Google Git
Sign in
chromium / external / github.com / WebKit / webkit / c04a30142652ac76320e0c52f8e44bb8df4ef07f / . / Source / JavaScriptCore / dfg / DFGInPlaceAbstractState.h
blob: 831872fe2d3502e530d714ca252631c13170e157 [file] [log] [blame]
/*
* Copyright (C) 2013-2018 Apple Inc. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#pragma once
#if ENABLE(DFG_JIT)
#include "DFGAbstractInterpreterClobberState.h"
#include "DFGAbstractValue.h"
#include "DFGBranchDirection.h"
#include "DFGFlowMap.h"
#include "DFGGraph.h"
#include "DFGNode.h"
namespace JSC { namespace DFG {
class InPlaceAbstractState {
WTF_MAKE_FAST_ALLOCATED;
public:
InPlaceAbstractState(Graph&);
~InPlaceAbstractState();
explicit operator bool() const { return true; }
void createValueForNode(NodeFlowProjection) { }
ALWAYS_INLINE AbstractValue& fastForward(AbstractValue& value)
{
value.fastForwardTo(m_effectEpoch);
return value;
}
ALWAYS_INLINE void fastForwardAndFilterUnproven(AbstractValue& value, SpeculatedType type)
{
value.fastForwardToAndFilterUnproven(m_effectEpoch, type);
}
ALWAYS_INLINE AbstractValue& forNodeWithoutFastForward(NodeFlowProjection node)
{
return m_abstractValues.at(node);
}
ALWAYS_INLINE AbstractValue& forNodeWithoutFastForward(Edge edge)
{
return forNodeWithoutFastForward(edge.node());
}
ALWAYS_INLINE AbstractValue& forNode(NodeFlowProjection node)
{
return fastForward(m_abstractValues.at(node));
}
ALWAYS_INLINE AbstractValue& forNode(Edge edge)
{
return forNode(edge.node());
}
ALWAYS_INLINE void clearForNode(NodeFlowProjection node)
{
AbstractValue& value = m_abstractValues.at(node);
value.clear();
value.m_effectEpoch = m_effectEpoch;
}
ALWAYS_INLINE void clearForNode(Edge edge)
{
clearForNode(edge.node());
}
template<typename... Arguments>
ALWAYS_INLINE void setForNode(NodeFlowProjection node, Arguments&&... arguments)
{
AbstractValue& value = m_abstractValues.at(node);
value.set(m_graph, std::forward<Arguments>(arguments)...);
value.m_effectEpoch = m_effectEpoch;
}
template<typename... Arguments>
ALWAYS_INLINE void setForNode(Edge edge, Arguments&&... arguments)
{
setForNode(edge.node(), std::forward<Arguments>(arguments)...);
}
template<typename... Arguments>
ALWAYS_INLINE void setTypeForNode(NodeFlowProjection node, Arguments&&... arguments)
{
AbstractValue& value = m_abstractValues.at(node);
value.setType(m_graph, std::forward<Arguments>(arguments)...);
value.m_effectEpoch = m_effectEpoch;
}
template<typename... Arguments>
ALWAYS_INLINE void setTypeForNode(Edge edge, Arguments&&... arguments)
{
setTypeForNode(edge.node(), std::forward<Arguments>(arguments)...);
}
template<typename... Arguments>
ALWAYS_INLINE void setNonCellTypeForNode(NodeFlowProjection node, Arguments&&... arguments)
{
AbstractValue& value = m_abstractValues.at(node);
value.setNonCellType(std::forward<Arguments>(arguments)...);
value.m_effectEpoch = m_effectEpoch;
}
template<typename... Arguments>
ALWAYS_INLINE void setNonCellTypeForNode(Edge edge, Arguments&&... arguments)
{
setNonCellTypeForNode(edge.node(), std::forward<Arguments>(arguments)...);
}
ALWAYS_INLINE void makeBytecodeTopForNode(NodeFlowProjection node)
{
AbstractValue& value = m_abstractValues.at(node);
value.makeBytecodeTop();
value.m_effectEpoch = m_effectEpoch;
}
ALWAYS_INLINE void makeBytecodeTopForNode(Edge edge)
{
makeBytecodeTopForNode(edge.node());
}
ALWAYS_INLINE void makeHeapTopForNode(NodeFlowProjection node)
{
AbstractValue& value = m_abstractValues.at(node);
value.makeHeapTop();
value.m_effectEpoch = m_effectEpoch;
}
ALWAYS_INLINE void makeHeapTopForNode(Edge edge)
{
makeHeapTopForNode(edge.node());
}
Operands<AbstractValue>& variablesForDebugging();
unsigned numberOfArguments() const { return m_variables.numberOfArguments(); }
unsigned numberOfLocals() const { return m_variables.numberOfLocals(); }
AbstractValue& variableAt(size_t index)
{
activateVariableIfNecessary(index);
return fastForward(m_variables[index]);
}
AbstractValue& operand(int operand)
{
return variableAt(m_variables.operandIndex(operand));
}
AbstractValue& operand(VirtualRegister operand) { return this->operand(operand.offset()); }
AbstractValue& local(size_t index)
{
return variableAt(m_variables.localIndex(index));
}
AbstractValue& argument(size_t index)
{
return variableAt(m_variables.argumentIndex(index));
}
// Call this before beginning CFA to initialize the abstract values of
// arguments, and to indicate which blocks should be listed for CFA
// execution.
void initialize();
// Start abstractly executing the given basic block. Initializes the
// notion of abstract state to what we believe it to be at the head
// of the basic block, according to the basic block's data structures.
// This method also sets cfaShouldRevisit to false.
void beginBasicBlock(BasicBlock*);
BasicBlock* block() const { return m_block; }
// Finish abstractly executing a basic block. If MergeToTail or
// MergeToSuccessors is passed, then this merges everything we have
// learned about how the state changes during this block's execution into
// the block's data structures.
//
// Returns true if the state of the block at the tail was changed,
// and, if the state at the heads of successors was changed.
// A true return means that you must revisit (at least) the successor
// blocks. This also sets cfaShouldRevisit to true for basic blocks
// that must be visited next.
bool endBasicBlock();
// Reset the AbstractState. This throws away any results, and at this point
// you can safely call beginBasicBlock() on any basic block.
void reset();
AbstractInterpreterClobberState clobberState() const { return m_clobberState; }
// Would have the last executed node clobbered things had we not found a way to fold it?
bool didClobberOrFolded() const { return clobberState() != AbstractInterpreterClobberState::NotClobbered; }
// Did the last executed node clobber the world?
bool didClobber() const { return clobberState() == AbstractInterpreterClobberState::ClobberedStructures; }
// Are structures currently clobbered?
StructureClobberState structureClobberState() const { return m_structureClobberState; }
// Is the execution state still valid? This will be false if execute() has
// returned false previously.
bool isValid() const { return m_isValid; }
// Merge the abstract state stored at the first block's tail into the second
// block's head. Returns true if the second block's state changed. If so,
// that block must be abstractly interpreted again. This also sets
// to->cfaShouldRevisit to true, if it returns true, or if to has not been
// visited yet.
bool merge(BasicBlock* from, BasicBlock* to);
// Merge the abstract state stored at the block's tail into all of its
// successors. Returns true if any of the successors' states changed. Note
// that this is automatically called in endBasicBlock() if MergeMode is
// MergeToSuccessors.
bool mergeToSuccessors(BasicBlock*);
void clobberStructures() { m_effectEpoch.clobber(); }
void observeInvalidationPoint() { m_effectEpoch.observeInvalidationPoint(); }
// Methods intended to be called from AbstractInterpreter.
void setClobberState(AbstractInterpreterClobberState state) { m_clobberState = state; }
void mergeClobberState(AbstractInterpreterClobberState state) { m_clobberState = mergeClobberStates(m_clobberState, state); }
void setStructureClobberState(StructureClobberState value) { m_structureClobberState = value; }
void setIsValid(bool isValid) { m_isValid = isValid; }
void setBranchDirection(BranchDirection branchDirection) { m_branchDirection = branchDirection; }
// This method is evil - it causes a huge maintenance headache and there is a gross amount of
// code devoted to it. It would be much nicer to just always run the constant folder on each
// block. But, the last time we did it, it was a 1% SunSpider regression:
// https://bugs.webkit.org/show_bug.cgi?id=133947
// So, we should probably keep this method.
void setFoundConstants(bool foundConstants) { m_foundConstants = foundConstants; }
void setProofStatus(Edge& edge, ProofStatus status)
{
edge.setProofStatus(status);
}
private:
ALWAYS_INLINE void activateVariableIfNecessary(size_t variableIndex)
{
if (!m_activeVariables[variableIndex])
activateVariable(variableIndex);
}
void activateVariable(size_t variableIndex);
void activateAllVariables();
static bool mergeVariableBetweenBlocks(AbstractValue& destination, AbstractValue& source, Node* destinationNode, Node* sourceNode);
Graph& m_graph;
FlowMap<AbstractValue>& m_abstractValues;
Operands<AbstractValue> m_variables;
FastBitVector m_activeVariables;
BasicBlock* m_block;
bool m_foundConstants;
bool m_isValid;
AbstractInterpreterClobberState m_clobberState;
StructureClobberState m_structureClobberState;
AbstractValueClobberEpoch m_epochAtHead;
AbstractValueClobberEpoch m_effectEpoch;
BranchDirection m_branchDirection; // This is only set for blocks that end in Branch and that execute to completion (i.e. m_isValid == true).
};
} } // namespace JSC::DFG
#endif // ENABLE(DFG_JIT)