// // FileHolder.cpp // Clock Signal // // Created by Thomas Harte on 21/11/2016. // Copyright 2016 Thomas Harte. All rights reserved. // #include "FileHolder.hpp" #include #include using namespace Storage; FileHolder::~FileHolder() { if(file_) std::fclose(file_); } FileHolder::FileHolder(const std::string &file_name, FileMode ideal_mode) : name_(file_name) { stat(file_name.c_str(), &file_stats_); is_read_only_ = false; switch(ideal_mode) { case FileMode::ReadWrite: file_ = std::fopen(file_name.c_str(), "rb+"); if(file_) break; is_read_only_ = true; [[fallthrough]]; case FileMode::Read: file_ = std::fopen(file_name.c_str(), "rb"); break; case FileMode::Rewrite: file_ = std::fopen(file_name.c_str(), "w"); break; } if(!file_) throw Error::CantOpen; } uint32_t FileHolder::get32le() { uint32_t result = uint32_t(std::fgetc(file_)); result |= uint32_t(std::fgetc(file_)) << 8; result |= uint32_t(std::fgetc(file_)) << 16; result |= uint32_t(std::fgetc(file_)) << 24; return result; } uint32_t FileHolder::get32be() { uint32_t result = uint32_t(std::fgetc(file_)) << 24; result |= uint32_t(std::fgetc(file_)) << 16; result |= uint32_t(std::fgetc(file_)) << 8; result |= uint32_t(std::fgetc(file_)); return result; } uint32_t FileHolder::get24le() { uint32_t result = uint32_t(std::fgetc(file_)); result |= uint32_t(std::fgetc(file_)) << 8; result |= uint32_t(std::fgetc(file_)) << 16; return result; } uint32_t FileHolder::get24be() { uint32_t result = uint32_t(std::fgetc(file_)) << 16; result |= uint32_t(std::fgetc(file_)) << 8; result |= uint32_t(std::fgetc(file_)); return result; } uint16_t FileHolder::get16le() { uint16_t result = uint16_t(std::fgetc(file_)); result |= uint16_t(uint16_t(std::fgetc(file_)) << 8); return result; } uint16_t FileHolder::get16be() { uint16_t result = uint16_t(uint16_t(std::fgetc(file_)) << 8); result |= uint16_t(std::fgetc(file_)); return result; } uint8_t FileHolder::get8() { return uint8_t(std::fgetc(file_)); } void FileHolder::put16be(uint16_t value) { std::fputc(value >> 8, file_); std::fputc(value, file_); } void FileHolder::put16le(uint16_t value) { std::fputc(value, file_); std::fputc(value >> 8, file_); } void FileHolder::put8(uint8_t value) { std::fputc(value, file_); } void FileHolder::putn(std::size_t repeats, uint8_t value) { while(repeats--) put8(value); } std::vector FileHolder::read(std::size_t size) { std::vector result(size); result.resize(std::fread(result.data(), 1, size, file_)); return result; } std::size_t FileHolder::read(uint8_t *buffer, std::size_t size) { return std::fread(buffer, 1, size, file_); } std::size_t FileHolder::write(const std::vector &buffer) { return std::fwrite(buffer.data(), 1, buffer.size(), file_); } std::size_t FileHolder::write(const uint8_t *buffer, std::size_t size) { return std::fwrite(buffer, 1, size, file_); } void FileHolder::seek(long offset, int whence) { std::fseek(file_, offset, whence); } long FileHolder::tell() { return std::ftell(file_); } void FileHolder::flush() { std::fflush(file_); } bool FileHolder::eof() { return std::feof(file_); } FileHolder::BitStream FileHolder::get_bitstream(bool lsb_first) { return BitStream(file_, lsb_first); } bool FileHolder::check_signature(const char *signature, std::size_t length) { if(!length) length = std::strlen(signature); // read and check the file signature std::vector stored_signature = read(length); if(stored_signature.size() != length) return false; if(std::memcmp(stored_signature.data(), signature, length)) return false; return true; } std::string FileHolder::extension() { std::size_t pointer = name_.size() - 1; while(pointer > 0 && name_[pointer] != '.') pointer--; if(name_[pointer] == '.') pointer++; std::string extension = name_.substr(pointer); std::transform(extension.begin(), extension.end(), extension.begin(), ::tolower); return extension; } void FileHolder::ensure_is_at_least_length(long length) { std::fseek(file_, 0, SEEK_END); long bytes_to_write = length - ftell(file_); if(bytes_to_write > 0) { std::vector empty(size_t(bytes_to_write), 0); std::fwrite(empty.data(), sizeof(uint8_t), size_t(bytes_to_write), file_); } } bool FileHolder::get_is_known_read_only() { return is_read_only_; } struct stat &FileHolder::stats() { return file_stats_; } std::mutex &FileHolder::get_file_access_mutex() { return file_access_mutex_; }