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f50e8b5106
% +1 would be 'more correct', but I think this approach is probably misguided.
90 lines
2.6 KiB
C++
90 lines
2.6 KiB
C++
//
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// Disassembler.hpp
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// Clock Signal
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//
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// Created by Thomas Harte on 26/01/2021.
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// Copyright © 2021 Thomas Harte. All rights reserved.
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//
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#ifndef Disassembler_hpp
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#define Disassembler_hpp
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#include "Sizes.hpp"
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#include <list>
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#include <map>
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#include <set>
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namespace InstructionSet {
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template <
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/// Indicates the Parser for this platform.
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template<typename, bool> class ParserType,
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/// Indicates the greatest value the program counter might take.
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uint64_t max_address,
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/// Provides the type of Instruction to expect.
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typename InstructionType,
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/// Provides the storage size used for memory.
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typename MemoryWord,
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/// Provides the addressing range of memory.
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typename AddressType
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> class Disassembler {
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public:
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using ProgramCounterType = typename MinIntTypeValue<max_address>::type;
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/*!
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Adds the result of disassembling @c memory which is @c length @c MemoryWords long from @c start_address
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to the current net total of instructions and recorded memory accesses.
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*/
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void disassemble(const MemoryWord *memory, ProgramCounterType location, ProgramCounterType length, ProgramCounterType start_address) {
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// TODO: possibly, move some of this stuff to instruction-set specific disassemblers, analogous to
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// the Executor's ownership of the Parser. That would allow handling of stateful parsing.
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ParserType<decltype(*this), true> parser;
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pending_entry_points_.push_back(start_address);
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entry_points_.insert(start_address);
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while(!pending_entry_points_.empty()) {
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const auto next_entry_point = pending_entry_points_.front();
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pending_entry_points_.pop_front();
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if(next_entry_point >= location) {
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parser.parse(*this, memory - location, next_entry_point & max_address, length + location);
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}
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}
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}
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const std::map<ProgramCounterType, InstructionType> &instructions() const {
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return instructions_;
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}
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const std::set<ProgramCounterType> &entry_points() const {
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return entry_points_;
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}
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void announce_overflow(ProgramCounterType) {}
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void announce_instruction(ProgramCounterType address, InstructionType instruction) {
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instructions_[address] = instruction;
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}
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void add_entry(ProgramCounterType address) {
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if(entry_points_.find(address) == entry_points_.end()) {
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pending_entry_points_.push_back(address);
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entry_points_.insert(address);
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}
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}
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void add_access(AddressType address, AccessType access_type) {
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// TODO.
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(void)address;
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(void)access_type;
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}
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private:
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std::map<ProgramCounterType, InstructionType> instructions_;
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std::set<ProgramCounterType> entry_points_;
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std::list<ProgramCounterType> pending_entry_points_;
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};
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}
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#endif /* Disassembler_h */
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