public frmDoDResults(DoDBase dodItem) { InitializeComponent(); DoD = dodItem; m_Options = new DoDSummaryDisplayOptions(ProjectManager.Project.Units); ucProperties.Initialize(DoD); cmsChart = new UtilityForms.ChartContextMenu(DoD.Folder, "change_detection"); // Select the tab control to make it easy for user to quickly pan results tabProperties.Select(); }
private string GetFormatString(DoDSummaryDisplayOptions options) { string sFormat = "#,##0"; for (int i = 1; i <= options.m_nPrecision; i++) { if (i == 1) { sFormat += "."; } sFormat += "0"; } return(sFormat); }
public frmDoDSummaryProperties(DoDSummaryDisplayOptions theOptions) { // This call is required by the designer InitializeComponent(); valMinimum.Minimum = decimal.MinValue; valMinimum.Maximum = decimal.MaxValue; valMaximum.Minimum = decimal.MinValue; valMaximum.Maximum = decimal.MaxValue; valYMinimum.Minimum = decimal.MinValue; valYMinimum.Maximum = decimal.MaxValue; valYMaximum.Minimum = decimal.MinValue; valYMaximum.Maximum = decimal.MaxValue; Options = theOptions; }
public void RefreshDisplay(GCDConsoleLib.GCD.DoDStats activeStats, List <GCDConsoleLib.GCD.DoDStats> allStats, UserInterface.BudgetSegregation.frmBudgetSegResults.RawRepresents raw, DoDSummaryDisplayOptions options) { // Load the base statistics for this class RefreshDisplay(activeStats, options); // Previous call will hide col 6. Make it visible for bs view grdData.Columns[colTot].Visible = true; // Build the string formatting based on the precision in the pop-up properties form string sFormat = GetFormatString(options); UnitsNet.Area ca = ProjectManager.Project.CellArea; UnitsNet.Units.LengthUnit lu = ProjectManager.Project.Units.VertUnit; // AREAL // Erosion double classErosionArea = activeStats.ErosionThr.GetArea(ca).As(options.AreaUnits); double totalErosionArea = classErosionArea; switch (raw) { case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawDoDAreaOfInterest: totalErosionArea = allStats.Sum(x => x.ErosionRaw.GetArea(ca).As(options.AreaUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.ThrDoDAreaDetectableChange: totalErosionArea = allStats.Sum(x => x.ErosionThr.GetArea(ca).As(options.AreaUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawClassAreaOfInterest: totalErosionArea = activeStats.ErosionRaw.GetArea(ca).As(options.AreaUnits); break; } grdData.Rows[1].Cells[colTot].Value = SafePercent(classErosionArea, totalErosionArea) / 100f; // Deposition double classDepositionArea = activeStats.DepositionThr.GetArea(ca).As(options.AreaUnits); double totalDepositionArea = classDepositionArea; switch (raw) { case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawDoDAreaOfInterest: totalDepositionArea = allStats.Sum(x => x.DepositionRaw.GetArea(ca).As(options.AreaUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.ThrDoDAreaDetectableChange: totalDepositionArea = allStats.Sum(x => x.DepositionThr.GetArea(ca).As(options.AreaUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawClassAreaOfInterest: totalDepositionArea = activeStats.DepositionRaw.GetArea(ca).As(options.AreaUnits); break; } grdData.Rows[2].Cells[colTot].Value = SafePercent(classDepositionArea, totalDepositionArea) / 100f; // VOLUME // Erosion double classErosionVol = activeStats.ErosionThr.GetVolume(ca, activeStats.StatsUnits).As(options.VolumeUnits); double totalErosionVol = classErosionVol; switch (raw) { case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawDoDAreaOfInterest: totalErosionVol = allStats.Sum(x => x.ErosionRaw.GetVolume(ca, activeStats.StatsUnits).As(options.VolumeUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.ThrDoDAreaDetectableChange: totalErosionVol = allStats.Sum(x => x.ErosionThr.GetVolume(ca, activeStats.StatsUnits).As(options.VolumeUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawClassAreaOfInterest: totalErosionVol = activeStats.ErosionRaw.GetVolume(ca, activeStats.StatsUnits).As(options.VolumeUnits); break; } grdData.Rows[7].Cells[colTot].Value = SafePercent(classErosionVol, totalErosionVol) / 100f; // Deposition double classDepositionVol = activeStats.DepositionThr.GetVolume(ca, activeStats.StatsUnits).As(options.VolumeUnits); double totalDepositionVol = classDepositionVol; switch (raw) { case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawDoDAreaOfInterest: totalDepositionVol = allStats.Sum(x => x.DepositionRaw.GetVolume(ca, activeStats.StatsUnits).As(options.VolumeUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.ThrDoDAreaDetectableChange: totalDepositionVol = allStats.Sum(x => x.DepositionThr.GetVolume(ca, activeStats.StatsUnits).As(options.VolumeUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawClassAreaOfInterest: totalDepositionVol = activeStats.DepositionRaw.GetVolume(ca, activeStats.StatsUnits).As(options.VolumeUnits); break; } grdData.Rows[8].Cells[colTot].Value = SafePercent(classDepositionVol, totalDepositionVol) / 100f; // Vol of Difference double classVolDiff = activeStats.VolumeOfDifference_Thresholded.As(options.VolumeUnits); double totalVolDiff = classVolDiff; switch (raw) { case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawDoDAreaOfInterest: totalVolDiff = allStats.Sum(x => x.VolumeOfDifference_Raw.As(options.VolumeUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.ThrDoDAreaDetectableChange: totalVolDiff = allStats.Sum(x => x.VolumeOfDifference_Thresholded.As(options.VolumeUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawClassAreaOfInterest: totalVolDiff = activeStats.VolumeOfDifference_Raw.As(options.VolumeUnits); break; } grdData.Rows[9].Cells[colTot].Value = SafePercent(classVolDiff, totalVolDiff) / 100f; // Net Vol of Difference double classNetVolDiff = activeStats.NetVolumeOfDifference_Thresholded.As(options.VolumeUnits); double totalNetVolDiff = classNetVolDiff; switch (raw) { case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawDoDAreaOfInterest: totalNetVolDiff = allStats.Sum(x => x.NetVolumeOfDifference_Raw.As(options.VolumeUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.ThrDoDAreaDetectableChange: totalNetVolDiff = allStats.Sum(x => x.NetVolumeOfDifference_Thresholded.As(options.VolumeUnits)); break; case BudgetSegregation.frmBudgetSegResults.RawRepresents.RawClassAreaOfInterest: totalNetVolDiff = activeStats.NetVolumeOfDifference_Raw.As(options.VolumeUnits); break; } grdData.Rows[10].Cells[colTot].Value = SafePercent(classNetVolDiff, totalNetVolDiff) / 100f; }
public void RefreshDisplay(GCDConsoleLib.GCD.DoDStats dodStats, DoDSummaryDisplayOptions options) { // Hide the % total column in single DoD View grdData.Columns[colTot].Visible = false; grdData.Rows.Clear(); DataGridViewRow aRow = null; // Build the string formatting based on the precision in the pop-up properties form string sFormat = GetFormatString(options); UnitsNet.Area ca = ProjectManager.Project.CellArea; UnitsNet.Units.LengthUnit vunit = ProjectManager.Project.Units.VertUnit; // Now we know the desired format precision we can assign it to all the numeric columns for (int i = 1; i < grdData.Columns.Count; i++) { grdData.Columns[i].DefaultCellStyle.Format = sFormat; if (grdData.Columns[i] == colErrorPC || grdData.Columns[i] == colPCTotal) { grdData.Columns[i].DefaultCellStyle.Format += "%"; } else if (grdData.Columns[i] == colError) { grdData.Columns[i].DefaultCellStyle.Format = "±" + sFormat; } } //////////////////////////////////////////////////////////////////////////////////////////////////// // Show/hide columns based on the properties pop-up colRawDoD.Visible = options.m_bColsRaw; colThresholded.Visible = options.m_bColsThresholded; colError.Visible = options.m_bColsPMError; colErrorPC.Visible = options.m_bColsPCError; //////////////////////////////////////////////////////////////////////////////////////////////////// // Area of erosion header if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsAreal)) { aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "AREAL"; aRow.Cells[colAtt].Style.Font = new System.Drawing.Font(grdData.Font, System.Drawing.FontStyle.Bold); // Area of erosion aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Total Area of Surface Lowering (" + UnitsNet.Area.GetAbbreviation(options.AreaUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "The amount of area experiencing a lowering of surface elevations"; aRow.Cells[colRaw].Value = dodStats.ErosionRaw.GetArea(ca).As(options.AreaUnits); aRow.Cells[colThr].Value = dodStats.ErosionThr.GetArea(ca).As(options.AreaUnits); aRow.Cells[colErr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colEPC].Style.BackColor = System.Drawing.Color.LightGray; // Area of deposition aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Total Area of Surface Raising (" + UnitsNet.Area.GetAbbreviation(options.AreaUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "The amount of area experiencing an increase of surface elevations"; aRow.Cells[colRaw].Value = dodStats.DepositionRaw.GetArea(ca).As(options.AreaUnits); aRow.Cells[colThr].Value = dodStats.DepositionThr.GetArea(ca).As(options.AreaUnits); aRow.Cells[colErr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colEPC].Style.BackColor = System.Drawing.Color.LightGray; // Area of detectable change aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Total Area of Detectable Change (" + UnitsNet.Area.GetAbbreviation(options.AreaUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "The sum of areas experiencing detectable lowering and raising"; aRow.Cells[colRaw].Value = "NA"; aRow.Cells[colThr].Value = dodStats.AreaDetectableChange_Thresholded.As(options.AreaUnits); aRow.Cells[colErr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colEPC].Style.BackColor = System.Drawing.Color.LightGray; // Area of interest aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Total Area of Interest (" + UnitsNet.Area.GetAbbreviation(options.AreaUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "The total amount of area under analysis (including detectable and undetectable)"; aRow.Cells[colRaw].Value = dodStats.AreaOfInterest_Raw.As(options.AreaUnits); aRow.Cells[colThr].Value = "NA"; aRow.Cells[colThr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colErr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colEPC].Style.BackColor = System.Drawing.Color.LightGray; // Percent of area of interest with detectable change aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Percent of Area of Interest with Detectable Change"; aRow.Cells[colAtt].ToolTipText = "The percent of the total area of interest with detectable changes (i.e. either exceeding the minimum level of detection or with a proability greater then the confidence interval chosen by user)"; aRow.Cells[colRaw].Value = "NA"; aRow.Cells[colRaw].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colThr].Value = dodStats.AreaPercentAreaInterestWithDetectableChange.ToString(sFormat) + "%"; aRow.Cells[colErr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colEPC].Style.BackColor = System.Drawing.Color.LightGray; } //////////////////////////////////////////////////////////////////////////////////////////////////// // VOLUMETRIC if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.Normalized || (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsVolumetric)) { // Volume of erosion header aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "VOLUMETRIC"; aRow.Cells[colAtt].Style.Font = new System.Drawing.Font(grdData.Font, System.Drawing.FontStyle.Bold); } if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsVolumetric)) { // Volume of erosion aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Total Volume of Surface Lowering (" + UnitsNet.Volume.GetAbbreviation(options.VolumeUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "On a cell-by-cell basis, the DoD surface lowering depth (e.g. erosion, cut or deflation) multiplied by cell area and summed"; aRow.Cells[colRaw].Value = dodStats.ErosionRaw.GetVolume(ca, dodStats.StatsUnits).As(options.VolumeUnits); aRow.Cells[colThr].Value = dodStats.ErosionThr.GetVolume(ca, dodStats.StatsUnits).As(options.VolumeUnits); aRow.Cells[colErr].Value = dodStats.ErosionErr.GetVolume(ca, dodStats.StatsUnits).As(options.VolumeUnits); aRow.Cells[colEPC].Value = dodStats.VolumeOfErosion_Percent / 100m; // Volume of deposition aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Total Volume of Surface Raising (" + UnitsNet.Volume.GetAbbreviation(options.VolumeUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "On a cell-by-cell basis, the DoD surface raising (e.g. deposition, fill or inflation) depth multiplied by cell area and summed"; aRow.Cells[colRaw].Value = dodStats.DepositionRaw.GetVolume(ca, dodStats.StatsUnits).As(options.VolumeUnits); aRow.Cells[colThr].Value = dodStats.DepositionThr.GetVolume(ca, dodStats.StatsUnits).As(options.VolumeUnits); aRow.Cells[colErr].Value = dodStats.DepositionErr.GetVolume(ca, dodStats.StatsUnits).As(options.VolumeUnits); aRow.Cells[colEPC].Value = dodStats.VolumeOfDeposition_Percent / 100m; // Total volume of difference aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Total Volume of Difference (" + UnitsNet.Volume.GetAbbreviation(options.VolumeUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "The sum of lowering and raising volumes (a measure of total turnover)"; aRow.Cells[colRaw].Value = dodStats.VolumeOfDifference_Raw.As(options.VolumeUnits); aRow.Cells[colThr].Value = dodStats.VolumeOfDifference_Thresholded.As(options.VolumeUnits); aRow.Cells[colErr].Value = dodStats.VolumeOfDifference_Error.As(options.VolumeUnits); aRow.Cells[colEPC].Value = dodStats.VolumeOfDifference_Percent / 100m; } if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.Normalized || (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsVolumetric)) { //Total NET volume difference aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Total Net Volume Difference (" + UnitsNet.Volume.GetAbbreviation(options.VolumeUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "The net difference of erosion and depostion volumes (i.e. deposition minus erosion)"; aRow.Cells[colRaw].Value = dodStats.NetVolumeOfDifference_Raw.As(options.VolumeUnits); aRow.Cells[colThr].Value = dodStats.NetVolumeOfDifference_Thresholded.As(options.VolumeUnits); aRow.Cells[colErr].Value = dodStats.NetVolumeOfDifference_Error.As(options.VolumeUnits); aRow.Cells[colEPC].Value = dodStats.NetVolumeOfDifference_Percent / 100m; } //////////////////////////////////////////////////////////////////////////////////////////////////// // VERTICAL AVERAGES if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.Normalized || (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsVerticalAverages)) { // Vertical Averages header aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "VERTICAL AVERAGES"; aRow.Cells[colAtt].Style.Font = new System.Drawing.Font(grdData.Font, System.Drawing.FontStyle.Bold); } if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsVerticalAverages) { // Average Depth of Erosion aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Average Depth of Surface Lowering (" + UnitsNet.Length.GetAbbreviation(options.LinearUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "The average depth of lowering (lowering volume divided by lowering area)"; aRow.Cells[colRaw].Value = dodStats.AverageDepthErosion_Raw.As(options.LinearUnits); aRow.Cells[colThr].Value = dodStats.AverageDepthErosion_Thresholded.As(options.LinearUnits); aRow.Cells[colErr].Value = dodStats.AverageDepthErosion_Error.As(options.LinearUnits); aRow.Cells[colEPC].Value = dodStats.AverageDepthErosion_Percent / 100m; // Average Depth of Deposition aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Average Depth of Surface Raising (" + UnitsNet.Length.GetAbbreviation(options.LinearUnits) + ")"; aRow.Cells[colAtt].ToolTipText = "The average depth of raising (raising volume divided by raising area)"; aRow.Cells[colRaw].Value = dodStats.AverageDepthDeposition_Raw.As(options.LinearUnits); aRow.Cells[colThr].Value = dodStats.AverageDepthDeposition_Thresholded.As(options.LinearUnits); aRow.Cells[colErr].Value = dodStats.AverageDepthDeposition_Error.As(options.LinearUnits); aRow.Cells[colEPC].Value = dodStats.AverageDepthDeposition_Percent / 100m; // Average Total Thickness of Difference for AOI aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Average Total Thickness of Difference (" + UnitsNet.Length.GetAbbreviation(options.LinearUnits) + ") for Area of Interest"; aRow.Cells[colAtt].ToolTipText = "The total volume of difference divided by the area of interest (a measure of total turnover thickness in the analysis area)"; aRow.Cells[colRaw].Value = dodStats.AverageThicknessOfDifferenceAOI_Raw.As(options.LinearUnits); aRow.Cells[colThr].Value = dodStats.AverageThicknessOfDifferenceAOI_Thresholded.As(options.LinearUnits); aRow.Cells[colErr].Value = dodStats.AverageThicknessOfDifferenceAOI_Error.As(options.LinearUnits); aRow.Cells[colEPC].Value = dodStats.AverageThicknessOfDifferenceAOI_Percent / 100m; } if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.Normalized || (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsVerticalAverages)) { // Average **NET** Thickness of Difference AOI aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Average Net Thickness of Difference (" + UnitsNet.Length.GetAbbreviation(options.LinearUnits) + ") for Area of Interest"; aRow.Cells[colAtt].ToolTipText = "The total net volume of difference divided by the area of interest (a measure of resulting net change within the analysis area)"; aRow.Cells[colRaw].Value = dodStats.AverageNetThicknessofDifferenceAOI_Raw.As(options.LinearUnits); aRow.Cells[colThr].Value = dodStats.AverageNetThicknessOfDifferenceAOI_Thresholded.As(options.LinearUnits); aRow.Cells[colErr].Value = dodStats.AverageNetThicknessOfDifferenceAOI_Error.As(options.LinearUnits); aRow.Cells[colEPC].Value = dodStats.AverageNetThicknessOfDifferenceAOI_Percent / 100m; } if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsVerticalAverages) { // Average Thickness of Difference ADC aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Average Total Thickness of Difference (" + UnitsNet.Length.GetAbbreviation(options.LinearUnits) + ") for Area with Detectable Change"; aRow.Cells[colAtt].ToolTipText = "The total volume of difference divided by the total area of detectable change (a measure of total turnover thickness where there was detectable change)"; aRow.Cells[colRaw].Value = "NA"; aRow.Cells[colRaw].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colThr].Value = dodStats.AverageThicknessOfDifferenceADC_Thresholded.As(options.LinearUnits); aRow.Cells[colErr].Value = dodStats.AverageThicknessOfDifferenceADC_Error.As(options.LinearUnits); aRow.Cells[colEPC].Value = dodStats.AverageThicknessOfDifferenceADC_Percent / 100m; } if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.Normalized || (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsVerticalAverages)) { // Average **NET** Thickness of Difference ADC aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Average Net Thickness of Difference (" + UnitsNet.Length.GetAbbreviation(options.LinearUnits) + ") for Area with Detectable Change"; aRow.Cells[colAtt].ToolTipText = "The total net volume of difference divided by the total area of detectable change (a measure of resulting net change where the was detectable change)"; aRow.Cells[colRaw].Value = "NA"; aRow.Cells[colRaw].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colThr].Value = dodStats.AverageNetThicknessOfDifferenceADC_Thresholded.As(options.LinearUnits); aRow.Cells[colErr].Value = dodStats.AverageNetThicknessOfDifferenceADC_Error.As(options.LinearUnits); aRow.Cells[colEPC].Value = dodStats.AverageNetThicknessOfDifferenceADC_Percent / 100m; } if (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.ShowAll || (options.m_eRowGroups == DoDSummaryDisplayOptions.RowGroups.SpecificGroups && options.m_bRowsPercentages)) { ///''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''' // Percentages by Volume aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "PERCENTAGES (BY VOLUME)"; aRow.Cells[colAtt].Style.Font = new System.Drawing.Font(grdData.Font, System.Drawing.FontStyle.Bold); // Percent Erosion aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Percent Elevation Lowering"; aRow.Cells[colAtt].ToolTipText = "Percent of Total Volume of Difference that is surface lowering"; aRow.Cells[colRaw].Value = dodStats.PercentErosion_Raw; aRow.Cells[colThr].Value = dodStats.PercentErosion_Thresholded; aRow.Cells[colErr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colEPC].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colTot].Style.BackColor = System.Drawing.Color.LightGray; // Percent Deposition aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Percent Elevation Raising"; aRow.Cells[colAtt].ToolTipText = "Percent of Total Volume of Difference that is surface raising"; aRow.Cells[colRaw].Value = dodStats.PercentDeposition_Raw; aRow.Cells[colThr].Value = dodStats.PercentDeposition_Thresholded; aRow.Cells[colErr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colEPC].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colTot].Style.BackColor = System.Drawing.Color.LightGray; // Percent Imbalance aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Percent Imbalance (departure from equilibium)"; aRow.Cells[colAtt].ToolTipText = "The percent depature from a 50%-50% equilibirum lowering/raising (i.e. erosion/deposition) balance (a normalized indication of the magnitude of the net difference)"; aRow.Cells[colRaw].Value = dodStats.PercentImbalance_Raw; aRow.Cells[colThr].Value = dodStats.PercentImbalance_Thresholded; aRow.Cells[colErr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colEPC].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colTot].Style.BackColor = System.Drawing.Color.LightGray; // Net to Total Volume Ratio aRow = grdData.Rows[grdData.Rows.Add()]; aRow.Cells[colAtt].Value = "Net to Total Volume Ratio"; aRow.Cells[colAtt].ToolTipText = "The ratio of net volumetric change divided by total volume of change (a measure of how much the net trend explains of the total turnover)"; aRow.Cells[colRaw].Value = dodStats.NetToTotalVolumeRatio_Raw; aRow.Cells[colThr].Value = dodStats.NetToTotalVolumeRatio_Thresholded; aRow.Cells[colErr].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colEPC].Style.BackColor = System.Drawing.Color.LightGray; aRow.Cells[colTot].Style.BackColor = System.Drawing.Color.LightGray; } for (int rowIndex = 1; rowIndex < grdData.Rows.Count; rowIndex++) { for (int colIndex = 1; colIndex < grdData.Columns.Count; colIndex++) { //if (rowIndex == 0) //{ // grdData.Rows[rowIndex].Cells[colIndex].Style.Font = new System.Drawing.Font(grdData.Font, System.Drawing.FontStyle.Bold); // grdData.Rows[rowIndex].Cells[colIndex].Style.Alignment = DataGridViewContentAlignment.MiddleCenter; //} //else //{ if (grdData.Rows[rowIndex].Cells[colIndex].Value != null) { // Assign the copy to clipboard context menu to non-null cells grdData.Rows[rowIndex].Cells[colIndex].ContextMenuStrip = cmsCopy; } //} } } }