darling-JavaScriptCore/b3/B3Procedure.h

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/*
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* Copyright (C) 2015-2017 Apple Inc. All rights reserved.
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*
* 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(B3_JIT)
#include "B3OpaqueByproducts.h"
#include "B3Origin.h"
#include "B3PCToOriginMap.h"
#include "B3SparseCollection.h"
#include "B3Type.h"
#include "B3ValueKey.h"
#include "PureNaN.h"
#include "RegisterAtOffsetList.h"
#include <wtf/Bag.h>
#include <wtf/FastMalloc.h>
#include <wtf/HashSet.h>
#include <wtf/IndexedContainerIterator.h>
#include <wtf/Noncopyable.h>
#include <wtf/PrintStream.h>
#include <wtf/SharedTask.h>
#include <wtf/TriState.h>
#include <wtf/Vector.h>
namespace JSC {
class CCallHelpers;
namespace B3 {
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class BackwardsCFG;
class BackwardsDominators;
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class BasicBlock;
class BlockInsertionSet;
class CFG;
class Dominators;
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class NaturalLoops;
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class StackSlot;
class Value;
class Variable;
namespace Air { class Code; }
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typedef void WasmBoundsCheckGeneratorFunction(CCallHelpers&, GPRReg);
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typedef SharedTask<WasmBoundsCheckGeneratorFunction> WasmBoundsCheckGenerator;
// This represents B3's view of a piece of code. Note that this object must exist in a 1:1
// relationship with Air::Code. B3::Procedure and Air::Code are just different facades of the B3
// compiler's knowledge about a piece of code. Some kinds of state aren't perfect fits for either
// Procedure or Code, and are placed in one or the other based on convenience. Procedure always
// allocates a Code, and a Code cannot be allocated without an owning Procedure and they always
// have references to each other.
class Procedure {
WTF_MAKE_NONCOPYABLE(Procedure);
WTF_MAKE_FAST_ALLOCATED;
public:
JS_EXPORT_PRIVATE Procedure();
JS_EXPORT_PRIVATE ~Procedure();
template<typename Callback>
void setOriginPrinter(Callback&& callback)
{
m_originPrinter = createSharedTask<void(PrintStream&, Origin)>(
std::forward<Callback>(callback));
}
// Usually you use this via OriginDump, though it's cool to use it directly.
void printOrigin(PrintStream& out, Origin origin) const;
// This is a debugging hack. Sometimes while debugging B3 you need to break the abstraction
// and get at the DFG Graph, or whatever data structure the frontend used to describe the
// program. The FTL passes the DFG Graph.
void setFrontendData(const void* value) { m_frontendData = value; }
const void* frontendData() const { return m_frontendData; }
JS_EXPORT_PRIVATE BasicBlock* addBlock(double frequency = 1);
// Changes the order of basic blocks to be as in the supplied vector. The vector does not
// need to mention every block in the procedure. Blocks not mentioned will be placed after
// these blocks in the same order as they were in originally.
template<typename BlockIterable>
void setBlockOrder(const BlockIterable& iterable)
{
Vector<BasicBlock*> blocks;
for (BasicBlock* block : iterable)
blocks.append(block);
setBlockOrderImpl(blocks);
}
JS_EXPORT_PRIVATE StackSlot* addStackSlot(unsigned byteSize);
JS_EXPORT_PRIVATE Variable* addVariable(Type);
JS_EXPORT_PRIVATE Type addTuple(Vector<Type>&& types);
const Vector<Vector<Type>>& tuples() const { return m_tuples; };
bool isValidTuple(Type tuple) const;
Type extractFromTuple(Type tuple, unsigned index) const;
JS_EXPORT_PRIVATE const Vector<Type>& tupleForType(Type tuple) const;
unsigned resultCount(Type type) const { return type.isTuple() ? tupleForType(type).size() : type.isNumeric(); }
Type typeAtOffset(Type type, unsigned index) const { ASSERT(index < resultCount(type)); return type.isTuple() ? extractFromTuple(type, index) : type; }
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template<typename ValueType, typename... Arguments>
ValueType* add(Arguments...);
Value* clone(Value*);
Value* addIntConstant(Origin, Type, int64_t value);
Value* addIntConstant(Value*, int64_t value);
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// bits is a bitwise_cast of the constant you want.
JS_EXPORT_PRIVATE Value* addConstant(Origin, Type, uint64_t bits);
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// You're guaranteed that bottom is zero.
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Value* addBottom(Origin, Type);
Value* addBottom(Value*);
// Returns null for TriState::Indeterminate.
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Value* addBoolConstant(Origin, TriState);
void resetValueOwners();
JS_EXPORT_PRIVATE void resetReachability();
// This destroys CFG analyses. If we ask for them again, we will recompute them. Usually you
// should call this anytime you call resetReachability().
void invalidateCFG();
JS_EXPORT_PRIVATE void dump(PrintStream&) const;
unsigned size() const { return m_blocks.size(); }
BasicBlock* at(unsigned index) const { return m_blocks[index].get(); }
BasicBlock* operator[](unsigned index) const { return at(index); }
typedef WTF::IndexedContainerIterator<Procedure> iterator;
iterator begin() const { return iterator(*this, 0); }
iterator end() const { return iterator(*this, size()); }
Vector<BasicBlock*> blocksInPreOrder();
Vector<BasicBlock*> blocksInPostOrder();
SparseCollection<StackSlot>& stackSlots() { return m_stackSlots; }
const SparseCollection<StackSlot>& stackSlots() const { return m_stackSlots; }
// Short for stackSlots().remove(). It's better to call this method since it's out of line.
void deleteStackSlot(StackSlot*);
SparseCollection<Variable>& variables() { return m_variables; }
const SparseCollection<Variable>& variables() const { return m_variables; }
// Short for variables().remove(). It's better to call this method since it's out of line.
void deleteVariable(Variable*);
SparseCollection<Value>& values() { return m_values; }
const SparseCollection<Value>& values() const { return m_values; }
// Short for values().remove(). It's better to call this method since it's out of line.
void deleteValue(Value*);
// A valid procedure cannot contain any orphan values. An orphan is a value that is not in
// any basic block. It is possible to create an orphan value during code generation or during
// transformation. If you know that you may have created some, you can call this method to
// delete them, making the procedure valid again.
void deleteOrphans();
CFG& cfg() const { return *m_cfg; }
Dominators& dominators();
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NaturalLoops& naturalLoops();
BackwardsCFG& backwardsCFG();
BackwardsDominators& backwardsDominators();
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void addFastConstant(const ValueKey&);
bool isFastConstant(const ValueKey&);
unsigned numEntrypoints() const { return m_numEntrypoints; }
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JS_EXPORT_PRIVATE void setNumEntrypoints(unsigned);
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// The name has to be a string literal, since we don't do any memory management for the string.
void setLastPhaseName(const char* name)
{
m_lastPhaseName = name;
}
const char* lastPhaseName() const { return m_lastPhaseName; }
// Allocates a slab of memory that will be kept alive by anyone who keeps the resulting code
// alive. Great for compiler-generated data sections, like switch jump tables and constant pools.
// This returns memory that has been zero-initialized.
JS_EXPORT_PRIVATE void* addDataSection(size_t);
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// Some operations are specified in B3 IR to behave one way but on this given CPU they behave a
// different way. When true, those B3 IR ops switch to behaving the CPU way, and the optimizer may
// start taking advantage of it.
//
// One way to think of it is like this. Imagine that you find that the cleanest way of lowering
// something in lowerMacros is to unconditionally replace one opcode with another. This is a shortcut
// where you instead keep the same opcode, but rely on the opcode's meaning changes once lowerMacros
// sets hasQuirks.
bool hasQuirks() const { return m_hasQuirks; }
void setHasQuirks(bool value) { m_hasQuirks = value; }
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OpaqueByproducts& byproducts() { return *m_byproducts; }
// Below are methods that make sense to call after you have generated code for the procedure.
// You have to call this method after calling generate(). The code generated by B3::generate()
// will require you to keep this object alive for as long as that code is runnable. Usually, this
// just keeps alive things like the double constant pool and switch lookup tables. If this sounds
// confusing, you should probably be using the B3::Compilation API to compile code. If you use
// that API, then you don't have to worry about this.
std::unique_ptr<OpaqueByproducts> releaseByproducts() { return WTFMove(m_byproducts); }
// This gives you direct access to Code. However, the idea is that clients of B3 shouldn't have to
// call this. So, Procedure has some methods (below) that expose some Air::Code functionality.
const Air::Code& code() const { return *m_code; }
Air::Code& code() { return *m_code; }
unsigned callArgAreaSizeInBytes() const;
void requestCallArgAreaSizeInBytes(unsigned size);
// This tells the register allocators to stay away from this register.
JS_EXPORT_PRIVATE void pinRegister(Reg);
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JS_EXPORT_PRIVATE void setOptLevel(unsigned value);
unsigned optLevel() const { return m_optLevel; }
// You can turn off used registers calculation. This may speed up compilation a bit. But if
// you turn it off then you cannot use StackmapGenerationParams::usedRegisters() or
// StackmapGenerationParams::unavailableRegisters().
void setNeedsUsedRegisters(bool value) { m_needsUsedRegisters = value; }
bool needsUsedRegisters() const { return m_needsUsedRegisters; }
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JS_EXPORT_PRIVATE unsigned frameSize() const;
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JS_EXPORT_PRIVATE RegisterAtOffsetList calleeSaveRegisterAtOffsetList() const;
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PCToOriginMap& pcToOriginMap() { return m_pcToOriginMap; }
PCToOriginMap releasePCToOriginMap() { return WTFMove(m_pcToOriginMap); }
JS_EXPORT_PRIVATE void setWasmBoundsCheckGenerator(RefPtr<WasmBoundsCheckGenerator>);
template<typename Functor>
void setWasmBoundsCheckGenerator(const Functor& functor)
{
setWasmBoundsCheckGenerator(RefPtr<WasmBoundsCheckGenerator>(createSharedTask<WasmBoundsCheckGeneratorFunction>(functor)));
}
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JS_EXPORT_PRIVATE RegisterSet mutableGPRs();
JS_EXPORT_PRIVATE RegisterSet mutableFPRs();
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private:
friend class BlockInsertionSet;
JS_EXPORT_PRIVATE Value* addValueImpl(Value*);
void setBlockOrderImpl(Vector<BasicBlock*>&);
SparseCollection<StackSlot> m_stackSlots;
SparseCollection<Variable> m_variables;
Vector<Vector<Type>> m_tuples;
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Vector<std::unique_ptr<BasicBlock>> m_blocks;
SparseCollection<Value> m_values;
std::unique_ptr<CFG> m_cfg;
std::unique_ptr<Dominators> m_dominators;
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std::unique_ptr<NaturalLoops> m_naturalLoops;
std::unique_ptr<BackwardsCFG> m_backwardsCFG;
std::unique_ptr<BackwardsDominators> m_backwardsDominators;
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HashSet<ValueKey> m_fastConstants;
unsigned m_numEntrypoints { 1 };
const char* m_lastPhaseName;
std::unique_ptr<OpaqueByproducts> m_byproducts;
std::unique_ptr<Air::Code> m_code;
RefPtr<SharedTask<void(PrintStream&, Origin)>> m_originPrinter;
const void* m_frontendData;
PCToOriginMap m_pcToOriginMap;
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unsigned m_optLevel { defaultOptLevel() };
bool m_needsUsedRegisters { true };
bool m_hasQuirks { false };
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};
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} } // namespace JSC::B3
#endif // ENABLE(B3_JIT)