// license:BSD-3-Clause // copyright-holders:Aaron Giles /*************************************************************************** fileio.h Core file I/O interface functions and definitions. ***************************************************************************/ #ifndef MAME_EMU_FILEIO_H #define MAME_EMU_FILEIO_H #pragma once #include "corefile.h" #include "hash.h" // some systems use macros for getc/putc rather than functions #ifdef getc #undef getc #endif //************************************************************************** // TYPE DEFINITIONS //************************************************************************** // ======================> path_iterator // helper class for iterating over configured paths class path_iterator { public: // constructors path_iterator(std::string &&searchpath); path_iterator(std::string const &searchpath); path_iterator(path_iterator &&that); path_iterator(path_iterator const &that); // assignment operators path_iterator &operator=(path_iterator &&that); path_iterator &operator=(path_iterator const &that); // main interface bool next(std::string &buffer, const char *name = nullptr); void reset(); private: // internal state std::string m_searchpath; std::string::const_iterator m_current; bool m_is_first; }; // ======================> file_enumerator // iterate over all files in all paths specified in the searchpath class file_enumerator { public: // construction/destruction template file_enumerator(T &&... args) : m_iterator(std::forward(args)...) { } file_enumerator(file_enumerator &&) = default; file_enumerator(file_enumerator const &) = delete; file_enumerator &operator=(file_enumerator &&) = default; file_enumerator &operator=(file_enumerator const &) = delete; // iterator const osd::directory::entry *next(); private: // internal state path_iterator m_iterator; osd::directory::ptr m_curdir; std::string m_pathbuffer; }; // ======================> emu_file class emu_file { public: // file open/creation emu_file(u32 openflags); emu_file(std::string &&searchpath, u32 openflags); virtual ~emu_file(); // getters operator util::core_file &(); bool is_open() const { return bool(m_file); } const char *filename() const { return m_filename.c_str(); } const char *fullpath() const { return m_fullpath.c_str(); } u32 openflags() const { return m_openflags; } util::hash_collection &hashes(const char *types); bool restrict_to_mediapath() const { return m_restrict_to_mediapath; } bool part_of_mediapath(std::string path); // setters void remove_on_close() { m_remove_on_close = true; } void set_openflags(u32 openflags) { assert(!m_file); m_openflags = openflags; } void set_restrict_to_mediapath(bool rtmp = true) { m_restrict_to_mediapath = rtmp; } // open/close osd_file::error open(const std::string &name); osd_file::error open(const std::string &name1, const std::string &name2); osd_file::error open(const std::string &name1, const std::string &name2, const std::string &name3); osd_file::error open(const std::string &name1, const std::string &name2, const std::string &name3, const std::string &name4); osd_file::error open(const std::string &name, u32 crc); osd_file::error open(const std::string &name1, const std::string &name2, u32 crc); osd_file::error open(const std::string &name1, const std::string &name2, const std::string &name3, u32 crc); osd_file::error open(const std::string &name1, const std::string &name2, const std::string &name3, const std::string &name4, u32 crc); osd_file::error open_next(); osd_file::error open_ram(const void *data, u32 length); void close(); // control osd_file::error compress(int compress); // position int seek(s64 offset, int whence); u64 tell(); bool eof(); u64 size(); // reading u32 read(void *buffer, u32 length); int getc(); int ungetc(int c); char *gets(char *s, int n); // writing u32 write(const void *buffer, u32 length); int puts(const char *s); int vprintf(util::format_argument_pack const &args); template int printf(Format &&fmt, Params &&...args) { return vprintf(util::make_format_argument_pack(std::forward(fmt), std::forward(args)...)); } // buffers void flush(); private: bool compressed_file_ready(void); // internal helpers osd_file::error attempt_zipped(); osd_file::error load_zipped_file(); // internal state std::string m_filename; // original filename provided std::string m_fullpath; // full filename util::core_file::ptr m_file; // core file pointer path_iterator m_iterator; // iterator for paths path_iterator m_mediapaths; // media-path iterator u32 m_crc; // file's CRC u32 m_openflags; // flags we used for the open util::hash_collection m_hashes; // collection of hashes std::unique_ptr m_zipfile; // ZIP file pointer std::vector m_zipdata; // ZIP file data u64 m_ziplength; // ZIP file length bool m_remove_on_close; // flag: remove the file when closing bool m_restrict_to_mediapath; // flag: restrict to paths inside the media-path }; #endif // MAME_EMU_FILEIO_H