private void OnLimitLineBuildFromSignal_Click(object sender, EventArgs e) { try { bool bMin = sender.ToString().Contains("M&in"); PointPairList listCurrentPointList = null; int nSelectionCounter = SelectSinglePointPairList(ref listCurrentPointList); if (nSelectionCounter == 0) { MessageBox.Show("Condition not met: One active display curve on screen (Avg, Max, Min or Realtime)", "Limit Lines"); return; } else if (nSelectionCounter > 1) { MessageBox.Show("Condition not met: One active display curve on screen ONLY (Avg, Max, Min or Realtime)", "Limit Lines"); return; } using (CreateLimitLine objDialog = new CreateLimitLine()) { if (objDialog.ShowDialog(this) == DialogResult.OK) { double dIncrementAmplitudeDB = Convert.ToDouble(objDialog.m_edOffsetDB.Text); if (bMin) m_LimitLineMin = new LimitLine(listCurrentPointList); else m_LimitLineMax = new LimitLine(listCurrentPointList); //add requested offset to each point - NOTE: This is not the RFE measurement offset so the //function SetNewOffset is not appropriate here! for (int nInd = 0; nInd < listCurrentPointList.Count; nInd++) { if (bMin) m_LimitLineMin[nInd].Y -= dIncrementAmplitudeDB; else m_LimitLineMax[nInd].Y += dIncrementAmplitudeDB; } if (bMin) m_LimitLineMin.AmplitudeUnits = GetCurrentAmplitudeEnum(); else m_LimitLineMax.AmplitudeUnits = GetCurrentAmplitudeEnum(); DisplaySpectrumAnalyzerData(); } } } catch (Exception obEx) { MessageBox.Show(obEx.Message); } }
private void OnLimitLineBuildFromSignal_Click(object sender, EventArgs e) { try { bool bAnalyzer = (m_MainTab.SelectedTab != m_tabRFGen); bool bMin = sender.ToString().Contains("M&in"); PointPairList listCurrentPointList = null; int nSelectionCounter = SelectSinglePointPairList(ref listCurrentPointList); if (nSelectionCounter == 0) { if (bAnalyzer) { MessageBox.Show("Condition not met: One active display curve on screen (Avg, Max, Min or Realtime)", "Limit Lines"); } else { MessageBox.Show("Condition not met: no tracking signal available", "Limit Lines"); } return; } else if (nSelectionCounter > 1) { MessageBox.Show("Condition not met: One active display curve on screen ONLY (Avg, Max, Min or Realtime)", "Limit Lines"); return; } using (CreateLimitLine objDialog = new CreateLimitLine()) { if (objDialog.ShowDialog(this) == DialogResult.OK) { double dIncrementAmplitudeDB = Convert.ToDouble(objDialog.m_edOffsetDB.Text); if (bAnalyzer) { if (bMin) { m_LimitLineAnalyzer_Min = new LimitLine(listCurrentPointList); } else { m_LimitLineAnalyzer_Max = new LimitLine(listCurrentPointList); } //add requested offset to each point - NOTE: This is not the RFE measurement offset so the //function SetNewOffset is not appropriate here! for (int nInd = 0; nInd < listCurrentPointList.Count; nInd++) { if (bMin) { m_LimitLineAnalyzer_Min[nInd].Y -= dIncrementAmplitudeDB; } else { m_LimitLineAnalyzer_Max[nInd].Y += dIncrementAmplitudeDB; } } if (bMin) { m_LimitLineAnalyzer_Min.AmplitudeUnits = GetCurrentAmplitudeEnum(); } else { m_LimitLineAnalyzer_Max.AmplitudeUnits = GetCurrentAmplitudeEnum(); } DisplaySpectrumAnalyzerData(); } else { if (bMin) { m_LimitLineGenerator_Min = new LimitLine(listCurrentPointList); } else { m_LimitLineGenerator_Max = new LimitLine(listCurrentPointList); } //add requested offset to each point - NOTE: This is not the RFE measurement offset so the //function SetNewOffset is not appropriate here! for (int nInd = 0; nInd < listCurrentPointList.Count; nInd++) { if (bMin) { m_LimitLineGenerator_Min[nInd].Y -= dIncrementAmplitudeDB; } else { m_LimitLineGenerator_Max[nInd].Y += dIncrementAmplitudeDB; } } DisplayTrackingData(); } } } } catch (Exception obEx) { MessageBox.Show(obEx.Message); } }