case class ASArrayWithLengthValue(length: Int, theUpperTypeBound: ArrayType) extends IsSArrayValue with Product with Serializable
- Source
- ValueInformation.scala
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- ASArrayWithLengthValue
- Serializable
- Product
- Equals
- IsSArrayValue
- IsSReferenceValue
- IsBaseReferenceValue
- IsReferenceValue
- KnownTypedValue
- KnownValue
- ValueInformation
- AnyRef
- Any
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Value Members
- 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 allValues: Iterable[ASArrayWithLengthValue.this.type]
The set of base values (
IsReferenceValue
) this value abstracts over.The set of base values (
IsReferenceValue
) this value abstracts over. This set is never empty and contains this value if this value does not (further) abstract over other reference values; otherwise it only contains the base values, but notthis
value.- Definition Classes
- IsBaseReferenceValue → IsReferenceValue
- Note
Primarily defined as a convenience interface.
- final def asInstanceOf[T0]: T0
- Definition Classes
- Any
- def asPrimitiveValue: IsPrimitiveValue[_ <: BaseType]
- Definition Classes
- ValueInformation
- final def asReferenceType: ReferenceType
Returns the type of the upper type bound if the upper type bound contains exactly one element.
Returns the type of the upper type bound if the upper type bound contains exactly one element. That is, the function is only always defined iff the type is precise.
- Definition Classes
- IsReferenceValue
- final def asReferenceValue: IsReferenceValue
- Definition Classes
- IsReferenceValue → ValueInformation
- final def baseValues: Iterable[ASArrayWithLengthValue.this.type]
In general an
IsReferenceValue
abstracts over all potential values and this information is sufficient for subsequent analyses; but in some cases, analyzing the set of underlying values may increase the overall precision and this set is returned by this function.In general an
IsReferenceValue
abstracts over all potential values and this information is sufficient for subsequent analyses; but in some cases, analyzing the set of underlying values may increase the overall precision and this set is returned by this function. In other words: ifbaseValues
is nonEmpty, then the properties returned bythis
value are derived from the base values, but still maybe more specific. For example,Object o = _; if(...) o = f() else o = g(); // when we reach this point, we generally don't know if the values returned by f and g // are non-null; hence, o is potentially null. if(o != null) // Now, we know that o is not null, but we still don't know if the values returned // by f OR g were null and we cannot establish that when we don't know to which value // o is actually referring to. u(o);
- returns
The set of values this reference value abstracts over. The set is empty if this value is already a base value and it does not abstract over other values.
- Definition Classes
- IsBaseReferenceValue → IsReferenceValue
- Note
A reference value which belongs to the base values by some other reference value never has itself as a direct base value.
- def clone(): AnyRef
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.CloneNotSupportedException]) @native() @IntrinsicCandidate()
- final def computationalType: ComputationalType
The computational type of the value if this object represents a legal value.
The computational type of the value if this object represents a legal value.
The precise computational type is, e.g., needed to calculate the effect of generic stack manipulation instructions (e.g.,
DUP_...
andSWAP
) on the stack as well as to calculate the jump targets ofRET
instructions and to determine which values are actually copied by, e.g., thedup_XX
instructions.- Definition Classes
- IsReferenceValue → ValueInformation
- Exceptions thrown
IllegalStateException
if this value is illegal or void.- Note
The computational type has to be precise/correct.
- final def eq(arg0: AnyRef): Boolean
- Definition Classes
- AnyRef
- final def getClass(): Class[_ <: AnyRef]
- Definition Classes
- AnyRef → Any
- Annotations
- @native() @IntrinsicCandidate()
- final def hasCategory2ComputationalType: Boolean
Returns
true
if and only if the value has the computational type 2;false
in all other cases (including the case where this value is illegal!).Returns
true
if and only if the value has the computational type 2;false
in all other cases (including the case where this value is illegal!).- Definition Classes
- IsReferenceValue → ValueInformation
- final def isArrayValue: Answer
Returns
Yes
if the value is _not null_ and the least upper type bound is anArrayType
; the value isUnknown
if the least upper type bound isArrayType
but the value may be null; in all other casesNo
is returned; in particular if the value is known to be null.Returns
Yes
if the value is _not null_ and the least upper type bound is anArrayType
; the value isUnknown
if the least upper type bound isArrayType
but the value may be null; in all other casesNo
is returned; in particular if the value is known to be null.No
is also returned if the value's type isObject
orSeriablizable
orCloneable
.- Definition Classes
- IsSArrayValue → ValueInformation
- final def isIllegalValue: Boolean
Returns
true
iff this value is not a legal value according to the JVM specification.Returns
true
iff this value is not a legal value according to the JVM specification. Such values cannot be used to perform any computations and will generally not occur in static analyses unless the analysis or the bytecode is buggy.- Definition Classes
- KnownValue → ValueInformation
- Note
An IsIllegalValue can always be distinguished from a void value.
- final def isInstanceOf[T0]: Boolean
- Definition Classes
- Any
- def isNull: Answer
If
Yes
the value is known to always benull
at runtime.If
Yes
the value is known to always benull
at runtime. In this case the upper bound is (has to be) empty. If the answer isUnknown
then the analysis was not able to statically determine whether the value isnull
or is notnull
. In this case the upper bound is expected to be non-empty. If the answer isNo
then the value is statically known not to benull
. In this case, the upper bound may precisely identify the runtime type or still just identify an upper bound.- Definition Classes
- ASArrayWithLengthValue → IsReferenceValue
- def isPrecise: Boolean
Returns
true
if the type information is precise.Returns
true
if the type information is precise. I.e., the type returned byupperTypeBound
precisely models the runtime type of the value. If,isPrecise
returns true, the type of this value can generally be assumed to represent a class type (not an interface type) or an array type. However, this domain also supports the case thatisPrecise
returnstrue
even though the associated type identifies an interface type or an abstract class type. The later case may be interesting in the context of classes that are generated at run time.- Definition Classes
- ASArrayWithLengthValue → IsReferenceValue
- final def isPrimitiveValue: Boolean
Returns
true
in case of a value with primitive type.Returns
true
in case of a value with primitive type.- Definition Classes
- IsReferenceValue → ValueInformation
- Exceptions thrown
IllegalStateException
if this value is illegal.
- final def isReferenceValue: Boolean
Returns
true
if the value has a reference type.Returns
true
if the value has a reference type.- Definition Classes
- IsReferenceValue → ValueInformation
- Exceptions thrown
IllegalStateException
if this value is illegal.
- def isValueASubtypeOf(supertype: ReferenceType)(implicit classHierarchy: ClassHierarchy): Answer
Tests if the type of this value is potentially a subtype of the specified reference type under the assumption that this value is not
null
.Tests if the type of this value is potentially a subtype of the specified reference type under the assumption that this value is not
null
. This test takes the precision of the type information into account. That is, if the currently available type information is not precise and the given type has a subtype that is always a subtype of the current upper type bound, thenUnknown
is returned. Given that it may be computationally intensive to determine whether two types have a common subtype it may be better to just returnUnknown
in case that this type and the given type are not in a direct inheritance relationship.Basically, this method implements the same semantics as the
ClassHierarchy
'sisSubtypeOf
method, but it additionally checks if the type of this value could be a subtype of the given supertype. I.e., if this value's type identifies a supertype of the givensupertype
and that type is not known to be precise, the answer isUnknown
.For example, assume that the type of this reference value is
java.util.Collection
and we know/have to assume that this is only an upper bound. In this case an answer isNo
if and only if it is impossible that the runtime type is a subtype of the given supertype. This condition holds, for example, forjava.io.File
which is not a subclass ofjava.util.Collection
and which does not have any further subclasses (in the JDK). I.e., the classesjava.io.File
andjava.util.Collection
are not in an inheritance relationship. However, if the specified supertype would bejava.util.List
the answer would be unknown.- Definition Classes
- IsSArrayValue → IsReferenceValue
- Note
The function
isValueASubtypeOf
is not defined ifisNull
returnsYes
; ifisNull
isUnknown
then the result is given under the assumption that the value is notnull
at runtime. In other words, if this value representsnull
this method is not supported. If the value is null, the effect/interpretation of a subtype of query is context dependent (isInstanceOf/checkCast).
- final def isVoid: Boolean
Returns
true
if this value represents void.Returns
true
if this value represents void.- Definition Classes
- KnownTypedValue → ValueInformation
- final def leastUpperType: Option[ReferenceType]
The least upper type bound of the value.
The least upper type bound of the value.
None
if and only if the underlying value isnull
.- Definition Classes
- IsSReferenceValue → IsReferenceValue
- val length: Int
- 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 productElementNames: Iterator[String]
- Definition Classes
- Product
- final def synchronized[T0](arg0: => T0): T0
- Definition Classes
- AnyRef
- val theUpperTypeBound: ArrayType
- Definition Classes
- ASArrayWithLengthValue → IsSReferenceValue
- def toCanonicalForm: IsSArrayValue
Returns a
ValueInformation
object that just captures the basic information as defined by thisvalue
framework.Returns a
ValueInformation
object that just captures the basic information as defined by thisvalue
framework. The returned value information object will be independent of the underlying representation from which it was derived.- Definition Classes
- ASArrayWithLengthValue → IsBaseReferenceValue → IsReferenceValue → ValueInformation
- def toString(): String
- Definition Classes
- ASArrayWithLengthValue → AnyRef → Any
- final def upperTypeBound: UIDSet[ArrayType]
The upper bound of the value's type.
The upper bound of the value's type. The upper bound is empty if this value is
null
(i.e.,isNull == Yes
). The upper bound is only guaranteed to contain exactly one type if the type is precise. (i.e.,isPrecise == true
). Otherwise, the upper type bound may contain one or more types that are not known to be in an inheritance relation, but which will correctly approximate the runtime type.- Definition Classes
- IsSReferenceValue → IsReferenceValue
- Note
If only a part of a project is analyzed, the class hierarchy may be fragmented and it may happen that two classes that are indeed in an inheritance relation – if we would analyze the complete project – are part of the upper type bound.
- final def verificationTypeInfo: VerificationTypeInfo
The type of this value as used by the org.opalj.br.StackMapTable attribute.
The type of this value as used by the org.opalj.br.StackMapTable attribute.
- Definition Classes
- IsSArrayValue → ValueInformation
- Exceptions thrown
IllegalStateException
if this value represents void or a return address value.
- 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])
Deprecated Value Members
- def finalize(): Unit
- Attributes
- protected[lang]
- Definition Classes
- AnyRef
- Annotations
- @throws(classOf[java.lang.Throwable]) @Deprecated
- Deprecated