Exemple #1
0
 size_t Path::listDir(PathList &l, bool recurse, unsigned short flags) const {
   EachFunc func;
   details::DirLister dl(l);
   Bind(&dl, &details::DirLister::dirItem, func);
   l.clear();
   each(func, recurse, flags);
   return l.size();
 }
Exemple #2
0
void ModuleSettings::SetAutoLoadPaths(const PathList& paths)
{
  PathList normalizedPaths;
  normalizedPaths.resize(paths.size());
  std::transform(paths.begin(), paths.end(), normalizedPaths.begin(), RemoveTrailingPathSeparator);

  US_UNUSED(ModuleSettingsPrivate::Lock(moduleSettingsPrivate()));
  moduleSettingsPrivate()->autoLoadPaths.clear();
  moduleSettingsPrivate()->autoLoadPaths.insert(normalizedPaths.begin(), normalizedPaths.end());
}
Exemple #3
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/* public */
void
SharedPathsOp::getSharedPaths(PathList& forwDir, PathList& backDir)
{
  PathList paths;
  findLinearIntersections(paths);
  for (size_t i=0, n=paths.size(); i<n; ++i)
  {
    LineString* path = paths[i];
    if ( isSameDirection(*path) ) forwDir.push_back(path);
    else backDir.push_back(path);
  }
}
Exemple #4
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// helps fill in the path matrix (see below)
void add_to_vector (PathList& previous_vector, wstring* to_add) {
  wstring string_rep = represent_path (to_add, 2);
  if (previous_vector.size() == 0) {
    previous_vector.push_back (string_rep);
  }
  else {
    PathList::iterator it;
    // if there is more than one possible path, add to all of them
    for (it=previous_vector.begin(); it != previous_vector.end(); it++) {
      it->append (string_rep);
    }
  }
}
Exemple #5
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// Run BFS to fill current gap 
void GapFiller::BFS(size_t left_index, size_t right_index, int gap, GapInfo* gapinfo) {
	int dis = gap + (_K-1+3*_DELTA) +30; //gap constraints

    PathList pathlist;
    BFS(_uniq_graph, left_index, right_index, dis, _STEP, 1000, pathlist);
    if (pathlist.empty()) {
        const std::string& lsequence = _uniq_graph._indexer[left_index].seq;
        const std::string& rsequence = _uniq_graph._indexer[right_index].seq;
        BFS(_all_graph, lsequence, rsequence, dis, _STEP, 2000, pathlist);
    }

    if (!pathlist.empty()) {
        if (pathlist.size() <= MAX_CHOICE) {
            if (gapinfo != NULL) {
                gapinfo->graph = 0;
                gapinfo->pathlist = pathlist;
            }
        } else {
            if (gapinfo != NULL) {
                gapinfo->graph = -1;
            }
        }
    }
}
Exemple #6
0
fs::path findLoggingConfigFile() {
	PathList configs = findLoggingConfigFiles(findExecutablePath());
	if (configs.size())
		return *configs.begin();
	return fs::path();
}
Exemple #7
0
fs::path findTextureDir() {
	PathList textures = findTextureDirs(findExecutablePath());
	if (textures.size())
		return *textures.begin();
	return fs::path();
}
/**
 * @brief ShortPathWriter::writeShortPath - Save exist short path in open file
 * @param fp - open file pointer
 * @param pathIt - Iterator on exist short path
 * @param options - some options (PRINT_INDENTS)
 */
void ShortPathWriter::writeShortPath(FILE* fp, RootPathList::iterator pathIt,
                                     cuint options)
{
    unsigned parentId = pathIt->first;
    ShortPathElem* pathElem = pathIt->second->getNodes();
    PathList* pathList = pathElem->getPathList();
    if (pathList == nullptr)
    {
        return;
    }

    unsigned nodeId;
    float weight;
    bool isFirst = true;
    std::deque <PathListItPair> pathStack;
    unsigned currentIndent = 1;

    bool printIndents = options & (unsigned) Option::PRINT_INDENTS;


    pathStack.push_front( PathListItPair(pathList->begin(), pathList->end()) );

    fprintf(fp, "%u(", parentId);
    if (printIndents)
    {
        fputc('\n', fp);
    }
    while (pathStack.size())
    {
        auto pathIt  = pathStack.front().first;
        auto pathEnd = pathStack.front().second;
        if (pathIt == pathEnd)
        {
            pathStack.pop_front();
            --currentIndent;
            if (printIndents)
            {
                for(unsigned i = 0u; i < currentIndent; ++i)
                {
                    fputc('\t', fp);
                }
                fputs(")\n", fp);
            }
            else
            {
                fputc(')', fp);
            }
            continue;
        }
        nodeId = pathIt->first;
        pathElem = pathIt->second;
        pathList = pathElem->getPathList();

        if (printIndents)
        {
            for(unsigned i = 0u; i < currentIndent; ++i)
            {
                fputc('\t', fp);
            }
        }
        else if (!isFirst)
        {
            fputc(' ', fp);
        }
        else {
            isFirst = false;
        }
        weight = pathElem->getWeight();

        fprintf(fp, "%u[%g]", nodeId, weight);

        ++(pathStack.front().first);

        if (pathList && pathList->size())
        {
            fputc('(', fp);
            // Move to next elem

            // go to next child
            pathStack.push_front( PathListItPair(pathList->begin(),
                                                 pathList->end()) );
            isFirst = true;
            ++currentIndent;
        }
        if (printIndents)
        {
            fputc('\n', fp);
        }
    }
}