// Copyright 2015 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef V8_INTERPRETER_BYTECODE_REGISTER_ALLOCATOR_H_ #define V8_INTERPRETER_BYTECODE_REGISTER_ALLOCATOR_H_ #include "src/interpreter/bytecode-register.h" #include "src/interpreter/bytecodes.h" #include "src/zone/zone-containers.h" namespace v8 { namespace internal { namespace interpreter { // A class that allows the allocation of contiguous temporary registers. class BytecodeRegisterAllocator final { public: // Enables observation of register allocation and free events. class Observer { public: virtual ~Observer() {} virtual void RegisterAllocateEvent(Register reg) = 0; virtual void RegisterListAllocateEvent(RegisterList reg_list) = 0; virtual void RegisterListFreeEvent(RegisterList reg_list) = 0; }; explicit BytecodeRegisterAllocator(int start_index) : next_register_index_(start_index), max_register_count_(start_index), observer_(nullptr) {} ~BytecodeRegisterAllocator() {} // Returns a new register. Register NewRegister() { Register reg(next_register_index_++); max_register_count_ = std::max(next_register_index_, max_register_count_); if (observer_) { observer_->RegisterAllocateEvent(reg); } return reg; } // Returns a consecutive list of |count| new registers. RegisterList NewRegisterList(int count) { RegisterList reg_list(next_register_index_, count); next_register_index_ += count; max_register_count_ = std::max(next_register_index_, max_register_count_); if (observer_) { observer_->RegisterListAllocateEvent(reg_list); } return reg_list; } // Returns a growable register list. RegisterList NewGrowableRegisterList() { RegisterList reg_list(next_register_index_, 0); return reg_list; } // Appends a new register to |reg_list| increasing it's count by one and // returning the register added. // // Note: no other new registers must be currently allocated since the register // list was originally allocated. Register GrowRegisterList(RegisterList* reg_list) { Register reg(NewRegister()); reg_list->IncrementRegisterCount(); // If the following CHECK fails then a register was allocated (and not // freed) between the creation of the RegisterList and this call to add a // Register. CHECK_EQ(reg.index(), reg_list->last_register().index()); return reg; } // Release all registers above |register_index|. void ReleaseRegisters(int register_index) { int count = next_register_index_ - register_index; next_register_index_ = register_index; if (observer_) { observer_->RegisterListFreeEvent(RegisterList(register_index, count)); } } // Returns true if the register |reg| is a live register. bool RegisterIsLive(Register reg) const { return reg.index() < next_register_index_; } // Returns a register list for all currently live registers. RegisterList AllLiveRegisters() const { return RegisterList(0, next_register_index()); } void set_observer(Observer* observer) { observer_ = observer; } int next_register_index() const { return next_register_index_; } int maximum_register_count() const { return max_register_count_; } private: int next_register_index_; int max_register_count_; Observer* observer_; DISALLOW_COPY_AND_ASSIGN(BytecodeRegisterAllocator); }; } // namespace interpreter } // namespace internal } // namespace v8 #endif // V8_INTERPRETER_BYTECODE_REGISTER_ALLOCATOR_H_