#include "platform_compat.h" #include #ifdef _WIN32 #define WIN32_LEAN_AND_MEAN #define NOMINMAX #include #endif #ifdef _WIN32 #include #include #include #include #else #include #include #endif #ifdef _WIN32 #include #else #include #endif #include int compat_stricmp(const char* string1, const char* string2) { return SDL_strcasecmp(string1, string2); } int compat_strnicmp(const char* string1, const char* string2, size_t size) { return SDL_strncasecmp(string1, string2, size); } char* compat_strupr(char* string) { return SDL_strupr(string); } char* compat_strlwr(char* string) { return SDL_strlwr(string); } char* compat_itoa(int value, char* buffer, int radix) { return SDL_itoa(value, buffer, radix); } void compat_splitpath(const char* path, char* drive, char* dir, char* fname, char* ext) { #ifdef _WIN32 _splitpath(path, drive, dir, fname, ext); #else const char* driveStart = path; if (path[0] == '/' && path[1] == '/') { path += 2; while (*path != '\0' && *path != '/' && *path != '.') { path++; } } if (drive != NULL) { size_t driveSize = path - driveStart; if (driveSize > COMPAT_MAX_DRIVE - 1) { driveSize = COMPAT_MAX_DRIVE - 1; } strncpy(drive, path, driveSize); drive[driveSize] = '\0'; } const char* dirStart = path; const char* fnameStart = path; const char* extStart = NULL; const char* end = path; while (*end != '\0') { if (*end == '/') { fnameStart = end + 1; } else if (*end == '.') { extStart = end; } end++; } if (extStart == NULL) { extStart = end; } if (dir != NULL) { size_t dirSize = fnameStart - dirStart; if (dirSize > COMPAT_MAX_DIR - 1) { dirSize = COMPAT_MAX_DIR - 1; } strncpy(dir, path, dirSize); dir[dirSize] = '\0'; } if (fname != NULL) { size_t fileNameSize = extStart - fnameStart; if (fileNameSize > COMPAT_MAX_FNAME - 1) { fileNameSize = COMPAT_MAX_FNAME - 1; } strncpy(fname, fnameStart, fileNameSize); fname[fileNameSize] = '\0'; } if (ext != NULL) { size_t extSize = end - extStart; if (extSize > COMPAT_MAX_EXT - 1) { extSize = COMPAT_MAX_EXT - 1; } strncpy(ext, extStart, extSize); ext[extSize] = '\0'; } #endif } void compat_makepath(char* path, const char* drive, const char* dir, const char* fname, const char* ext) { #ifdef _WIN32 _makepath(path, drive, dir, fname, ext); #else path[0] = '\0'; if (drive != NULL) { if (*drive != '\0') { strcpy(path, drive); path = strchr(path, '\0'); if (path[-1] == '/') { path--; } else { *path = '/'; } } } if (dir != NULL) { if (*dir != '\0') { if (*dir != '/' && *path == '/') { path++; } strcpy(path, dir); path = strchr(path, '\0'); if (path[-1] == '/') { path--; } else { *path = '/'; } } } if (fname != NULL && *fname != '\0') { if (*fname != '/' && *path == '/') { path++; } strcpy(path, fname); path = strchr(path, '\0'); } else { if (*path == '/') { path++; } } if (ext != NULL) { if (*ext != '\0') { if (*ext != '.') { *path++ = '.'; } strcpy(path, ext); path = strchr(path, '\0'); } } *path = '\0'; #endif } int compat_read(int fileHandle, void* buf, unsigned int size) { return read(fileHandle, buf, size); } int compat_write(int fileHandle, const void* buf, unsigned int size) { return write(fileHandle, buf, size); } long compat_lseek(int fileHandle, long offset, int origin) { return lseek(fileHandle, offset, origin); } long compat_tell(int fd) { return lseek(fd, 0, SEEK_CUR); } long compat_filelength(int fd) { long originalOffset = lseek(fd, 0, SEEK_CUR); lseek(fd, 0, SEEK_SET); long filesize = lseek(fd, 0, SEEK_END); lseek(fd, originalOffset, SEEK_SET); return filesize; } int compat_mkdir(const char* path) { char nativePath[COMPAT_MAX_PATH]; strcpy(nativePath, path); compat_windows_path_to_native(nativePath); #ifdef _WIN32 return mkdir(nativePath); #else return mkdir(nativePath, 0755); #endif } unsigned int compat_timeGetTime() { #ifdef _WIN32 return timeGetTime(); #else static auto start = std::chrono::steady_clock::now(); auto now = std::chrono::steady_clock::now(); return static_cast(std::chrono::duration_cast(now - start).count()); #endif } FILE* compat_fopen(const char* path, const char* mode) { char nativePath[COMPAT_MAX_PATH]; strcpy(nativePath, path); compat_windows_path_to_native(nativePath); return fopen(nativePath, mode); } gzFile compat_gzopen(const char* path, const char* mode) { char nativePath[COMPAT_MAX_PATH]; strcpy(nativePath, path); compat_windows_path_to_native(nativePath); return gzopen(nativePath, mode); } int compat_remove(const char* path) { char nativePath[COMPAT_MAX_PATH]; strcpy(nativePath, path); compat_windows_path_to_native(nativePath); return remove(nativePath); } int compat_rename(const char* oldFileName, const char* newFileName) { char nativeOldFileName[COMPAT_MAX_PATH]; strcpy(nativeOldFileName, oldFileName); compat_windows_path_to_native(nativeOldFileName); char nativeNewFileName[COMPAT_MAX_PATH]; strcpy(nativeNewFileName, newFileName); compat_windows_path_to_native(nativeNewFileName); return rename(nativeOldFileName, nativeNewFileName); } void compat_windows_path_to_native(char* path) { #ifndef _WIN32 char* pch = path; while (*pch != '\0') { if (*pch == '\\') { *pch = '/'; } pch++; } #endif } char* compat_strdup(const char* string) { return SDL_strdup(string); } // It's a replacement for compat_filelength(fileno(stream)) on platforms without // fileno defined. long getFileSize(FILE* stream) { long originalOffset = ftell(stream); fseek(stream, 0, SEEK_END); long filesize = ftell(stream); fseek(stream, originalOffset, SEEK_SET); return filesize; }