Esempio n. 1
0
class TitleEditorDemo(HasTraits):

    # Define the selection of titles that can be displayed:
    title = Enum('Select a new title from the drop down list below',
                 'This is the TitleEditor demonstration',
                 'Acme Widgets Sales for Each Quarter',
                 'This is Not Intended to be a Real Application')

    # A user settable version of the title:
    title_2 = Str('Type into the text field below to change this title')

    # A title driven by the result of a calculation:
    title_3 = Property(depends_on='value')

    # The number used to drive the calculation:
    value = Float()

    # Define the test view:
    view = View(VGroup(
        VGroup(HGroup(
            Item('title', show_label=False, springy=True,
                 editor=TitleEditor())),
               Item('title'),
               show_border=True),
        VGroup(HGroup(
            Item('title_2',
                 show_label=False,
                 springy=True,
                 editor=TitleEditor())),
               Item('title_2', label='Title'),
               show_border=True),
        VGroup(HGroup(
            Item('title_3',
                 show_label=False,
                 springy=True,
                 editor=TitleEditor())),
               Item('value'),
               show_border=True)),
                width=0.4)

    #-- Property Implementations ---------------------------------------------

    @cached_property
    def _get_title_3(self):
        try:
            return ('The square root of %s is %s' %
                    (self.value, self.value**0.5))
        except:
            return ('The square root of %s is %si' % (self.value,
                                                      (-self.value)**0.5))
Esempio n. 2
0
class ParticleArrayHelper(HasTraits):
    """
    This class manages a particle array and sets up the necessary
    plotting related information for it.
    """

    # The particle array we manage.
    particle_array = Instance(ParticleArray)

    # The name of the particle array.
    name = Str

    # Current time.
    time = Float(0.0)

    # The active scalar to view.
    scalar = Str('rho', desc='name of the active scalar to view')

    # The mlab scalar plot for this particle array.
    plot = Instance(PipelineBase)

    # The mlab vectors plot for this particle array.
    plot_vectors = Instance(PipelineBase)

    # List of available scalars in the particle array.
    scalar_list = List(Str)

    scene = Instance(MlabSceneModel)

    # Sync'd trait with the scalar lut manager.
    show_legend = Bool(False, desc='if the scalar legend is to be displayed')

    # Show all scalars.
    list_all_scalars = Bool(False, desc='if all scalars should be listed')

    # Sync'd trait with the dataset to turn on/off visibility.
    visible = Bool(True, desc='if the particle array is to be displayed')

    # Show the time of the simulation on screen.
    show_time = Bool(False, desc='if the current time is displayed')

    # Edit the scalars.
    edit_scalars = Button('More options ...')

    # Show vectors.
    show_vectors = Bool(False, desc='if vectors should be displayed')

    vectors = Str('u, v, w',
                  enter_set=True,
                  auto_set=False,
                  desc='the vectors to display')

    mask_on_ratio = Int(3, desc='mask one in specified points')

    scale_factor = Float(1.0,
                         desc='scale factor for vectors',
                         enter_set=True,
                         auto_set=False)

    edit_vectors = Button('More options ...')

    # Private attribute to store the Text module.
    _text = Instance(PipelineBase)

    # Extra scalars to show.  These will be added and saved to the data if
    # needed.
    extra_scalars = List(Str)

    # Set to True when the particle array is updated with a new property say.
    updated = Event

    ########################################
    # View related code.
    view = View(
        Item(name='name', show_label=False, editor=TitleEditor()),
        Group(Group(
            Group(
                Item(name='visible'),
                Item(name='show_legend'),
                Item(name='scalar', editor=EnumEditor(name='scalar_list')),
                Item(name='list_all_scalars'),
                Item(name='show_time'),
                columns=2,
            ),
            Item(name='edit_scalars', show_label=False),
            label='Scalars',
        ),
              Group(
                  Item(name='show_vectors'),
                  Item(name='vectors'),
                  Item(name='mask_on_ratio'),
                  Item(name='scale_factor'),
                  Item(name='edit_vectors', show_label=False),
                  label='Vectors',
              ),
              layout='tabbed'))

    #######  Private protocol ############################################
    def _add_vmag(self, pa):
        if 'vmag' not in pa.properties:
            if 'vmag2' in pa.output_property_arrays:
                vmag = numpy.sqrt(pa.vmag2)
            else:
                vmag = numpy.sqrt(pa.u**2 + pa.v**2 + pa.w**2)
            pa.add_property(name='vmag', data=vmag)
            if len(pa.output_property_arrays) > 0:
                # We do not call add_output_arrays when the default is empty
                # as if it is empty, all arrays are saved anyway. However,
                # adding just vmag in this case will mean that when the
                # particle array is saved it will only save vmag!  This is
                # not what we want, hence we add vmag *only* if the
                # output_property_arrays is non-zero length.
                pa.add_output_arrays(['vmag'])
            self.updated = True

    def _get_scalar(self, pa, scalar):
        """Return the requested scalar from the given particle array.
        """
        if scalar in self.extra_scalars:
            method_name = '_add_' + scalar
            method = getattr(self, method_name)
            method(pa)
        return getattr(pa, scalar)

    #######  Traits handlers #############################################
    def _edit_scalars_fired(self):
        self.plot.edit_traits()

    def _edit_vectors_fired(self):
        self.plot_vectors.edit_traits()

    def _particle_array_changed(self, pa):
        self.name = pa.name

        self._list_all_scalars_changed(self.list_all_scalars)

        # Update the plot.
        x, y, z = pa.x, pa.y, pa.z
        s = self._get_scalar(pa, self.scalar)
        p = self.plot
        mlab = self.scene.mlab
        if p is None:
            src = mlab.pipeline.scalar_scatter(x, y, z, s)
            p = mlab.pipeline.glyph(src, mode='point', scale_mode='none')
            p.actor.property.point_size = 3
            scm = p.module_manager.scalar_lut_manager
            scm.set(show_legend=self.show_legend,
                    use_default_name=False,
                    data_name=self.scalar)
            self.sync_trait('visible', p, mutual=True)
            self.sync_trait('show_legend', scm, mutual=True)
            #set_arrays(p.mlab_source.m_data, pa)
            self.plot = p
        else:
            if len(x) == len(p.mlab_source.x):
                p.mlab_source.set(x=x, y=y, z=z, scalars=s)
            else:
                p.mlab_source.reset(x=x, y=y, z=z, scalars=s)

        if self.plot_vectors:
            self._vectors_changed(self.vectors)

        # Setup the time.
        self._show_time_changed(self.show_time)

    def _scalar_changed(self, value):
        p = self.plot
        if p is not None:
            p.mlab_source.scalars = self._get_scalar(self.particle_array,
                                                     value)
            p.module_manager.scalar_lut_manager.data_name = value

    def _list_all_scalars_changed(self, list_all_scalars):
        pa = self.particle_array
        if list_all_scalars:
            sc_list = pa.properties.keys()
            self.scalar_list = sorted(set(sc_list + self.extra_scalars))
        else:
            if len(pa.output_property_arrays) > 0:
                self.scalar_list = sorted(
                    set(pa.output_property_arrays + self.extra_scalars))
            else:
                sc_list = pa.properties.keys()
                self.scalar_list = sorted(set(sc_list + self.extra_scalars))

    def _show_time_changed(self, value):
        txt = self._text
        mlab = self.scene.mlab
        if value:
            if txt is not None:
                txt.visible = True
            elif self.plot is not None:
                mlab.get_engine().current_object = self.plot
                txt = mlab.text(0.01, 0.01, 'Time = 0.0', width=0.35)
                self._text = txt
                self._time_changed(self.time)
        else:
            if txt is not None:
                txt.visible = False

    def _vectors_changed(self, value):
        pa = self.particle_array
        comps = [x.strip() for x in value.split(',')]
        if len(comps) == 3:
            try:
                vec = [getattr(pa, x) for x in comps]
            except AttributeError:
                pass
            else:
                self.plot.mlab_source.set(vectors=numpy.c_[vec[0], vec[1],
                                                           vec[2]])

    def _show_vectors_changed(self, value):
        pv = self.plot_vectors
        if pv is not None:
            pv.visible = value
        else:
            self._vectors_changed(self.vectors)
            pv = self.scene.mlab.pipeline.vectors(
                self.plot.mlab_source.m_data,
                mask_points=self.mask_on_ratio,
                scale_factor=self.scale_factor)
            self.plot_vectors = pv

    def _mask_on_ratio_changed(self, value):
        pv = self.plot_vectors
        if pv is not None:
            pv.glyph.mask_points.on_ratio = value

    def _scale_factor_changed(self, value):
        pv = self.plot_vectors
        if pv is not None:
            pv.glyph.glyph.scale_factor = value

    def _time_changed(self, value):
        txt = self._text
        if txt is not None:
            txt.text = 'Time = %.3e' % (value)

    def _extra_scalars_default(self):
        return ['vmag']
Esempio n. 3
0
class ModifyGraph(HasTraits):

    #visualization items
    scene = Instance(MlabSceneModel, ())
    plot = Instance(PipelineBase)
  
    #control items
    Glyph_size=Range(low=.1, high=5.0, value=1)
    Tube_radius=Range(low=.1, high=5.0, value=1)
    Bound_size=Range(low=.1, high=5.0, value=1)
    Forground_color=Enum('Black','White','Red', 'Green', 'Blue', 'Yellow')
    Glyph_color=Enum('Black','White','Red', 'Green', 'Blue', 'Yellow')
    Tube_color=Enum('Black','White','Red', 'Green', 'Blue', 'Yellow')
    
    #edit items
    current_node=String()
    nodes_list=List(editor=ListEditor())
    reset_nodes=Button(label='Reset')
    connect_nodes=Button(label='Add branch')
    remove_node=Button(label='Remove')
    save=Button(label='Save graph')

    #others
    colors={'Black':(0,0,0),'White':(1,1,1),'Red':(1,0,0), 
            'Green':(0,1,0), 'Blue':(0,0,1), 'Yellow':(1,1,0)}
    

    def __init__(self, G_, **traits):
        
        HasTraits.__init__(self, **traits)
        
        # Visualization
        self.G_=G_
        self.G=None
        self.engine=None
        self.scn=None
        self.pipeline=None
        self.tube=None
        self.surface=None
        self.glyph=None
        self.glyph_points=None # points needed to render one glyph
        self.outline=None
        self.x, self.y, self.z= None, None, None
        self.node_id=None
        self.data=None
        self.nodes=None
        self.edges=None
        
        #parameters
        self.bound=3
        self.bending_factor=40
        self.connect_step=.1
        self.n_new_nodes=0
    
    
    ##################
    #Fuctions on scene
    ##################
    
    def clearScene(self):
        
        mlab.clf()
        mlab.close(self.scene)
        
     
    def update_selection(self):
        self.current_node=self.node_id
        self.nodes_list=self.nodes_list.append(self.node_id)
        
    def update_picker_opt(self):
        
        b=self.bound
        self.outline.outline_mode = 'full'
        self.outline.bounds = (self.x-b, self.x+b,
                               self.y-b, self.y+b,
                               self.z-b, self.z+b)             
    def update_picker(self):
        
        if self.x and self.y and self.z:
            pass
        else:
            self.x, self.y, self.z= self.nodes[0] 
         
        b=self.bound
        
        if self.outline:            
            self.outline.bounds = (self.x-b, self.x+b,
                                   self.y-b, self.y+b,
                                   self.z-b, self.z+b) 
        else:
                        
            self.outline = mlab.outline(line_width=3, color=(0,0,0))
            self.outline.outline_mode = 'full'
            self.outline.bounds = (self.x-b, self.x+b,
                                   self.y-b, self.y+b,
                                   self.z-b, self.z+b) 
        self.update_selection()
    
    
    def update_data(self):
         
        self.nodes.reset()
        all_pos=[self.G.node[i]['pos'] for i in self.G.GetNodes()]       
        self.nodes.from_array(all_pos)               
        
        self.edges.reset()
        self.edges.from_array(np.array(self.G.edges()))               
        
        self.pipeline.update()
     
    ####################    
    # Functions on graph
    ####################  
    
    def get_bezier(self, pnts):
                
        
        try:
            import bezier as bz
        except:
            print('To run this function, \'bezier\' sould be installed.')
            return 
        
        #to well-bended curve
        v1=(pnts[1]-pnts[0])/np.linalg.norm(pnts[1]-pnts[0])
        v2=(pnts[2]-pnts[3])/np.linalg.norm(pnts[2]-pnts[3])   
        pnts[1]=pnts[1]+self.bending_factor*v1
        pnts[2]=pnts[2]+self.bending_factor*v2
        
        x=pnts[:,0].tolist(); y=pnts[:,1].tolist(); z=pnts[:,2].tolist(); 
           
        nodes = np.asfortranarray([x,y,z])
        curve = bz.Curve(nodes, degree=2)    
        stp=self.connect_step
        steps=np.arange(0+stp, 1-stp, stp)
        
        new_pnts=[]
        for i in steps:    
            new_pnts.append(np.ravel(curve.evaluate(i)))
        
        return np.array(new_pnts)    
    
    def add_branch4(self):
        
        #new_nodes
        pos=np.array([
                self.G.node[i]['pos'] 
                for i in list(self.nodes_list)
                ]) 

        new_pos=self.get_bezier(pos)
               
        self.n_new_nodes=np.shape(new_pos)[0]
        new_nodes=range(len(self.nodes), 
                      len(self.nodes)+ self.n_new_nodes) 
        
        #new_connections
        srt=self.nodes_list[1]
        end=self.nodes_list[-2]
        new_con=[[new_nodes[i], new_nodes[i+1]] 
                for i in range(len(new_nodes)-1)]
        new_con.append([srt,new_nodes[0]])
        new_con.append([new_nodes[-1],end]) 
        
        #add nodes
        self.G.add_nodes_from(new_nodes)
        
        for idx, i in enumerate(new_nodes):
            self.G.node[i]['pos']=new_pos[idx]
        
        #add connectinos
        self.G.add_edges_from(new_con)
      
       
        #update visualization
        self.update_data()
        
    
    def add_branch2(self):
    
        #add connectinos
        self.G.add_edge(self.nodes_list[0],
                               self.nodes_list[1])
            
        #update visualization
        self.update_data()    
   
    def add_branch(self):         
        
        if len(self.nodes_list)==4:           
            self.add_branch4()
            
        if len(self.nodes_list)==2:           
            self.add_branch2()
            
        
    
    def rm_node(self):
        
        self.G.remove_node(self.node_id)
        self.G=fixG(self.G)
        self.update_data()
        
    def init_graph(self):
        
        if not self.G:
            self.G=self.G_.copy()
        
  
    
    # control call backes    
    def _Glyph_size_changed(self): 
        
       self.glyph.glyph.glyph_source.glyph_source.radius = self.Glyph_size
       
    # control call backes    
    def _Bound_size_changed(self): 
        
       self.bound = self.Bound_size
       self.update_picker_opt()
       
    def _Glyph_color_changed(self): 
        
       self.glyph.actor.property.color=self.colors[self.Glyph_color]
           
    def _Tube_radius_changed(self): 
        
       self.tube.filter.radius=self.Tube_radius
                 
    def _Tube_color_changed(self): 
        
       self.surface.actor.property.color=self.colors[self.Tube_color]
       
       
       
    # edit call backs    
    def _reset_nodes_fired(self):
        self.nodes_list=[]


    def _connect_nodes_fired(self):
        
        self.add_branch()
        
    def _save_fired(self):
    
        
        dlg = FileDialog(action='save as')
        if dlg.open() == OK:
            if dlg.filename:
                #os.mkdir(dlg.filename)
                nx.write_pajek(self.G,
                               dlg.directory+'/'+dlg.filename+'.pajek')

    def _remove_node_fired(self):
        self.rm_node()
    
    @on_trait_change('scene.activated')
    def update_plot(self):
        
        if self.plot is None:                        
            visG(self.G_, radius=.1, color=(0,0,1), gylph_r=1, gylph_c=(0,1,0))
            self.init_graph()
            self.scene.scene.background = (1.0, 1.0, 1.0)
            self.engine=mlab.get_engine()
            self.scn=self.engine.scenes[1]
            self.pipeline=self.scn.children[0]
            self.tube=self.scn.children[0].children[1]
            self.surface=self.scn.children[0].children[1].children[0].children[0]
            self.glyph=self.scn.children[0].children[0].children[0]
            self.glyph_points = self.glyph.glyph.glyph_source.glyph_source.output.points.to_array()
            self.data=self.glyph.mlab_source.dataset
            self.nodes=self.data.points
            self.edges=self.data.lines
            
            self.figure=mlab.gcf(engine=self.engine)
            
            def picker_callback(picker):
                """ Picker callback: this get called when on pick events.
                """
                if picker.actor in self.glyph.actor.actors:
        
                    self.node_id = picker.point_id/self.glyph_points.shape[0]
                    
                    if self.node_id != -1:
                        self.x, self.y, self.z = self.nodes[self.node_id]
                        self.update_picker()
            
            self.picker = self.figure.on_mouse_pick(picker_callback)             
            self.picker.tolerance = 0.01
            
            self.update_picker()
        else:

            pass
    
    
    ##############
    # control tool
    ##############
    
    control_group= Group(
                       Group(
                           Item('Glyph_size'), 
                           Item('Glyph_color'),
                           orientation='horizontal',
                           layout='normal'
                           ),
                   
                       Group(
                           Item('Tube_radius'), 
                           Item('Tube_color'), 
                           orientation='horizontal',
                           layout='normal'
                           ),
                               
                       Group(
                           Item('Bound_size'), 
                           orientation='horizontal',
                           layout='normal'
                           ),                              
                               
                    label='Control', layout='normal')
   
    ###########
    # edit tool
    ###########
  
    editing_group=   Group(
                     
                     Group(
                     Item('current_node', label='Current node', editor=TitleEditor()),
                     Item('remove_node', show_label=False)),
                     
                     Group(
                             Item('reset_nodes', show_label=False),
                             Item('nodes_list', style='readonly', label='Selected nodes'),
                             Item('connect_nodes', show_label=False),
                             orientation='horizontal'
                            ),
                             
                     Group('_', Item('save', show_label=False),'_'),
                     
                     label='Edit', orientation='vertical', layout='split',show_border = True,
                     )

    # The layout of the dialog created
    view = View(
            Group(
                
               Group(Item('scene', editor=SceneEditor(scene_class=MayaviScene),
                     height=600, width=400, show_label=False)),
             
               Group(control_group,
               editing_group, layout='tabbed'),
                     
                layout='split'),
               resizable=True,    title = 'Nodes selection'    
               
               )
class LiveSearch(HasTraits):

    # The currenty root directory being searched:
    root = Directory(getcwd(), entries=10)

    # Should sub directories be included in the search:
    recursive = Bool(True)

    # The file types to include in the search:
    file_type = Enum('Python', 'C', 'C++', 'Java', 'Ruby')

    # The current search string:
    search = Str()

    # Is the search case sensitive?
    case_sensitive = Bool(False)

    # The live search table filter:
    filter = Property  # Instance( TableFilter )

    # The current list of source files being searched:
    source_files = Property  # List( SourceFile )

    # The currently selected source file:
    selected = Any  # Instance( SourceFile )

    # The contents of the currently selected source file:
    selected_contents = Property  # List( Str )

    # The currently selected match:
    selected_match = Int()

    # The text line corresponding to the selected match:
    selected_line = Property  # Int

    # The full name of the currently selected source file:
    selected_full_name = Property  # File

    # The list of marked lines for the currently selected file:
    mark_lines = Property  # List( Int )

    # Summary of current number of files and matches:
    summary = Property  # Str

    #-- Traits UI Views ------------------------------------------------------

    view = View(
        VGroup(
            HGroup(
                Item('root',
                     id='root',
                     label='Path',
                     width=0.5
                     ),
                Item('recursive'),
                Item('file_type', label='Type'),
                Item('search',
                     id='search',
                     width=0.5,
                     editor=HistoryEditor(auto_set=True)
                     ),
                Item('case_sensitive')
            ),
            VSplit(
                VGroup(
                    Item('summary',
                         editor=TitleEditor()
                         ),
                    Item('source_files',
                         id='source_files',
                         editor=table_editor
                         ),
                    dock='horizontal',
                    show_labels=False
                ),
                VGroup(
                    HGroup(
                        Item('selected_full_name',
                             editor=TitleEditor(),
                             springy=True
                             ),
                        Item('selected_full_name',
                             editor=DNDEditor(),
                             tooltip='Drag this file'
                             ),
                        show_labels=False
                    ),
                    Item('selected_contents',
                         style='readonly',
                         editor=CodeEditor(mark_lines='mark_lines',
                                           line='selected_line',
                                           selected_line='selected_line')
                         ),
                    dock='horizontal',
                    show_labels=False
                ),
                id='splitter'
            )
        ),
        title='Live File Search',
        id='enthought.examples.demo.Advanced.'
        'Table_editor_with_live_search_and_cell_editor.LiveSearch',
        width=0.75,
        height=0.67,
        resizable=True
    )

    #-- Property Implementations ---------------------------------------------

    @property_depends_on('search, case_sensitive')
    def _get_filter(self):
        if len(self.search) == 0:
            return lambda x: True

        return lambda x: len(x.matches) > 0

    @property_depends_on('root, recursive, file_type')
    def _get_source_files(self):
        root = self.root
        if root == '':
            root = getcwd()

        file_types = FileTypes[self.file_type]
        if self.recursive:
            result = []
            for dir_path, dir_names, file_names in walk(root):
                for file_name in file_names:
                    if splitext(file_name)[1] in file_types:
                        result.append(SourceFile(
                            live_search=self,
                            full_name=join(dir_path, file_name)))
            return result

        return [SourceFile(live_search=self,
                           full_name=join(root, file_name))
                for file_name in listdir(root)
                if splitext(file_name)[1] in file_types]

    @property_depends_on('selected')
    def _get_selected_contents(self):
        if self.selected is None:
            return ''

        return ''.join(self.selected.contents)

    @property_depends_on('selected')
    def _get_mark_lines(self):
        if self.selected is None:
            return []

        return [int(match.split(':', 1)[0])
                for match in self.selected.matches]

    @property_depends_on('selected, selected_match')
    def _get_selected_line(self):
        selected = self.selected
        if (selected is None) or (len(selected.matches) == 0):
            return 1

        return int(selected.matches[self.selected_match - 1
                                    ].split(':', 1)[0])

    @property_depends_on('selected')
    def _get_selected_full_name(self):
        if self.selected is None:
            return ''

        return self.selected.full_name

    @property_depends_on('source_files, search, case_sensitive')
    def _get_summary(self):
        source_files = self.source_files
        search = self.search
        if search == '':
            return 'A total of %d files.' % len(source_files)

        files = 0
        matches = 0
        for source_file in source_files:
            n = len(source_file.matches)
            if n > 0:
                files += 1
                matches += n

        return 'A total of %d files with %d files containing %d matches.' % (
               len(source_files), files, matches)

    #-- Traits Event Handlers ------------------------------------------------

    def _selected_changed(self):
        self.selected_match = 1

    def _source_files_changed(self):
        if len(self.source_files) > 0:
            self.selected = self.source_files[0]
        else:
            self.selected = None
Esempio n. 5
0
class DataSourceWizardView(DataSourceWizard):

    #----------------------------------------------------------------------
    # Private traits
    #----------------------------------------------------------------------

    _top_label = Str('Describe your data')

    _info_text = Str('Array size do not match')

    _array_label = Str('Available arrays')

    _data_type_text = Str("What does your data represents?")

    _lines_text = Str("Connect the points with lines")

    _scalar_data_text = Str("Array giving the value of the scalars")

    _optional_scalar_data_text = Str("Associate scalars with the data points")

    _connectivity_text = Str("Array giving the triangles")

    _vector_data_text = Str("Associate vector components")

    _position_text = Property(depends_on="position_type_")

    _position_text_dict = {
        'explicit': 'Coordinnates of the data points:',
        'orthogonal grid': 'Position of the layers along each axis:',
    }

    def _get__position_text(self):
        return self._position_text_dict.get(self.position_type_, "")

    _shown_help_text = Str

    _data_sources_wrappers = Property(depends_on='data_sources')

    def _get__data_sources_wrappers(self):
        return [
            ArrayColumnWrapper(name=name,
                               shape=repr(self.data_sources[name].shape))
            for name in self._data_sources_names
        ]

    # A traits pointing to the object, to play well with traitsUI
    _self = Instance(DataSourceWizard)

    _suitable_traits_view = Property(depends_on="data_type_")

    def _get__suitable_traits_view(self):
        return "_%s_data_view" % self.data_type_

    ui = Any(False)

    _preview_button = Button(label='Preview structure')

    def __preview_button_fired(self):
        if self.ui:
            self.build_data_source()
            self.preview()

    _ok_button = Button(label='OK')

    def __ok_button_fired(self):
        if self.ui:
            self.ui.dispose()
            self.build_data_source()

    _cancel_button = Button(label='Cancel')

    def __cancel_button_fired(self):
        if self.ui:
            self.ui.dispose()

    _is_ok = Bool

    _is_not_ok = Bool

    def _anytrait_changed(self):
        """ Validates if the OK button is enabled.
        """
        if self.ui:
            self._is_ok = self.check_arrays()
            self._is_not_ok = not self._is_ok

    _preview_window = Instance(PreviewWindow, ())

    _info_image = Instance(ImageResource,
                           ImageLibrary.image_resource('@std:alert16', ))

    #----------------------------------------------------------------------
    # TraitsUI views
    #----------------------------------------------------------------------

    _coordinates_group = \
                        HGroup(
                           Item('position_x', label='x',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                           Item('position_y', label='y',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                           Item('position_z', label='z',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                       )


    _position_group = \
                    Group(
                       Item('position_type'),
                       Group(
                           Item('_position_text', style='readonly',
                                    resizable=False,
                                    show_label=False),
                           _coordinates_group,
                           visible_when='not position_type_=="image data"',
                       ),
                       Group(
                           Item('grid_shape_source_',
                            label='Grid shape',
                            editor=EnumEditor(
                                name='_grid_shape_source_labels',
                                        invalid='_is_not_ok')),
                           HGroup(
                            spring,
                            Item('grid_shape', style='custom',
                                    editor=ArrayEditor(width=-60),
                                    show_label=False),
                           enabled_when='grid_shape_source==""',
                            ),
                           visible_when='position_type_=="image data"',
                       ),
                       label='Position of the data points',
                       show_border=True,
                       show_labels=False,
                   ),


    _connectivity_group = \
                   Group(
                       HGroup(
                         Item('_connectivity_text', style='readonly',
                                resizable=False),
                         spring,
                         Item('connectivity_triangles',
                                editor=EnumEditor(name='_data_sources_names'),
                                show_label=False,
                                ),
                         show_labels=False,
                       ),
                       label='Connectivity information',
                       show_border=True,
                       show_labels=False,
                       enabled_when='position_type_=="explicit"',
                   ),


    _scalar_data_group = \
                   Group(
                       Item('_scalar_data_text', style='readonly',
                           resizable=False,
                           show_label=False),
                       HGroup(
                           spring,
                           Item('scalar_data',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                           show_labels=False,
                           ),
                       label='Scalar value',
                       show_border=True,
                       show_labels=False,
                   )


    _optional_scalar_data_group = \
                   Group(
                       HGroup(
                       'has_scalar_data',
                       Item('_optional_scalar_data_text',
                            resizable=False,
                            style='readonly'),
                       show_labels=False,
                       ),
                       Item('_scalar_data_text', style='readonly',
                            resizable=False,
                            enabled_when='has_scalar_data',
                           show_label=False),
                       HGroup(
                           spring,
                           Item('scalar_data',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok'),
                               enabled_when='has_scalar_data'),
                           show_labels=False,
                           ),
                       label='Scalar data',
                       show_border=True,
                       show_labels=False,
                   ),


    _vector_data_group = \
                   VGroup(
                       HGroup(
                           Item('vector_u', label='u',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                           Item('vector_v', label='v',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                           Item('vector_w', label='w',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                       ),
                       label='Vector data',
                       show_border=True,
                   ),


    _optional_vector_data_group = \
                   VGroup(
                        HGroup(
                            Item('has_vector_data', show_label=False),
                            Item('_vector_data_text', style='readonly',
                                resizable=False,
                                show_label=False),
                        ),
                       HGroup(
                           Item('vector_u', label='u',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                           Item('vector_v', label='v',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                           Item('vector_w', label='w',
                               editor=EnumEditor(name='_data_sources_names',
                                        invalid='_is_not_ok')),
                           enabled_when='has_vector_data',
                       ),
                       label='Vector data',
                       show_border=True,
                   ),


    _array_view = \
                View(
                    Item('_array_label', editor=TitleEditor(),
                        show_label=False),
                    Group(
                    Item('_data_sources_wrappers',
                      editor=TabularEditor(
                          adapter = ArrayColumnAdapter(),
                      ),
                    ),
                    show_border=True,
                    show_labels=False
                ))

    _questions_view = View(
        Item('_top_label', editor=TitleEditor(), show_label=False),
        HGroup(
            Item('_data_type_text', style='readonly', resizable=False),
            spring,
            'data_type',
            spring,
            show_border=True,
            show_labels=False,
        ),
        HGroup(
            Item(
                '_self',
                style='custom',
                editor=InstanceEditor(view_name='_suitable_traits_view'),
            ),
            Group(
                # FIXME: Giving up on context sensitive help
                # because of lack of time.
                #Group(
                #    Item('_shown_help_text', editor=HTMLEditor(),
                #        width=300,
                #        label='Help',
                #        ),
                #    show_labels=False,
                #    label='Help',
                #),
                #Group(
                Item('_preview_button', enabled_when='_is_ok'),
                Item('_preview_window',
                     style='custom',
                     label='Preview structure'),
                show_labels=False,
                #label='Preview structure',
                #),
                #layout='tabbed',
                #dock='tab',
            ),
            show_labels=False,
            show_border=True,
        ),
    )

    _point_data_view = \
                View(Group(
                   Group(_coordinates_group,
                        label='Position of the data points',
                        show_border=True,
                   ),
                   HGroup(
                       'lines',
                       Item('_lines_text', style='readonly',
                                        resizable=False),
                       label='Lines',
                       show_labels=False,
                       show_border=True,
                   ),
                   _optional_scalar_data_group,
                   _optional_vector_data_group,
                   # XXX: hack to have more vertical space
                   Label('\n'),
                   Label('\n'),
                   Label('\n'),
                ))


    _surface_data_view = \
                View(Group(
                   _position_group,
                   _connectivity_group,
                   _optional_scalar_data_group,
                   _optional_vector_data_group,
                ))


    _vector_data_view = \
                View(Group(
                   _vector_data_group,
                   _position_group,
                   _optional_scalar_data_group,
                ))


    _volumetric_data_view = \
                View(Group(
                   _scalar_data_group,
                   _position_group,
                   _optional_vector_data_group,
                ))

    _wizard_view = View(
        Group(
            HGroup(
                Item(
                    '_self',
                    style='custom',
                    show_label=False,
                    editor=InstanceEditor(view='_array_view'),
                    width=0.17,
                ),
                '_',
                Item(
                    '_self',
                    style='custom',
                    show_label=False,
                    editor=InstanceEditor(view='_questions_view'),
                ),
            ),
            HGroup(
                Item('_info_image',
                     editor=ImageEditor(),
                     visible_when="_is_not_ok"),
                Item('_info_text',
                     style='readonly',
                     resizable=False,
                     visible_when="_is_not_ok"),
                spring,
                '_cancel_button',
                Item('_ok_button', enabled_when='_is_ok'),
                show_labels=False,
            ),
        ),
        title='Import arrays',
        resizable=True,
    )

    #----------------------------------------------------------------------
    # Public interface
    #----------------------------------------------------------------------

    def __init__(self, **traits):
        DataSourceFactory.__init__(self, **traits)
        self._self = self

    def view_wizard(self):
        """ Pops up the view of the wizard, and keeps the reference it to
            be able to close it.
        """
        # FIXME: Workaround for traits bug in enabled_when
        self.position_type_
        self.data_type_
        self._suitable_traits_view
        self.grid_shape_source
        self._is_ok
        self.ui = self.edit_traits(view='_wizard_view')

    def preview(self):
        """ Display a preview of the data structure in the preview
            window.
        """
        self._preview_window.clear()
        self._preview_window.add_source(self.data_source)
        data = lambda name: self.data_sources[name]
        g = Glyph()
        g.glyph.glyph_source.glyph_source = \
                    g.glyph.glyph_source.glyph_list[0]
        g.glyph.scale_mode = 'data_scaling_off'
        if not (self.has_vector_data or self.data_type_ == 'vector'):
            g.glyph.glyph_source.glyph_source.glyph_type = 'cross'
            g.actor.property.representation = 'points'
            g.actor.property.point_size = 3.
        self._preview_window.add_module(g)
        if not self.data_type_ in ('point', 'vector') or self.lines:
            s = Surface()
            s.actor.property.opacity = 0.3
            self._preview_window.add_module(s)
        if not self.data_type_ == 'point':
            self._preview_window.add_filter(ExtractEdges())
            s = Surface()
            s.actor.property.opacity = 0.2
            self._preview_window.add_module(s)
Esempio n. 6
0
class Lab(ASection):
    """ Defines a lab, which is a section of a tutorial with only Python code.
        This type of section might typically follow a lecture which introduced
        the code being worked on in the lab.
    """

    # The set-up code (if any) for the lab:
    setup = Instance(CodeItem)

    # The list of code items for the lab:
    snippets = List(CodeItem)

    # The list of visible code items for the lab:
    visible_snippets = Property(depends_on='visible', cached=True)

    # The currently selected snippet:
    snippet = Instance(CodeItem)

    # Should normally hidden code items be shown?
    visible = Bool(False)

    # The dictionary containing the items from the Python code execution:
    values = Dict

    # The run Python code button:
    run = Button(image=ImageResource('run'), height_padding=1)

    # User error message:
    message = Str

    # The output produced while the program is running:
    output = Str

    # The current demo pane (if any):
    demo = Instance(DemoPane, ())

    view = View(VSplit(
        VGroup(
            Item('visible_snippets',
                 style='custom',
                 show_label=False,
                 editor=snippet_editor),
            HGroup(
                Item('run',
                     style='custom',
                     show_label=False,
                     tooltip='Run the Python code'),
                '_',
                Item('message',
                     springy=True,
                     show_label=False,
                     editor=TitleEditor()),
                '_',
                Item('visible', label='View hidden sections'),
            ),
        ),
        Tabbed(
            Item(
                'values',
                id='values_1',
                label='Shell',
                editor=ShellEditor(share=True),
                dock='tab',
                export='DockWindowShell',
            ),
            Item(
                'values',
                id='values_2',
                editor=ValueEditor(),
                dock='tab',
                export='DockWindowShell',
            ),
            Item(
                'output',
                style='readonly',
                editor=CodeEditor(show_line_numbers=False,
                                  selected_color=0xFFFFFF),
                dock='tab',
                export='DockWindowShell',
            ),
            Item(
                'demo',
                id='demo',
                style='custom',
                resizable=True,
                dock='tab',
                export='DockWindowShell',
            ),
            show_labels=False,
        ),
        id='splitter',
    ),
                id='enthought.tutor.lab',
                handler=LabHandler)

    def _run_changed(self):
        """ Runs the current set of snippet code.
        """
        self.run_code()

    @cached_property
    def _get_visible_snippets(self):
        """ Returns the list of code items that are currently visible.
        """
        if self.visible:
            return self.snippets

        return [snippet for snippet in self.snippets if (not snippet.hidden)]

    def run_code(self):
        """ Runs all of the code snippets associated with the section.
        """
        # Reconstruct the lab code from the current set of code snippets:
        start_line = 1
        module = ''
        for snippet in self.snippets:
            snippet.start_line = start_line
            module = '%s\n\n%s' % (module, snippet.content)
            start_line += (snippet.content.count('\n') + 2)

        # Reset any syntax error and message log values:
        self.message = self.output = ''

        # Redirect standard out and error to the message log:
        stdout, stderr = sys.stdout, sys.stderr
        sys.stdout = sys.stderr = StdOut(self)

        try:
            try:
                # Get the execution context dictionary:
                values = self.values

                # Clear out any special variables defined by the last run:
                for name in ('demo', 'popup'):
                    if isinstance(values.get(name), HasTraits):
                        del values[name]

                # Execute the current lab code:
                exec module[2:] in values, values

                # fixme: Hack trying to update the Traits UI view of the dict.
                self.values = {}
                self.values = values

                # Handle a 'demo' value being defined:
                demo = values.get('demo')
                if not isinstance(demo, HasTraits):
                    demo = NoDemo()
                self.demo.demo = demo

                # Handle a 'popup' value being defined:
                popup = values.get('popup')
                if isinstance(popup, HasTraits):
                    popup.edit_traits(kind='livemodal')

            except SyntaxError, excp:
                # Convert the line number of the syntax error from one in the
                # composite module to one in the appropriate code snippet:
                line = excp.lineno
                if line is not None:
                    snippet = self.snippets[0]
                    for s in self.snippets:
                        if s.start_line > line:
                            break
                        snippet = s
                    line -= (snippet.start_line - 1)

                    # Highlight the line in error:
                    snippet.selected_line = line

                    # Select the correct code snippet:
                    self.snippet = snippet

                    # Display the syntax error message:
                    self.message = '%s in column %s of line %s' % (
                        excp.msg.capitalize(), excp.offset, line)
                else:
                    # Display the syntax error message without line # info:
                    self.message = excp.msg.capitalize()
            except:
                import traceback
                traceback.print_exc()
        finally:
Esempio n. 7
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class Lesson(Lab):
    """ Defines a lesson, which is a section of a tutorial with both
        descriptive information and associated Python code.
    """

    # The list of descriptive items for the lesson:
    descriptions = List(ATutorialItem)

    view = View(
        HSplit(
            Item(
                'descriptions',
                label='Lesson',
                style='custom',
                show_label=False,
                dock='horizontal',
                editor=list_editor,
            ),
            VSplit(
                VGroup(
                    Item(
                        'visible_snippets',
                        style='custom',
                        show_label=False,
                        editor=snippet_editor,
                    ),
                    HGroup(
                        Item(
                            'run',
                            style='custom',
                            show_label=False,
                            tooltip='Run the Python code',
                        ),
                        '_',
                        Item(
                            'message',
                            springy=True,
                            show_label=False,
                            editor=TitleEditor(),
                        ),
                        '_',
                        Item(
                            'visible',
                            label='View hidden sections',
                        ),
                    ),
                    label='Lab',
                    dock='horizontal',
                ),
                Tabbed(
                    Item(
                        'values',
                        id='values_1',
                        label='Shell',
                        editor=ShellEditor(share=True),
                        dock='tab',
                        export='DockWindowShell',
                    ),
                    Item(
                        'values',
                        id='values_2',
                        editor=ValueEditor(),
                        dock='tab',
                        export='DockWindowShell',
                    ),
                    Item(
                        'output',
                        style='readonly',
                        editor=CodeEditor(show_line_numbers=False,
                                          selected_color=0xFFFFFF),
                        dock='tab',
                        export='DockWindowShell',
                    ),
                    Item(
                        'demo',
                        id='demo',
                        style='custom',
                        resizable=True,
                        dock='tab',
                        export='DockWindowShell',
                    ),
                    show_labels=False,
                ),
                label='Lab',
                dock='horizontal',
            ),
            id='splitter',
        ),
        id='enthought.tutor.lesson',
        handler=LabHandler,
    )
Esempio n. 8
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class Tutor(HasPrivateTraits):
    """ The main tutorial class which manages the presentation and navigation
        of the entire tutorial.
    """

    # The path to the files distributed with the tutor:
    home = Directory

    # The path to the root of the tutorial tree:
    path = Directory

    # The root of the tutorial lesson tree:
    root = Instance(ASection)

    # The current section of the tutorial being displayed:
    section = Instance(ASection)

    # The next section:
    next_section = Property(depends_on='section', cached=True)

    # The previous section:
    previous_section = Property(depends_on='section', cached=True)

    # The previous section button:
    previous = Button(image=ImageResource('previous'), height_padding=1)

    # The next section button:
    next = Button(image=ImageResource('next'), height_padding=1)

    # The parent section button:
    parent = Button(image=ImageResource('parent'), height_padding=1)

    # The reload tutor button:
    reload = Button(image=ImageResource('reload'), height_padding=1)

    # The title of the current session:
    title = Property(depends_on='section')

    view = View(
        VGroup(
            HGroup(
                Item(
                    'previous',
                    style='custom',
                    enabled_when='previous_section is not None',
                    tooltip='Go to previous section',
                ),
                Item(
                    'parent',
                    style='custom',
                    enabled_when='(section is not None) and '
                    '(section.parent is not None)',
                    tooltip='Go up one level',
                ),
                Item(
                    'next',
                    style='custom',
                    enabled_when='next_section is not None',
                    tooltip='Go to next section',
                ),
                '_',
                Item(
                    'title',
                    springy=True,
                    editor=TitleEditor(),
                ),
                '_',
                Item(
                    'reload',
                    style='custom',
                    tooltip='Reload the tutorial',
                ),
                show_labels=False,
            ), '_',
            HSplit(
                Item(
                    'root',
                    label='Table of Contents',
                    editor=tree_editor,
                    dock='horizontal',
                    export='DockWindowShell',
                ),
                Item(
                    'section',
                    id='section',
                    label='Current Lesson',
                    style='custom',
                    resizable=True,
                    dock='horizontal',
                ),
                id='splitter',
                show_labels=False,
            )),
        title='Python Tutor',
        id='dmorrill.tutor.tutor:1.0',
        buttons=NoButtons,
        resizable=True,
        width=0.8,
        height=0.8,
    )

    def _path_changed(self, path):
        """ Handles the tutorial root path being changed.
        """
        self.init_tutor()

    def _next_changed(self):
        """ Displays the next tutorial section.
        """
        self.section = self.next_section

    def _previous_changed(self):
        """ Displays the previous tutorial section.
        """
        self.section = self.previous_section

    def _parent_changed(self):
        """ Displays the parent of the current tutorial section.
        """
        self.section = self.section.parent

    def _reload_changed(self):
        """ Reloads the tutor from the original path specified.
        """
        self.init_tutor()

    @cached_property
    def _get_next_section(self):
        """ Returns the next section of the tutorial.
        """
        next = None
        section = self.section
        if len(section.subsections) > 0:
            next = section.subsections[0]
        else:
            parent = section.parent
            while parent is not None:
                index = parent.subsections.index(section)
                if index < (len(parent.subsections) - 1):
                    next = parent.subsections[index + 1]
                    break

                parent, section = parent.parent, parent

        return next

    @cached_property
    def _get_previous_section(self):
        """ Returns the previous section of the tutorial.
        """
        previous = None
        section = self.section
        parent = section.parent
        if parent is not None:
            index = parent.subsections.index(section)
            if index > 0:
                previous = parent.subsections[index - 1]
                while len(previous.subsections) > 0:
                    previous = previous.subsections[-1]
            else:
                previous = parent

        return previous

    def _get_title(self):
        """ Returns the title of the current section.
        """
        section = self.section
        if section is None:
            return ''

        return ('%s: %s' % (section.__class__.__name__, section.title))

    def init_tutor(self):
        """ Initials the tutor by creating the root section from the specified
            path.
        """
        path = self.path
        title = title_for(os.path.splitext(os.path.basename(path))[0])
        section = SectionFactory(title=title).trait_set(path=path).section
        if section is not None:
            self.section = self.root = section
Esempio n. 9
0
class FileSieve ( HasPrivateTraits ):

    # The name of the plugin:
    name = Str( 'File Sieve' )

    # The persistence id for this object:
    id = Str( 'etsdevtools.developer.tools.file_sieve.state',
              save_state_id = True )

    # The path specifying the files to be listed:
    path = Directory( save_state = True, connect = 'to: path to sieve' )

    # Base path (in normalized form):
    base_path = Str

    # Extension to match on:
    ext = Str

    # The list of files containing in the specified path:
    files = List( File )

    # The list of currently selected files:
    selected = List( File )

    # The list of selected file names:
    selected_files = Property( depends_on = 'selected',
                               connect    = 'from: selected file names' )

    # The filter used to 'sieve' the list of files:
    filter = Instance( FileFilter, () )

    # Select all listed files button:
    select_all = Button( 'Select All' )

    # The indices of the table items currently passing the table filter:
    filtered_indices = List( Int )

    # The list of filtered file names:
    filtered_files = Property( depends_on = 'filtered_indices',
                               connect    = 'from: filtered file names' )

    # The total number of files being displayed:
    num_files = Property( depends_on = 'filtered_indices' )

    # The total size of all filtered files:
    size = Property( depends_on = 'filtered_indices' )

    # Should subdirectories of the path be included?
    recursive = Bool( True )

    # The current file worker thread object we are using:
    worker = Instance( FileWorker )

    #-- Traits View Definitions ------------------------------------------------

    view = View(
        VSplit(
            Item( 'path',
                  id     = 'path',
                  editor = DirectoryEditor( entries = 10 ),
                  dock   = 'vertical' ),
            HGroup(
                Item( 'filter', show_label = False, style = 'custom' ),
#                '_',
#                Item( 'recursive' ),
                spring,
                '_',
                Item( 'num_files',
                      label       = 'Files',
                      style       = 'readonly',
                      format_func = commatize,
                      width       = -40 ),
                '_',
                Item( 'size',
                      style       = 'readonly',
                      format_func = commatize,
                      width       = -70 ),
                '_',
                Item( 'select_all',
                      show_label   = False,
                      enabled_when = 'len( files ) > 0'
                ),
                dock = 'vertical'
            ),
            VGroup(
                HGroup(
                    Item( 'base_path',
                          label   = 'Path',
                          editor  = TitleEditor(),
                          springy = True
                    ),
                    '_',
                    Item( 'ext',
                          editor = TitleEditor()
                    )
                ),
                Item( 'files',
                      id     = 'files',
                      editor = files_table_editor
                ),
                dock        = 'horizontal',
                show_labels = False
            ),
            id = 'splitter',
        ),
        title     = 'File Sieve',
        id        = 'etsdevtools.developer.tools.file_sieve.FileSieve',
        width     = 0.6,
        height    = 0.7,
        resizable = True,
        handler   = FileSieveHandler
    )

    #-- Property Implementations -----------------------------------------------

    def _get_num_files ( self ):
        return len( self.filtered_indices )

    @cached_property
    def _get_size ( self ):
        files = self.files
        return reduce( lambda l, r: l + files[r].size, self.filtered_indices,
                       0L )

    @cached_property
    def _get_selected_files ( self ):
        return [ file.path for file in self.selected ]

    @cached_property
    def _get_filtered_files ( self ):
        files = self.files
        return [ files[i].path for i in self.filtered_indices ]

    #-- Event Handlers ---------------------------------------------------------

    def _path_changed ( self, path ):
        """ Handles the 'path' trait being changed.
        """
        # Make sure the path has been normalized:
        path = abspath( path )

        # Determine the correct starting directory and optional file extension
        # to match on:
        ext = ''
        if not isdir( path ):
            path, name = split( path )
            if not isdir( path ):
                del self.files[:]
                return

            root, ext = splitext( name )

        self.base_path = path
        self.ext       = ext

        if self.worker is not None:
            self.worker.abort = True

        self.worker = FileWorker( sieve = self, ext = ext ).set( path = path )

    def _select_all_changed ( self ):
        """ Handles the 'Select All' button being pressed.
        """
        files         = self.files
        self.selected = [ files[i] for i in self.filtered_indices ]

    def _recursive_changed ( self, recursive ):
        """ Handles the 'recursive' trait being changed.
Esempio n. 10
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class LiveSearch ( HasTraits ):
    """ Searches for files in operating system.  Adapted heavily from traits examples."""
    #THIS DICTSTRINGLIST CAN BE OVERWRITTEN AT ANY TIME AND THE PROGRAM WILL NOT FAULTER, MEANING CUSTOM FILE SEARCHES ARE POSSIBLE

    ValidTypes =DictStrList({
#	    'Python': [ '.py' ],
            'Sopra':      [ '.nk'],
            'XNK':    [ '.txt', '.dat' ],   #CAN EDIT MODULE WHICH CONTROLS THIS TO ADD "ANY" OPTION, OR MAYBE FILTER = NONE OPTION
            'XNK_csv': ['.csv']
#	    'Java':   [ '.java' ],
#	    'Ruby':   [ '.rb' ]
    })

    #A list of the keys in ValidTypes, basically a list of searchable types 'Python' vs. 'Java'
    types_list=Property(List, depends_on='ValidTypes')

    # Enumerated list of the above list (Allows user to select based on types_name)
    type_range = Enum(values='types_list')

    # The currenty root directory being searched:
    root = Directory( getcwd(), entries = 10 )

    # Should sub directories be included in the search:
    recursive = Bool( False )

    # The current search string:
    search = Str()

    # Is the search case sensitive?
    case_sensitive = Bool( False )

    # The live search table filter:
    filter = Property # Instance( TableFilter )

    # The current list of source files being searched:
    source_files = Property # List( SourceFile )

    # The current list of items which are deposited for return by the user
    my_files = List

    # The currently selected source file:
    selected = Any # Instance( SourceFile )

    # The currently selected stored file:
    selected_file=Any# Instance( SourceFile)

    # The currently selected match:
    selected_match = Int

    # source_summary of current number of files and matches:
    source_summary = Property # Str

    # selected_summary of current number of selected files and matches:
    selected_summary = Property # Str

    # Button to add files from source list to return list
    Add=Button 
    AddAll=Button 
    RemoveAll=Button 
    Remove=Button

    #-- Traits UI Views --------------------------------------------------------

    view = View(
        VGroup(
            HGroup(
                Item( 'root',            #Directory
                      id    = 'root',
                      label = 'Path',
                      width = 0.5
                      ),
                Item( 'recursive' ),
                Item( 'type_range', label = 'Type' ),  #HERE IS FILE TYPE

                # COMMENTED OUT STRING SEARCH, DONT DELETE THIS LETS ME SEARCH FILES 
                # MUST ALSO UNCOMMENT 2 METHODS AT END OF FILE
#                Item( 'search',
#                      id     = 'search',
#                      width  = 0.5,
#                      label = 'Search for infile string',
#                      editor = HistoryEditor( auto_set = True )
#                      ),
#                Item( 'case_sensitive' )
                ),
            VSplit(
                VGroup(
                    HGroup(    
                        VGroup(
                            Item( 'source_summary', editor = TitleEditor(), show_label=False ),
                            Item( 'source_files',
                                  id     = 'source_files',
                                  editor = source_editor, show_label=False),
                            HGroup(  Item('Add', label='Deposit Selected', show_label=False), 
                                     Item('AddAll', label='Deposit All', show_label=False) 
                                     )	
                            ),


                        VGroup(
                            Item( 'selected_summary', editor = TitleEditor(), show_label=False ),
                            Item( 'my_files',
                                  editor=file_editor, show_label=False),
                            HGroup( Item('Remove', 
                                         label='Remove Selected',
                                         show_label=False, 
                                         enabled_when='len(my_files) > 0'),
                                    Item('RemoveAll', 
                                         label='Remove All Stored',
                                         show_label=False,
                                         enabled_when='len(my_files) > 0') )
                            ),
                        ),
                    ),
                dock        = 'horizontal',
                show_labels = False
                ),
            ),
        title     = 'Live File Search',
        id        = 'File Search Mod',
        width     = 0.75,
        height    = 0.67,
        resizable = True,
        buttons=OKCancelButtons  #Why don't these work on small button operations
    )

    # Button Events
    # -------------
    def _Add_fired(self):
        for afile in self.selected:
            if afile not in self.my_files:
                self.my_files.append(afile)

    def _AddAll_fired(self):
        """ Add all files in a directory possibly.  Can add a lot of files, so
        instead of appending one by one, add them all at once to avoid over-triggering
        event handlers in modeltree_v2.py, which will update a dictionary every single
        time something in here changes.
        """
        new = []
        for afile in self.source_files:
            if afile not in self.my_files:
                new.append(afile)                
        self.my_files.extend(new)

    def _Remove_fired(self):
        for afile in self.selected_file:  #Since multi rows, this is a list, even when selected on object
            self.my_files.remove(afile)   #Selected_file is the variable for all selections on file table

    def _RemoveAll_fired(self): 
        self.my_files=[]

    #-- Property Implementations -----------------------------------------------

    def _get_types_list(self): 
        return self.ValidTypes.keys()

    @property_depends_on( 'search, case_sensitive' )
    def _get_filter ( self ):
        if len( self.search ) == 0:
            return lambda x: True

        return lambda x: len( x.matches ) > 0

    @property_depends_on( 'root, recursive, type_range' )
    def _get_source_files ( self ):
        """FIND THE SOURCE FILES populates with a list of source_files"""
        root = self.root
        if root == '':
            root = getcwd()

        valid_extensions = self.ValidTypes[ self.type_range ]      #TYPE_RANGES=EXTENSIONS. type_range=filenames
        if self.recursive:
            result = []
            for dir_path, dir_names, file_names in walk( root ):
                for file_name in file_names:	
                    extension=splitext(file_name)[1]
                    if extension in valid_extensions:
                        result.append( SourceFile(
                            live_search = self,
                            full_name   = join( dir_path, file_name ),
                            file_ext = extension) #File class set automatically
                                       )
            return result

        return [ SourceFile( live_search = self,
                             full_name   = join( root, file_name ) )
                 for file_name in listdir( root )
                 if splitext( file_name )[1] in valid_extensions ]


    @property_depends_on( 'source_files, search, case_sensitive' )
    def _get_source_summary ( self ):
        source_files = self.source_files
        search       = self.search
        if search == '':
            return 'A total of %d files found.' % len( source_files )


    @property_depends_on('my_files')
    def _get_selected_summary ( self ):
        return 'A total of %d files have been selected.' %(len(self.my_files) )


    #-- Traits Event Handlers --------------------------------------------------

    def _selected_changed ( self ): 
        self.selected_match = 1

    def _source_files_changed ( self ):
        if len( self.source_files ) > 0:
            self.selected = self.source_files[0]
        else:
            self.selected = None
Esempio n. 11
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class TTitle ( Item ):
    show_label = Constant( False )
    editor     = TitleEditor()
Esempio n. 12
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        point (a 3-vector).
        """
        p1 = numpy.asarray(p1).reshape(-1,1)
        p2 = numpy.asarray(p2).reshape(-1,1)
        max_length = ((p1-p2)**2).sum(axis=0)[0]
        nearest = self.intersect(p1, p2, max_length)[0]
        return nearest['length'], nearest['cell'], nearest['point']
    
    def update_complete(self):
        pass

OrientationEditor = RangeEditor(low=-180.0, high=180.0, mode='slider')


Traceable.uigroup = VGroup(
                   Item('name', editor=TitleEditor(), springy=False,
                        show_label=False),
                   Item('display'),
                   VGroup(
                   Item('orientation', editor=OrientationEditor),
                   Item('elevation', editor=OrientationEditor),
                   Item('rotation', editor=OrientationEditor),
                   ),
                   HGroup(Item('centre', 
                               show_label=False, 
                               editor=VectorEditor,
                               springy=True), 
                          show_border=True,
                          label="Centre"),
                   HGroup(
                          VGroup(