Esempio n. 1
0
		bool listNetworks() {
			// Disable object registration
			DataModel::PublicObject::SetRegistrationEnabled(false);

			vector<string> files;
			collectFiles(files);

			if ( files.empty() ) {
				cerr << "Nothing to merge, no files given" << endl;
				return false;
			}

			DataModel::InventoryPtr finalInventory = new DataModel::Inventory();
			Merge merger(finalInventory.get());

			_currentTask = &merger;

			for ( size_t i = 0; i < files.size(); ++i ) {
				if ( _exitRequested ) break;

				IO::XMLArchive ar;
				if ( !ar.open(files[i].c_str()) ) {
					cerr << "Could not open file (ignored): " << files[i] << endl;
					continue;
				}

				DataModel::InventoryPtr inv;
				cerr << "Parsing " << files[i] << " ... " << flush;
				ar >> inv;
				cerr << "done" << endl;
				if ( !inv ) {
					cerr << "No inventory found (ignored): " << files[i] << endl;
					continue;
				}

				_inventorySources[inv.get()] = files[i];

				// Pushing the inventory into the merger cleans it
				// completely. The ownership of all childs went to
				// the merger
				merger.push(inv.get());
			}

			_currentTask = NULL;

			if ( _exitRequested ) {
				cerr << "Exit requested: abort" << endl;
				return false;
			}

			cerr << "Merging inventory ... " << flush;
			merger.merge(false);
			cerr << "done" << endl;

			bool compact = commandline().hasOption("compact");
			int level = 2;
			if ( _level == "net" )
				level = 0;
			else if ( _level == "sta" )
				level = 1;
			else if ( _level == "cha" )
				level = 2;
			else if ( _level == "resp" )
				level = 3;

			std::vector<DataModel::Network*> nets;

			for ( size_t n = 0; n < finalInventory->networkCount(); ++n )
				nets.push_back(finalInventory->network(n));

			sort(nets.begin(), nets.end(), lessID<DataModel::Network>);

			for ( size_t n = 0; n < nets.size(); ++n ) {
				DataModel::Network *net = nets[n];
				if ( compact )
					cout << net->code() << "\t" << epochToStr(net) << endl;
				else {
					cout << "  network " << net->code();
					if ( !net->description().empty() ) {
						cout << setfill(' ') << setw(8-net->code().size()) << ' ';
						cout << " " << net->description();
					}
					cout << endl;
					cout << "    epoch " << epochToStr(net) << endl;
				}

				std::vector<DataModel::Station*> stas;

				if ( level > 0 ) {
					for ( size_t s = 0; s < net->stationCount(); ++s )
						stas.push_back(net->station(s));
				}

				sort(stas.begin(), stas.end(), lessID<DataModel::Station>);

				for ( size_t s = 0; s < stas.size(); ++s ) {
					DataModel::Station *sta = stas[s];
					if ( compact )
						cout << " " << sta->code() << "\t" << epochToStr(sta) << endl;
					else {
						cout << "    station " << sta->code();
						if ( !sta->description().empty() ) {
							cout << setfill(' ') << setw(6-sta->code().size()) << ' ';
							cout << " " << sta->description();
						}
						cout << endl;
						cout << "      epoch " << epochToStr(sta) << endl;
					}

					std::vector<DataModel::SensorLocation*> locs;

					if ( level > 1 ) {
						for ( size_t l = 0; l < sta->sensorLocationCount(); ++l )
							locs.push_back(sta->sensorLocation(l));
					}

					sort(locs.begin(), locs.end(), lessID<DataModel::SensorLocation>);

					for ( size_t l = 0; l < locs.size(); ++l ) {
						DataModel::SensorLocation *loc = locs[l];
						if ( compact ) {
							cout << "  ";
							if ( loc->code().empty() )
								cout << "__";
							else
								cout << loc->code();
							cout << "\t" << epochToStr(loc) << endl;
						}
						else {
							cout << "      location ";
							if ( loc->code().empty() )
								cout << "__";
							else
								cout << loc->code();
							cout << endl;

							cout << "        epoch " << epochToStr(loc) << endl;
						}

						std::vector<DataModel::Stream*> streams;

						for ( size_t s = 0; s < loc->streamCount(); ++s )
							streams.push_back(loc->stream(s));

						sort(streams.begin(), streams.end(), lessID<DataModel::Stream>);

						for ( size_t s = 0; s < streams.size(); ++s ) {
							DataModel::Stream *str = streams[s];
							if ( compact )
								cout << "   " << str->code() << "\t" << epochToStr(str) << endl;
							else {
								cout << "        channel ";
								cout << str->code() << endl;

								cout << "          epoch " << epochToStr(str) << endl;
							}

							if ( level >= 3 ) {
								const DataModel::Sensor *sens;
								const DataModel::Datalogger *dl;
								const DataModel::ResponsePAZ *paz;
								const DataModel::ResponsePolynomial *poly;
								const DataModel::ResponseFAP *fap;
								const DataModel::ResponseIIR *iir;

								try {
									int sr_num = str->sampleRateNumerator();
									int sr_den = str->sampleRateDenominator();
									cout << "          rate  " << sr_num << "/" << sr_den << " sps" << endl;
								}
								catch ( ... ) {}

								try {
									double gain = str->gain();
									cout << "          gain  " << gain << endl;
								}
								catch ( ... ) {}
								try {
									double freq = str->gainFrequency();
									cout << "          freq  " << freq << "Hz" << endl;
								}
								catch ( ... ) {}

								if ( !str->gainUnit().empty() )
									cout << "          unit  " << str->gainUnit() << endl;

								sens = merger.findSensor(str->sensor());
								if ( sens ) {
									cout << "          sens  " << sens->description() << endl;
									paz = merger.findPAZ(sens->response());
									if ( paz ) {
										cout << "          resp  PAZ" << endl;
										cout << tabular(paz, 16) << endl;
									}
									else {
										poly = merger.findPoly(sens->response());
										if ( poly ) {
											cout << "          resp  polynomial" << endl;
											cout << tabular(poly, 16) << endl;
										}
										else {
											fap = merger.findFAP(sens->response());
											if ( fap ) {
												cout << "          resp  fap" << endl;
												cout << tabular(fap, 16) << endl;
											}
											else {
												iir = merger.findIIR(sens->response());
												if ( iir ) {
													cout << "          resp  iir" << endl;
													cout << tabular(iir, 16) << endl;
												}
											}
										}
									}
								}

								dl = merger.findDatalogger(str->datalogger());
								if ( dl ) {
									if ( !dl->description().empty() )
										cout << "          dl    " << dl->description() << endl;
									else
										cout << "          dl    -" << endl;

									try {
										double gain = dl->gain();
										cout << "                gain         " << gain << endl;
									}
									catch ( ... ) {}

									try {
										DataModel::Decimation *deci = dl->decimation(DataModel::DecimationIndex(str->sampleRateNumerator(), str->sampleRateDenominator()));
										if ( deci ) {
											cout << "          dec   " << str->sampleRateNumerator() << "/" << str->sampleRateDenominator() << " sps" << endl;
											cout << tabular(&merger, deci, 16) << endl;
										}
									}
									catch ( ... ) {}
								}
							}
						}
					}
				}
			}

			return true;
		}
Esempio n. 2
0
		bool syncRCFiles(DataModel::Inventory *inv) {
			if ( !Util::pathExists(_rcdir) ) {
				if ( !Util::createPath(_rcdir) ) {
					cerr << "ERROR: Unable to create rc output path "
					     << _rcdir << endl;
					return false;
				}
			}

			typedef pair<Core::Time, string> Item;
			typedef map<string, Item> DescMap;
			DescMap descs;

			for ( size_t n = 0; n < inv->networkCount(); ++n ) {
				DataModel::Network *net = inv->network(n);
				for ( size_t s = 0; s < net->stationCount(); ++s ) {
					DataModel::Station *sta = net->station(s);
					string id = net->code() + "_" + sta->code();
					Core::Time endTime;

					try { endTime = sta->end(); }
					catch ( ... ) {}

					DescMap::iterator it = descs.find(id);
					if ( it == descs.end() )
						descs[id] = Item(endTime, sta->description());
					else {
						if ( (it->second.first.valid() && it->second.first < endTime) ||
						     !endTime.valid() )
							it->second.second = sta->description();
					}
				}
			}

			// Collect all station files
			vector<string> oldFiles;
			try {
				fs::path directory = SC_FS_PATH(_rcdir);
				fs::directory_iterator it(directory);
				fs::directory_iterator dirEnd;

				for ( ; it != dirEnd; ++it ) {
					if ( fs::is_directory(*it) ) continue;
					string name = SC_FS_IT_LEAF(it);
					if ( name.compare(0, 8, "station_") == 0 )
						oldFiles.push_back(SC_FS_IT_STR(it));
				}
			}
			catch ( ... ) {}

			// Delete them
			for ( size_t i = 0; i < oldFiles.size(); ++i )
				unlink(oldFiles[i].c_str());

			for ( DescMap::iterator it = descs.begin(); it != descs.end(); ++it ) {
				fs::path fp = SC_FS_PATH(_rcdir) / SC_FS_PATH((string("station_") + it->first));
				Config::Config cfg;
				cfg.setString("description", it->second.second);
				if (! cfg.writeConfig(fp.string()) ) {
					cerr << "ERROR: " << fp.string() << ": unable to write file" << endl;
					return false;
				}
			}

			return true;
		}