trait IntegerValues extends IntegerValuesDomain with ConcreteIntegerValues
This domain enables the tracking of an integer value (a constant); unknown integer values are represented using "AnIntegerValue". It basically provides support for constant propagation and constant computations related to integer values.
Given that it uses one instance to represent arbitrary integer values, constraint propagation is not relevant.
This domain may be appropriate, e.g., if you want to determine if a field/local is always initialized to a specific value.
- Self Type
- IntegerValues with Configuration with ExceptionsFactory
- Source
- IntegerValues.scala
- Alphabetic
- By Inheritance
- IntegerValues
- ConcreteIntegerValues
- IntegerValuesDomain
- IntegerValuesFactory
- ValuesDomain
- AnyRef
- Any
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- Public
- Protected
Type Members
- class IllegalValue extends Value with IsIllegalValue
Represents a value that has no well defined state/type.
Represents a value that has no well defined state/type. Such values are either the result of a join of two incompatible values or if the variable was identified as being dead.
IllegalValue
's are only found in registers (in the locals).- Attributes
- protected
- Definition Classes
- ValuesDomain
- See also
org.opalj.ai.Domain.Value for further details.
- trait RETValue extends Value with IsReturnAddressValue
- Definition Classes
- ValuesDomain
- trait ReferenceValue extends TypedValue[ReferenceType] with IsReferenceValue
- Definition Classes
- ValuesDomain
- 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 theValue
trait should be refined, all additional methods may – from the point-of-view of OPAL-AI – just throw anUnsupportedOperationException
as these additional methods will never be called by the OPAL-AI.
- class ReturnAddressValues extends RETValue
A collection of (not further stored) return address values.
A collection of (not further stored) return address values. Primarily used when we join the executions of subroutines.
- Definition Classes
- ValuesDomain
- trait TypedValue[+T <: Type] extends Value with KnownTypedValue
- Definition Classes
- ValuesDomain
- trait Value extends ValueInformation
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 onValue
. Instead they should useDomainValue
as otherwise extensibility of aDomain
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 liketrait 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 typeDomainType
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
'sequals
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 arbitraryInteger
value has to returntrue
if the domain value with which it is compared also represents an arbitraryInteger
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 theAnIntegervalue
from some otherAnIntegerValue
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.
- trait AnIntegerValue extends (IntegerValues.this)#IntegerLikeValue
Represents an (unknown) integer value.
Represents an (unknown) integer value.
Models the top value of this domain's lattice.
- abstract type DomainIllegalValue <: (IntegerValues.this)#IllegalValue with (IntegerValues.this)#DomainValue
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 typeDomainValue
is refined.- Definition Classes
- ValuesDomain
- abstract type DomainReferenceValue >: Null <: (IntegerValues.this)#ReferenceValue with (IntegerValues.this)#DomainTypedValue[ReferenceType]
- Definition Classes
- ValuesDomain
- abstract type DomainReturnAddressValue <: (IntegerValues.this)#ReturnAddressValue with (IntegerValues.this)#DomainValue
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 theValue
trait nor theReturnAddressValue
trait was refined) it is sufficient to write:type DomainReturnAddressValue = ReturnAddressValue
- Definition Classes
- ValuesDomain
- abstract type DomainReturnAddressValues <: (IntegerValues.this)#ReturnAddressValues with (IntegerValues.this)#DomainValue
- Definition Classes
- ValuesDomain
- abstract type DomainTypedValue[+T <: Type] >: Null <: (IntegerValues.this)#DomainValue
- Definition Classes
- ValuesDomain
- abstract type DomainValue >: Null <: (IntegerValues.this)#Value
Abstracts over the concrete type of
Value
.Abstracts over the concrete type of
Value
. Needs to be refined by traits that inherit fromDomain
and which extendDomain
'sValue
trait.- Definition Classes
- ValuesDomain
- type ExceptionValue = (IntegerValues.this)#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
- type ExceptionValues = Iterable[(IntegerValues.this)#ExceptionValue]
A type alias for
Iterable
s ofExceptionValue
s; used to facilitate comprehension.A type alias for
Iterable
s ofExceptionValue
s; used to facilitate comprehension.- Definition Classes
- ValuesDomain
- sealed trait IntegerLikeValue extends (IntegerValues.this)#TypedValue[CTIntType] with IsIntegerValue
Abstracts over all values with computational type
integer
. - type IntegerValueOrArithmeticException = Computation[(IntegerValues.this)#DomainValue, (IntegerValues.this)#ExceptionValue]
Computation that returns a numeric value or an
ObjectType.ArithmeticException
.Computation that returns a numeric value or an
ObjectType.ArithmeticException
.- Definition Classes
- IntegerValuesDomain
- type Locals = collection.mutable.Locals[(IntegerValues.this)#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
- type LocalsArray = Array[(IntegerValues.this)#Locals]
- Definition Classes
- ValuesDomain
- type Operands = List[(IntegerValues.this)#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
- type OperandsArray = Array[(IntegerValues.this)#Operands]
- Definition Classes
- ValuesDomain
- abstract class TheIntegerValue extends (IntegerValues.this)#IntegerLikeValue
Represents one, concrete integer value.
Abstract Value Members
- abstract def BooleanValue(origin: ValueOrigin, value: Boolean): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract def BooleanValue(origin: ValueOrigin): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract def ByteValue(origin: ValueOrigin, value: Byte): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract def ByteValue(origin: ValueOrigin): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract def CharValue(origin: ValueOrigin, value: Char): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract def CharValue(origin: ValueOrigin): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract val DomainReferenceValueTag: ClassTag[(IntegerValues.this)#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
- ValuesDomain
- implicit abstract val DomainValueTag: ClassTag[(IntegerValues.this)#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 abstractval
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
- ValuesDomain
- abstract def InitializedDomainValue(origin: ValueOrigin, vi: ValueInformation): (IntegerValues.this)#DomainValue
Creates a domain value from the given value information that represents a properly domain value.
Creates a domain value from the given value information that represents a properly domain value. A representation of a proper value is created even if the value information is provided for an uninitialized value.
- Definition Classes
- ValuesDomain
- Note
This function is only defined for proper values, i.e., it is not defined for void values or illegal values.
,This method is intended to be overwritten by concrete domains which can represent more information.
- abstract def IntegerValue(origin: ValueOrigin, value: Int): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract def IntegerValue(origin: ValueOrigin): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract def MetaInformationUpdateIllegalValue: MetaInformationUpdate[(IntegerValues.this)#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
- ValuesDomain
- abstract def ReturnAddressValue(address: Int): (IntegerValues.this)#DomainReturnAddressValue
Factory method to create an instance of a
ReturnAddressValue
.Factory method to create an instance of a
ReturnAddressValue
.- Definition Classes
- ValuesDomain
- abstract def ShortValue(origin: ValueOrigin, value: Short): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract def ShortValue(origin: ValueOrigin): (IntegerValues.this)#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
- IntegerValuesFactory
- abstract val TheIllegalValue: (IntegerValues.this)#DomainIllegalValue
The singleton instance of the
IllegalValue
.The singleton instance of the
IllegalValue
.- Definition Classes
- ValuesDomain
- abstract val TheReturnAddressValues: (IntegerValues.this)#DomainReturnAddressValues
The singleton instance of
ReturnAddressValues
The singleton instance of
ReturnAddressValues
- Definition Classes
- ValuesDomain
- implicit abstract def classHierarchy: ClassHierarchy
This project's class hierarchy.
This project's class hierarchy.
Usually, just a redirect to the
Project
's class hierarchy or the default class hierarchy.- Definition Classes
- ValuesDomain
Concrete Value Members
- object ConcreteIntegerValue
- Definition Classes
- ConcreteIntegerValues
- final def !=(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
- final def ##: Int
- Definition Classes
- AnyRef → Any
- final def ==(arg0: Any): Boolean
- Definition Classes
- AnyRef → Any
- final def IntegerConstant0: (IntegerValues.this)#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
- final def StructuralUpdateIllegalValue: StructuralUpdate[Nothing]
The result of merging two values should never be reported as a
StructuralUpdate
if the computed value is anIllegalValue
.The result of merging two values should never be reported as a
StructuralUpdate
if the computed value is anIllegalValue
. 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.
- final def asInstanceOf[T0]: T0
- Definition Classes
- Any
- def clone(): AnyRef
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.CloneNotSupportedException]) @native() @IntrinsicCandidate()
- final def eq(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
- def equals(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef → Any
- final def getClass(): Class[_ <: AnyRef]
- Definition Classes
- AnyRef → Any
- Annotations
- @native() @IntrinsicCandidate()
- def hashCode(): Int
- Definition Classes
- AnyRef → Any
- Annotations
- @native() @IntrinsicCandidate()
- def i2b(pc: Int, value: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def i2c(pc: Int, value: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def i2s(pc: Int, value: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def iadd(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def iand(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def idiv(pc: Int, numerator: (IntegerValues.this)#DomainValue, denominator: (IntegerValues.this)#DomainValue): (IntegerValues.this)#IntegerValueOrArithmeticException
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def iinc(pc: Int, value: (IntegerValues.this)#DomainValue, increment: Int): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def imul(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def ineg(pc: Int, value: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def intAreEqual(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#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
- IntegerValues → IntegerValuesDomain
- def intAreNotEqual(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#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
- def intEstablishAreEqual(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue, operands: (IntegerValues.this)#Operands, locals: (IntegerValues.this)#Locals): ((IntegerValues.this)#Operands, (IntegerValues.this)#Locals)
- Definition Classes
- IntegerValuesDomain
- 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.
- def intEstablishAreNotEqual(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue, operands: (IntegerValues.this)#Operands, locals: (IntegerValues.this)#Locals): ((IntegerValues.this)#Operands, (IntegerValues.this)#Locals)
- Definition Classes
- IntegerValuesDomain
- 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.
- def intEstablishIsLessThan(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue, operands: (IntegerValues.this)#Operands, locals: (IntegerValues.this)#Locals): ((IntegerValues.this)#Operands, (IntegerValues.this)#Locals)
- Definition Classes
- IntegerValuesDomain
- 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.
- def intEstablishIsLessThanOrEqualTo(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue, operands: (IntegerValues.this)#Operands, locals: (IntegerValues.this)#Locals): ((IntegerValues.this)#Operands, (IntegerValues.this)#Locals)
- Definition Classes
- IntegerValuesDomain
- 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.
- def intEstablishValue(pc: Int, theValue: Int, value: (IntegerValues.this)#DomainValue, operands: (IntegerValues.this)#Operands, locals: (IntegerValues.this)#Locals): ((IntegerValues.this)#Operands, (IntegerValues.this)#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
- IntegerValuesDomain
- def intIs0(pc: Int, value: (IntegerValues.this)#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
- def intIsGreaterThan(pc: Int, largerValue: (IntegerValues.this)#DomainValue, smallerValue: (IntegerValues.this)#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
- def intIsGreaterThan0(pc: Int, value: (IntegerValues.this)#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
- def intIsGreaterThanOrEqualTo(pc: Int, largerOrEqualValue: (IntegerValues.this)#DomainValue, smallerOrEqualValue: (IntegerValues.this)#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
- def intIsGreaterThanOrEqualTo0(pc: Int, value: (IntegerValues.this)#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
- def intIsLessThan(pc: Int, left: (IntegerValues.this)#DomainValue, right: (IntegerValues.this)#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
- IntegerValues → IntegerValuesDomain
- def intIsLessThan0(pc: Int, value: (IntegerValues.this)#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
- def intIsLessThanOrEqualTo(pc: Int, left: (IntegerValues.this)#DomainValue, right: (IntegerValues.this)#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
- IntegerValues → IntegerValuesDomain
- def intIsLessThanOrEqualTo0(pc: Int, value: (IntegerValues.this)#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
- def intIsNot0(pc: Int, value: (IntegerValues.this)#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
- def intIsSomeValueInRange(pc: Int, value: (IntegerValues.this)#DomainValue, lowerBound: Int, upperBound: Int): Answer
Returns
Yes
iff at least one possible extension of the givenvalue
is in the specified range; that is, if the intersection of the range of values captured by the givenvalue
and the specified range is non-empty.Returns
Yes
iff at least one possible extension of the givenvalue
is in the specified range; that is, if the intersection of the range of values captured by the givenvalue
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 beUnknown
. The answer isNo
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
- IntegerValues → IntegerValuesDomain
- def intIsSomeValueNotInRange(pc: Int, value: (IntegerValues.this)#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 givenvalue
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 givenvalue
and the specified range is non-empty. For example, if the givenvalue
has the integer value10
and the specified range is [0,Integer.MAX_VALUE] then the answer has to beNo
. But, if the givenvalue
represents the range [-5,Integer.MAX_VALUE] and the specified range is again [0,Integer.MAX_VALUE] then the answer has to beYes
.The answer is
Yes
iff the analysis determined that at runtimevalue
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 beUnknown
.- 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
- IntegerValues → IntegerValuesDomain
- final def intValue[T](value: (IntegerValues.this)#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 otherwiseorElse
is called.If the given value encapsulates a precise integer value then the function
ifThen
is called with the respective value otherwiseorElse
is called.- Definition Classes
- IntegerValues → ConcreteIntegerValues
- Annotations
- @inline()
- final def intValueOption(value: (IntegerValues.this)#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
- IntegerValues → ConcreteIntegerValues
- 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.
- final def intValues[T](value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue)(f: (Int, Int) => T)(orElse: => T): T
- Attributes
- protected
- Annotations
- @inline()
- def ior(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def irem(pc: Int, left: (IntegerValues.this)#DomainValue, right: (IntegerValues.this)#DomainValue): (IntegerValues.this)#IntegerValueOrArithmeticException
- Definition Classes
- IntegerValues → IntegerValuesDomain
- final def isASubtypeOf(subtype: ReferenceType, supertype: ReferenceType): Answer
Tests if
subtype
is known to be subtype ofsupertype
.Tests if
subtype
is known to be subtype ofsupertype
. See org.opalj.br.ClassHierarchy'sisSubtypeOf
method for details.- Definition Classes
- ValuesDomain
- final def isInstanceOf[T0]: Boolean
- Definition Classes
- Any
- final def isSubtypeOf(subtype: ReferenceType, supertype: ReferenceType): Boolean
Tests if
subtype
is known to be subtype ofsupertype
.Tests if
subtype
is known to be subtype ofsupertype
. See org.opalj.br.ClassHierarchy'sisSubtypeOf
method for details.- Definition Classes
- ValuesDomain
- def ishl(pc: Int, value: (IntegerValues.this)#DomainValue, shift: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def ishr(pc: Int, value: (IntegerValues.this)#DomainValue, shift: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def isub(pc: Int, left: (IntegerValues.this)#DomainValue, right: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def iushr(pc: Int, value: (IntegerValues.this)#DomainValue, shift: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def ixor(pc: Int, value1: (IntegerValues.this)#DomainValue, value2: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
- Definition Classes
- IntegerValues → IntegerValuesDomain
- def mergeDomainValues(pc: Int, v1: (IntegerValues.this)#DomainValue, v2: (IntegerValues.this)#DomainValue): (IntegerValues.this)#DomainValue
Merges the given domain value
v1
with the domain valuev2
and returns the merged value which isv1
ifv1
is an abstraction ofv2
,v2
ifv2
is an abstraction ofv1
or some other value if a new value is computed that abstracts over both values.Merges the given domain value
v1
with the domain valuev2
and returns the merged value which isv1
ifv1
is an abstraction ofv2
,v2
ifv2
is an abstraction ofv1
or some other value if a new value is computed that abstracts over both values.This operation is commutative.
- Definition Classes
- ValuesDomain
- final def ne(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
- final def notify(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native() @IntrinsicCandidate()
- final def notifyAll(): Unit
- Definition Classes
- AnyRef
- Annotations
- @native() @IntrinsicCandidate()
- def properties(pc: PC, propertyToString: (AnyRef) => String = p => p.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.
Domain
s that define (additional) properties should (abstract
)override
this method and should return a textual representation of the property.- Definition Classes
- ValuesDomain
- def summarize(pc: Int, values: Iterable[(IntegerValues.this)#DomainValue]): (IntegerValues.this)#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 seeValue.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.
- final def synchronized[T0](arg0: => T0): T0
- Definition Classes
- AnyRef
- def toString(): String
- Definition Classes
- AnyRef → Any
- final def wait(arg0: Long, arg1: Int): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException])
- final def wait(arg0: Long): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException])
- final def wait(): Unit
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.InterruptedException])
- object TheIntegerValue
Deprecated Value Members
- def finalize(): Unit
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.Throwable]) @Deprecated
- Deprecated