class PlugIn(SimplePlugIn): def load(self): import GraphicsWindow, Items self.GraphicsWindow = GraphicsWindow self.Items = Items xpm = QPixmap() xpm.loadFromData(self.getFile('graphicswin.xpm').read()) winIcon = QIcon(xpm) self.winManager = SubWinManager(SimuVis4.Globals.mainWin.workSpace, self.GraphicsWindow.GraphicsWindow, QCoreApplication.translate('Graphics', "GraphicsView"), winIcon) testAction = QAction(winIcon, QCoreApplication.translate('Graphics', '&Graphics Test'), SimuVis4.Globals.mainWin) testAction.setStatusTip(QCoreApplication.translate('Graphics', 'Show a new graphics window')) QWidget.connect(testAction, SIGNAL("triggered()"), self.test) SimuVis4.Globals.mainWin.plugInMenu.addAction(testAction) return True def unload(self, fast): if self.winManager: self.winManager.shutdown() del self.winManager def test(self): if not self.winManager: return from PyQt4.QtGui import QGraphicsScene, QGraphicsItem, QGraphicsLineItem from PyQt4.QtCore import QRectF, QLineF w = self.winManager.newWindow() scene = QGraphicsScene(w.graphicsView) scene.addItem(Items.Grid()) scene.addItem(Items.Axes()) line = scene.addLine(QLineF(0, 0, 0, 0)) cross = Items.NodeCross(movable=True) cross.addEdge(line, 1) scene.addItem(cross) help = scene.addText(QCoreApplication.translate('Graphics', 'Press "h" for help!')) help.moveBy(-50, 80) text = Items.NodeText(QCoreApplication.translate('Graphics', 'Drag Me!')) text.setFlag(QGraphicsItem.ItemIsMovable, True) text.setFlag(QGraphicsItem.ItemIsSelectable, True) text.addEdge(line, 2) scene.addItem(text) w.graphicsView.setScene(scene) def listWindows(self): if self.winManager: return self.winManager.windows
def load(self): self.initTranslations() import vtk, VtkWidget, VtkWindow, Objects, Helpers self.vtk = vtk self.VtkWidget = VtkWidget self.VtkWindow = VtkWindow self.Objects = Objects self.Helpers = Helpers xpm = QPixmap() xpm.loadFromData(self.getFile('3dwin.xpm').read()) winIcon = QIcon(xpm) self.winManager = SubWinManager(glb.mainWin.workSpace, self.VtkWindow.VtkWindow, QCoreApplication.translate('VtkWindow', "Vtk Window"), winIcon) testAction = QAction(winIcon, QCoreApplication.translate('VtkWindow', '&VtkWindow Test'), glb.mainWin) testAction.setStatusTip(QCoreApplication.translate('VtkWindow', 'Show a new Vtk test window')) QWidget.connect(testAction, SIGNAL("triggered()"), self.test) glb.mainWin.plugInMenu.addAction(testAction) ftActions = glb.fileTypeActions ftActions.addType('application/x-3ds', '.3ds') ftActions.addAction(self.show3DS, ('application/x-3ds',), QCoreApplication.translate('VtkWindow', 'Open in VtkWindow'), 5) ftActions.addType('application/x-vrml', '.wrl') ftActions.addAction(self.showVRML, ('application/x-vrml',), QCoreApplication.translate('VtkWindow', 'Open in VtkWindow'), 5) return True
def load(self): import GraphicsWindow, Items self.GraphicsWindow = GraphicsWindow self.Items = Items xpm = QPixmap() xpm.loadFromData(self.getFile('graphicswin.xpm').read()) winIcon = QIcon(xpm) self.winManager = SubWinManager(SimuVis4.Globals.mainWin.workSpace, self.GraphicsWindow.GraphicsWindow, QCoreApplication.translate('Graphics', "GraphicsView"), winIcon) testAction = QAction(winIcon, QCoreApplication.translate('Graphics', '&Graphics Test'), SimuVis4.Globals.mainWin) testAction.setStatusTip(QCoreApplication.translate('Graphics', 'Show a new graphics window')) QWidget.connect(testAction, SIGNAL("triggered()"), self.test) SimuVis4.Globals.mainWin.plugInMenu.addAction(testAction) return True
def load(self): self.initTranslations() import vtk, VtkWidget, VtkWindow, Objects, Helpers self.vtk = vtk self.VtkWidget = VtkWidget self.VtkWindow = VtkWindow self.Objects = Objects self.Helpers = Helpers xpm = QPixmap() xpm.loadFromData(self.getFile('3dwin.xpm').read()) winIcon = QIcon(xpm) self.winManager = SubWinManager(SimuVis4.Globals.mainWin.workSpace, self.VtkWindow.VtkWindow, QCoreApplication.translate('VtkWindow', "Vtk Window"), winIcon) testAction = QAction(winIcon, QCoreApplication.translate('VtkWindow', '&VtkWindow Test'), SimuVis4.Globals.mainWin) testAction.setStatusTip(QCoreApplication.translate('VtkWindow', 'Show a new Vtk test window')) QWidget.connect(testAction, SIGNAL("triggered()"), self.test) SimuVis4.Globals.mainWin.plugInMenu.addAction(testAction) return True
def load(self): self.initTranslations() cfg = SimuVis4.Globals.config cfgsec = self.name.lower() if not cfg.has_section(cfgsec): cfg.add_section(cfgsec) glb = SimuVis4.Globals import QwtPlotWindow, QPlot, MaskedArray self.QwtPlotWindow = QwtPlotWindow self.MaskedArray = MaskedArray xpm = QPixmap() xpm.loadFromData(self.getFile('plotwin.xpm').read()) winIcon = QIcon(xpm) self.winManager = SubWinManager(SimuVis4.Globals.mainWin.workSpace, QwtPlotWindow.QwtPlotWindow, QCoreApplication.translate('QwtPlot', 'Qwt Plotwindow'), winIcon) testAction = QAction(winIcon, QCoreApplication.translate('QwtPlot', '&QwtPlotWindow Test'), SimuVis4.Globals.mainWin) testAction.setStatusTip(QCoreApplication.translate('QwtPlot', 'Show a new Qwt test window')) QWidget.connect(testAction, SIGNAL("triggered()"), self.test) SimuVis4.Globals.mainWin.plugInMenu.addAction(testAction) return True
class PlugIn(SimplePlugIn): def load(self): self.initTranslations() cfg = SimuVis4.Globals.config cfgsec = self.name.lower() if not cfg.has_section(cfgsec): cfg.add_section(cfgsec) glb = SimuVis4.Globals import QwtPlotWindow, QPlot, MaskedArray self.QwtPlotWindow = QwtPlotWindow self.MaskedArray = MaskedArray xpm = QPixmap() xpm.loadFromData(self.getFile('plotwin.xpm').read()) winIcon = QIcon(xpm) self.winManager = SubWinManager(SimuVis4.Globals.mainWin.workSpace, QwtPlotWindow.QwtPlotWindow, QCoreApplication.translate('QwtPlot', 'Qwt Plotwindow'), winIcon) testAction = QAction(winIcon, QCoreApplication.translate('QwtPlot', '&QwtPlotWindow Test'), SimuVis4.Globals.mainWin) testAction.setStatusTip(QCoreApplication.translate('QwtPlot', 'Show a new Qwt test window')) QWidget.connect(testAction, SIGNAL("triggered()"), self.test) SimuVis4.Globals.mainWin.plugInMenu.addAction(testAction) return True def test(self): from math import sin, cos from PyQt4.Qwt5 import QwtPlotCurve w = self.winManager.newWindow() plt = w.plot xx = [0.05*x for x in range(100)] y1 = [sin(x) for x in xx] y2 = [cos(x) for x in xx] curve1 = QwtPlotCurve('sin(x)') curve1.attach(plt) curve1.setData(xx, y1) curve2 = QwtPlotCurve('cos(x)') curve2.attach(plt) curve2.setData(xx, y2)
class PlugIn(SimplePlugIn): def load(self): self.initTranslations() import vtk, VtkWidget, VtkWindow, Objects, Helpers self.vtk = vtk self.VtkWidget = VtkWidget self.VtkWindow = VtkWindow self.Objects = Objects self.Helpers = Helpers xpm = QPixmap() xpm.loadFromData(self.getFile('3dwin.xpm').read()) winIcon = QIcon(xpm) self.winManager = SubWinManager(glb.mainWin.workSpace, self.VtkWindow.VtkWindow, QCoreApplication.translate('VtkWindow', "Vtk Window"), winIcon) testAction = QAction(winIcon, QCoreApplication.translate('VtkWindow', '&VtkWindow Test'), glb.mainWin) testAction.setStatusTip(QCoreApplication.translate('VtkWindow', 'Show a new Vtk test window')) QWidget.connect(testAction, SIGNAL("triggered()"), self.test) glb.mainWin.plugInMenu.addAction(testAction) ftActions = glb.fileTypeActions ftActions.addType('application/x-3ds', '.3ds') ftActions.addAction(self.show3DS, ('application/x-3ds',), QCoreApplication.translate('VtkWindow', 'Open in VtkWindow'), 5) ftActions.addType('application/x-vrml', '.wrl') ftActions.addAction(self.showVRML, ('application/x-vrml',), QCoreApplication.translate('VtkWindow', 'Open in VtkWindow'), 5) return True def unload(self, fast): if self.winManager: self.winManager.shutdown() del self.winManager def test(self, name=None): if not self.winManager: return w = self.winManager.newWindow(name) vtk = self.vtk ren = vtk.vtkRenderer() w.vtkWidget.GetRenderWindow().AddRenderer(ren) sphere = vtk.vtkSphereSource() sphereMapper = vtk.vtkPolyDataMapper() sphereMapper.SetInput(sphere.GetOutput()) sphereActor = vtk.vtkActor() sphereActor.SetMapper(sphereMapper) sphereActor.GetProperty().SetColor(1.0, 0.3, 0.3) ren.AddActor(sphereActor) cone = vtk.vtkConeSource() cone.SetResolution(16) coneMapper = vtk.vtkPolyDataMapper() coneMapper.SetInput(cone.GetOutput()) coneActor = vtk.vtkActor() coneActor.SetMapper(coneMapper) coneActor.AddPosition(0.0, 1.0, 0.0) coneActor.GetProperty().SetColor(1.0, 1.0, 0.0) ren.AddActor(coneActor) cube = vtk.vtkCubeSource() cubeMapper = vtk.vtkPolyDataMapper() cubeMapper.SetInput(cube.GetOutput()) cubeActor = vtk.vtkActor() cubeActor.SetMapper(cubeMapper) cubeActor.AddPosition(0.0, 2.0, 0.0) cubeActor.GetProperty().SetColor(0.3, 1.0, 0.3) ren.AddActor(cubeActor) w.show() w.vtkWidget.Initialize() w.vtkWidget.Start() return w def show3DS(self, fileName): vtk = self.vtk importer = vtk.vtk3DSImporter() importer.ComputeNormalsOn() importer.SetFileName(fileName) importer.Read() ren = importer.GetRenderer() ren.SetBackground(0.1, 0.2, 0.4) ren.ResetCamera() w = self.winManager.newWindow(fileName) importer.SetRenderWindow(w.vtkWidget.GetRenderWindow()) w.vtkWidget.GetRenderWindow().AddRenderer(ren) w.show() w.vtkWidget.Initialize() w.vtkWidget.Start() return w def showVRML(self, fileName): vtk = self.vtk importer = vtk.vtkVRMLImporter() importer.SetFileName(fileName) importer.Read() ren = importer.GetRenderer() ren.SetBackground(0.1, 0.2, 0.4) ren.ResetCamera() w = self.winManager.newWindow(fileName) importer.SetRenderWindow(w.vtkWidget.GetRenderWindow()) w.vtkWidget.GetRenderWindow().AddRenderer(ren) w.show() w.vtkWidget.Initialize() w.vtkWidget.Start() return w
class PlugIn(SimplePlugIn): def load(self): self.initTranslations() import vtk, VtkWidget, VtkWindow, Objects, Helpers self.vtk = vtk self.VtkWidget = VtkWidget self.VtkWindow = VtkWindow self.Objects = Objects self.Helpers = Helpers xpm = QPixmap() xpm.loadFromData(self.getFile('3dwin.xpm').read()) winIcon = QIcon(xpm) self.winManager = SubWinManager(SimuVis4.Globals.mainWin.workSpace, self.VtkWindow.VtkWindow, QCoreApplication.translate('VtkWindow', "Vtk Window"), winIcon) testAction = QAction(winIcon, QCoreApplication.translate('VtkWindow', '&VtkWindow Test'), SimuVis4.Globals.mainWin) testAction.setStatusTip(QCoreApplication.translate('VtkWindow', 'Show a new Vtk test window')) QWidget.connect(testAction, SIGNAL("triggered()"), self.test) SimuVis4.Globals.mainWin.plugInMenu.addAction(testAction) return True def unload(self, fast): if self.winManager: self.winManager.shutdown() del self.winManager def test(self, name=None): if not self.winManager: return w = self.winManager.newWindow(name) vtk = self.vtk ren = vtk.vtkRenderer() w.vtkWidget.GetRenderWindow().AddRenderer(ren) sphere = vtk.vtkSphereSource() sphereMapper = vtk.vtkPolyDataMapper() sphereMapper.SetInput(sphere.GetOutput()) sphereActor = vtk.vtkActor() sphereActor.SetMapper(sphereMapper) sphereActor.GetProperty().SetColor(1.0, 0.3, 0.3) ren.AddActor(sphereActor) cone = vtk.vtkConeSource() cone.SetResolution(16) coneMapper = vtk.vtkPolyDataMapper() coneMapper.SetInput(cone.GetOutput()) coneActor = vtk.vtkActor() coneActor.SetMapper(coneMapper) coneActor.AddPosition(0.0, 1.0, 0.0) coneActor.GetProperty().SetColor(1.0, 1.0, 0.0) ren.AddActor(coneActor) cube = vtk.vtkCubeSource() cubeMapper = vtk.vtkPolyDataMapper() cubeMapper.SetInput(cube.GetOutput()) cubeActor = vtk.vtkActor() cubeActor.SetMapper(cubeMapper) cubeActor.AddPosition(0.0, 2.0, 0.0) cubeActor.GetProperty().SetColor(0.3, 1.0, 0.3) ren.AddActor(cubeActor) w.show() w.vtkWidget.Initialize() w.vtkWidget.Start() return w