public void ribCB_Basislayer_Initialized(object sender, EventArgs e) { RibbonCombo ribCombo = (RibbonCombo)sender; myRegistry.regIO objRegistry = new myRegistry.regIO(); string Basislayer = (string)objRegistry.readValue("blocks", "Basislayer"); //Basislayer myAutoCAD.myLayer objLayer = myAutoCAD.myLayer.Instance; objLayer.refresh(); objLayer.checkLayer(Basislayer, true); foreach (LayerTableRecord ltr in objLayer.lsLayerTableRecord) { string layName = ltr.Name; if (layName.Length > 2) { if (layName.Substring(layName.Length - 2, 2) == "-P") { RibbonLabel ribLabel = new RibbonLabel(); ribLabel.Text = layName; ribCombo.Items.Add(ribLabel); if (ribLabel.Text == Basislayer) { ribCombo.Current = ribLabel; } } } } }
//Zeichnung aktiviert public void docColDocAct(object senderObj, DocumentCollectionEventArgs docColDocAcrEvtArgs) { myRegistry.regIO objRegIO = new myRegistry.regIO(); string Basislayer = (string)objRegIO.readValue("blocks", "Basislayer"); myAutoCAD.myLayer objLayer = myAutoCAD.myLayer.Instance; objLayer.refresh(); }
public void ribchkBoxImport3d_Initialized(object sender, EventArgs e) { myRegistry.regIO objRegistry = new myRegistry.regIO(); bool b3d = Convert.ToBoolean(objRegistry.readValue("blocks", "insert3d")); Autodesk.Windows.RibbonCheckBox ribchkBoxImport3d = (Autodesk.Windows.RibbonCheckBox)sender; ribchkBoxImport3d.IsChecked = b3d; }
//Events void Application_OnIdle(object sender, EventArgs e) { // Remove the event when it is fired Application.Idle -= new EventHandler(Application_OnIdle); // Add our Quick Access Toolbar item addRessourceTab(); //prüfen, ob App registriert ist myRegistry.regIO objRegIO = new myRegistry.regIO(); string Basislayer; if ((Basislayer = (string)objRegIO.readValue("blocks", "Basislayer")) == null) { myRegistry.regApp.register(); } //Basislayer prüfen bzw. erzeugen myAutoCAD.myLayer objLayer = myAutoCAD.myLayer.Instance; objLayer.checkLayer(Basislayer, true); }
public void run() { OpenFileDialog ddOpenFile = new OpenFileDialog(); ddOpenFile.Title = "Vermessungspunkte importieren"; ddOpenFile.Filter = "Punktwolke|*.csv|Punktwolke|*.dat"; ddOpenFile.DefaultExt = m_Settings.Extention; Editor m_ed = Autodesk.AutoCAD.ApplicationServices.Application.DocumentManager.MdiActiveDocument.Editor; DialogResult diagRes = DialogResult.None; if (!m_Settings.openExportFile) { diagRes = ddOpenFile.ShowDialog(); } else { ddOpenFile.FileName = m_Settings.ExportFile; diagRes = DialogResult.OK; } if (diagRes == DialogResult.OK) { bool fileOK = true; m_Filename = ddOpenFile.FileName; try { StreamReader sr = new StreamReader(m_Filename, Encoding.Default); m_Text = sr.ReadToEnd(); sr.Close(); } catch { fileOK = false; } if (fileOK) { m_Extention = m_Filename.Substring(m_Filename.LastIndexOf('.') + 1).ToLower(); string[] arZeile; string PNum; double Rechtswert = new double(); double Hochwert = new double(); double Höhe = new double(); double?Höhenwert = new Double(); myRegistry.regIO objRegIO = new myRegistry.regIO(); string Basislayer = (string)objRegIO.readValue("blocks", "Basislayer"); //Basislayer ggf. anlegen myAutoCAD.myLayer objLayer = myAutoCAD.myLayer.Instance; objLayer.checkLayer(Basislayer, true); int Zähler = 0; int iZeile = 1; switch (m_Extention) { case "dat": bool bDatFehler = false; m_arText = m_Text.Split(new char[] { '\n' }, StringSplitOptions.RemoveEmptyEntries); //Zeilen von MP in Array einfügen foreach (string Zeile in m_arText) { arZeile = Zeile.Split(new char[] { (char)32 }, StringSplitOptions.RemoveEmptyEntries); m_arPunkte.Add(arZeile); if (arZeile.Length < 3) { bDatFehler = true; break; } iZeile++; } if (!bDatFehler) { foreach (string[] Zeile in m_arPunkte) { bool bFehler = false; PNum = Zeile[0]; if (m_Util.convertToDouble(Zeile[1], ref Rechtswert, null) != Autodesk.AutoCAD.Runtime.ErrorStatus.OK) { bFehler = true; } if (m_Util.convertToDouble(Zeile[2], ref Hochwert, null) != Autodesk.AutoCAD.Runtime.ErrorStatus.OK) { bFehler = true; } Autodesk.AutoCAD.Runtime.ErrorStatus eSHöhe = m_Util.convertToDouble(Zeile[3], ref Höhe, null); if (!(eSHöhe == Autodesk.AutoCAD.Runtime.ErrorStatus.OK || eSHöhe == Autodesk.AutoCAD.Runtime.ErrorStatus.NullExtents)) { bFehler = true; } //Nachkommastellen Höhe myAutoCAD.myUtilities objUtil = new myAutoCAD.myUtilities(); int Precision = objUtil.Precision(Zeile[3]); double CASHöhe = Höhe; Höhe = Math.Round(Höhe, Convert.ToInt32(m_objRegIO.readValue("blocks", "Kommastellen"))); //Att3 (Datum) string Att3 = String.Empty; try { if (Zeile[4] != "" && Zeile[4] != "\r") { Att3 = Zeile[4]; } } catch { } //Att4 (Code) string Att4 = String.Empty; try { if (Zeile[5] != "" && Zeile[5] != "\r") { Att4 = Zeile[5]; } } catch { } //Att5 (Hersteller) string Att5 = String.Empty; try { if (Zeile[6] != "" && Zeile[6] != "\r") { Att5 = Zeile[6]; } } catch { } if (!bFehler) { //Höhe if (eSHöhe == Autodesk.AutoCAD.Runtime.ErrorStatus.NullExtents) { Höhenwert = null; } else { Höhenwert = Höhe; } myAutoCAD.Messpunkt objMP = new Messpunkt(PNum, Rechtswert, Hochwert, Höhenwert, CASHöhe, Precision); if (Att3 != String.Empty) { objMP.Att3_Wert = Att3; } if (Att4 != String.Empty) { objMP.Att4_Wert = Att4; } if (Att5 != String.Empty) { objMP.Att5_Wert = Att5; } if (objMP.draw("MP", Basislayer) == Autodesk.AutoCAD.Runtime.ErrorStatus.OK) { Zähler += 1; } else { break; } } } } else { MessageBox.Show("Fehler in dat File! (Zeile: " + iZeile.ToString()); } break; case "csv": m_arText = m_Text.Split(new char[] { '\n' }, StringSplitOptions.RemoveEmptyEntries); //Zeilen von MP in Array einfügen foreach (string Zeile in m_arText) { arZeile = Zeile.Split(new char[] { ';' }, StringSplitOptions.None); m_arPunkte.Add(arZeile); } foreach (string[] Zeile in m_arPunkte) { bool bFehler = false; Rechtswert = new Double(); Hochwert = new Double(); Höhe = new Double(); string Blockname = String.Empty; PNum = Zeile[0]; if (m_Util.convertToDouble(Zeile[1], ref Rechtswert, null) != Autodesk.AutoCAD.Runtime.ErrorStatus.OK) { bFehler = true; } if (m_Util.convertToDouble(Zeile[2], ref Hochwert, null) != Autodesk.AutoCAD.Runtime.ErrorStatus.OK) { bFehler = true; } Autodesk.AutoCAD.Runtime.ErrorStatus eSHöhe = m_Util.convertToDouble(Zeile[3], ref Höhe, null); if (!(eSHöhe == Autodesk.AutoCAD.Runtime.ErrorStatus.OK || eSHöhe == Autodesk.AutoCAD.Runtime.ErrorStatus.NullExtents)) { bFehler = true; } //Nachkommastellen Höhe myAutoCAD.myUtilities objUtil = new myAutoCAD.myUtilities(); int Precision = objUtil.Precision(Zeile[3]); double CASHöhe = Höhe; Höhe = Math.Round(Höhe, Convert.ToInt32(m_objRegIO.readValue("blocks", "Kommastellen"))); //Blockname try { if (Zeile[4] != "" && Zeile[4] != "\r") { Blockname = Zeile[4]; } } catch { } //Att3 (Datum) string Att3 = String.Empty; try { if (Zeile[4] != "" && Zeile[4] != "\r") { Att3 = Zeile[4]; } } catch { } //Att4 (Code) string Att4 = String.Empty; try { if (Zeile[5] != "" && Zeile[5] != "\r") { Att4 = Zeile[5]; } } catch { } //Att5 (Hersteller) string Att5 = String.Empty; try { if (Zeile[6] != "" && Zeile[6] != "\r") { Att5 = Zeile[6]; } } catch { } //Att6 string Att6 = String.Empty; try { if (Zeile[7] != "" && Zeile[7] != "\r") { Att6 = Zeile[7]; } } catch { } //Att7 string Att7 = String.Empty; try { if (Zeile[8] != "" && Zeile[8] != "\r") { Att7 = Zeile[8]; } } catch { } //Att8 string Att8 = String.Empty; try { if (Zeile[9] != "" && Zeile[9] != "\r") { Att8 = Zeile[9]; } } catch { } //Att9 string Att9 = String.Empty; try { if (Zeile[10] != "" && Zeile[10] != "\r") { Att9 = Zeile[10]; } } catch { } //Att10 string Att10 = String.Empty; try { if (Zeile[11] != "" && Zeile[11] != "\r") { Att10 = Zeile[11]; } } catch { } if (!bFehler) { //Höhe if (eSHöhe == Autodesk.AutoCAD.Runtime.ErrorStatus.NullExtents) { Höhenwert = null; } else { Höhenwert = Höhe; } myAutoCAD.Messpunkt objMP = new Messpunkt(PNum, Rechtswert, Hochwert, Höhenwert, CASHöhe, Precision, Blockname); if (Att3 != String.Empty) { objMP.Att3_Wert = Att3; } if (Att4 != String.Empty) { objMP.Att4_Wert = Att4; } if (Att5 != String.Empty) { objMP.Att5_Wert = Att5; } if (Att6 != String.Empty) { objMP.Att6_Wert = Att6; } if (Att7 != String.Empty) { objMP.Att7_Wert = Att7; } if (Att8 != String.Empty) { objMP.Att8_Wert = Att8; } if (Att9 != String.Empty) { objMP.Att9_Wert = Att9; } if (Att10 != String.Empty) { objMP.Att10_Wert = Att10; } if (objMP.draw("MP", Basislayer) == Autodesk.AutoCAD.Runtime.ErrorStatus.OK) { Zähler += 1; } else { break; } } } break; } MessageBox.Show(Zähler.ToString() + " Punkte importiert!"); m_ed.Regen(); //Object acadObject = Autodesk.AutoCAD.ApplicationServices.Application.AcadApplication; //acadObject.GetType().InvokeMember("ZoomExtents", BindingFlags.InvokeMethod, null, acadObject, null); } else { MessageBox.Show(m_Filename + " kann nicht geöffnet werden!"); } } }
public Settings() { InitializeComponent(); try { cB_insert3d.Checked = Convert.ToBoolean(objRegistry.readValue("blocks", "insert3d")); ckB_Header.Checked = Convert.ToBoolean(objRegistry.readValue("PT-Export", "isHeader")); rTB_Header.Text = Convert.ToString(objRegistry.readValue("PT-Export", "Header")); ckB_UCScoords.Checked = Convert.ToBoolean(objRegistry.readValue("PT-Export", "UCScoords")); ckB_PtExportFile.Checked = Convert.ToBoolean(objRegistry.readValue("PT-Export", "isExportFile")); tB_ExportFile.Text = Convert.ToString(objRegistry.readValue("PT-Export", "ExportFile")); cB_AusgabeFormat.SelectedIndex = Convert.ToInt32(objRegistry.readValue("PT-Export", "AusgabeFormat")); cB_Extention.SelectedIndex = Convert.ToInt32(objRegistry.readValue("PT-Import", "Default Extention")); ckB_openExportfile.Checked = Convert.ToBoolean(objRegistry.readValue("PT-Import", "openExportFile")); nUD_Height.Value = (int)objRegistry.readValue("blocks", "Kommastellen"); //Basislayer myAutoCAD.myLayer objLayer = myAutoCAD.myLayer.Instance; objLayer.refresh(); string Basislayer = (string)objRegistry.readValue("blocks", "Basislayer"); //objLayer.checkLayer(Basislayer,true); foreach (LayerTableRecord ltr in objLayer.lsLayerTableRecord) { string layName = ltr.Name; if (layName.Length > 2) { if (layName.Substring(layName.Length - 2, 2) == "-P") { cB_Basislayer.Items.Add(layName); } } } cB_Basislayer.Text = Basislayer; } catch { } }