/** Creates an instance of an algorithm and sets the properties provided
 * 
 *  @param algName :: The name of the algorithm required
 *  @param propertiesArray :: A single string containing properties in the 
 *                         form "Property1=Value1;Property2=Value2;..."
 *  @param version :: The version of the algorithm
 *  @return A pointer to the created algorithm
 *          WARNING! DO NOT DELETE THIS POINTER, because it is owned
 *          by a shared pointer in the AlgorithmManager.
 * 
 *  @throw NotFoundError Thrown if algorithm requested is not registered
 *  @throw std::invalid_argument Thrown if properties string is ill-formed
 */ 
IAlgorithm* FrameworkManagerImpl::createAlgorithm(const std::string& algName,const std::string& propertiesArray, const int& version)
{
  // Use the previous method to create the algorithm
  IAlgorithm *alg = AlgorithmManager::Instance().create(algName,version).get();//createAlgorithm(algName);
  alg->setProperties(propertiesArray);
  return alg;
}
/// Check if a newer release of Mantid is available
void FrameworkManagerImpl::CheckIfNewerVersionIsAvailable() {
  try {
    IAlgorithm *algCheckVersion = this->createAlgorithm("CheckMantidVersion");
    algCheckVersion->setAlgStartupLogging(false);
    Poco::ActiveResult<bool> result = algCheckVersion->executeAsync();
  } catch (Kernel::Exception::NotFoundError &) {
    g_log.debug() << "CheckMantidVersion algorithm is not available - cannot "
                     "check if a newer version is available." << std::endl;
  }
}
/** Creates an instance of an algorithm, sets the properties provided and
 *       then executes it.
 * 
 *  @param algName :: The name of the algorithm required
 *  @param propertiesArray :: A single string containing properties in the 
 *                         form "Property1=Value1;Property2=Value2;..."
 *  @param version :: The version of the algorithm
 *  @return A pointer to the executed algorithm
 *          WARNING! DO NOT DELETE THIS POINTER, because it is owned
 *          by a shared pointer in the AlgorithmManager.
 * 
 *  @throw NotFoundError Thrown if algorithm requested is not registered
 *  @throw std::invalid_argument Thrown if properties string is ill-formed
 *  @throw runtime_error Thrown if algorithm cannot be executed
 */ 
IAlgorithm* FrameworkManagerImpl::exec(const std::string& algName, const std::string& propertiesArray, const int& version)
{
  // Make use of the previous method for algorithm creation and property setting
  IAlgorithm *alg = createAlgorithm(algName, propertiesArray,version);
  
  // Now execute the algorithm
  alg->execute();
  
  return alg;
}
/// Update instrument definitions from github
void FrameworkManagerImpl::UpdateInstrumentDefinitions() {
  try {
    IAlgorithm *algDownloadInstrument =
        this->createAlgorithm("DownloadInstrument");
    algDownloadInstrument->setAlgStartupLogging(false);
    Poco::ActiveResult<bool> result = algDownloadInstrument->executeAsync();
  } catch (Kernel::Exception::NotFoundError &) {
    g_log.debug() << "DowndloadInstrument algorithm is not available - cannot "
                     "update instrument definitions." << std::endl;
  }
}
  MDHistoWorkspace_sptr doTest(std::string algoName, std::string inName, std::string outName,
      bool succeeds, std::string otherProp, std::string otherPropValue)
  {
    MDHistoWorkspace_sptr histo = MDEventsTestHelper::makeFakeMDHistoWorkspace(2.0, 2, 5, 10.0, 2.0);
    IMDEventWorkspace_sptr event = MDEventsTestHelper::makeMDEW<2>(3, 0.0, 10.0, 1);
    WorkspaceSingleValue_sptr scalar = WorkspaceCreationHelper::CreateWorkspaceSingleValue(2.5);
    AnalysisDataService::Instance().addOrReplace("histo", histo);
    AnalysisDataService::Instance().addOrReplace("event", event);
    AnalysisDataService::Instance().addOrReplace("scalar", scalar);

    IAlgorithm* alg = FrameworkManager::Instance().createAlgorithm(algoName);
    alg->initialize();
    alg->setPropertyValue("InputWorkspace", inName );
    alg->setPropertyValue("OutputWorkspace", outName );
    if (!otherProp.empty())
      alg->setPropertyValue(otherProp, otherPropValue);
    alg->execute();
    if (succeeds)
    {
      if (!alg->isExecuted())
        throw std::runtime_error("Algorithm " + algoName + " did not succeed.");
      IMDWorkspace_sptr out = boost::dynamic_pointer_cast<IMDWorkspace>( AnalysisDataService::Instance().retrieve(outName));
      if (!out)
        throw std::runtime_error("Algorithm " + algoName + " did not create the output workspace.");
      return boost::dynamic_pointer_cast<MDHistoWorkspace>(out);
    }
    else
    {
      if (alg->isExecuted())
        throw std::runtime_error("Algorithm " + algoName + " did not fail as expected.");
      return (MDHistoWorkspace_sptr());
    }
  }
  /// Run a binary algorithm.
  MDHistoWorkspace_sptr doTest(std::string algoName, std::string lhs, std::string rhs, std::string outName,
      bool succeeds, std::string otherProp, std::string otherPropValue)
  {
    setUpBinaryOperationMDTestHelper();

    IAlgorithm* alg = FrameworkManager::Instance().createAlgorithm(algoName);
    alg->initialize();
    alg->setPropertyValue("LHSWorkspace", lhs );
    alg->setPropertyValue("RHSWorkspace", rhs );
    alg->setPropertyValue("OutputWorkspace", outName );
    if (!otherProp.empty())
      alg->setPropertyValue(otherProp, otherPropValue);
    alg->execute();
    if (succeeds)
    {
      if (!alg->isExecuted())
        throw std::runtime_error("Algorithm " + algoName + " did not succeed.");
      IMDWorkspace_sptr out = boost::dynamic_pointer_cast<IMDWorkspace>( AnalysisDataService::Instance().retrieve(outName));
      if (!out)
        throw std::runtime_error("Algorithm " + algoName + " did not create the output workspace.");
      return boost::dynamic_pointer_cast<MDHistoWorkspace>(out);
    }
    else
    {
      if (alg->isExecuted())
        throw std::runtime_error("Algorithm " + algoName + " did not fail as expected.");
      return (MDHistoWorkspace_sptr());
    }
  }
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/**
  * Execute an algorithm
  * @param nlhs :: The number of parameters on the left-hand side of the equals
  * @param plhs :: The data on the left-hand side of the equals
  * @param nrhs :: The number of parameters in the Matlab function call
  * @param prhs :: The data from the Matlab function call
 * @returns An integer indicating success/failure
   */
int RunAlgorithm(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[]) {
  try {
    char buffer[256];

    uint64_t *data = (uint64_t *)mxGetData(prhs[0]);
    IAlgorithm *alg = (IAlgorithm *)data[0];
    mxGetString(prhs[1], buffer, sizeof(buffer));
    alg->setProperties(buffer);
    alg->execute();
    plhs[0] = mxCreateString("");
    return 0;
  } catch (std::exception &e) {
    mexErrMsgTxt(e.what());
    return 1;
  }
}
Exemple #8
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/**
 * A slot to handle the help button click
 */
void AlgorithmDialog::helpClicked()
{
  // Default help URL
  QString url = QString("http://www.mantidproject.org/") + m_algName;

  if (m_algorithm)
  {
    // Find the latest version
    IAlgorithm* alg = Mantid::API::FrameworkManager::Instance().createAlgorithm(m_algName.toStdString(), -1);
    int latest_version = alg->version();
    // Adjust the link if you're NOT looking at the latest version of the algo
    int this_version = m_algorithm->version();
    if ((this_version != latest_version))
      url += "_v." + QString::number(this_version);
  }

  // Open the URL
  QDesktopServices::openUrl(QUrl(url));
}
Exemple #9
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/**
  * Execute an algorithm with a property list
  * @param nlhs :: The number of parameters on the left-hand side of the equals
  * @param plhs :: The data on the left-hand side of the equals
  * @param nrhs :: The number of parameters in the Matlab function call
  * @param prhs :: The data from the Matlab function call
  * @returns An integer indicating success/failure
  */
int RunAlgorithmPV(int nlhs, mxArray *plhs[], int nrhs, const mxArray *prhs[]) {
  try {
    mxArray *marray;
    char buffer[256];
    std::string property_name;

    uint64_t *data = (uint64_t *)mxGetData(prhs[0]);
    IAlgorithm *alg = (IAlgorithm *)data[0];
    int i = 1;
    while (i < nrhs) {
      if (mxGetClassID(prhs[i]) != mxCHAR_CLASS) {
        mexErrMsgTxt("Algorithm property name must be a string");
      }
      mxGetString(prhs[i], buffer, sizeof(buffer));
      property_name = buffer;
      i++;
      strcpy(buffer, mxGetClassName(prhs[i]));
      if (!strcmp(buffer, "char")) {
        mxGetString(prhs[i], buffer, sizeof(buffer));
        alg->setPropertyValue(property_name, buffer);
      } else if (!strcmp(buffer, "MantidWorkspace")) {
        marray = mxGetField(prhs[i], 0, "name");
        mxGetString(marray, buffer, sizeof(buffer));
        alg->setPropertyValue(property_name, buffer);
      } else {
        mexErrMsgTxt("Algorithm property value must be a string");
      }
      i++;
    }
    alg->execute();
    plhs[0] = mxCreateString("");
    return 0;
  } catch (std::exception &e) {
    mexErrMsgTxt(e.what());
    return 1;
  }
}
Exemple #10
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//Initialization of all algorithms available within the client
void		AlgorithmManager::initAlgorithms()
{
  IAlgorithm	*tmp = NULL;

  tmp = new StorageTTL;
  this->_algorithms[tmp->getName()] = tmp;
  tmp = new Checksum;
  this->_algorithms[tmp->getName()] = tmp;
  tmp = new TypeOfService;
  this->_algorithms[tmp->getName()] = tmp;
  tmp = new Timestamp;
  this->_algorithms[tmp->getName()] = tmp;
  tmp = new IPCoverTiming;
  this->_algorithms[tmp->getName()] = tmp;
}
Exemple #11
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/**
  * A helper function to create the simple API
  * @param algName :: A string giving the name of the algorithm
  * @param path :: The path to the .m file that we should create
  */
void CreateSimpleAPIHelper(const std::string &algName,
                           const std::string &path) {
  IAlgorithm *alg;
  try {
    alg = FrameworkManager::Instance().createAlgorithm(algName);
  } catch (std::exception &) {
    std::string err = "An error occurred while writing the ";
    err += algName + " function definition.\n";
    mexErrMsgTxt(err.c_str());
    return;
  }
  std::string fullpath(path + algName + ".m");
  std::ofstream mfile(fullpath.c_str());

  typedef std::vector<Mantid::Kernel::Property *> PropertyVector;
  // parameter list
  mfile << "function res = " << algName << "(varargin)\n";
  // help string
  PropertyVector orderedProperties(alg->getProperties());
  std::sort(orderedProperties.begin(), orderedProperties.end(),
            PropertyOrdering());
  PropertyVector::const_iterator pIter = orderedProperties.begin();
  PropertyVector::const_iterator pEnd = orderedProperties.end();
  mfile << "%\t" << algName << "(";
  for (; pIter != pEnd;) {
    mfile << (*pIter)->name();
    if (++pIter != pEnd)
      mfile << ", ";
  }
  mfile << ")\n";
  mfile << "%\t\tArgument description:\n";
  pIter = orderedProperties.begin();
  unsigned int iOpt(0);
  for (; pIter != pEnd; ++pIter) {
    Mantid::Kernel::Property *prop = *pIter;
    mfile << "%\t\tName: " << prop->name() << ", Optional: ";
    if (prop->isValid() == "") {
      ++iOpt;
      mfile << "Yes, Default value: " << santizePropertyValue(prop->value());
    } else
      mfile << "No";
    mfile << ", Direction: "
          << Mantid::Kernel::Direction::asText(prop->direction()); // << ", ";
    auto allowed = prop->allowedValues();
    if (!allowed.empty()) {
      mfile << ", Allowed values: ";
      auto sIter = allowed.begin();
      auto sEnd = allowed.end();
      for (; sIter != sEnd;) {
        mfile << (*sIter);
        if (++sIter != sEnd)
          mfile << ", ";
      }
    }
    mfile << "\n";
  }
  mfile << "%\n%\tNote: All string arguments must be wrapped in single quotes "
           "''.\n";

  // The function definition
  mfile << "if nargin < " << (orderedProperties.size() - iOpt) << "\n"
        << "\tfprintf('All mandatory arguments have not been supplied, type "
           "\"help " << algName << "\" for more information\\n');\n"
        << "\treturn\n"
        << "end\n";

  mfile << "alg = MantidAlgorithm('" << algName << "');\n"
        << "argstring = '';\n";
  // Build arguments list
  mfile << "for i = 1:nargin\n"
        << "\targstring = strcat(argstring,varargin{i});\n"
        << "\tif i < nargin\n"
        << "\t\targstring = strcat(argstring, ';');\n"
        << "\tend\n"
        << "end\n";
  // Run the algorithm
  mfile << "res = run(alg, argstring);\n";
  mfile.close();
}
Exemple #12
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    /**
    * Create the dynamic widgets for the concrete loader
    */
    void LoadDialog::createDynamicLayout()
    {
      // Disable the layout so that a widget cannot be interacted with while it may be being deleted
      m_form.propertyLayout->setEnabled(false);

      using namespace Mantid::API;
      using namespace Mantid::Kernel;

      if( !m_form.fileWidget->isValid() ) return;
      // First step is the get the specific loader that is responsible
      IAlgorithm *loadAlg = getAlgorithm();
      const QString filenames = m_form.fileWidget->getUserInput().asString();
      if( filenames == m_currentFiles ) return;
      m_currentFiles = filenames;
      removeOldInputWidgets(m_form.propertyLayout); // The new file might be invalid
      try
      {
        loadAlg->setPropertyValue("Filename", filenames.toStdString());
      }
      catch(std::exception & exc)
      {
        m_form.fileWidget->setFileProblem(QString::fromStdString(exc.what()));
        m_form.propertyLayout->setEnabled(true);
        m_form.propertyLayout->activate();
        this->resize(this->width(), m_initialHeight + 15);
        
        // Reset the algorithm pointer so that the base class re-reads the properties and drops links from
        // old widgets meaning they are safe to remove
        setAlgorithm(loadAlg);
        tieStaticWidgets(false); //The ties are cleared when resetting the algorithm

        return;
      }
      // Reset the algorithm pointer so that the base class re-reads the properties and drops links from
      // old widgets meaning they are safe to remove
      setAlgorithm(loadAlg);
      tieStaticWidgets(false); //The ties are cleared when resetting the algorithm
      // Add the new ones
      const std::vector<Property*> & inputProps = loadAlg->getProperties();
      int dialogHeight = m_initialHeight;
      for( size_t i = 0; i < inputProps.size(); ++i )
      {
        const Property* prop = inputProps[i];
        const QString propName = QString::fromStdString(prop->name());
        if( propName == "OutputWorkspace" || propName == "Filename" ) continue;
        if( requiresUserInput(propName) )
        {
          dialogHeight += createWidgetsForProperty(prop, m_form.propertyLayout, m_form.scrollAreaWidgetContents);
        }
      }
      // Re-enable and recompute the size of the layout
      m_form.propertyLayout->setEnabled(true);
      m_form.propertyLayout->activate();

      const int screenHeight = QApplication::desktop()->height();
      // If the thing won't end up too big compared to the screen height,
      // resize the scroll area so we don't get a scroll bar
      if ( dialogHeight < 0.8*screenHeight ) this->resize(this->width(),dialogHeight + 20);

      // Make sure the OutputWorkspace value has been stored so that the validator is cleared appropriately
      QString wsName(m_form.workspaceEdit->text());
      if(!wsName.isEmpty()) storePropertyValue("OutputWorkspace",wsName);
      setPropertyValues(QStringList("Filename"));
    }