2016-11-06 21:13:13 +00:00
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//
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// Commodore.cpp
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// Clock Signal
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//
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// Created by Thomas Harte on 06/11/2016.
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// Copyright © 2016 Thomas Harte. All rights reserved.
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//
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#include "Commodore.hpp"
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2016-11-06 23:43:51 +00:00
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#include "../../Data/Commodore.hpp"
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2016-11-06 21:13:13 +00:00
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using namespace Storage::Tape::Commodore;
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Parser::Parser() :
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2017-07-15 23:07:35 +00:00
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Storage::Tape::PulseClassificationParser<WaveType, SymbolType>(),
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2016-12-03 17:05:19 +00:00
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wave_period_(0.0f),
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previous_was_high_(false),
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parity_byte_(0) {}
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2016-11-06 21:13:13 +00:00
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/*!
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Advances to the next block on the tape, treating it as a header, then consumes, parses, and returns it.
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Returns @c nullptr if any wave-encoding level errors are encountered.
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*/
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std::unique_ptr<Header> Parser::get_next_header(const std::shared_ptr<Storage::Tape::Tape> &tape)
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{
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return duplicate_match<Header>(
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get_next_header_body(tape, true),
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get_next_header_body(tape, false)
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);
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}
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/*!
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Advances to the next block on the tape, treating it as data, then consumes, parses, and returns it.
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Returns @c nullptr if any wave-encoding level errors are encountered.
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*/
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std::unique_ptr<Data> Parser::get_next_data(const std::shared_ptr<Storage::Tape::Tape> &tape)
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{
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return duplicate_match<Data>(
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get_next_data_body(tape, true),
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get_next_data_body(tape, false)
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);
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}
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/*!
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Template for the logic in selecting which of two copies of something to consider authoritative,
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including setting the duplicate_matched flag.
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*/
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template<class ObjectType>
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std::unique_ptr<ObjectType> Parser::duplicate_match(std::unique_ptr<ObjectType> first_copy, std::unique_ptr<ObjectType> second_copy)
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{
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// if only one copy was parsed successfully, return it
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if(!first_copy) return second_copy;
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if(!second_copy) return first_copy;
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// if no copies were second_copy, return nullptr
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if(!first_copy && !second_copy) return nullptr;
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// otherwise plan to return either one with a correct check digit, doing a comparison with the other
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std::unique_ptr<ObjectType> *copy_to_return = &first_copy;
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if(!first_copy->parity_was_valid && second_copy->parity_was_valid) copy_to_return = &second_copy;
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(*copy_to_return)->duplicate_matched = true;
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if(first_copy->data.size() != second_copy->data.size())
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(*copy_to_return)->duplicate_matched = false;
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else
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(*copy_to_return)->duplicate_matched = !(memcmp(&first_copy->data[0], &second_copy->data[0], first_copy->data.size()));
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return std::move(*copy_to_return);
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}
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std::unique_ptr<Header> Parser::get_next_header_body(const std::shared_ptr<Storage::Tape::Tape> &tape, bool is_original)
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{
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std::unique_ptr<Header> header(new Header);
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reset_error_flag();
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// find and proceed beyond lead-in tone
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proceed_to_symbol(tape, SymbolType::LeadIn);
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// look for landing zone
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proceed_to_landing_zone(tape, is_original);
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reset_parity_byte();
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// get header type
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uint8_t header_type = get_next_byte(tape);
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switch(header_type)
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{
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default: header->type = Header::Unknown; break;
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case 0x01: header->type = Header::RelocatableProgram; break;
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case 0x02: header->type = Header::DataBlock; break;
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case 0x03: header->type = Header::NonRelocatableProgram; break;
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case 0x04: header->type = Header::DataSequenceHeader; break;
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case 0x05: header->type = Header::EndOfTape; break;
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}
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// grab rest of data
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header->data.reserve(191);
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for(size_t c = 0; c < 191; c++)
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{
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header->data.push_back(get_next_byte(tape));
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}
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uint8_t parity_byte = get_parity_byte();
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header->parity_was_valid = get_next_byte(tape) == parity_byte;
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// parse if this is not pure data
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if(header->type != Header::DataBlock)
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{
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header->starting_address = (uint16_t)(header->data[0] | (header->data[1] << 8));
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header->ending_address = (uint16_t)(header->data[2] | (header->data[3] << 8));
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for(size_t c = 0; c < 16; c++)
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{
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header->raw_name.push_back(header->data[4 + c]);
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}
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2016-11-06 23:43:51 +00:00
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header->name = Storage::Data::Commodore::petscii_from_bytes(&header->raw_name[0], 16, false);
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2016-11-06 21:13:13 +00:00
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}
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if(get_error_flag()) return nullptr;
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return header;
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}
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2017-05-08 00:32:48 +00:00
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void Header::serialise(uint8_t *target, uint16_t length) {
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switch(type)
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{
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default: target[0] = 0xff; break;
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case Header::RelocatableProgram: target[0] = 0x01; break;
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case Header::DataBlock: target[0] = 0x02; break;
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case Header::NonRelocatableProgram: target[0] = 0x03; break;
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case Header::DataSequenceHeader: target[0] = 0x04; break;
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case Header::EndOfTape: target[0] = 0x05; break;
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}
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memcpy(&target[1], data.data(), 191);
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}
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2016-11-06 21:13:13 +00:00
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std::unique_ptr<Data> Parser::get_next_data_body(const std::shared_ptr<Storage::Tape::Tape> &tape, bool is_original)
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{
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std::unique_ptr<Data> data(new Data);
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reset_error_flag();
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// find and proceed beyond lead-in tone to the next landing zone
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proceed_to_symbol(tape, SymbolType::LeadIn);
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proceed_to_landing_zone(tape, is_original);
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reset_parity_byte();
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// accumulate until the next non-word marker is hit
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while(!tape->is_at_end())
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{
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SymbolType start_symbol = get_next_symbol(tape);
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if(start_symbol != SymbolType::Word) break;
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data->data.push_back(get_next_byte_contents(tape));
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}
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// the above has reead the parity byte to the end of the data; if it matched the calculated parity it'll now be zero
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data->parity_was_valid = !get_parity_byte();
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data->duplicate_matched = false;
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// remove the captured parity
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data->data.erase(data->data.end()-1);
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if(get_error_flag()) return nullptr;
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return data;
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}
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/*!
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Finds and completes the next landing zone.
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*/
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void Parser::proceed_to_landing_zone(const std::shared_ptr<Storage::Tape::Tape> &tape, bool is_original)
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{
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uint8_t landing_zone[9] = {0, 0, 0, 0, 0, 0, 0, 0, 0};
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while(!tape->is_at_end())
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{
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memmove(landing_zone, &landing_zone[1], sizeof(uint8_t) * 8);
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landing_zone[8] = get_next_byte(tape);
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bool is_landing_zone = true;
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for(int c = 0; c < 9; c++)
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{
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if(landing_zone[c] != ((is_original ? 0x80 : 0x00) | 0x9) - c)
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{
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is_landing_zone = false;
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break;
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}
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}
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if(is_landing_zone) break;
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}
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}
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/*!
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Swallows symbols until it reaches the first instance of the required symbol, swallows that
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and returns.
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*/
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void Parser::proceed_to_symbol(const std::shared_ptr<Storage::Tape::Tape> &tape, SymbolType required_symbol)
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{
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while(!tape->is_at_end())
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{
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SymbolType symbol = get_next_symbol(tape);
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if(symbol == required_symbol) return;
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}
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}
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/*!
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Swallows the next byte; sets the error flag if it is not equal to @c value.
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*/
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void Parser::expect_byte(const std::shared_ptr<Storage::Tape::Tape> &tape, uint8_t value)
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{
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uint8_t next_byte = get_next_byte(tape);
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if(next_byte != value) set_error_flag();
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}
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2016-12-03 17:05:19 +00:00
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void Parser::reset_parity_byte() { parity_byte_ = 0; }
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uint8_t Parser::get_parity_byte() { return parity_byte_; }
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void Parser::add_parity_byte(uint8_t byte) { parity_byte_ ^= byte; }
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2016-11-06 21:13:13 +00:00
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/*!
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Proceeds to the next word marker then returns the result of @c get_next_byte_contents.
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*/
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uint8_t Parser::get_next_byte(const std::shared_ptr<Storage::Tape::Tape> &tape)
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{
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proceed_to_symbol(tape, SymbolType::Word);
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return get_next_byte_contents(tape);
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}
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/*!
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Reads the next nine symbols and applies a binary test to each to differentiate between ::One and not-::One.
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Returns a byte composed of the first eight of those as bits; sets the error flag if any symbol is not
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::One and not ::Zero, or if the ninth bit is not equal to the odd parity of the other eight.
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*/
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uint8_t Parser::get_next_byte_contents(const std::shared_ptr<Storage::Tape::Tape> &tape)
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{
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int byte_plus_parity = 0;
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int c = 9;
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while(c--)
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{
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SymbolType next_symbol = get_next_symbol(tape);
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if((next_symbol != SymbolType::One) && (next_symbol != SymbolType::Zero)) set_error_flag();
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byte_plus_parity = (byte_plus_parity >> 1) | (((next_symbol == SymbolType::One) ? 1 : 0) << 8);
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}
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int check = byte_plus_parity;
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check ^= (check >> 4);
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check ^= (check >> 2);
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check ^= (check >> 1);
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if((check&1) == (byte_plus_parity >> 8))
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set_error_flag();
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add_parity_byte((uint8_t)byte_plus_parity);
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return (uint8_t)byte_plus_parity;
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}
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/*!
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Returns the result of two consecutive @c get_next_byte calls, arranged in little-endian format.
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*/
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uint16_t Parser::get_next_short(const std::shared_ptr<Storage::Tape::Tape> &tape)
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{
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uint16_t value = get_next_byte(tape);
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value |= get_next_byte(tape) << 8;
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return value;
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}
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/*!
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Per the contract with StaticAnalyser::TapeParser; sums time across pulses. If this pulse
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indicates a high to low transition, inspects the time since the last transition, to produce
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a long, medium, short or unrecognised wave period.
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*/
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2017-07-15 23:07:35 +00:00
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void Parser::process_pulse(const Storage::Tape::Tape::Pulse &pulse)
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2016-11-06 21:13:13 +00:00
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{
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// The Complete Commodore Inner Space Anthology, P 97, gives half-cycle lengths of:
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// short: 182µs => 0.000364s cycle
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// medium: 262µs => 0.000524s cycle
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// long: 342µs => 0.000684s cycle
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bool is_high = pulse.type == Storage::Tape::Tape::Pulse::High;
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2016-12-03 17:05:19 +00:00
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if(!is_high && previous_was_high_)
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2016-11-06 21:13:13 +00:00
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{
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2016-12-03 17:05:19 +00:00
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if(wave_period_ >= 0.000764) push_wave(WaveType::Unrecognised);
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else if(wave_period_ >= 0.000604) push_wave(WaveType::Long);
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else if(wave_period_ >= 0.000444) push_wave(WaveType::Medium);
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else if(wave_period_ >= 0.000284) push_wave(WaveType::Short);
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2016-11-06 21:13:13 +00:00
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else push_wave(WaveType::Unrecognised);
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2016-12-03 17:05:19 +00:00
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wave_period_ = 0.0f;
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2016-11-06 21:13:13 +00:00
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}
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2016-12-03 17:05:19 +00:00
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wave_period_ += pulse.length.get_float();
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previous_was_high_ = is_high;
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2016-11-06 21:13:13 +00:00
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}
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/*!
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Per the contract with StaticAnalyser::TapeParser; produces any of a word marker, an end-of-block marker,
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a zero, a one or a lead-in symbol based on the currently captured waves.
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*/
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void Parser::inspect_waves(const std::vector<WaveType> &waves)
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{
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if(waves.size() < 2) return;
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if(waves[0] == WaveType::Long && waves[1] == WaveType::Medium)
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{
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push_symbol(SymbolType::Word, 2);
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return;
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}
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if(waves[0] == WaveType::Long && waves[1] == WaveType::Short)
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{
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push_symbol(SymbolType::EndOfBlock, 2);
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return;
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}
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if(waves[0] == WaveType::Short && waves[1] == WaveType::Medium)
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{
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push_symbol(SymbolType::Zero, 2);
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return;
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}
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if(waves[0] == WaveType::Medium && waves[1] == WaveType::Short)
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{
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push_symbol(SymbolType::One, 2);
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return;
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}
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if(waves[0] == WaveType::Short)
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{
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push_symbol(SymbolType::LeadIn, 1);
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return;
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}
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// Otherwise, eject at least one wave as all options are exhausted.
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remove_waves(1);
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}
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