throw are unknown.

    returns

    ExceptionsRaisedByCalledMethods.Any

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  335. def throwIllegalMonitorStateException: Boolean

    If true then monitorexit and the (XXX)return instructions will throw IllegalMonitorStateExceptions unless the analysis is able to determine that the exception is guaranteed not to be raised.

    If true then monitorexit and the (XXX)return instructions will throw IllegalMonitorStateExceptions unless the analysis is able to determine that the exception is guaranteed not to be raised.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  336. def throwNegativeArraySizeException: Boolean

    If true a NegativeArraySizeException is thrown if the index cannot be verified to be positive.

    If true a NegativeArraySizeException is thrown if the index cannot be verified to be positive.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  337. def throwNullPointerExceptionOnArrayAccess: Boolean

    Returns true if potential NullPointerExceptions should be thrown and false if such NullPointerExceptions should be ignored.

    Returns true if potential NullPointerExceptions should be thrown and false if such NullPointerExceptions should be ignored. However, if the interpreter identifies a situation in which a NullPointerException is guaranteed to be thrown, it will be thrown.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  338. def throwNullPointerExceptionOnFieldAccess: Boolean

    Returns true if potential NullPointerExceptions should be thrown and false if such NullPointerExceptions should be ignored.

    Returns true if potential NullPointerExceptions should be thrown and false if such NullPointerExceptions should be ignored. However, if the interpreter identifies a situation in which a NullPointerException is guaranteed to be thrown, it will be thrown.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  339. def throwNullPointerExceptionOnMethodCall: Boolean

    Returns true if potential NullPointerExceptions should be thrown and false if such NullPointerExceptions should be ignored.

    Returns true if potential NullPointerExceptions should be thrown and false if such NullPointerExceptions should be ignored. However, if the interpreter identifies a situation in which a NullPointerException is guaranteed to be thrown, it will be thrown. Example:

    def demo(o : Object) {
         o.toString  // - If "true", a NullPointerException will ALSO be thrown;
                     //   the operation also succeeds.
                     // - If "false" the operation will "just" succeed
    }
    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  340. def throwNullPointerExceptionOnMonitorAccess: Boolean

    Returns true if potential NullPointerExceptions should be thrown and false if such NullPointerExceptions should be ignored.

    Returns true if potential NullPointerExceptions should be thrown and false if such NullPointerExceptions should be ignored. However, if the interpreter identifies a situation in which a NullPointerException is guaranteed to be thrown, it will be thrown.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  341. def throwNullPointerExceptionOnThrow: Boolean

    If true a NullPointerExceptions is thrown if the exception that is to be thrown is not not known to be null.

    If true a NullPointerExceptions is thrown if the exception that is to be thrown is not not known to be null.

    returns

    true

    Definition Classes
    ThrowAllPotentialExceptionsConfigurationConfiguration
  342. final def throws(value: ExceptionValue): ThrowsException[ExceptionValue]
    Definition Classes
    ReferenceValuesFactory
  343. def throwsException(pc: br.PC): Boolean

    Returns true if the execution of the given instruction – identified by its pc – ex-/implicitly throws an exception that is (potentially) handled by the method.

    Returns true if the execution of the given instruction – identified by its pc – ex-/implicitly throws an exception that is (potentially) handled by the method.

    Definition Classes
    RecordCFG
  344. def toDomainValue(pc: PC, value: AnyRef): DomainReferenceValue

    Converts the given Java object to a corresponding DomainValue.

    Converts the given Java object to a corresponding DomainValue. By creating an DomainValue that represents an initialized (array/object) value.

    pc

    The program counter of the instruction that was responsible for creating the respective value. (This is in – in general – not the instruction where the transformation is performed.)

    value

    The object.

    returns

    A DomainReferenceValue.

    Definition Classes
    StringValuesDefaultJavaObjectToDomainValueConversionAsDomainValue
  345. def toJavaObject(pc: PC, value: DomainValue): Option[AnyRef]

    Converts – if possible – a given DomainValue to a Java object that is appropriately initialized.

    Converts – if possible – a given DomainValue to a Java object that is appropriately initialized.

    Implementation

    Every domain that supports the creation of a Java object's based on a domain value is expected to implement this method and to test if it can create a precise representation of the given value. If not, the implementation has to delegate the responsibility to the super method to creat an abstract representation.

    abstract override def toJavaObject(value : DomainValue): Option[Object] = {
     if(value...)
         // create and return Java object
     else
         super.toJavaObject(value)
    }
    returns

    Some(Object) is returned if it was possible to create a compatible corresponding Java object; otherwise None is returned. Default: None unless the value is null. In the latter case Some(null) is returned.

    Definition Classes
    StringValuesReferenceValuesTypeLevelReferenceValuesAsJavaObject
    Note

    This operation is generally only possible if the domain value maintains enough state information to completely initialize the Java object.

  346. def toString(): String
    Definition Classes
    AnyRef → Any
  347. def typeOfValue(value: DomainValue): TypeInformation

    Returns the type(type bounds) of the given value.

    Returns the type(type bounds) of the given value.

    In general a single value can have multiple type bounds which depend on the control flow. However, all types that the value represents must belong to the same computational type category. I.e., it is possible that the value either has the type "NullPointerException or IllegalArgumentException", but it will never have – at the same time – the (Java) types int and long. Furthermore, it is possible that the returned type(s) is(are) only an upper bound of the real type unless the type is a primitive type.

    This default implementation always returns org.opalj.ai.UnknownType.

    Implementing typeOfValue

    This method is typically not implemented by a single Domain trait/object, but is instead implemented collaboratively by all domains that implement the semantics of certain values. To achieve that, other Domain traits that implement a concrete domain's semantics have to abstract override this method and only return the value's type if the domain knows anything about the type. If a method that overrides this method has no knowledge about the given value, it should delegate this call to its super method.

    Example

    trait FloatValues extends Domain[...] {
      ...
        abstract override def typeOfValue(value: DomainValue): TypesAnswer =
        value match {
          case r: FloatValue ⇒ IsFloatValue
          case _             ⇒ super.typeOfValue(value)
        }
    }
    Definition Classes
    ValuesDomain
  348. def updateAfterEvaluation(oldValue: DomainValue, newValue: DomainValue): Unit
    Attributes
    protected
    Definition Classes
    PostEvaluationMemoryManagement
  349. def updateAfterException(oldValue: DomainValue, newValue: DomainValue): Unit
    Attributes
    protected
    Definition Classes
    PostEvaluationMemoryManagement
  350. def updateAfterExecution(oldValue: DomainValue, newValueAfterEvaluation: DomainValue, newValueAfterException: DomainValue): Unit
    Attributes
    protected
    Definition Classes
    PostEvaluationMemoryManagement
  351. def updateMemoryLayout(oldValue: DomainValue, newValue: DomainValue, operands: Operands, locals: Locals): (Operands, Locals)

    Replaces all occurrences of oldValue (using reference-quality) with newValue.

    Replaces all occurrences of oldValue (using reference-quality) with newValue. If no occurrences are found, the original operands and locals data structures are returned.

    Definition Classes
    CoreDomainFunctionality
  352. def upperTypeBound(theValues: UIDSet[DomainSingleOriginReferenceValue]): UIDSet[_ <: ReferenceType]

    Calculates the most specific common upper type bound of the upper type bounds of all values.

    Calculates the most specific common upper type bound of the upper type bounds of all values. NullValues are ignored.

    Definition Classes
    ReferenceValues
  353. val usesMonitorInstruction: Boolean
    Attributes
    protected[this]
    Definition Classes
    MonitorInstructionsTracker
  354. final def wait(): Unit
    Definition Classes
    AnyRef
    Annotations
    @throws( ... )
  355. final def wait(arg0: Long, arg1: Int): Unit
    Definition Classes
    AnyRef
    Annotations
    @throws( ... )
  356. final def wait(arg0: Long): Unit
    Definition Classes
    AnyRef
    Annotations
    @native() @throws( ... )
  357. final def wasExecuted(pc: br.PC): Boolean

    Returns true if the instruction with the given pc was executed.

    Returns true if the instruction with the given pc was executed.

    Definition Classes
    RecordCFG
  358. object ALongValue extends (DefaultLongValues.this)#ALongValue with Product with Serializable

    Represents an unspecific, unknown long value.

    Represents an unspecific, unknown long value.

    Definition Classes
    DefaultLongValues
  359. object IntegerRange

    Extractor for IntegerRange values.

    Extractor for IntegerRange values.

    Definition Classes
    IntegerRangeValues
  360. object TheLongValue
    Definition Classes
    LongValues
  361. implicit object DomainSingleOriginReferenceValueOrdering extends Ordering[(ReferenceValues.this)#DomainSingleOriginReferenceValue]

    Defines a total order on reference values with a single origin by subtracting both origins.

    Defines a total order on reference values with a single origin by subtracting both origins.

    Definition Classes
    ReferenceValues
  362. object MultipleReferenceValues
    Definition Classes
    ReferenceValues
  363. object RefId

    Extractor for reference ids.

    Extractor for reference ids.

    Definition Classes
    ReferenceValues
  364. object StringValue
    Definition Classes
    StringValues

Inherited from RecordCFG

Inherited from DefaultDomain[Source]

Inherited from LongValuesShiftOperators

Inherited from DefaultLongValues

Inherited from LongValues

Inherited from ConcreteLongValues

Inherited from DefaultIntegerRangeValues

Inherited from IntegerRangeValues

Inherited from ConcreteIntegerValues

Inherited from IntegerRangeValuesFactory

Inherited from NullPropertyRefinement

Inherited from MaxArrayLengthRefinement

Inherited from DefaultClassValuesBinding

Inherited from ClassValues

Inherited from StringValues

Inherited from AsDomainValue

Inherited from DefaultExceptionsFactory

Inherited from ReferenceValues

Inherited from Origin

Inherited from TypeLevelReferenceValues

Inherited from AsJavaObject

Inherited from GeneralizedArrayHandling

Inherited from SpecialMethodsHandling

Inherited from MethodCallsHandling

Inherited from TypeLevelDoubleValues

Inherited from TypeLevelFloatValues

Inherited from CustomInitialization

Inherited from IgnoreSynchronization

Inherited from DefaultDomainValueBinding

Inherited from TheMethod

Inherited from TheCode

Inherited from TheProject

Inherited from ThePropertyStore

Inherited from LogContextProvider

Inherited from TheClassHierarchy

Inherited from CorrelationalDomain

Inherited from JoinStabilization

Inherited from Domain

Inherited from Configuration

Inherited from TypedValuesFactory

Inherited from MonitorInstructionsDomain

Inherited from MethodCallsDomain

Inherited from FieldAccessesDomain

Inherited from ReferenceValuesDomain

Inherited from ReferenceValuesFactory

Inherited from ExceptionsFactory

Inherited from DoubleValuesDomain

Inherited from DoubleValuesFactory

Inherited from FloatValuesDomain

Inherited from FloatValuesFactory

Inherited from LongValuesDomain

Inherited from LongValuesFactory

Inherited from IntegerValuesDomain

Inherited from IntegerValuesFactory

Inherited from CoreDomainFunctionality

Inherited from SubroutinesDomain

Inherited from ValuesDomain

Inherited from AnyRef

Inherited from Any

Ungrouped