V
- the abstract value type to be tracked by the analysisS
- the store type used in the analysisT
- the transfer function type that is used to approximated runtime behaviorpublic abstract class AbstractAnalysis<V extends AbstractValue<V>,S extends Store<S>,T extends TransferFunction<V,S>> extends Object implements Analysis<V,S,T>
BackwardAnalysisImpl
and ForwardAnalysisImpl
.Modifier and Type | Class and Description |
---|---|
protected static class |
AbstractAnalysis.Worklist
A worklist is a priority queue of blocks in which the order is given by depth-first ordering
to place non-loop predecessors ahead of successors.
|
Analysis.Direction
Modifier and Type | Field and Description |
---|---|
protected @MonotonicNonNull ControlFlowGraph |
cfg
The current control flow graph to perform the analysis on.
|
protected @Nullable TransferInput<V,S> |
currentInput
The current transfer input when the analysis is running.
|
protected @Nullable Node |
currentNode
The node that is currently handled in the analysis (if it is running).
|
protected @Nullable Tree |
currentTree
The tree that is currently being looked at.
|
protected Analysis.Direction |
direction
The direction of this analysis.
|
protected HashMap<Element,V> |
finalLocalValues
Map from (effectively final) local variable elements to their abstract value.
|
protected IdentityHashMap<Block,TransferInput<V,S>> |
inputs
The transfer inputs of every basic block (assumed to be 'no information' if not present,
inputs before blocks in forward analysis, after blocks in backward analysis).
|
protected boolean |
isRunning
Is the analysis currently running?
|
protected IdentityHashMap<Node,V> |
nodeValues
Abstract values of nodes.
|
protected T |
transferFunction
The transfer function for regular nodes.
|
protected AbstractAnalysis.Worklist |
worklist
The worklist used for the fix-point iteration.
|
Modifier | Constructor and Description |
---|---|
protected |
AbstractAnalysis(Analysis.Direction direction)
Implementation of common features for
BackwardAnalysisImpl and ForwardAnalysisImpl . |
Modifier and Type | Method and Description |
---|---|
protected void |
addToWorklist(Block b)
Add a basic block to
worklist . |
protected TransferResult<V,S> |
callTransferFunction(Node node,
TransferInput<V,S> transferInput)
Call the transfer function for node
node , and set that node as current node first. |
@Nullable ClassTree |
getContainingClass(Tree t)
|
@Nullable MethodTree |
getContainingMethod(Tree t)
Get the
MethodTree of the current CFG if the argument Tree maps to a Node in the CFG or null otherwise. |
@Nullable Tree |
getCurrentTree()
Returns the tree that is currently being looked at.
|
Analysis.Direction |
getDirection()
Get the direction of this analysis.
|
S |
getExceptionalExitStore()
Returns the exceptional exit store.
|
@Nullable Set<Node> |
getNodesForTree(Tree t)
|
IdentityHashMap<Node,V> |
getNodeValues()
Returns all current node values.
|
S |
getRegularExitStore()
Returns the regular exit store, or
null , if there is no such store (because the
method cannot exit through the regular exit block). |
AnalysisResult<V,S> |
getResult()
The result of running the analysis.
|
T |
getTransferFunction()
Get the transfer function of this analysis.
|
V |
getValue(Node n)
|
V |
getValue(Tree t)
|
protected void |
init(ControlFlowGraph cfg)
Initialize the analysis with a new control flow graph.
|
protected void |
initFields(ControlFlowGraph cfg)
Initialize class fields based on a given control flow graph.
|
protected abstract void |
initInitialInputs()
Initialize the transfer inputs of every basic block before performing the analysis.
|
boolean |
isRunning()
Is the analysis currently running?
|
protected abstract void |
propagateStoresTo(Block nextBlock,
Node node,
TransferInput<V,S> currentInput,
Store.FlowRule flowRule,
boolean addToWorklistAgain)
Propagate the stores in
currentInput to the next block in the direction of analysis,
according to the flowRule . |
protected static <S> S |
readFromStore(Map<Block,S> stores,
Block b)
Read the store for a particular basic block from a map of stores (or
null if none
exists yet). |
void |
setCurrentTree(Tree currentTree)
Set the tree that is currently being looked at.
|
protected boolean |
updateNodeValues(Node node,
TransferResult<V,S> transferResult)
Updates the value of node
node to the value of the transferResult . |
clone, equals, finalize, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
getInput, performAnalysis, performAnalysisBlock, runAnalysisFor
protected final Analysis.Direction direction
protected boolean isRunning
protected T extends TransferFunction<V,S> transferFunction
protected @MonotonicNonNull ControlFlowGraph cfg
protected final IdentityHashMap<Block,TransferInput<V extends AbstractValue<V>,S extends Store<S>>> inputs
protected final AbstractAnalysis.Worklist worklist
protected final IdentityHashMap<Node,V extends AbstractValue<V>> nodeValues
protected final HashMap<Element,V extends AbstractValue<V>> finalLocalValues
protected @Nullable Node currentNode
!isRunning ==> (currentNode == null)
protected @Nullable Tree currentTree
getValue
will not return information for this given tree.protected @Nullable TransferInput<V extends AbstractValue<V>,S extends Store<S>> currentInput
protected AbstractAnalysis(Analysis.Direction direction)
BackwardAnalysisImpl
and ForwardAnalysisImpl
.direction
- direction of the analysispublic @Nullable Tree getCurrentTree()
getValue
will not return information for this given tree.public void setCurrentTree(Tree currentTree)
currentTree
- the tree that should be currently looked at@RequiresNonNull(value="cfg") protected abstract void initInitialInputs()
protected abstract void propagateStoresTo(Block nextBlock, Node node, TransferInput<V,S> currentInput, Store.FlowRule flowRule, boolean addToWorklistAgain)
currentInput
to the next block in the direction of analysis,
according to the flowRule
.nextBlock
- the target block to propagate the stores tonode
- the node of the target blockcurrentInput
- the current transfer inputflowRule
- the flow rule being usedaddToWorklistAgain
- whether the block should be added to worklist
againpublic boolean isRunning()
Analysis
public Analysis.Direction getDirection()
Analysis
getDirection
in interface Analysis<V extends AbstractValue<V>,S extends Store<S>,T extends TransferFunction<V,S>>
@RequiresNonNull(value="cfg") public AnalysisResult<V,S> getResult()
Analysis
public T getTransferFunction()
Analysis
getTransferFunction
in interface Analysis<V extends AbstractValue<V>,S extends Store<S>,T extends TransferFunction<V,S>>
public V getValue(Node n)
Analysis
Node
n
, or null
if no information is
available. Note that if the analysis has not finished yet, this value might not represent the
final value for this node.public IdentityHashMap<Node,V> getNodeValues()
nodeValues
@RequiresNonNull(value="cfg") public S getRegularExitStore()
Analysis
null
, if there is no such store (because the
method cannot exit through the regular exit block).getRegularExitStore
in interface Analysis<V extends AbstractValue<V>,S extends Store<S>,T extends TransferFunction<V,S>>
null
, if there is no such store (because the
method cannot exit through the regular exit block)@RequiresNonNull(value="cfg") public S getExceptionalExitStore()
Analysis
getExceptionalExitStore
in interface Analysis<V extends AbstractValue<V>,S extends Store<S>,T extends TransferFunction<V,S>>
public @Nullable Set<Node> getNodesForTree(Tree t)
t
- the given treepublic V getValue(Tree t)
Tree
t
, or null
if no information is
available. Note that if the analysis has not finished yet, this value might not represent the
final value for this node.t
- the given treepublic @Nullable MethodTree getContainingMethod(Tree t)
MethodTree
of the current CFG if the argument Tree
maps to a Node
in the CFG or null
otherwise.t
- the given treepublic @Nullable ClassTree getContainingClass(Tree t)
ClassTree
of the current CFG if the argument Tree
maps to a Node
in the CFG or null
otherwise.t
- the given treeprotected TransferResult<V,S> callTransferFunction(Node node, TransferInput<V,S> transferInput)
node
, and set that node as current node first.
This method requires a transferInput
that the method can modify.node
- the given nodetransferInput
- the transfer inputprotected final void init(ControlFlowGraph cfg)
cfg
- the control flow graph to use@EnsuresNonNull(value="this.cfg") protected void initFields(ControlFlowGraph cfg)
cfg
- a given control flow graphprotected boolean updateNodeValues(Node node, TransferResult<V,S> transferResult)
node
to the value of the transferResult
. Returns
true if the node's value changed, or a store was updated.node
- the node to updatetransferResult
- the transfer result being updatedprotected static <S> S readFromStore(Map<Block,S> stores, Block b)
null
if none
exists yet).S
- method return type should be a subtype of Store
stores
- a map of storesb
- the target block