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The client-side library for Java developers is a separate JAR from the LabKey Server code base. It can be used by any Java program, including another Java web application.
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/*
* Copyright (c) 2011-2015 LabKey Corporation
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.labkey.remoteapi.test;
import au.com.bytecode.opencsv.CSVReader;
import java.io.*;
import java.util.*;
import org.labkey.remoteapi.CommandException;
import org.labkey.remoteapi.Connection;
import org.labkey.remoteapi.assay.*;
import org.labkey.remoteapi.ms2.StartSearchCommand;
/**
* Demo code that accepts one or more CSV files on the command line. It creates assay runs to hold the metadata
* from the CSV, and then initiates MS2 searches on the files. If the files are not yet available, the jobs will block
* until the server is notified that files are available (see PipelineFileAvailableClient).
*
* Expects to receive the path to one or more CSV files on the command line. Each CSV is required to have the following
* columns:
*
* FileName: the name of the mzXML or RAW file to be searched
* Path: the path to the file
* Sample: the name of the sample. Used to determine if files are fractions or independent samples.
* LabKeyFolder: the target folder in LabKey Server
* ProtocolToRun: the name of the existing search protocol to be used when searching the files
*
* If other columns are present in the CSV, they will be associated with the assay runs as run properties if the assay
* design includes run properties with the same names.
*
* By default looks for a config.properties in the working directory, but the location can be specified with a
* -config=<PATH TO CONFIG FILE> argument.
*
* Expects the following config properties:
* baseServerURL: base URL of the LabKey Server, such as "http://www.labkey.org"
* username: credentials for logging in
* password: credentials for logging in
* pipelineRoot: the path to the pipeline root for the target folder. Used to pass a relative path to the server.
* assayId: the rowId of the GPAT assay design to be used for storing metadata
* searchEngine: the name of the MS2 search engine to use. Supported values are XTandem, Sequest, and Mascot.
* debug: (Optional) If true, print verbose HTTP connection debugging information
*/
public class MS2SearchClient
{
/** Simple bean class to hold the values that uniquely identify the files to be submitted in one search */
private static class SearchInfo
{
private String _sample;
private String _protocol;
private String _folder;
private String _path;
private SearchInfo(String sample, String protocol, String folder, String path)
{
_sample = sample;
_protocol = protocol;
_folder = folder;
_path = path;
}
public String getProtocol()
{
return _protocol;
}
public String getFolder()
{
return _folder;
}
public String getPath()
{
return _path;
}
public boolean equals(Object o)
{
if (this == o)
return true;
if (!(o instanceof SearchInfo))
return false;
SearchInfo that = (SearchInfo) o;
if (_folder == null ? that._folder != null : !_folder.equals(that._folder))
return false;
if (_path == null ? that._path != null : !_path.equals(that._path))
return false;
if (_protocol == null ? that._protocol != null : !_protocol.equals(that._protocol))
return false;
return _sample == null ? that._sample == null : _sample.equals(that._sample);
}
public int hashCode()
{
int result = _sample == null ? 0 : _sample.hashCode();
result = 31 * result + (_protocol == null ? 0 : _protocol.hashCode());
result = 31 * result + (_folder == null ? 0 : _folder.hashCode());
result = 31 * result + (_path == null ? 0 : _path.hashCode());
return result;
}
}
public static void main(String... args) throws Exception
{
ClientConfig config = new ClientConfig(args);
int assayId = getAssayId(config);
// Map from target folder path to assay batch
Map batches = new HashMap();
// Map from MS2 search info to the list of file names to be searched
Map> searches = new HashMap>();
parseCSVs(args, batches, searches);
Connection connection = config.createConnection();
try
{
submitAssayBatches(assayId, batches, connection);
submitSearches(config, searches, connection);
}
catch (CommandException e)
{
System.err.println((new StringBuilder()).append("Failure! Response code: ").append(e.getStatusCode()).toString());
e.printStackTrace();
System.err.println();
if (e.getResponseText() != null)
{
System.err.println("Response text: ");
System.err.println(e.getResponseText());
}
System.exit(1);
}
}
/**
* Initiates MS2 searches
*/
private static void submitSearches(ClientConfig config, Map> searches, Connection connection)
throws IOException, CommandException
{
String pipelineRoot = config.getProperty("pipelineRoot");
String searchEngineName = config.getProperty("searchEngine");
StartSearchCommand.SearchEngine searchEngine = null;
for (StartSearchCommand.SearchEngine engine : StartSearchCommand.SearchEngine.values())
{
if (engine.name().equalsIgnoreCase(searchEngineName))
{
searchEngine = engine;
}
}
if (searchEngine == null)
{
throw new IllegalArgumentException("searchEngine '" + searchEngineName + "' is not one of the available options: " + Arrays.asList(StartSearchCommand.SearchEngine.values()));
}
for (Map.Entry> entry : searches.entrySet())
{
SearchInfo searchInfo = entry.getKey();
// Figure out a relative path from the pipeline root
String fullPath = searchInfo.getPath();
if (!fullPath.toLowerCase().startsWith(pipelineRoot.toLowerCase()))
{
throw new IllegalArgumentException((new StringBuilder()).append("Could not determine relative path for '").append(fullPath).toString());
}
String relativePath = fullPath.substring(pipelineRoot.length());
relativePath = relativePath.replace('\\', '/');
if (!relativePath.startsWith("/"))
{
relativePath = "/" + relativePath;
}
List fileNames = entry.getValue();
System.out.print("Submitting search using protocol " + searchInfo.getProtocol() + " to " + searchInfo.getFolder() + ", with " + fileNames.size() + " files");
StartSearchCommand startCommand = new StartSearchCommand(searchEngine, searchInfo.getProtocol(), relativePath, fileNames);
startCommand.execute(connection, searchInfo.getFolder());
}
}
/**
* Iterate over all of the batch objects and submit them to the right target folder
*
* @param assayId rowId of the target assay design
* @param batches a map from target folder to assay batch
*/
private static void submitAssayBatches(int assayId, Map batches, Connection connection)
throws IOException, CommandException
{
for (Map.Entry entry : batches.entrySet())
{
Batch batch = entry.getValue();
String targetFolder = entry.getKey();
SaveAssayBatchCommand command = new SaveAssayBatchCommand(assayId, batch);
System.out.print("Submitting metadata from " + batch + " to " + targetFolder + ", describing " + batch.getRuns().size() + " files");
command.execute(connection, targetFolder);
}
}
/**
* Parse all of the CSVs passed on the command line and build up the list of assay batches to be inserted,
* and the searches to be initiated.
*/
private static void parseCSVs(String[] args, Map batches, Map> searches)
throws IOException
{
for (String arg : args)
{
// Skip -config= or other non-CSV arguments
if (!arg.startsWith("-"))
{
File csvFile = new File(arg);
System.out.println("Processing " + csvFile);
List lines;
InputStream in = new FileInputStream(csvFile);
try
{
// Parse the CSVs into lists of string values
Reader reader = new InputStreamReader(in);
CSVReader csvReader = new CSVReader(reader, ',', '"', '~');
lines = csvReader.readAll();
}
finally
{
in.close();
}
if (lines.size() < 2)
{
throw new IllegalArgumentException("Expected to have at least two rows in CSV, one with headers and others with data in " + csvFile.getPath());
}
String headers[] = lines.get(0);
// Look at each data row within the CSV
for (int i = 1; i < lines.size(); i++)
{
String[] line = lines.get(i);
// Skip lines that are completely empty
boolean blankLink = true;
for (String value : line)
{
if (value != null && !value.trim().isEmpty())
{
blankLink = false;
break;
}
}
if (blankLink)
{
continue;
}
// Pull out the required values
String fileName = getValue(line, headers, "FileName", i);
String path = getValue(line, headers, "Path", i);
String sample = getValue(line, headers, "Sample", i);
String folder = getValue(line, headers, "LabKeyFolder", i);
String protocol = getValue(line, headers, "ProtocolToRun", i);
// Create a map of all the properties. If the assay design has run properties with names that
// match, the values will be stored with the run.
Map runProperties = new HashMap();
for (int columnIndex = 0; columnIndex < line.length; columnIndex++)
{
runProperties.put(headers[columnIndex], line[columnIndex]);
}
// We want to create one batch per folder, so grab an existing batch if we have one
Batch batch = batches.get(folder);
if (batch == null)
{
// This is the first run for this folder, so create a new batch
batch = new Batch();
batch.setName(csvFile.getName());
batches.put(folder, batch);
}
addRunToBatch(batch, fileName, path, runProperties);
SearchInfo info = new SearchInfo(sample, protocol, folder, path);
List files = searches.get(info);
if (files == null)
{
files = new ArrayList();
searches.put(info, files);
}
files.add(fileName);
}
}
}
}
/** @return the parsed assayId config property as an int */
private static int getAssayId(ClientConfig config)
{
String assayIdString = config.getProperty("assayId");
int assayId;
try
{
assayId = Integer.parseInt(assayIdString);
}
catch (NumberFormatException e)
{
throw new IllegalArgumentException((new StringBuilder()).append("Could not parse assayId: ").append(assayIdString).toString(), e);
}
return assayId;
}
/**
* @return the value for the given column in the specified line.
* @param lineNumber used only to build up an error message if the value can't be found
*/
private static String getValue(String line[], String headers[], String columnName, int lineNumber)
{
int columnIndex = findIndex(headers, columnName);
if (columnIndex >= line.length)
throw new IllegalArgumentException((new StringBuilder()).append("Row ").append(lineNumber).append(" is incomplete in CSV file. It contains fewer columns than the header does.").toString());
String result = line[columnIndex];
if (result == null || result.trim().equals(""))
throw new IllegalArgumentException((new StringBuilder()).append("Row ").append(lineNumber).append(" is incomplete in CSV file, it does not include a value for '").append(columnName).append("'").toString());
else
return result.trim();
}
/** Adds a new run to the assay batch to store the metadata for the current input MS2 file */
private static void addRunToBatch(Batch batch, String fileName, String path, Map runProperties)
{
Run run = new Run();
run.setName(fileName);
run.getProperties().putAll(runProperties);
batch.getRuns().add(run);
List outputFiles = new ArrayList();
Data data = new Data();
data.setAbsolutePath(path + File.separator + fileName);
outputFiles.add(data);
run.setDataOutputs(outputFiles);
}
/** Finds a column by name given the column headers */
private static int findIndex(String headers[], String propertyName)
{
for (int i = 0; i < headers.length; i++)
{
if (propertyName.equalsIgnoreCase(headers[i]))
return i;
}
throw new IllegalArgumentException("Unable to find required property '" + propertyName + "' in input CSV file");
}
}