/// <summary> /// Con la ruta del archivo RSP se procede a cargar en memoria el proyecto /// </summary> /// <param name="ruta"></param> public bool AbrirProyecto(string ruta) { StreamReader sr = new StreamReader(ruta); string line; string name = ""; string path = ""; int count = 0; int countAreas = 0; bool phantoms = false; CCuadrado areaCore = new CCuadrado(); CCuadrado areaP1 = new CCuadrado(); CCuadrado areaP2 = new CCuadrado(); CCuadrado areaP3 = new CCuadrado(); bool segmentacionDone = false; bool areasDone = false; int toRead = 0; int read = 0; double meanHigh = 0; double meanLow = 0; double desvHigh = 0; double desvLow = 0; double densidad = 0; double zeff = 0; CPhantom tempP1 = null; CPhantom tempP2 = null; CPhantom tempP3 = null; int x = 0; int y = 0; int width = 0; int ini = 0; int fin = 0; List<CAreaInteres> areasCore = new List<CAreaInteres>(); long head=0; long tail=0; string unidades=""; while ((line = sr.ReadLine()) != null) { switch (line) { case "NAME": name = sr.ReadLine(); break; case "PATH": path = sr.ReadLine(); break; case "COUNT": count = Convert.ToInt16(sr.ReadLine()); break; case "HEAD": head = Convert.ToInt16(sr.ReadLine()); break; case "TAIL": tail = Convert.ToInt16(sr.ReadLine()); break; case "UNIDADES": unidades = sr.ReadLine(); break; case "PHANTOMS": phantoms = Convert.ToBoolean(sr.ReadLine()); toRead = 3; // se deben leer 3 phantoms read = 0; while (read < toRead) { line = sr.ReadLine(); switch (line) { case "PHANTOM1": line = sr.ReadLine(); // densidad densidad = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // zeff zeff = Convert.ToDouble(sr.ReadLine()); if (!phantoms) { line = sr.ReadLine(); // media high meanHigh = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // desv high desvHigh = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // media low meanLow = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // desv low desvLow = Convert.ToDouble(sr.ReadLine()); } tempP1 = new CPhantom(meanHigh, desvHigh, meanLow, desvLow, densidad, zeff); read++; break; case "PHANTOM2": line = sr.ReadLine(); // densidad densidad = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // zeff zeff = Convert.ToDouble(sr.ReadLine()); if (!phantoms) { line = sr.ReadLine(); // media high meanHigh = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // desv high desvHigh = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // media low meanLow = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // desv low desvLow = Convert.ToDouble(sr.ReadLine()); } tempP2 = new CPhantom(meanHigh, desvHigh, meanLow, desvLow, densidad, zeff); read++; break; case "PHANTOM3": line = sr.ReadLine(); // densidad densidad = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // zeff zeff = Convert.ToDouble(sr.ReadLine()); if (!phantoms) { line = sr.ReadLine(); // media high meanHigh = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // desv high desvHigh = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // media low meanLow = Convert.ToDouble(sr.ReadLine()); line = sr.ReadLine(); // desv low desvLow = Convert.ToDouble(sr.ReadLine()); } tempP3 = new CPhantom(meanHigh, desvHigh, meanLow, desvLow, densidad, zeff); read++; break; } } break; case "SEGMENTACION": segmentacionDone = Convert.ToBoolean(sr.ReadLine()); if (segmentacionDone) { read = 0; if (phantoms) toRead = 4; // si hay phantoms en los DICOM entonces se deben leer 4 segmentaciones else toRead = 1; // sino, solo se lee la segmentacion del CORE while (read < toRead) { line = sr.ReadLine(); switch (line) { case "CORE": line = sr.ReadLine(); // X x = Convert.ToInt16(sr.ReadLine()); line = sr.ReadLine(); // Y y = Convert.ToInt16(sr.ReadLine()); line = sr.ReadLine(); // width width = Convert.ToInt16(sr.ReadLine()); areaCore = new CCuadrado(x, y, width); areaCore.nombre = "Core"; read++; break; case "PHANTOM1": line = sr.ReadLine(); // X x = Convert.ToInt16(sr.ReadLine()); line = sr.ReadLine(); // Y y = Convert.ToInt16(sr.ReadLine()); line = sr.ReadLine(); // width width = Convert.ToInt16(sr.ReadLine()); areaP1 = new CCuadrado(x, y, width); areaP1.nombre = "Phantom1"; read++; break; case "PHANTOM2": line = sr.ReadLine(); // X x = Convert.ToInt16(sr.ReadLine()); line = sr.ReadLine(); // Y y = Convert.ToInt16(sr.ReadLine()); line = sr.ReadLine(); // width width = Convert.ToInt16(sr.ReadLine()); areaP2 = new CCuadrado(x, y, width); areaP2.nombre = "Phantom2"; read++; break; case "PHANTOM3": line = sr.ReadLine(); // X x = Convert.ToInt16(sr.ReadLine()); line = sr.ReadLine(); // Y y = Convert.ToInt16(sr.ReadLine()); line = sr.ReadLine(); // width width = Convert.ToInt16(sr.ReadLine()); areaP3 = new CCuadrado(x, y, width); areaP3.nombre = "Phantom3"; read++; break; } } } break; case "AREAS DE INTERES": areasDone = Convert.ToBoolean(sr.ReadLine()); if (areasDone) { // se leen un par de lineas muertas sr.ReadLine(); sr.ReadLine(); // total de areas a leer read = Convert.ToInt32(sr.ReadLine()); countAreas = 0; for (int i = 0; i < read; i++) { // X sr.ReadLine(); x = Convert.ToInt32(sr.ReadLine()); // Y sr.ReadLine(); y = Convert.ToInt32(sr.ReadLine()); // WIDTH sr.ReadLine(); width = Convert.ToInt32(sr.ReadLine()); // INI sr.ReadLine(); ini = Convert.ToInt32(sr.ReadLine()); // FIN sr.ReadLine(); fin = Convert.ToInt32(sr.ReadLine()); countAreas++; areasCore.Add(new CAreaInteres(x,y,width,"area"+countAreas.ToString(),ini,fin)); } } break; default: break; } } // se prepara la lista de dicoms a cargar List<string> high = new List<string>(); List<string> low = new List<string>(); for (int i = 0; i < count; i++) { high.Add(path + "\\high\\" + i); low.Add(path + "\\high\\" + i); } // se crea el proyecto actual actual = new CProyecto(name, high, low, phantoms); actual.folderPath = path; actual.folderHigh = path + "\\high"; actual.folderLow = path + "\\low"; actual.phantomEnDicom = phantoms; actual.phantom1 = new CPhantom(tempP1); actual.phantom2 = new CPhantom(tempP2); actual.phantom3 = new CPhantom(tempP3); actual.segmentacionDone = segmentacionDone; if (segmentacionDone) { actual.areaCore = new CCuadrado(areaCore); actual.areaPhantom1 = new CCuadrado(areaP1); actual.areaPhantom2 = new CCuadrado(areaP2); actual.areaPhantom2 = new CCuadrado(areaP2); actual.datacuboHigh.widthSeg = actual.areaCore.width * 2; actual.datacuboLow.widthSeg = actual.areaCore.width * 2; // se genera la segmentacion actual.datacuboHigh.SegCircThread(actual.areaCore); actual.datacuboLow.SegCircThread(actual.areaCore); // se crean los cortes longitudinales actual.datacuboHigh.GenerarCoresHorizontales(); actual.datacuboLow.GenerarCoresHorizontales(); } actual.areasDone = areasDone; if (areasDone) { actual.areasCore = new List<CAreaInteres>(); for (int i = 0; i < areasCore.Count; i++) { actual.areasCore.Add(new CAreaInteres(areasCore[i])); } } this.actual.head = head; this.actual.tail = tail; this.actual.unidadProfundidad = unidades; this.proyectoForm = new ProjectForm(); this.abiertoProyectoForm = true; this.proyectoForm.padre = this; this.proyectoForm.MdiParent = this; this.proyectoForm.Show(); // se crean las imagenes de los cortes transversales actual.datacuboHigh.CrearBitmapThread(); actual.datacuboLow.CrearBitmapThread(); sr.Close(); return true; }
/// <summary> /// Cierra la ventana ProjectForm /// </summary> public void CerrarProjectForm() { this.abiertoProyectoForm = false; this.proyectoForm = null; }
/// <summary> /// Abre la ventana ProjectForm /// </summary> public void AbrirProjectForm() { this.proyectoForm = new ProjectForm(); this.proyectoForm.padre = this; this.proyectoForm.MdiParent = this; this.abiertoProyectoForm = true; this.proyectoForm.Show(); }