C++ (Cpp) Peak::getBinCount Examples

Programming Language: C++ (Cpp)

Class/Type: Peak

Method/Function: getBinCount

Examples at hotexamples.com: 2

C++ (Cpp) Peak::getBinCount - 2 examples found. These are the top rated real world C++ (Cpp) examples of Peak::getBinCount from package nbites extracted from open source projects. You can rate examples to help us improve the quality of examples.

Frequently Used Methods

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getOwner(7)

getTOF(4)

getDimCount(4)

setGoniometerMatrix(4)

getGoniometerMatrix(4)

getInitialEnergy(3)

getScattering(3)

getQSampleFrame(3)

getL(2)

getWavelength(2)

getH(2)

getFinalEnergy(2)

getQLabFrame(2)

getDetectorID(2)

getK(2)

getDSpacing(2)

getSigmaIntensity(2)

getBinCount(2)

getSamplePos(2)

setRunNumber(2)

setSamplePos(2)

getRunNumber(2)

getIntensity(2)

getTag(1)

Set(1)

getValueByColName(1)

getVol(1)

setBinCount(1)

setCharge(1)

setMonitorCount(1)

setMz(1)

setRt(1)

setWavelength(1)

setAbundance(1)

getModel(1)

getRt(1)

getDetPos(1)

find2d(1)

findDetector(1)

getAbundance(1)

getAmp(1)

getAssig(1)

getBankName(1)

getCharge(1)

getColor(1)

getGuesses(1)

getPos(1)

getId(1)

getIntHKL(1)

getIntMNP(1)

Example #1

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File: PeaksWorkspace.cpp Project: trnielsen/mantid

    void PeaksWorkspace::saveNexus(::NeXus::File * file) const
    {

      //Number of Peaks
      const size_t np(peaks.size());

      // Column vectors for peaks table
      std::vector<int> detectorID(np);
      std::vector<double> H(np);
      std::vector<double> K(np);
      std::vector<double> L(np);
      std::vector<double> intensity(np);
      std::vector<double> sigmaIntensity(np);
      std::vector<double> binCount(np);
      std::vector<double> initialEnergy(np);
      std::vector<double> finalEnergy(np);
      std::vector<double> waveLength(np);
      std::vector<double> scattering(np);
      std::vector<double> dSpacing(np);
      std::vector<double> TOF(np);
      std::vector<int> runNumber(np);
      std::vector<double> goniometerMatrix(9 * np);

      // Populate column vectors from Peak Workspace
      for (size_t i = 0; i < np; i++)
      {
        Peak p = peaks[i];
        detectorID[i] = p.getDetectorID();
        H[i] = p.getH();
        K[i] = p.getK();
        L[i] = p.getL();
        intensity[i] = p.getIntensity();
        sigmaIntensity[i] = p.getSigmaIntensity();
        binCount[i] = p.getBinCount();
        initialEnergy[i] = p.getInitialEnergy();
        finalEnergy[i] = p.getFinalEnergy();
        waveLength[i] = p.getWavelength();
        scattering[i] = p.getScattering();
        dSpacing[i] = p.getDSpacing();
        TOF[i] = p.getTOF();
        runNumber[i] = p.getRunNumber();
        {
          Matrix<double> gm = p.getGoniometerMatrix();
          goniometerMatrix[9 * i] = gm[0][0];
          goniometerMatrix[9 * i + 1] = gm[1][0];
          goniometerMatrix[9 * i + 2] = gm[2][0];
          goniometerMatrix[9 * i + 3] = gm[0][1];
          goniometerMatrix[9 * i + 4] = gm[1][1];
          goniometerMatrix[9 * i + 5] = gm[2][1];
          goniometerMatrix[9 * i + 6] = gm[0][2];
          goniometerMatrix[9 * i + 7] = gm[1][2];
          goniometerMatrix[9 * i + 8] = gm[1][2];
        }
        // etc.
      }

      // Start Peaks Workspace in Nexus File
      std::string specifyInteger = "An integer";
      std::string specifyDouble = "A double";
      file->makeGroup("peaks_workspace", "NXentry", true);  // For when peaksWorkspace can be loaded

      // Detectors column
      file->writeData("column_1", detectorID);
      file->openData("column_1");
      file->putAttr("name", "Dectector ID");
      file->putAttr("interpret_as", specifyInteger);
      file->putAttr("units", "Not known");
      file->closeData();

      // H column
      file->writeData("column_2", H);
      file->openData("column_2");
      file->putAttr("name", "H");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // K column
      file->writeData("column_3", K);
      file->openData("column_3");
      file->putAttr("name", "K");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // L column
      file->writeData("column_4", L);
      file->openData("column_4");
      file->putAttr("name", "L");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // Intensity column
      file->writeData("column_5", intensity);
      file->openData("column_5");
      file->putAttr("name", "Intensity");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // Sigma Intensity column
      file->writeData("column_6", sigmaIntensity);
      file->openData("column_6");
      file->putAttr("name", "Sigma Intensity");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // Bin Count column
      file->writeData("column_7", binCount);
      file->openData("column_7");
      file->putAttr("name", "Bin Count");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // Initial Energy column
      file->writeData("column_8", initialEnergy);
      file->openData("column_8");
      file->putAttr("name", "Initial Energy");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // Final Energy column
      file->writeData("column_9", finalEnergy);
      file->openData("column_9");
      file->putAttr("name", "Final Energy");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // Wave Length Column
      file->writeData("column_10", waveLength);
      file->openData("column_10");
      file->putAttr("name", "Wave Length");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // Scattering Column
      file->writeData("column_11", scattering);
      file->openData("column_11");
      file->putAttr("name", "Scattering");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // D Spacing Column
      file->writeData("column_12", dSpacing);
      file->openData("column_12");
      file->putAttr("name", "D Spacing");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // TOF Column
      file->writeData("column_13", TOF);
      file->openData("column_13");
      file->putAttr("name", "TOF");
      file->putAttr("interpret_as", specifyDouble);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      //Run Number column
      file->writeData("column_14", runNumber);
      file->openData("column_14");
      file->putAttr("name", "Run Number");
      file->putAttr("interpret_as", specifyInteger);
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // Goniometer Matrix Column
      std::vector<int> array_dims;
      array_dims.push_back(static_cast<int>(peaks.size()));
      array_dims.push_back(9);
      file->writeData("column_15", goniometerMatrix, array_dims);
      file->openData("column_15");
      file->putAttr("name", "Goniometer Matrix");
      file->putAttr("interpret_as", "A matrix of 3x3 doubles");
      file->putAttr("units", "Not known");  // Units may need changing when known
      file->closeData();

      // QLab & QSample are calculated and do not need to be saved

      file->closeGroup(); // end of peaks workpace

    }

Example #2

Show file

File: PeaksWorkspace.cpp Project: Mantid-Test-Account/mantid

void PeaksWorkspace::saveNexus(::NeXus::File *file) const {

  // Number of Peaks
  const size_t np(peaks.size());

  // Column vectors for peaks table
  std::vector<int> detectorID(np);
  std::vector<double> H(np);
  std::vector<double> K(np);
  std::vector<double> L(np);
  std::vector<double> intensity(np);
  std::vector<double> sigmaIntensity(np);
  std::vector<double> binCount(np);
  std::vector<double> initialEnergy(np);
  std::vector<double> finalEnergy(np);
  std::vector<double> waveLength(np);
  std::vector<double> scattering(np);
  std::vector<double> dSpacing(np);
  std::vector<double> TOF(np);
  std::vector<int> runNumber(np);
  std::vector<double> goniometerMatrix(9 * np);
  std::vector<std::string> shapes(np);

  // Populate column vectors from Peak Workspace
  size_t maxShapeJSONLength = 0;
  for (size_t i = 0; i < np; i++) {
    Peak p = peaks[i];
    detectorID[i] = p.getDetectorID();
    H[i] = p.getH();
    K[i] = p.getK();
    L[i] = p.getL();
    intensity[i] = p.getIntensity();
    sigmaIntensity[i] = p.getSigmaIntensity();
    binCount[i] = p.getBinCount();
    initialEnergy[i] = p.getInitialEnergy();
    finalEnergy[i] = p.getFinalEnergy();
    waveLength[i] = p.getWavelength();
    scattering[i] = p.getScattering();
    dSpacing[i] = p.getDSpacing();
    TOF[i] = p.getTOF();
    runNumber[i] = p.getRunNumber();
    {
      Matrix<double> gm = p.getGoniometerMatrix();
      goniometerMatrix[9 * i] = gm[0][0];
      goniometerMatrix[9 * i + 1] = gm[1][0];
      goniometerMatrix[9 * i + 2] = gm[2][0];
      goniometerMatrix[9 * i + 3] = gm[0][1];
      goniometerMatrix[9 * i + 4] = gm[1][1];
      goniometerMatrix[9 * i + 5] = gm[2][1];
      goniometerMatrix[9 * i + 6] = gm[0][2];
      goniometerMatrix[9 * i + 7] = gm[1][2];
      goniometerMatrix[9 * i + 8] = gm[2][2];
    }
    const std::string shapeJSON = p.getPeakShape().toJSON();
    shapes[i] = shapeJSON;
    if (shapeJSON.size() > maxShapeJSONLength) {
      maxShapeJSONLength = shapeJSON.size();
    }
  }

  // Start Peaks Workspace in Nexus File
  const std::string specifyInteger = "An integer";
  const std::string specifyDouble = "A double";
  const std::string specifyString = "A string";
  file->makeGroup("peaks_workspace", "NXentry",
                  true); // For when peaksWorkspace can be loaded

  // Coordinate system
  file->writeData("coordinate_system", static_cast<uint32_t>(m_coordSystem));

  // Write out the Qconvention
  // ki-kf for Inelastic convention; kf-ki for Crystallography convention
  std::string m_QConvention = this->getConvention();
  file->putAttr("QConvention", m_QConvention);

  // Detectors column
  file->writeData("column_1", detectorID);
  file->openData("column_1");
  file->putAttr("name", "Detector ID");
  file->putAttr("interpret_as", specifyInteger);
  file->putAttr("units", "Not known");
  file->closeData();

  // H column
  file->writeData("column_2", H);
  file->openData("column_2");
  file->putAttr("name", "H");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // K column
  file->writeData("column_3", K);
  file->openData("column_3");
  file->putAttr("name", "K");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // L column
  file->writeData("column_4", L);
  file->openData("column_4");
  file->putAttr("name", "L");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Intensity column
  file->writeData("column_5", intensity);
  file->openData("column_5");
  file->putAttr("name", "Intensity");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Sigma Intensity column
  file->writeData("column_6", sigmaIntensity);
  file->openData("column_6");
  file->putAttr("name", "Sigma Intensity");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Bin Count column
  file->writeData("column_7", binCount);
  file->openData("column_7");
  file->putAttr("name", "Bin Count");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Initial Energy column
  file->writeData("column_8", initialEnergy);
  file->openData("column_8");
  file->putAttr("name", "Initial Energy");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Final Energy column
  file->writeData("column_9", finalEnergy);
  file->openData("column_9");
  file->putAttr("name", "Final Energy");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Wave Length Column
  file->writeData("column_10", waveLength);
  file->openData("column_10");
  file->putAttr("name", "Wave Length");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Scattering Column
  file->writeData("column_11", scattering);
  file->openData("column_11");
  file->putAttr("name", "Scattering");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // D Spacing Column
  file->writeData("column_12", dSpacing);
  file->openData("column_12");
  file->putAttr("name", "D Spacing");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // TOF Column
  file->writeData("column_13", TOF);
  file->openData("column_13");
  file->putAttr("name", "TOF");
  file->putAttr("interpret_as", specifyDouble);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Run Number column
  file->writeData("column_14", runNumber);
  file->openData("column_14");
  file->putAttr("name", "Run Number");
  file->putAttr("interpret_as", specifyInteger);
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Goniometer Matrix Column
  std::vector<int> array_dims;
  array_dims.push_back(static_cast<int>(peaks.size()));
  array_dims.push_back(9);
  file->writeData("column_15", goniometerMatrix, array_dims);
  file->openData("column_15");
  file->putAttr("name", "Goniometer Matrix");
  file->putAttr("interpret_as", "A matrix of 3x3 doubles");
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->closeData();

  // Shape
  std::vector<int64_t> dims;
  dims.push_back(np);
  dims.push_back(static_cast<int>(maxShapeJSONLength));
  const std::string name = "column_16";
  file->makeData(name, NeXus::CHAR, dims, false);
  file->openData(name);

  auto toNexus = new char[maxShapeJSONLength * np];
  for (size_t ii = 0; ii < np; ii++) {
    std::string rowStr = shapes[ii];
    for (size_t ic = 0; ic < rowStr.size(); ic++)
      toNexus[ii * maxShapeJSONLength + ic] = rowStr[ic];
    for (size_t ic = rowStr.size();
         ic < static_cast<size_t>(maxShapeJSONLength); ic++)
      toNexus[ii * maxShapeJSONLength + ic] = ' ';
  }

  file->putData((void *)(toNexus));

  delete[] toNexus;
  file->putAttr("units", "Not known"); // Units may need changing when known
  file->putAttr("name", "Shape");
  file->putAttr("interpret_as", specifyString);
  file->closeData();

  // QLab & QSample are calculated and do not need to be saved

  file->closeGroup(); // end of peaks workpace
}