- java.lang.Object
-
- java.lang.ClassValue<T>
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public abstract class ClassValue<T> extends Object
Lazily associate a computed value with (potentially) every type. For example, if a dynamic language needs to construct a message dispatch table for each class encountered at a message send call site, it can use aClassValue
to cache information needed to perform the message send quickly, for each class encountered.- Since:
- 1.7
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Constructor Summary
Constructors Modifier Constructor and Description protected
ClassValue()
Sole constructor.
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Method Summary
Methods Modifier and Type Method and Description protected abstract T
computeValue(Class<?> type)
Computes the given class's derived value for thisClassValue
.T
get(Class<?> type)
Returns the value for the given class.void
remove(Class<?> type)
Removes the associated value for the given class.
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-
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Constructor Detail
-
ClassValue
protected ClassValue()
Sole constructor. (For invocation by subclass constructors, typically implicit.)
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Method Detail
-
computeValue
protected abstract T computeValue(Class<?> type)
Computes the given class's derived value for thisClassValue
.This method will be invoked within the first thread that accesses the value with the
get
method.Normally, this method is invoked at most once per class, but it may be invoked again if there has been a call to
remove
.If this method throws an exception, the corresponding call to
get
will terminate abnormally with that exception, and no class value will be recorded.- Parameters:
type
- the type whose class value must be computed- Returns:
- the newly computed value associated with this
ClassValue
, for the given class or interface - See Also:
get(java.lang.Class<?>)
,remove(java.lang.Class<?>)
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get
public T get(Class<?> type)
Returns the value for the given class. If no value has yet been computed, it is obtained by an invocation of thecomputeValue
method.The actual installation of the value on the class is performed atomically. At that point, if several racing threads have computed values, one is chosen, and returned to all the racing threads.
The
type
parameter is typically a class, but it may be any type, such as an interface, a primitive type (likeint.class
), orvoid.class
.In the absence of
remove
calls, a class value has a simple state diagram: uninitialized and initialized. Whenremove
calls are made, the rules for value observation are more complex. See the documentation forremove
for more information.- Parameters:
type
- the type whose class value must be computed or retrieved- Returns:
- the current value associated with this
ClassValue
, for the given class or interface - Throws:
NullPointerException
- if the argument is null- See Also:
remove(java.lang.Class<?>)
,computeValue(java.lang.Class<?>)
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remove
public void remove(Class<?> type)
Removes the associated value for the given class. If this value is subsequently read for the same class, its value will be reinitialized by invoking itscomputeValue
method. This may result in an additional invocation of thecomputeValue
method for the given class.In order to explain the interaction between
get
andremove
calls, we must model the state transitions of a class value to take into account the alternation between uninitialized and initialized states. To do this, number these states sequentially from zero, and note that uninitialized (or removed) states are numbered with even numbers, while initialized (or re-initialized) states have odd numbers.When a thread
T
removes a class value in state2N
, nothing happens, since the class value is already uninitialized. Otherwise, the state is advanced atomically to2N+1
.When a thread
T
queries a class value in state2N
, the thread first attempts to initialize the class value to state2N+1
by invokingcomputeValue
and installing the resulting value.When
T
attempts to install the newly computed value, if the state is still at2N
, the class value will be initialized with the computed value, advancing it to state2N+1
.Otherwise, whether the new state is even or odd,
T
will discard the newly computed value and retry theget
operation.Discarding and retrying is an important proviso, since otherwise
T
could potentially install a disastrously stale value. For example:T
callsCV.get(C)
and sees state2N
T
quickly computes a time-dependent valueV0
and gets ready to install itT
is hit by an unlucky paging or scheduling event, and goes to sleep for a long time- ...meanwhile,
T2
also callsCV.get(C)
and sees state2N
T2
quickly computes a similar time-dependent valueV1
and installs it onCV.get(C)
T2
(or a third thread) then callsCV.remove(C)
, undoingT2
's work- the previous actions of
T2
are repeated several times - also, the relevant computed values change over time:
V1
,V2
, ... - ...meanwhile,
T
wakes up and attempts to installV0
; this must fail
CV.computeValue
uses locks to properly observe the time-dependent states as it computesV1
, etc. This does not remove the threat of a stale value, since there is a window of time between the return ofcomputeValue
inT
and the installation of the the new value. No user synchronization is possible during this time.- Parameters:
type
- the type whose class value must be removed- Throws:
NullPointerException
- if the argument is null
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