// Add/remove template objects to/from the selected line
private void buttonEditTemplateSelection_Click(object sender = null, EventArgs e = null)
{
// If not a line was selected
if (!isEditSelection_ && (treeTemplateObjects.SelectedNode == null || treeTemplateObjects.SelectedNode.Nodes.Count == 0))
{
return;
}
if (isEditSelection_)
{
TreeNode line = treeTemplateObjects.Nodes[iSelectedSet_];
line.Nodes.Clear();
var selection = modelRenderer_.getSelection();
string chart = listBoxTemplateCharts.SelectedItem.ToString();
List <ISelection> objects = charts_.selection[chart];
Lines selLine = null;
int iSelectedLine = 0;
bool isFound = false;
foreach (ISelection item in objects)
{
selLine = (Lines)item;
if (selLine.lineName_ == line.Text)
{
isFound = true;
break;
}
++iSelectedLine;
}
if (isFound == false)
{
return;
}
if (selection.Count < 1)
{
charts_.selection[chart].RemoveAt(iSelectedLine);
line.Remove();
}
else
{
selLine.nodeNames_.Clear();
foreach (string item in selection)
{
line.Nodes.Add(item);
selLine.nodeNames_.Add(item);
}
}
iSelectedSet_ = -1;
}
else
{
iSelectedSet_ = treeTemplateObjects.SelectedNode.Index;
modelRenderer_.clearSelection();
// Select all the nodes in the set
foreach (TreeNode item in treeTemplateObjects.SelectedNode.Nodes)
{
string[] selectionInfo = item.Text.Split(selectionDelimiter_);
modelRenderer_.select(selectionInfo[0], selectionInfo[1], false);
}
modelRenderer_.draw();
}
// Invert the states of the controls
buttonAddTemplateObject.Enabled = isEditSelection_;
buttonRemoveTemplateObject.Enabled = isEditSelection_;
listBoxTemplateCharts.Enabled = isEditSelection_;
isEditSelection_ = !isEditSelection_;
}
// Processing all the data
private void buttonProcess_Click(object sender = null, EventArgs e = null)
{
string templateName = textBoxNameExcel.Text;
string templateDirectory = textBoxDirectoryExcel.Text;
if (String.IsNullOrEmpty(templateName))
{
MessageBox.Show("Filename to save is not specified", "Empty filename", MessageBoxButtons.OK, MessageBoxIcon.Error);
return;
}
if (String.IsNullOrEmpty(templateDirectory))
{
MessageBox.Show("Directory to save is not specified", "Empty directory name", MessageBoxButtons.OK, MessageBoxIcon.Error);
return;
}
ExcelObject excelResult = new ExcelObject(excelTemplate_, templateDirectory, templateName);
// Checking the project, template and selected signals
if (!project.isProjectOpened() || !excelTemplate_.isOpened())
{
return;
}
// Resolving dependencies
resolveDependencies();
// Retrieve selected frequencies
int nSingleFrequency = singleFrequencyIndices_.Count;
ChartPosition.lastRow = 0;
// Error handling
errorMessage_ = null;
int iError = 0;
// Create a map to convert directions into labels
Dictionary <ChartDirection, string> mapDirections = new Dictionary <ChartDirection, string>();
mapDirections[ChartDirection.X] = "X";
mapDirections[ChartDirection.Y] = "Y";
mapDirections[ChartDirection.Z] = "Z";
// Creating series
double signData = 1.0;
string inversionInfo = "No";
if (checkBoxInverseResults.Checked)
{
signData = -1.0;
inversionInfo = "Yes";
}
// Creating the header
excelResult.addHeaderInfo($"Date: {DateTime.Now.ToString("yyyy-MM-dd hh:mm:ss")}");
excelResult.addHeaderInfo($"Inversion: {inversionInfo}");
excelResult.addHeaderInfo($"Template: {templateDirectory + "\\" + templateName + ".xlsx"}");
ChartPosition.lastRow += 1;
foreach (string chart in listBoxTemplateCharts.Items)
{
// Nodes selection
List <ISelection> selectedObjects = charts_.selection[chart];
// Type and direction
ChartTypes type = charts_.type[chart];
ChartDirection direction = charts_.direction[chart];
SignalUnits units = charts_.units[chart];
// Error handling
if (type == ChartTypes.UNKNOWN || selectedObjects.Count == 0)
{
continue;
}
if (direction == ChartDirection.UNKNOWN)
{
throwError(ref iError, "The direction for '" + chart + "' is not specified");
continue;
}
if (units == SignalUnits.UNKNOWN)
{
throwError(ref iError, "The units for '" + chart + "' are not specified");
continue;
}
// Norm
double norm = charts_.normalization[chart];
ChartDirection axis = charts_.axis[chart];
int indX = 0, indY = 1;
if (charts_.swapAxes[chart])
{
indX = 1;
indY = 0;
}
string infoUnits = comboBoxTemplateUnits.Items[(int)units].ToString();
// Frequency response function: real and imaginary parts
if ((type == ChartTypes.REAL_FRF || type == ChartTypes.IMAG_FRF) && project.signals_.Count != 0)
{
List <string> chartNodes = new List <string>();
foreach (ISelection item in selectedObjects)
{
chartNodes.Add((string)item.retrieveSelection());
}
int iType = (int)type - 1;
foreach (string node in chartNodes) // Node
{
// Check if there is an appropriate signal
if (!project.signals_.ContainsKey(node) || !project.signals_[node].ContainsKey(direction))
{
throwError(ref iError, "The chosen signals do not contain the node '" + node + "'");
continue;
}
Response response = project.signals_[node][direction][0];
// Slice data by the selected index
if (!response.data.ContainsKey(units) || response.data[units] == null)
{
continue;
}
double[,] refFullData = response.data[units];
double[,] data = new double[nSingleFrequency, 2];
int iSelected;
for (int i = 0; i != nSingleFrequency; ++i)
{
iSelected = singleFrequencyIndices_[i];
data[i, indX] = response.frequency[iSelected];
data[i, indY] = refFullData[iSelected, iType] * signData;
}
string ptrNode = "т. " + node.Split(selectionDelimiter_)[1];
string info = $" - {mapDirections[direction]} ({infoUnits})";
excelResult.addSeries(chart, data, ptrNode, info);
}
}
// Modeset
else if (type == ChartTypes.MODESET && project.signals_.Count != 0)
{
if (axis == ChartDirection.UNKNOWN)
{
throwError(ref iError, "The coordinate axis for '" + chart + "' is not specified");
continue;
}
if (indexSingleResonanceFrequency_ < 0)
{
throwError(ref iError, "The resonance frequency is not chosen");
continue;
}
// For each line
foreach (ISelection item in selectedObjects)
{
Lines currentLine = (Lines)item;
string nameLine = currentLine.lineName_;
List <string> lineNodes = (List <string>)currentLine.retrieveSelection();
List <double> coordinates = new List <double>();
List <double> values = new List <double>();
double resonanceFrequency = -1.0;
foreach (string node in lineNodes)
{
// Check if there is an appropriate signal
if (!project.signals_.ContainsKey(node) || !project.signals_[node].ContainsKey(direction))
{
throwError(ref iError, "The chosen signals do not contain the node '" + node + "'");
continue;
}
// Retreiving the coordinate along the choosen axis
string[] selectionInfo = node.Split(selectionDelimiter_);
uint indNode = modelRenderer_.componentSet_.mapNodeNames[selectionInfo[0]][selectionInfo[1]];
double[,] componentCoordinates = (double[, ])modelRenderer_.componentSet_.nodeCoordinates[selectionInfo[0]];
int tInd = (int)axis - 1;
coordinates.Add(componentCoordinates[indNode, tInd]);
// Retrieving the function value
Response response = project.signals_[node][direction][0];
if (!response.data.ContainsKey(units) || response.data[units] == null)
{
continue;
}
double[,] refFullData = response.data[units];
values.Add(refFullData[indexSingleResonanceFrequency_, 1]); // Imaginary part of the signal
if (resonanceFrequency < 0)
{
resonanceFrequency = response.frequency[indexSingleResonanceFrequency_];
}
}
if (values.Count > 0)
{
int nNodes = coordinates.Count;
double[,] data = new double[nNodes, 2];
for (int i = 0; i != nNodes; ++i)
{
data[i, indX] = coordinates[i] / norm;
data[i, indY] = values[i] * signData;
}
string frequencyInfo = null;
if (resonanceFrequency > 0)
{
frequencyInfo = $" - {resonanceFrequency.ToString("F3", CultureInfo.InvariantCulture)} Гц ({infoUnits})";
}
excelResult.addSeries(chart, data, nameLine, frequencyInfo);
}
}
}
// Multi-FRF
else if ((type == ChartTypes.MULTI_REAL_FRF || type == ChartTypes.MULTI_IMAG_FRF) && project.multiSignals_.Count != 0)
{
List <string> chartNodes = new List <string>();
int iType = 0;
if (type == ChartTypes.MULTI_IMAG_FRF)
{
iType = 1;
}
foreach (ISelection item in selectedObjects)
{
chartNodes.Add((string)item.retrieveSelection());
}
foreach (string node in chartNodes) // Node
{
// Check if there is an appropriate signal
if (!project.multiSignals_.ContainsKey(node) || !project.multiSignals_[node].ContainsKey(direction))
{
throwError(ref iError, "The chosen signals do not contain the node '" + node + "'");
continue;
}
var dirNodeSignals = project.multiSignals_[node][direction];
foreach (Response response in dirNodeSignals)
{
// Slice data by the selected index
if (!response.data.ContainsKey(units) || response.data[units] == null)
{
continue;
}
double[,] refFullData = response.data[units];
List <int> indices = multiFrequencyIndices_[mapResponses_[response.path]];
int nIndices = indices.Count;
double[,] data = new double[nIndices, 2];
int iSelected;
for (int i = 0; i != nIndices; ++i)
{
iSelected = indices[i];
data[i, indX] = response.frequency[iSelected];
data[i, indY] = refFullData[iSelected, iType] * signData;
}
// Retrieving force value
if (data.GetLength(0) > 0)
{
string force = $"𝐹 = {getForceValue(response.path)} Н";
string infoChart = $" - {mapDirections[direction]} ({infoUnits})";
string infoNode = $"{node}";
excelResult.addSeries(chart, data, force, infoChart, infoNode);
}
}
}
}
// Frequency function
else if ((type == ChartTypes.REAL_FREQUENCY || type == ChartTypes.IMAG_FREQUENCY) && project.multiSignals_.Count != 0)
{
List <string> chartNodes = new List <string>();
foreach (ISelection item in selectedObjects)
{
chartNodes.Add((string)item.retrieveSelection());
}
foreach (string node in chartNodes) // Node
{
// Check if there is an appropriate signal
if (!project.multiSignals_.ContainsKey(node) || !project.multiSignals_[node].ContainsKey(direction))
{
throwError(ref iError, "The chosen signals do not contain the node '" + node + "'");
continue;
}
var dirNodeSignals = project.multiSignals_[node][direction];
double[,] data = new double[dirNodeSignals.Count, 2];
int k = 0;
foreach (Response response in dirNodeSignals)
{
if (!response.data.ContainsKey(units) || response.data[units] == null)
{
continue;
}
string label = mapResponses_[response.path];
int indexMultiResonance = multiResonanceFrequencyIndices_[label];
double resonanceFrequency = multiFrequency_[label][indexMultiResonance];
Tuple <double, double> pair = response.evaluateResonanceFrequency(type, units, resonanceFrequency);
if (pair != null)
{
data[k, indX] = pair.Item1;
data[k, indY] = pair.Item2;
}
else
{
double realPart = response.data[units][indexMultiResonance, 0];
double imagPart = response.data[units][indexMultiResonance, 1];
data[k, indX] = resonanceFrequency;
data[k, indY] = Math.Sqrt(Math.Pow(realPart, 2.0) + Math.Pow(imagPart, 2.0));
}
++k;
}
if (data.GetLength(0) > 0)
{
string ptrNode = "т. " + node.Split(selectionDelimiter_)[1];
string infoChart = $" - {mapDirections[direction]} ({infoUnits})";
excelResult.addSeries(chart, data, ptrNode, infoChart);
}
}
}
}
ChartPosition.lastRow = 0;
// Saving and opening the results
excelResult.save();
excelResult.open();
if (iError == 0)
{
setStatus("The results were successfully processed");
}
else
{
showErrors(iError);
}
}
public void read(string fileName, Func <string, string, bool> checkNode, char nodeNameDelimiter, ref int indAvailableLine)
{
indAvailableLine = 0;
// Reading another instance
IFormatter formatter = new BinaryFormatter();
using (Stream stream = new FileStream(fileName, FileMode.Open, FileAccess.Read))
{
ChartsData another = (ChartsData)formatter.Deserialize(stream);
List <string> anotherCharts = new List <string>(another.type.Keys);
// Copying fields
string[] selectionInfo;
bool isLineCorrect;
foreach (string chart in anotherCharts)
{
if (!type.ContainsKey(chart))
{
continue;
}
// Properties
type[chart] = another.type[chart];
units[chart] = another.units[chart];
direction[chart] = another.direction[chart];
normalization[chart] = another.normalization[chart];
axis[chart] = another.axis[chart];
swapAxes[chart] = another.swapAxes[chart];
dependency[chart] = another.dependency[chart];
// Selection
List <ISelection> checkedSelection = new List <ISelection>();
foreach (ISelection item in another.selection[chart])
{
// Nodes
if (item.GetType() == typeof(Nodes))
{
string fullName = (string)item.retrieveSelection();
selectionInfo = fullName.Split(nodeNameDelimiter);
if (checkNode(selectionInfo[0], selectionInfo[1]))
{
checkedSelection.Add(item);
}
}
// Lines
if (item.GetType() == typeof(Lines))
{
List <string> nodes = (List <string>)item.retrieveSelection();
isLineCorrect = true;
Lines line = (Lines)item;
int indLine = int.Parse(line.lineName_.Replace("Line", ""));
if (indLine > indAvailableLine)
{
indAvailableLine = indLine;
}
foreach (string fullName in nodes)
{
selectionInfo = fullName.Split(nodeNameDelimiter);
// If the current geometry contains all the specified nodes
if (!checkNode(selectionInfo[0], selectionInfo[1]))
{
isLineCorrect = false;
break;
}
}
if (isLineCorrect)
{
checkedSelection.Add(item);
}
}
}
selection[chart] = checkedSelection;
}
}
if (indAvailableLine > 0)
{
indAvailableLine += 1;
}
}
// -- Template --
private void listBoxTemplateCharts_SelectedIndexChanged(object sender = null, EventArgs e = null)
{
string chart = listBoxTemplateCharts.SelectedItem.ToString();
ChartTypes type = charts_.type[chart];
// Copy template objects
if (!buttonCopyTemplateObjects.Enabled && buttonCopyTemplateObjects.Tag != null)
{
buttonCopyTemplateObjects.Enabled = true;
string baseChart = buttonCopyTemplateObjects.Tag.ToString();
buttonCopyTemplateObjects.Tag = null;
if (baseChart.Equals(chart))
{
return;
}
listBoxTemplateCharts.SelectedItem = baseChart;
ChartTypes baseType = charts_.type[baseChart];
if (charts_.selection[baseChart].Count == 0 || baseType == ChartTypes.UNKNOWN || type == ChartTypes.UNKNOWN)
{
return;
}
convertSelection(chart, baseChart, type, baseType);
type = baseType;
chart = baseChart;
}
string masterChart = charts_.dependency[chart];
if (masterChart == null)
{
masterChart = chart;
}
comboBoxTemplateType.SelectedIndex = (int)type;
comboBoxTemplateUnits.SelectedIndex = (int)charts_.units[masterChart];
comboBoxTemplateDirection.SelectedIndex = (int)charts_.direction[masterChart];
comboBoxTemplateAxis.SelectedIndex = (int)charts_.axis[masterChart];
numericTemplateNormalization.Value = (decimal)charts_.normalization[masterChart];
checkBoxSwapAxes.Checked = charts_.swapAxes[masterChart];
treeTemplateObjects.Nodes.Clear();
// Check if the type is defined
if (type == ChartTypes.UNKNOWN)
{
return;
}
// Check if the selected signal is dependent
setDependencyEnabled();
if (charts_.dependency[chart] != null)
{
return;
}
// Nodes
if (isNodeType(type))
{
List <ISelection> objects = charts_.selection[chart];
foreach (ISelection item in objects)
{
treeTemplateObjects.Nodes.Add((string)item.retrieveSelection());
}
}
// Lines
if (isLineType(type))
{
List <ISelection> objects = charts_.selection[chart];
foreach (ISelection item in objects)
{
Lines line = (Lines)item;
TreeNode parent = treeTemplateObjects.Nodes.Add(line.lineName_);
foreach (string node in line.nodeNames_)
{
parent.Nodes.Add(node);
}
}
}
}
