ImHex/lib/libimhex/source/helpers/encoding_file.cpp

#include <hex/helpers/encoding_file.hpp>

#include <hex/helpers/utils.hpp>

#include <wolv/io/file.hpp>
#include <wolv/utils/string.hpp>

namespace hex {

    EncodingFile::EncodingFile() : m_mapping(std::make_unique<std::map<size_t, std::map<std::vector<u8>, std::string>>>()) {

    }

    EncodingFile::EncodingFile(const hex::EncodingFile &other) {
        m_mapping = std::make_unique<std::map<size_t, std::map<std::vector<u8>, std::string>>>(*other.m_mapping);
        m_tableContent = other.m_tableContent;
        m_longestSequence = other.m_longestSequence;
        m_shortestSequence = other.m_shortestSequence;
        m_valid = other.m_valid;
        m_name = other.m_name;
    }

    EncodingFile::EncodingFile(EncodingFile &&other) noexcept {
        m_mapping = std::move(other.m_mapping);
        m_tableContent = std::move(other.m_tableContent);
        m_longestSequence = other.m_longestSequence;
        m_shortestSequence = other.m_shortestSequence;
        m_valid = other.m_valid;
        m_name = std::move(other.m_name);
    }

    EncodingFile::EncodingFile(Type type, const std::fs::path &path) : EncodingFile() {
        auto file = wolv::io::File(path, wolv::io::File::Mode::Read);
        switch (type) {
            case Type::Thingy:
                parse(file.readString());
                break;
            default:
                return;
        }

        {
            m_name = path.stem().string();
            m_name = wolv::util::replaceStrings(m_name, "_", " ");

            if (!m_name.empty())
                m_name[0] = std::toupper(m_name[0]);
        }

        m_valid = true;
    }

    EncodingFile::EncodingFile(Type type, const std::string &content) : EncodingFile() {
        switch (type) {
            case Type::Thingy:
                parse(content);
                break;
            default:
                return;
        }

        m_name = "Unknown";
        m_valid = true;
    }


    EncodingFile &EncodingFile::operator=(const hex::EncodingFile &other) {
        m_mapping = std::make_unique<std::map<size_t, std::map<std::vector<u8>, std::string>>>(*other.m_mapping);
        m_tableContent = other.m_tableContent;
        m_longestSequence = other.m_longestSequence;
        m_shortestSequence = other.m_shortestSequence;
        m_valid = other.m_valid;
        m_name = other.m_name;

        return *this;
    }

    EncodingFile &EncodingFile::operator=(EncodingFile &&other) noexcept {
        m_mapping = std::move(other.m_mapping);
        m_tableContent = std::move(other.m_tableContent);
        m_longestSequence = other.m_longestSequence;
        m_shortestSequence = other.m_shortestSequence;
        m_valid = other.m_valid;
        m_name = std::move(other.m_name);

        return *this;
    }



    std::pair<std::string_view, size_t> EncodingFile::getEncodingFor(std::span<u8> buffer) const {
        for (auto riter = m_mapping->crbegin(); riter != m_mapping->crend(); ++riter) {
            const auto &[size, mapping] = *riter;

            if (size > buffer.size()) continue;

            std::vector key(buffer.begin(), buffer.begin() + size);
            if (mapping.contains(key))
                return { mapping.at(key), size };
        }

        return { ".", 1 };
    }

    u64 EncodingFile::getEncodingLengthFor(std::span<u8> buffer) const {
        for (auto riter = m_mapping->crbegin(); riter != m_mapping->crend(); ++riter) {
            const auto &[size, mapping] = *riter;

            if (size > buffer.size()) continue;

            std::vector key(buffer.begin(), buffer.begin() + size);
            if (mapping.contains(key))
                return size;
        }

        return 1;
    }

    void EncodingFile::parse(const std::string &content) {
        m_tableContent = content;
        for (const auto &line : splitString(m_tableContent, "\n")) {

            std::string from, to;
            {
                auto delimiterPos = line.find('=');

                if (delimiterPos >= line.length())
                    continue;

                from = line.substr(0, delimiterPos);
                to   = line.substr(delimiterPos + 1);

                if (from.empty()) continue;
            }

            auto fromBytes = hex::parseByteString(from);
            if (fromBytes.empty()) continue;

            if (to.length() > 1)
                to = wolv::util::trim(to);
            if (to.empty())
                to = " ";

            if (!m_mapping->contains(fromBytes.size()))
                m_mapping->insert({ fromBytes.size(), {} });

            u64 keySize = fromBytes.size();
            (*m_mapping)[keySize].insert({ std::move(fromBytes), to });

            m_longestSequence = std::max(m_longestSequence, keySize);
            m_shortestSequence = std::min(m_shortestSequence, keySize);
        }
    }

}