// This method is thread-safe. public void AddBlock(string path, string[] demodulationConfigs) { string[] splitPath = path.Split('\\'); log("Loading block " + splitPath[splitPath.Length - 1]); BlockSerializer bs = new BlockSerializer(); Block b = bs.DeserializeBlockFromZippedXML(path, "block.xml"); AddBlock(b, demodulationConfigs); }
private void AddBlock(string path, string normConfig) { Monitor.JobStarted(); string fileName = path.Split('\\').Last(); try { Controller.log("Adding block " + fileName); using (BlockDatabaseDataContext dc = new BlockDatabaseDataContext()) { BlockSerializer bls = new BlockSerializer(); Block b = bls.DeserializeBlockFromZippedXML(path, "block.xml"); Controller.log("Loaded " + fileName); // at the moment the block data is normalized by dividing each "top" TOF through // by the integral of the corresponding "norm" TOF over the gate in the function below. // TODO: this could be improved! b.Normalise(DemodulationConfig.GetStandardDemodulationConfig(normConfig, b).GatedDetectorExtractSpecs["norm"]); // add some of the single point data to the Shot TOFs so that it gets analysed string[] spvsToTOFulise = new string[] { "NorthCurrent", "SouthCurrent", "MiniFlux1", "MiniFlux2", "MiniFlux3", "ProbePD", "PumpPD"}; b.TOFuliseSinglePointData(spvsToTOFulise); // extract the metadata and config into a DB object DBBlock dbb = new DBBlock(); dbb.cluster = (string)b.Config.Settings["cluster"]; dbb.clusterIndex = (int)b.Config.Settings["clusterIndex"]; dbb.include = false; dbb.eState = (bool)b.Config.Settings["eState"]; dbb.bState = (bool)b.Config.Settings["bState"]; try { dbb.rfState = (bool)b.Config.Settings["rfState"]; } catch (Exception) { // blocks from the old days had no rfState recorded in them. dbb.rfState = true; } dbb.ePlus = (double)b.Config.Settings["ePlus"]; dbb.eMinus = (double)b.Config.Settings["eMinus"]; dbb.blockTime = (DateTime)b.TimeStamp; byte[] bts = serializeAsByteArray(b.Config); dbb.configBytes = bts; // extract the TOFChannelSets List<string> detectorsToExtract = new List<string> { "top", "norm", "magnetometer", "gnd", "battery","topNormed","NorthCurrent", "SouthCurrent", "MiniFlux1", "MiniFlux2", "MiniFlux3", "ProbePD", "PumpPD" }; foreach (string detector in detectorsToExtract) { BlockTOFDemodulator demod = new BlockTOFDemodulator(); TOFChannelSet tcs = demod.TOFDemodulateBlock(b, b.detectors.IndexOf(detector), true); byte[] tcsBytes = serializeAsByteArray(tcs); DBTOFChannelSet t = new DBTOFChannelSet(); t.tcsData = tcsBytes; t.detector = detector; t.FileID = Guid.NewGuid(); dbb.DBTOFChannelSets.Add(t); } Controller.log("Demodulated " + fileName); // add to the database dc.DBBlocks.InsertOnSubmit(dbb); dc.SubmitChanges(); Controller.log("Added " + fileName); } } catch (Exception e) { Controller.errorLog("Error adding " + fileName); Controller.errorLog("Error adding block " + path + "\n" + e.StackTrace); } finally { Monitor.JobFinished(); } }
// Somewhere for SirCachealot to store test results that's accessible by Mathematica. // Makes debugging easier and is needed as a workaround for the constant Mathematica // NET/Link errors. // public TOFChannelSetGroup ChanSetGroup; // workarounds for NET/Link bugs //public TOFChannelSet GetAveragedChannelSet(bool eSign, bool bSign, bool rfSign) //{ // return ChanSetGroup.AverageChannelSetSignedByMachineState(eSign, bSign, rfSign); //} //public void LoadChannelSetGroup(string path) //{ // BinaryFormatter bf = new BinaryFormatter(); // FileStream fs = new FileStream(path, FileMode.Open); // ChanSetGroup = (TOFChannelSetGroup)bf.Deserialize(fs); // fs.Close(); //} public void Test1() { BlockSerializer bs = new BlockSerializer(); Block b = bs.DeserializeBlockFromZippedXML( "C:\\Users\\jony\\Files\\Data\\SEDM\\v3\\2009\\October2009\\01Oct0900_0.zip", "block.xml"); BlockDemodulator bd = new BlockDemodulator(); DemodulatedBlock db = bd.DemodulateBlockNL(b, DemodulationConfig.GetStandardDemodulationConfig("cgate11Fixed", b)); //JsonSerializer serializer = new JsonSerializer(); //using (StreamWriter sw = new StreamWriter("c:\\Users\\jony\\Desktop\\test.json")) //using (JsonWriter writer = new JsonTextWriter(sw)) //{ // serializer.Serialize(writer, b.Config); //} //bs.SerializeBlockAsJSON("c:\\Users\\jony\\Desktop\\test.json", b); }
internal void ActuallyTestLiveAnalysis() { for (int i = 1; i <= 20; i++) { string fileRoot = Environs.FileSystem.Paths["edmDataPath"] + "\\2009\\April2009\\30apr0900_"; BlockSerializer bs = new BlockSerializer(); Block b = bs.DeserializeBlockFromZippedXML(fileRoot + (i.ToString()) + ".zip", "block.xml"); AcquisitionFinished(b); } }