Пример #1
0
VfsPath L10n::LocalizePath(const VfsPath& sourcePath) const
{
	VfsPath localizedPath = sourcePath.Parent() / L"l10n" / wstring_from_utf8(currentLocale.getLanguage()) / sourcePath.Filename();
	if (!VfsFileExists(localizedPath))
		return sourcePath;

	return localizedPath;
}
Пример #2
0
void NextNumberedFilename(const PIVFS& fs, const VfsPath& pathnameFormat, size_t& nextNumber, VfsPath& nextPathname)
{
	// (first call only:) scan directory and set nextNumber according to
	// highest matching filename found. this avoids filling "holes" in
	// the number series due to deleted files, which could be confusing.
	// example: add 1st and 2nd; [exit] delete 1st; [restart]
	// add 3rd -> without this measure it would get number 1, not 3. 
	if(nextNumber == 0)
	{
		const VfsPath nameFormat = pathnameFormat.Filename();
		const VfsPath path = pathnameFormat.Parent()/"";

		size_t maxNumber = 0;
		CFileInfos files;
		fs->GetDirectoryEntries(path, &files, 0);
		for(size_t i = 0; i < files.size(); i++)
		{
			int number;
			if(swscanf_s(files[i].Name().string().c_str(), nameFormat.string().c_str(), &number) == 1)
				maxNumber = std::max(size_t(number), maxNumber);
		}

		nextNumber = maxNumber+1;
	}

	// now increment number until that file doesn't yet exist.
	// this is fairly slow, but typically only happens once due
	// to scan loop above. (we still need to provide for looping since
	// someone may have added files in the meantime)
	// we don't bother with binary search - this isn't a bottleneck.
	do
	{
		wchar_t pathnameBuf[PATH_MAX];
		swprintf_s(pathnameBuf, ARRAY_SIZE(pathnameBuf), pathnameFormat.string().c_str(), nextNumber++);
		nextPathname = pathnameBuf;
	}
	while(fs->GetFileInfo(nextPathname, 0) == INFO::OK);
}