Beispiel #1
0
void basics::copy_folder(const bfs::path& frompath, const bfs::path& topath) 
{
    // Check whether the function call is valid
    if (!bfs::exists(frompath) || !bfs::is_directory(frompath)) {
        std::stringstream err;
        err << "Source directory " << frompath.string() << " does not exist or is not a directory.";
        throw std::runtime_error(err.str());
    }
    if(bfs::exists(topath)) {
        std::stringstream err;
        err << "Destination directory " << topath.string() << " already exists.";
        throw std::runtime_error(err.str());
    }
    // Create the destination directory
    if(!bfs::create_directory(topath))
    {
        std::stringstream err;
        err << "Unable to create destination directory " << topath.string();
        throw std::runtime_error(err.str());
    }

    // Iterate through the source directory
    for(bfs::directory_iterator file(frompath); file != bfs::directory_iterator(); ++file) {
        bfs::path current(file->path());
        
        if(bfs::is_directory(current)) {
            // Found directory: Recursion
            copy_folder(current, topath / current.filename());
        }
        else {
            // Found file: Copy
            bfs::copy_file(current, topath / current.filename());
        }
    }
}
Beispiel #2
0
void World::saveToFile(const bfs::path & path) const
{
   Logger::get().debug("Сохранение объектов в файл %1%") % path.string();

   json::Object jworld(json::Object::Hash);

   // Local rect
   {
      b2AABB combinedAABB;
      combinedAABB.lowerBound.Set( FLT_MAX,  FLT_MAX);
      combinedAABB.upperBound.Set(-FLT_MAX, -FLT_MAX);
      for(const b2Body * b2body = getB2World()->GetBodyList(); b2body; b2body = b2body->GetNext())
      {
         const Body * body = static_cast<const Body *>(b2body->GetUserData());
         if(body->isDynamic())
            combinedAABB.Combine(body->getB2AABB());
      }
      jworld.add("aabb", Rectf::fromB2AABB(combinedAABB).toJson());
   }

   // Bodies
   {
      json::Object jentities(json::Object::Array);
      for(auto it = getBodyIterator(); it; ++it)
         if(it.get()->isDynamic())
            jentities.add(it.get()->getEntity()->toJson());

      jworld.add("entities", std::move(jentities));
   }

   std::ofstream file(path.string());
   assert(file.good());
   file << std::move(jworld.toString(false));
}
Beispiel #3
0
void BamReaderPool::openBamFile(const bfs::path& file) {
	if (file.empty()) {
		throw BamReaderPoolException("No BAM file specified.");
	}
	std::lock_guard<std::mutex> lock(poolmtx_); // GUARD
	closeBamFile_nolock();
	if (!open_) {
		// try to open all readers
		for (BamTools::BamReader& reader : readers_) {
			if (!reader.Open(file.c_str())) {
				throw BamReaderPoolException(
						"Unable to open BAM file " + file.string() + ":\n\t"
								+ reader.GetErrorString());
			}
		}
		// try to open index
		for (BamTools::BamReader& reader : readers_) {
			if (!reader.LocateIndex()) {
				throw BamReaderPoolException(
						"Unable to open BAM index file " + file.string() + ":\n\t"
								+ reader.GetErrorString());
			}
		}
		// all are open, now push them onto the queue
		for (BamTools::BamReader& reader : readers_) {
			pushReader(reader);
		}
		file_ = file;
		open_ = true;
	} else {
		throw BamReaderPoolException("Failed to close BAM reader pool.");
	}
}
Beispiel #4
0
void find(const bfs::path& cdb_path, const options& opt)
{
    config cfg = load_config(cdb_path / "config");

    const bfs::path cdb_root = cdb_path.parent_path();
    const bfs::path search_root = bfs::initial_path();

    std::size_t prefix_size = 0;
    std::string file_match;
    if(opt.m_options.count("-a") == 0 && search_root != cdb_root)
    {
        file_match = "^" + escape_regex(
            search_root.generic_string().substr(cdb_root.string().size() + 1) + "/") + ".*";
        prefix_size = search_root.string().size() - cdb_root.string().size();
    }

    file_lock lock(cdb_path / "lock");
    lock.lock_sharable();

    const char* find_regex_options =
        opt.m_options.count("-i") ? "i" : "";
    const char* file_regex_options =
        cfg.get_value("nocase-file-match") == "on" ? "i" : "";

    bool trim = cfg.get_value("find-trim-ws") == "on";
    unsigned thread_count = get_thread_count(cfg);
    unsigned buffer_count = get_buffer_count(thread_count);

    for(unsigned i = 0; i != opt.m_args.size(); ++i)
    {
        database_ptr db = open_database(cdb_path / "db");

        std::string pattern = opt.m_args[i];
        if(opt.m_options.count("-v"))
            pattern = escape_regex(pattern);

        mt_search mts(*db, trim, prefix_size, buffer_count);

        auto worker = [&]
        {
            mts.search_db(compile_regex(pattern, 0, find_regex_options),
                          compile_regex(file_match, 0, file_regex_options));
        };

        boost::thread_group workers;
        for(unsigned i = 0; i != thread_count-1; ++i)
            workers.create_thread(worker);

        worker();

        workers.join_all();
    }
}
void RunFolderGenerator::generateRunInfo() const
{
    using boost::property_tree::ptree;
    ptree pt;
    pt.put("RunInfo.<xmlattr>.xmlns:xsd", "http://www.w3.org/2001/XMLSchema");
    pt.put("RunInfo.<xmlattr>.xmlns:xsi", "http://www.w3.org/2001/XMLSchema-instance");
    pt.put("RunInfo.<xmlattr>.Version", "2");
    pt.put("RunInfo.Run.<xmlattr>.Id", runFolder_);
    pt.put("RunInfo.Run.<xmlattr>.Number", runInfo_.runNumber);
    pt.put("RunInfo.Run.<xmlattr>.TileNameMethod", runInfo_.tileNameMethod);
    ptree &run = pt.get_child("RunInfo.Run");
    run.put("Flowcell", flowcell_);
    run.put("Date", runFolderDate_);
    run.put("FlowcellLayout.<xmlattr>.LaneCount", runInfo_.laneCount);
    run.put("FlowcellLayout.<xmlattr>.SurfaceCount", runInfo_.surfaceCount);
    run.put("FlowcellLayout.<xmlattr>.SwathCount", runInfo_.swathCount);
    run.put("FlowcellLayout.<xmlattr>.TileCount", runInfo_.tileCount);
    run.put("Reads", "");
    ptree &reads = run.get_child("Reads");

    int readNum = 1;
    BOOST_FOREACH(const eagle::io::ReadDescription &rd, runInfo_.reads)
    {
        ptree read;

        // Attributes for recent RunInfo.xml format
        read.put("<xmlattr>.Number", readNum++);
        read.put("<xmlattr>.IsIndexedRead", rd.isIndex?"Y":"N");
        read.put("<xmlattr>.NumCycles", rd.lastCycle - rd.firstCycle + 1);

        // Attributes for older RunInfo.xml format
        read.put("<xmlattr>.FirstCycle", rd.firstCycle);
        read.put("<xmlattr>.LastCycle", rd.lastCycle);
        if (rd.isIndex)
        {
            read.put("Index", "");
        }

        reads.add_child("Read", read);
    }

    const boost::property_tree::xml_writer_settings<string> w(' ', 2);
    const bfs::path runInfoPath = runFolderPath_ / "RunInfo.xml";

    // DEBUG
    std::clog << "Writing RunInfo file " << runInfoPath.string() << std::endl;

    write_xml(runInfoPath.string(), pt, std::locale(), w);
}
Beispiel #6
0
DistributedObject::DistributedObject(const bfs::path& file)
	: persistence_enabled_(false),
	  path_(bfs::path()),
	  file_(!path_.string().empty() && !file.string().empty() ? (path_ / file) : bfs::path()),
	  timestamp_(0)
{
}
Beispiel #7
0
VideoAsset::VideoAsset(bfs::path videoFile, bfs::path path, bool copy) : path(path) {
    try {
        name = path.filename().string();
        if(!bfs::exists(videoFile)) throw VideoAssetException("video File doesn't exist!");
        if(!bfs::exists(path) || !bfs::is_directory(path)) throw VideoAssetException("Destination folder doesn't exist");
        if(copy) {
            video_path = path;
            video_path /= videoFile.filename();
            bfs::copy_file(videoFile, video_path, bfs::copy_option::overwrite_if_exists);
        } else video_path = videoFile;
        
        isExternal = !copy;

        loadPlayerSync();

        writeInfoFile();
        
        hasTimetable = false;
        hasShotBoundaries = false;
        hasHistograms = false;
        hasMeans = false;
        isReady = false;
    } catch (const bfs::filesystem_error& ex) {
        (*Tobago.log)(Log::ERROR) << "Error creating video asset " << path.string() << ": " << ex.what();
        throw VideoAssetException(ex.what());
    }
}
Beispiel #8
0
void create_file(const bfs::path& ph, const string& contents)
{
    ofstream f(ph.string().c_str());
    if (!f)
        throw bfs::filesystem_error("create_file", ph, error_code(errno, SYSTEMCATEGORY));
    if (!contents.empty()) f << contents;
}
void testDefaultTabHandler(const bfs::path& datafile)
{
    const char* alphabet = "abcd";
    const char* numbers = "1234";

    TabReader tr;
    VectorTabHandler vth;

    tr.setHandler(&vth);
    tr.process(datafile.string().c_str());

    VectorTabHandler::const_iterator it = vth.begin();
    cout << (* (*it).begin()) << endl;

    size_t y=0;
    for (; it != vth.end(); it++)
    {
        size_t x=0;
        for (vector<string>::const_iterator it2=(*it).begin(); it2!=(*it).end();it2++)
        {
            const char* value = (*it2).c_str();
            unit_assert(value[0] == alphabet[x]);
            unit_assert(value[1] == numbers[y]);
            x++;
        }
        cerr << endl;
        y++;
    }
}
Beispiel #10
0
PWIZ_API_DECL void expand_pathmask(const bfs::path& pathmask,
                                   vector<bfs::path>& matchingPaths)
{
    using bfs::path;

#ifdef WIN32
    path maskParentPath = pathmask.branch_path();
	WIN32_FIND_DATA fdata;
	HANDLE srcFile = FindFirstFileEx(pathmask.string().c_str(), FindExInfoStandard, &fdata, FindExSearchNameMatch, NULL, 0);
	if (srcFile == INVALID_HANDLE_VALUE)
		return; // no matches

    do
    {
        if (strcmp(fdata.cFileName, ".") != 0 &&
            strcmp(fdata.cFileName, "..") != 0)
	        matchingPaths.push_back( maskParentPath / fdata.cFileName );
    }
    while (FindNextFile(srcFile, &fdata));

	FindClose(srcFile);

#else

	glob_t globbuf;
	int rv = glob(pathmask.string().c_str(), 0, NULL, &globbuf);
	if(rv > 0 && rv != GLOB_NOMATCH)
		throw runtime_error("FindFilesByMask(): glob() error");

	DIR* curDir = opendir(".");
	struct stat curEntryData;

	for (size_t i=0; i < globbuf.gl_pathc; ++i)
	{
		stat(globbuf.gl_pathv[i], &curEntryData);
		if (S_ISDIR(curEntryData.st_mode) ||
            S_ISREG(curEntryData.st_mode) ||
            S_ISLNK(curEntryData.st_mode))
			matchingPaths.push_back(globbuf.gl_pathv[i]);
	}
	closedir(curDir);

	globfree(&globbuf);

#endif
}
Beispiel #11
0
/**
* @brief Returns file type.
*
* Determinates file type based on its name.
*/
condor2nav::TPathType condor2nav::PathType(const bfs::path &fileName)
{
  std::string str{fileName.string()};
  if(str.size() > 2 && str[0] == '\\' && str[1] != '\\')
    return TPathType::ACTIVE_SYNC;
  else
    return TPathType::LOCAL;
}
void testMSIHandler(const bfs::path& datafile)
{
    TabReader tr;
    MSIHandler mh;

    tr.setHandler(&mh);
    tr.process(datafile.string().c_str());
}
Beispiel #13
0
void WiiPlatform::ConvertSound(bfs::path filename, SoundResource *obj)
{
	std::ostringstream cmd;

	cmd << this->GetName() << PLATFORM_PATH_SEPARATOR_STR << "sox ";
	cmd << filename.string().c_str() << " -b 16 ";
	cmd << obj->GetInputPath().string().c_str();

	RUN_COMMAND(cmd);
}
Beispiel #14
0
	bfs::path request_new_project_path( bfs::path default_path )
	{
		if( default_path.empty() )
			default_path = path::DEFAULT_PROJECTS_DIR;

		return bfs::path( QFileDialog::getExistingDirectory( nullptr
															, QObject::tr("New AOS Designer Project Location")
															, QString::fromStdString( default_path.string() )
															).toStdString() );
	}
Beispiel #15
0
void World::loadFromFile(const bfs::path & path, const Vec2f & posModifier)
{
   Logger::get().debug("Загрузка объектов из файла %1%") % path.string();

   json::Parser jparser;
   jparser.readFile(path.string());
   const json::Object & jroot = jparser.getRoot();

   // Local rect
   Rectf aabb = Rectf::fromJson(jroot.get("aabb"));

   // Entities
   for(const json::Object & jentity : jroot.get("entities").getArray())
   {
      Entity * entity = Entity::fromJson(this, jentity);
      entity->getBody()->setPos(
               entity->getBody()->getPos() + Vec2f(-aabb.x + posModifier.x,
                                                   -aabb.y + posModifier.y));
   }
}
Beispiel #16
0
	bfs::path request_project_path( bfs::path default_path )
	{
		if( default_path.empty() )
			default_path = path::DEFAULT_PROJECTS_DIR;

		return bfs::path( QFileDialog::getOpenFileName( nullptr
														, QObject::tr( "Open AOS Designer Project" )
														, QString::fromStdString( default_path.string() )
														, QObject::tr( "AOS Designer Project (*.aosp)" )
														).toStdString() );
	}
Beispiel #17
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/** 
 * @brief Checks if file exists in current directory
 * 
 * Function checks if specified file exists.
 * 
 * @param fileName File name to search for
 * 
 * @return Check status
 */
bool condor2nav::FileExists(const bfs::path &fileName) 
{
  bool activeSync = false;
  const auto str = fileName.string();
  if(str.size() > 2 && str[0] == '\\' && str[1] != '\\')
    activeSync = true;

  if(activeSync)
    return CActiveSync::Instance().FileExists(fileName);
  else
    return bfs::exists(fileName);
}
void PointcloudPublisherNode::publish_pointcloud(const bfs::path &pointcloud_file_path)
{
    pcl::PCLPointCloud2::Ptr cloud(new pcl::PCLPointCloud2);

    if (pcl::io::loadPCDFile(pointcloud_file_path.string(), *cloud) == -1)
    {
        ROS_ERROR("Could not open %s", pointcloud_file_path.string().c_str());
        return;
    }

    double frames_per_second = 0.0;

    sensor_msgs::PointCloud2 ros_output_cloud;
    pcl_conversions::fromPCL(*cloud, ros_output_cloud);

    std::string frame_id;
    if (nh_.getParam("frame_id", frame_id))
    {
        ros_output_cloud.header.frame_id = frame_id;
    }

    if (!nh_.getParam("frames_per_second", frames_per_second))
    {
        ros_output_cloud.header.stamp = ros::Time::now();
        pointcloud_publisher_.publish(ros_output_cloud);
        ROS_INFO("Published pointcloud. Exiting");
        ros::shutdown();
        return;
    }

    ros::Rate loop_rate(frames_per_second);

    ROS_INFO("Going to publish pointcloud at %.2f fps", frames_per_second);
    while(ros::ok())
    {
        ros_output_cloud.header.stamp = ros::Time::now();
        pointcloud_publisher_.publish(ros_output_cloud);
        loop_rate.sleep();
    }
}
// Analysis routine
void Crawler::analyse_image(const bfs::path& path) 
{
    std::ostringstream msg;
    msg << "Running image analysis on " << path;
	logger->message(msg.str(), traceLevel);

    // Construct and segment picture
    std::auto_ptr<ImageAnalyst> \
        analyst(new ImageAnalyst(bfs::absolute(path.filename()), 
            analyst_settings));
	analyst->segment();
	
	// Get centroids and dump to file if required 
	if (settings.output) {   
	    std::ostringstream msg; 
        msg << "Dumping segment centroids to " << settings.outputfile;
        logger->message(msg.str(), traceLevel);
        
        // Get segmentation window size
        blitz::TinyVector<int, 4> wsize = analyst->get_window_size();
        
        // Open dumpfile as stream, add path, altered path and image and 
        // window sizes  
        std::fstream dumpFileStream;
        dumpFileStream.open(settings.outputfile.string().c_str(), 
            std::fstream::out | std::fstream::app); 
        dumpFileStream << "{'original_file': '" << path.string()
                       << "', 'segmented_file': '" 
                       << path.stem() << "_segments" << bfs::extension(path) 
                       << "', 'image_size': (" 
                       << analyst->columns() << ", " << analyst->rows() 
                       << "), 'window_size': (" << wsize[0] << ", " 
                       << wsize[1] << ", " << wsize[2] << ", " 
                       << wsize[3] << "), ";
        
        // Get centroids, push to file
        std::vector<Index> centroids;
        analyst->get_centroids(centroids); 
        dumpFileStream << "'centroids': [";
        foreach(Index index, centroids)
            dumpFileStream << "(" << index[0] << "," << index[1] << "), ";
        dumpFileStream << "]}" << std::endl;  
        
        // Clean up
        dumpFileStream.flush();
        dumpFileStream.close();
    }
    
    // Exit
	logger->message("Done!", traceLevel);
}
ReadCameraParameter::ReadCameraParameter(boost::filesystem::path p){
	ifstream camera;
	std::string ignore;
	double tmp ;

	BFS::path txt = p/ "camera.txt";
	camera.open(txt.string().c_str());
	if( !camera.is_open() ) cout << "Cannot open cameraParameter!" << endl;
	else cout << "Success!!!!" << endl;
	if( !camera.eof()){
		for (int i = 0; i< 5; ++i) getline(camera, ignore, '\n');  // ignore words	
		camera >> no_frame;	// number of frames
		cout << "There are " << no_frame << " frames." << endl;
		getline(camera, ignore, '\n');  // ignore 

		for(int s = 0; s < no_frame; s++){ // read camera_para of frames
			
			/* read matrix for K */
			CvMat* k = cvCreateMat(3, 3, CV_64FC1);
			for(int i = 0; i < 9; i++){
					camera >> tmp;
					cvmSet(k, (int) (i/3), i%3, tmp);
					//cout << i << " " << tmp[i] << endl;
				}
			K.push_back(k);

			/* read matrix for R */
			CvMat* r = cvCreateMat(3, 3, CV_64FC1);
			for(int i = 0; i < 9; i++){
					camera >> tmp;
					cvmSet(r, (int) (i/3), i%3, tmp);
					//cout << i << " " << tmp[i] << endl;
				}
			R.push_back(r);
			
			/* read matrix for T */
			CvMat* t = cvCreateMat(3, 1, CV_64FC1);
			for(int i = 0; i < 3; i++){
					camera >> tmp;
					cvmSet(t, i%3, 0, tmp);
					//cout << i << " " << tmp[i] << endl;
				}
			T.push_back(t);
			
			for (int i =0; i< 3; ++i)
			getline(camera, ignore, '\n');  // ignore 
		}
		
	}
	camera.close();
}
Beispiel #21
0
void serve_init(const bfs::path& serve_path)
{
    // Make sure the directory exists, or create it
    if(exists(serve_path))
    {
        if(!is_directory(serve_path))
            throw std::runtime_error(serve_path.string() + " already exists");
    }
    else
    {
        create_directory(serve_path);
    }

    write_file(serve_path / "style.css", file_style_css, sizeof(file_style_css) - 1);
    write_file(serve_path / "logo.js", file_logo_js, sizeof(file_logo_js) - 1);
}
Beispiel #22
0
  void rotate_stores()
		{
			std::cout << "Rotating store " << store_file << "..." << std::endl;
			std::cout << "Rotating store call flush " << store_file << "..." << std::endl;
      fflush(stdout);
			try {
        store->flush(true);
			} catch (klio::StoreException const& ex) {
				std::cout << "Failed to flush the buffers : " << ex.what() << std::endl;
      }
      std::cout << "Rotating store flushed " << store_file << "..." << std::endl;
      fflush(stdout);

			std::cout << "Reopening store" << std::endl;

      const boost::posix_time::ptime now = boost::posix_time::second_clock::local_time();

      std::string s;
      s= str( format("%04d%02d%02d-%02d%02d")        % now.date().year_month_day().year
              % now.date().year_month_day().month.as_number()
              % now.date().year_month_day().day.as_number()
              % now.time_of_day().hours()
              % now.time_of_day().minutes());

      std::string name(store_file.string());
      name+=".";
      name+=s;
      
      bfs::path dbname(name);
      std::cout << "===> renaming to: "<< name<<std::endl;
      fflush(stdout);
			try {
        store->rotate(dbname);
			} catch (klio::StoreException const& ex) {
				std::cout << "Failed to rotate the klio-databse : " << ex.what() << std::endl;
      }
      

#if KLIO_AUTOCOMMIT
      store->start_transaction();
#endif

			std::cout << "Rotation done" << std::endl;
		}
Beispiel #23
0
VideoAsset::VideoAsset(bfs::path path) : path(path) {
    try {
        name = path.filename().string();
        readInfoFile();
        readTimetable();
        readShotBoundaries();
        readHistograms();
        readMeans();
        isReady = false;

        if(hasTimetable && hasShotBoundaries && hasHistograms && hasMeans) {
            if(frame2Timestamp.size() != histograms.size() ||
               frame2Timestamp.size() != rgbMeans.size()) {
                throw VideoAssetException("Info files have wrong format.");
            }
            isReady = true;
        }

        loadPlayerSync();
    } catch (const bfs::filesystem_error& ex) {
        (*Tobago.log)(Log::ERROR) << "Error loading video asset " << path.string() << ": " << ex.what();
        throw VideoAssetException(ex.what());
    }
}
Beispiel #24
0
/** 
 * @brief Creates specified directory
 * 
 * Function creates given directory recursively.
 * 
 * @param dirName Directory name to created.
 *
 * @exception std::runtime_error Operation did not succeed
 */
void condor2nav::DirectoryCreate(const bfs::path &dirName)
{
  bool activeSync = false;
  const std::string str = dirName.string();
  if(str.size() > 2 && str[0] == '\\' && str[1] != '\\')
    activeSync = true;

  if(!dirName.empty()) {
    if(!activeSync) {
      bfs::create_directories(dirName);
    }
    else {
      auto path = dirName;
      std::vector<bfs::path> dirs;
      while(path.parent_path() != "\\") {
        dirs.emplace_back(path);
        path = path.parent_path();
      }
      auto &activeSync = CActiveSync::Instance();
      std::for_each(dirs.crbegin(), dirs.crend(),
                    [&](const bfs::path &d){ activeSync.DirectoryCreate(d); });
    }
  }
}
Beispiel #25
0
// load a Protein Data Bank file. Each line corresponds to a single atom
bool ProteinComplex::LoadPDB2(bfs::path filename)
{
	bfs::ifstream infile(filename);
	std::string current_line;

	if(!infile.is_open())
	{
		std::cout << "File not found: " << filename.string() <<"\n";
		return false;
	}

	while (!infile.eof())
	{
		std::getline(infile, current_line);
		if (!infile.eof())
		{
			if(current_line.substr(0, 4) == "ATOM")
				break;
		}
	}

	while (!infile.eof())
	{
		if(current_line.substr(0, 4) == "ATOM")
		{
			AtomData current_atom;

			std::istringstream current_val(current_line.substr(6, 5));
			current_val >> current_atom.atom_num;
			current_val.clear();

			current_val.str(current_line.substr(12, 4));
			current_val >> current_atom.atom_type;
			current_val.clear();

			current_val.str(current_line.substr(17, 3));
			current_val >> current_atom.residue_type;
			current_val.clear();

			current_val.str(current_line.substr(21, 1));
			current_val >> current_atom.chain_id;
			current_val.clear();

			current_val.str(current_line.substr(22, 4));
			current_val >> current_atom.residue_num;
			current_val.clear();

			current_val.str(current_line.substr(30, 8));
			current_val >> current_atom.x_cd;
			current_val.clear();

			current_val.str(current_line.substr(38, 8));
			current_val >> current_atom.y_cd;
			current_val.clear();

			current_val.str(current_line.substr(46, 8));
			current_val >> current_atom.z_cd;
			current_val.clear();

			current_val.str(current_line.substr(54, 6));
			current_val >> current_atom.occupancy;
			current_val.clear();

			current_val.str(current_line.substr(60, 6));
			current_val >> current_atom.temp_factor;
			current_val.clear();

			current_val.str(current_line.substr(76, 2));
			current_val >> current_atom.atom_element;
			current_val.clear();

			InsertAtomData(current_atom);
			std::getline(infile, current_line);
		}
		else
Beispiel #26
0
basics::Persistable_blog basics::Persistor_blog::read_blog(bfs::path content_storage_file)
{
    // Parsing content from file
    rapidxml::xml_document<> content;
    rapidxml::file<> content_file(content_storage_file.string().c_str());

    // Retreiving root node
    content.parse<0>(content_file.data());
    rapidxml::xml_node<> *blog_root = content.first_node("blog");

    // Retreiving config
    rapidxml::xml_node<> *conf = blog_root->first_node("config");
    basics::Configuration_blog config(nv(conf, "meta-desc"),
                                      nv(conf, "meta-author"),
                                      nv(conf, "meta-title"),
                                      nv(conf, "meta-conf-bootstrap"),
                                      nv(conf, "meta-conf-css"),
                                      nvs(conf, "nav-items"),
                                      nv(conf, "home-link"),
                                      nv(conf, "title"),
                                      nv(conf, "subtitle"),
                                      nv(conf, "about"),
                                      av(conf, "about", "line"),
                                      nvs(conf, "links"),
                                      av(conf, "links", "line"),
                                      nv(conf, "philosophy"),
                                      nv(conf, "backtotop"),
                                      std::stoi(nv(conf, "post-per-page")));


    // Iterating over "post" nodes
    rapidxml::xml_node<> *post_node = blog_root->first_node("posts");
    std::vector<basics::Post> posts;
    rapidxml::xml_node<> *post;
    for (post = post_node->first_node("post"); post; post = post->next_sibling("post")) {
        // Attributes
        std::string timestamp_str = post->first_attribute("date")->value();
        std::string author = post->first_attribute("author")->value();

        // title child node
        rapidxml::xml_node<> *title_node = post->first_node("title");
        std::string title = title_node->value();

        // mylife child node
        rapidxml::xml_node<> *life_node = post->first_node("mylife");
        std::string life = basics::unescape_string(life_node->value());

        // Reading editions
        rapidxml::xml_node<> *eds = post->first_node("editions");
        std::vector<std::string> editions;
        rapidxml::xml_node<> *ed;
        for (ed = eds->first_node("edition"); ed; ed = ed->next_sibling("edition")) {
            std::string edition = ed->value();
            editions.push_back(edition);
        }

        // Creating a new Post object from all infos
        basics::Post another_post(title, author, life, timestamp_str);
        another_post.set_editions(editions);

        posts.push_back(another_post);
    }

    basics::Persistable_blog blog_ptr(posts, config);
    return blog_ptr;
}
Beispiel #27
0
void basics::Persistor_blog::write_blog(bfs::path content_storage_file, basics::Persistable_blog blog)
{
    // Getting containers
    std::vector<basics::Post> posts = blog.posts();
    basics::Configuration_blog config = blog.config();

    // Declaration
    rapidxml::xml_document<> content;
    rapidxml::xml_node<> *decl = content.allocate_node(rapidxml::node_declaration);
    decl->append_attribute(content.allocate_attribute("version", "1.0"));
    decl->append_attribute(content.allocate_attribute("encoding", "utf-8"));
    content.append_node(decl);

    // Blog root <blog>
    rapidxml::xml_node<> *blog_root = content.allocate_node(rapidxml::node_element, "blog");
    content.append_node(blog_root);

    // Configuration <config>
    rapidxml::xml_node<> *conf = content.allocate_node(rapidxml::node_element, "config");
    blog_root->append_node(conf);
    wn(conf, "meta-desc", config.meta_desc_);
    wn(conf, "meta-author", config.meta_author_);
    wn(conf, "meta-title", config.meta_title_);
    wn(conf, "meta-conf-bootstrap", config.bootstrap_);
    wn(conf, "meta-conf-css", config.css_);
    wns(conf, "nav-items", "href", "item", config.menu_);
    wn(conf, "home-link", config.home_link_);
    wn(conf, "title", config.title_);
    wn(conf, "subtitle", config.subtitle_);
    wn(conf, "about", config.about_, "line", config.about_headline_);
    wns(conf, "links", "href", "item", config.links_, "line", config.links_headline_);
    wn(conf, "philosophy", config.philosophy_);
    wn(conf, "backtotop", config.back_to_top_);
    wn(conf, "post-per-page", std::to_string(config.post_per_page_));

    // Post root <post prev="#" next="#">
    rapidxml::xml_node<> *post_node = content.allocate_node(rapidxml::node_element, "posts");
    rapidxml::xml_attribute<> *prev_attr = content.allocate_attribute("prev", "#");
    post_node->append_attribute(prev_attr);
    rapidxml::xml_attribute<> *next_attr = content.allocate_attribute("next", "#");
    post_node->append_attribute(next_attr);
    blog_root->append_node(post_node);

    for (std::vector<basics::Post>::iterator it = posts.begin(); it != posts.end(); ++it) {
        char *timestamp_str = content.allocate_string(it->get_timestamp_str().c_str());
        char *author = content.allocate_string(it->get_author().c_str());
        char *title = content.allocate_string(it->get_title().c_str());

        std::string escaped_life = basics::escape_string(it->get_life());
        char *life = content.allocate_string(escaped_life.c_str());

        // Building new post node
        rapidxml::xml_node<> *another_post = content.allocate_node(rapidxml::node_element, "post");
        rapidxml::xml_attribute<> *date_attr = content.allocate_attribute("date", timestamp_str);
        another_post->append_attribute(date_attr);
        rapidxml::xml_attribute<> *author_attr = content.allocate_attribute("author", author);
        another_post->append_attribute(author_attr);
        rapidxml::xml_node<> *title_child = content.allocate_node(rapidxml::node_element, "title", title);
        another_post->append_node(title_child);
        rapidxml::xml_node<> *mylife_child = content.allocate_node(rapidxml::node_element, "mylife", life);
        another_post->append_node(mylife_child);

        // Adding edition dates
        rapidxml::xml_node<> *eds_node = content.allocate_node(rapidxml::node_element, "editions");
        std::vector<std::string> editions = it->editions();
        for (std::vector<std::string>::iterator it = editions.begin(); it != editions.end(); ++it) {
            char *edition = content.allocate_string(it->c_str());
            rapidxml::xml_node<> *ed_node = content.allocate_node(rapidxml::node_element, "edition", edition);
            eds_node->append_node(ed_node);
        }
        another_post->append_node(eds_node);

        // Adding node to post root
        post_node->append_node(another_post);
    }

    std::string content_string;
    rapidxml::print(std::back_inserter(content_string), content);

    std::ofstream content_output_stream(content_storage_file.string());
    content_output_stream << content_string;
    content_output_stream.close();
}
Beispiel #28
0
void testIdpQonvert(const string& idpQonvertPath, const bfs::path& testDataPath)
{
    // clean up existing intermediate files
    vector<bfs::path> intermediateFiles;
    pwiz::util::expand_pathmask(testDataPath / "*.idpDB", intermediateFiles);
    pwiz::util::expand_pathmask(testDataPath / "broken.pepXML", intermediateFiles);
    BOOST_FOREACH(const bfs::path& intermediateFile, intermediateFiles)
        bfs::remove(intermediateFile);

    vector<bfs::path> idFiles;
    pwiz::util::expand_pathmask(testDataPath / "*.pep.xml", idFiles);
    pwiz::util::expand_pathmask(testDataPath / "*.pepXML", idFiles);
    pwiz::util::expand_pathmask(testDataPath / "*.mzid", idFiles);
    pwiz::util::expand_pathmask(testDataPath / "*.dat", idFiles);
    if (idFiles.empty())
        throw runtime_error("[testIdpQonvert] No identification files found in test path \"" + testDataPath.string() + "\"");


    // <idpQonvertPath> <matchPaths>
    string command = (format("%1%\"%2%\" \"%3%\" -DecoyPrefix \"\"%1%") % commandQuote % idpQonvertPath % bal::join(idFiles | boost::adaptors::transformed(path_stringer()), "\" \"")).str();
    unit_assert_operator_equal(0, testCommand(command));

    vector<bfs::path> idpDbFiles;
    BOOST_FOREACH(const bfs::path& idFile, idFiles)
    {
        idpDbFiles.push_back(idFile);
        string idpDbFilepath = bal::replace_all_copy(idpDbFiles.back().string(), ".pep.xml", ".pepXML");
        idpDbFiles.back() = bfs::path(idpDbFilepath).replace_extension(".idpDB");

        unit_assert(bfs::exists(idpDbFiles.back()));
        sqlite3pp::database db(idpDbFiles.back().string());
        unit_assert_does_not_throw(sqlite3pp::query(db, "SELECT * FROM IntegerSet").begin(), sqlite3pp::database_error);

        // test analysis name differentiation
        string softwareName = sqlite3pp::query(db, "SELECT SoftwareName FROM Analysis").begin()->get<string>(0);
        string analysisName = sqlite3pp::query(db, "SELECT Name FROM Analysis").begin()->get<string>(0);
        if (softwareName == "MyriMatch")
        {
            unit_assert(bal::contains(analysisName, "MinTerminiCleavages"));
            if (bal::contains(analysisName, "MinTerminiCleavages=1"))
                unit_assert_operator_equal("MyriMatch 2.2.140 (MinTerminiCleavages=1, MonoPrecursorMzTolerance=50ppm, PrecursorMzToleranceRule=mono, parent tolerance minus value=50.0 ppm, parent tolerance plus value=50.0 ppm)", analysisName);
            else
                unit_assert_operator_equal("MyriMatch 2.2.140 (MinTerminiCleavages=0, MonoPrecursorMzTolerance=20ppm, PrecursorMzToleranceRule=auto, parent tolerance minus value=20.0 ppm, parent tolerance plus value=20.0 ppm)", analysisName);
        }
        else if (softwareName == "MS-GF+")
        {
            unit_assert(bal::contains(analysisName, "Instrument"));
            if (bal::contains(analysisName, "Instrument=LowRes"))
                unit_assert_operator_equal("MS-GF+ Beta (v10072) (FragmentMethod=As written in the spectrum or CID if no info, Instrument=LowRes, NumTolerableTermini=0, parent tolerance minus value=20.0 ppm, parent tolerance plus value=20.0 ppm)", analysisName);
            else
                unit_assert_operator_equal("MS-GF+ Beta (v10072) (FragmentMethod=HCD, Instrument=QExactive, NumTolerableTermini=1, parent tolerance minus value=50.0 ppm, parent tolerance plus value=50.0 ppm)", analysisName);
        }
        else if (softwareName == "Comet")
        {
            unit_assert(bal::contains(analysisName, "fragment_bin_tol"));
            if (bal::contains(analysisName, "fragment_bin_tol=1.000500"))
                unit_assert_operator_equal("Comet 2014.02 (fragment tolerance minus value=1.000500 u, fragment tolerance plus value=1.000500 u, fragment_bin_offset=0.400000, fragment_bin_tol=1.000500, theoretical_fragment_ions=1)", analysisName);
            else
                unit_assert_operator_equal("Comet 2014.02 (fragment tolerance minus value=0.020000 u, fragment tolerance plus value=0.020000 u, fragment_bin_offset=0.020000, fragment_bin_tol=0.020000, theoretical_fragment_ions=0)", analysisName);
        }
        else if (softwareName == "Mascot")
        {
            unit_assert(bal::contains(analysisName, "fragment tolerance minus value"));
            if (bal::contains(analysisName, "fragment tolerance minus value=0.6 u"))
                unit_assert_operator_equal("Mascot 2.2.06 (fragment tolerance minus value=0.6 u, fragment tolerance plus value=0.6 u, parent tolerance minus value=20.0 ppm, parent tolerance plus value=20.0 ppm)", analysisName);
            else
                unit_assert_operator_equal("Mascot 2.2.06 (fragment tolerance minus value=0.1 u, fragment tolerance plus value=0.1 u, parent tolerance minus value=50.0 ppm, parent tolerance plus value=50.0 ppm)", analysisName);
        } else
            throw runtime_error("[testIdpQonvert] Software name is not one of the expected values.");
    }
Beispiel #29
0
 result_type operator()(const bfs::path& x) const { return x.string(); }
Beispiel #30
0
void RunFolderGenerator::generateConfig() const
{
    using boost::property_tree::ptree;
    ptree pt;
    pt.put("BaseCallAnalysis.Run.<xmlattr>.Name", "BaseCalls");
    ptree &run = pt.get_child("BaseCallAnalysis.Run");
    run.put("Cycles.<xmlattr>.First", 1);
    const unsigned int length = runInfo_.getClusterLength();
    run.put("Cycles.<xmlattr>.Last", length);
    run.put("Cycles.<xmlattr>.Length", length);
    run.put("BaseCallParameters", "");
    ptree &baseCallParameters = run.get_child("BaseCallParameters");
    run.put("RunParameters", "");
    ptree &runParameters = run.get_child("RunParameters");

    baseCallParameters.put("ChastityThreshold", 0.6); // This entry is only needed to keep the structure of the xml file such that copyConfig.pl doesn't "optimise" things and generate a broken output file

    unsigned int r = 0;
    BOOST_FOREACH(const eagle::io::ReadDescription &rd, runInfo_.reads)
    {
        r++;
        ptree matrix;
        matrix.put("Read", r);
        matrix.put("AutoFlag", 2);
        matrix.put("AutoLane", 0);
        matrix.put("FirstCycle", rd.firstCycle);
        matrix.put("LastCycle", rd.lastCycle);
        ptree phasing = matrix;
        matrix.put("CycleOffset", 0);
        matrix.put("Cycle", rd.firstCycle);
        phasing.put("CycleOffset", 1);
        phasing.put("Cycle", rd.firstCycle + 1);
        phasing.put("PhasingRate", 0.02 + r / 100.0);
        phasing.put("PrephasingRate", 0.03 + r / 100.0);
        baseCallParameters.add_child("Matrix", matrix);
        baseCallParameters.add_child("Phasing", phasing);
        ptree reads;
        reads.put("<xmlattr>.Index", r);
        reads.put("FirstCycle", rd.firstCycle);
        reads.put("LastCycle", rd.lastCycle);
        runParameters.add_child("Reads", reads);
    }

    runParameters.put("Instrument", instrument_);
    runParameters.put("RunFolder", runFolder_);
    runParameters.put("RunFolderDate", runFolderDate_);
    runParameters.put("RunFolderId", runFolderId_);
    run.put("Software", "");
    run.put("Software.<xmlattr>.Name", "RTA");
    run.put("Software.<xmlattr>.Version", "1.9.35.0");
    run.put("TileSelection", "");
    ptree &tileSelection = run.get_child("TileSelection");

    for (unsigned int l = 1; runInfo_.laneCount >= l; ++l)
    {
        ptree lane;
        lane.put("<xmlattr>.Index", l);
        lane.put("Sample", 's');
        unsigned int tilesPerLane = runInfo_.tileCount * runInfo_.surfaceCount * runInfo_.swathCount;
        assert( tilesPerLane == options_.tileId.size() );
        for (unsigned int t = 0; t < tilesPerLane; ++t)
        {
            lane.add("Tile", options_.tileId[t]);
        }
        tileSelection.add_child("Lane", lane);
    }

    const boost::property_tree::xml_writer_settings<string> w(' ', 2);
    const bfs::path configPath = baseCallsPath_ / "config.xml";

    // DEBUG
    std::clog << "Writing config file " << configPath.string() << std::endl;

    write_xml(configPath.string(), pt, std::locale(), w);
}