Example #1
0
def save_plot(plot, filename, width, height):
    plt_bounds = plot.outer_bounds
    plot.do_layout(force=True)
    gc = PlotGraphicsContext(plt_bounds, dpi=72)
    gc.render_component(plot)
    gc.save(filename)
    print "Plot saved to: ", filename
Example #2
0
    def OnMenuExportPNG(self, e=None):
        """ Saves plot container as png
        
        """
        dlg = wx.FileDialog(self, "Export plot as PNG", 
                            self.config.GetWorkingDirectory("PNG"), "",
                            "PDF file (*.png)|*.png",
                            wx.FD_SAVE|wx.FD_OVERWRITE_PROMPT)
        if dlg.ShowModal() == wx.ID_OK:
            path = dlg.GetPath()
            if not path.endswith(".png"):
                path += ".png"
            self.config.SetWorkingDirectory(os.path.dirname(path), "PNG")
            container = self.PlotArea.mainplot.container
            
            # get inner_boundary
            p = container

            dpi=600
            p.do_layout(force=True)
            gc = PlotGraphicsContext(tuple(p.outer_bounds), dpi=dpi)

            # temporarily turn off the backbuffer for offscreen rendering
            use_backbuffer = p.use_backbuffer
            p.use_backbuffer = False
            p.draw(gc)
            #gc.render_component(p)

            gc.save(path)

            p.use_backbuffer = use_backbuffer
Example #3
0
    def _SaveFlag_changed(self):	
	DPI = 72
	print '--------------Save Initiated------------------'
	
	#Main plot save code
	size = (self.IntensityData[:,:,self.intensityindex].shape[0]*4, self.IntensityData[:,:,self.intensityindex].shape[1]*4)
	path = os.getenv('PWD')
	filenamelist = [path, '/', 'MainPlot_WaveLen', str(self.Wavelength).replace('.','_'), '.png']
	filename = ''.join(filenamelist)
	container = self.Main_img_plot
	temp = container.outer_bounds
	container.outer_bounds = list(size)
	container.do_layout(force=True)
	gc = PlotGraphicsContext(size, dpi=DPI)
	gc.render_component(container)
	gc.save(filename)
	container.outer_bounds = temp
	print "SAVED: ", filename
	
	#Spectra plot save code
	size = (1000,500)
	path = os.getenv('PWD')
	filenamelist = [path, '/', 'SpectraPlot_X', str(self.InspectorPosition[0]), '_Y', str(self.InspectorPosition[1]), '.png']
	filename = ''.join(filenamelist)
	container = self.Spectraplot1
	temp = container.outer_bounds
	container.outer_bounds = list(size)
	container.do_layout(force=True)
	gc = PlotGraphicsContext(size, dpi=DPI)
	gc.render_component(container)
	gc.save(filename)
	container.outer_bounds = temp
	print "SAVED: ", filename
	return
Example #4
0
 def _save_raster(self):
     ''' Saves an image of the component.
     '''
     from chaco.api import PlotGraphicsContext
     gc = PlotGraphicsContext((int(self.component.outer_width), int(self.component.outer_height)))
     self.component.draw(gc, mode="normal")
     gc.save(self.filename)
     return
Example #5
0
File: demo.py Project: tkf/mplchaco 
def save_plot(plot, filename, width, height):
    # http://docs.enthought.com/chaco/user_manual/how_do_i.html
    from chaco.api import PlotGraphicsContext
    plot.outer_bounds = [width, height]
    plot.do_layout(force=True)
    gc = PlotGraphicsContext((width, height), dpi=72)
    gc.render_component(plot)
    gc.save(filename)
Example #6
0
def draw_plot(filename, size=(800, 600)):
    container = create_plot()
    container.outer_bounds = list(size)
    container.do_layout(force=True)
    gc = PlotGraphicsContext(size, dpi=DPI)
    gc.render_component(container)
    gc.save(filename)
    return
Example #7
0
    def test_scatter_1d_selection(self):
        self.scatterplot.index.metadata['selections'] = [
            (arange(10) % 2 == 0),
        ]

        gc = PlotGraphicsContext(self.size)
        gc.render_component(self.scatterplot)
        actual = gc.bmp_array[:, :, :]
        self.assertFalse(alltrue(actual == 255))
Example #8
0
 def _save_plot(self, plot, filename, width=800, height=600, dpi=72):
     self.set_plot_title(plot, self.plot_title)
     original_outer_bounds = plot.outer_bounds
     plot.outer_bounds = [width, height]
     plot.do_layout(force=True)
     gc = PlotGraphicsContext((width, height), dpi=dpi)
     gc.render_component(plot)
     gc.save(filename)
     plot.outer_bounds = original_outer_bounds
Example #9
0
    def _save(self):
        # Create a graphics context of the right size
        win_size = self.plot.outer_bounds
        plot_gc = PlotGraphicsContext(win_size)

        # Have the plot component into it
        plot_gc.render_component(self.plot)

        # Save out to the user supplied filename
        plot_gc.save(self._save_file)
Example #10
0
    def test_scatter_1d(self):
        self.assertEqual(self.scatterplot.origin, 'bottom left')
        self.assertIsNone(self.scatterplot.x_mapper)
        self.assertEqual(self.scatterplot.y_mapper,
                         self.scatterplot.index_mapper)

        gc = PlotGraphicsContext(self.size)
        gc.render_component(self.scatterplot)
        actual = gc.bmp_array[:, :, :]
        self.assertFalse(alltrue(actual == 255))
Example #11
0
    def test_scatter_1d_selection_mask_name(self):
        # select with a mask
        self.scatterplot.selection_metadata_name = 'highlight_masks'
        self.scatterplot.index.metadata['highlight_masks'] = [
            (arange(10) % 2 == 0),
        ]

        gc = PlotGraphicsContext(self.size)
        gc.render_component(self.scatterplot)
        actual = gc.bmp_array[:, :, :]
        self.assertFalse(alltrue(actual == 255))
Example #12
0
 def save_raster(self, filename):
     """
     Saves an image of a chaco component (e.g. 'Plot' or 'Container')
     to a raster file, such as .jpg or .png. The file type is terermined
     by the extension.
     """
     from chaco.api import PlotGraphicsContext
     gc = PlotGraphicsContext(self.outer_bounds, dpi=72)
     self.draw(gc, mode="normal")
     #gc.render_component(self)
     gc.save(filename)
     return
Example #13
0
 def test_scatter_fast(self):
     """ Coverage test to check basic case works """
     size = (50, 50)
     scatterplot = create_scatter_plot(
         data=[range(10), range(10)],
         border_visible=False,
     )
     scatterplot.outer_bounds = list(size)
     gc = PlotGraphicsContext(size)
     gc.render_component(scatterplot)
     actual = gc.bmp_array[:, :, :]
     self.assertFalse(alltrue(actual == 255))
Example #14
0
 def save_plot(self, filename=None):
     ''' Saves an image of the component.
     '''
     if filename is None:
         filename = 'plots/plot%05d.jpg' %(round(self.time/self.delay*self.time_factor))
     d = os.path.dirname(filename)
     if d != '' and not os.path.exists(d):
         os.makedirs(os.path.dirname(filename))
     gc = PlotGraphicsContext((int(self.component.outer_width),
                 int(self.component.outer_height)))
     self.component.draw(gc, mode="normal")
     gc.save(filename)
Example #15
0
    def plotRU(self,rangeX=None, rangeY=None, save=False, filename=""):
        if save and filename == "":
            self.add_line("ERROR: I need a valid file name")
            return

        if save and filename.split('.')[-1] != "png":
            self.add_line("ERROR: File must end in .png")
            return

        if len(self.morseList) > 0:
            plotData = ArrayPlotData(x=self.Rlist, y=self.Ulist, morse=self.morseList, eigX=[self.Rlist[0], self.Rlist[-1]])
        else:
            plotData = ArrayPlotData(x=self.Rlist, y=self.Ulist)


        for val in self.levelsToFind:
            if val < len(self.convergedValues):
                plotData.set_data("eig"+str(val), [self.convergedValues[val], self.convergedValues[val]])

        plot = Plot(plotData)

        if len(self.morseList) > 0:
            plot.plot(("x","morse"), type = "line", color = "red")

        for val in self.levelsToFind:
            if val < len(self.convergedValues):

                plot.plot(("eigX","eig"+str(val)), type="line", color="green")

        plot.plot(("x","y"), type = "line", color = "blue")
        plot.plot(("x","y"), type = "scatter", marker_size = 1.0, color = "blue")
        #
        plot.index_axis.title = "Separation (r0)"
        if (self.scaled):
            plot.value_axis.title = "Potential (Eh * 2 * mu)"
        else:
            plot.value_axis.title = "Potential (Eh)"

        if len(self.plotRangeX) != 0:
            plot.x_axis.mapper.range.low = self.plotRangeX[0]
            plot.x_axis.mapper.range.high = self.plotRangeX[1]
        if len(self.plotRangeY) != 0:
            plot.y_axis.mapper.range.low = self.plotRangeY[0]
            plot.y_axis.mapper.range.high = self.plotRangeY[1]
        if not save:
            self.plot = plot
        else:
            plot.outer_bounds = [800,600]
            plot.do_layout(force=True)
            gc = PlotGraphicsContext((800,600), dpi = 72)
            gc.render_component(plot)
            gc.save(filename)
Example #16
0
 def test_scatter_circle(self):
     """ Coverage test to check circles work """
     size = (50, 50)
     scatterplot = create_scatter_plot(
         data=[list(sm.xrange(10)), list(sm.xrange(10))],
         marker="circle",
         border_visible=False,
     )
     scatterplot.outer_bounds = list(size)
     gc = PlotGraphicsContext(size)
     gc.render_component(scatterplot)
     actual = gc.bmp_array[:, :, :]
     self.assertFalse(alltrue(actual == 255))
Example #17
0
    def test_scatter_1d_horizontal_flipped(self):
        self.scatterplot.direction = 'flipped'
        self.scatterplot.orientation = 'h'

        self.assertEqual(self.scatterplot.origin, 'bottom right')
        self.assertEqual(self.scatterplot.x_mapper,
                         self.scatterplot.index_mapper)
        self.assertIsNone(self.scatterplot.y_mapper)

        gc = PlotGraphicsContext(self.size)
        gc.render_component(self.scatterplot)
        actual = gc.bmp_array[:, :, :]
        self.assertFalse(alltrue(actual == 255))
Example #18
0
    def test_scatter_1d_custom(self):
        path = CompiledPath()
        path.move_to(-5, -5)
        path.line_to(5, 5)
        path.line_to(5, -5)
        path.line_to(-5, 5)
        path.line_to(-5, -5)

        self.scatterplot.marker = 'custom'
        self.scatterplot.custom_symbol = path
        gc = PlotGraphicsContext(self.size)
        gc.render_component(self.scatterplot)
        actual = gc.bmp_array[:, :, :]
        self.assertFalse(alltrue(actual == 255))
Example #19
0
 def test_scatter_slow(self):
     """ Coverage test to check multiple marker size works """
     size = (50, 50)
     scatterplot = create_scatter_plot(
         data=[range(10), range(10)],
         marker="circle",
         border_visible=False,
         marker_size=range(1, 11),
     )
     scatterplot.outer_bounds = list(size)
     gc = PlotGraphicsContext(size)
     gc.render_component(scatterplot)
     actual = gc.bmp_array[:, :, :]
     self.assertFalse(alltrue(actual == 255))
Example #20
0
    def on_savefig(self):
        """ Handles the user requesting that the image of the 
            function is to be saved.
        """
        import os
        dlg = FileDialog(parent=self.control,
                         title='Save as image',
                         default_directory=os.getcwd(),
                         default_filename="", wildcard=WILDCARD,
                         action='save as')
        if dlg.open() == OK:
            path = dlg.path

            print "Saving plot to", path, "..."
            try:

                """ Now we create a canvas of the appropriate size and 
                    ask it to render our component.  
                   (If we wanted to display this plot in a window, we
                    would not need to create the graphics context ourselves; 
                    it would be created for us by the window.)
                """
#                self._plot.bounds = [500,300]
#                self._plot.padding = 50
               # plot_gc = PlotGraphicsContext(self._plot.outer_bounds)
               # plot_gc.render_component(self._plot)

                #self._plot_container.outer_bounds = list((800,600))
#                plot_gc = PlotGraphicsContext((400,300), dpi=72.0)
#                plot_gc.render_component(self._plot_container)

                self.lplot.bounds = [500, 300]
                self.lplot.padding = 50

                win_size = self.lplot.outer_bounds
                plot_gc = PlotGraphicsContext(win_size)

                # Have the plot component into it
                plot_gc.render_component(self.lplot)

                # Finally, we tell the graphics context
                # to save itself to disk as an image.
                plot_gc.save(path)

            except:
                print "Error saving!"
                raise
            print "Plot saved."
        return
Example #21
0
    def _png_export_fired(self):
        outfileName = self._getFilePath(defFileName=self.__DEF_FILE_NAME + '.png')

        if outfileName != None:
            from chaco.api import PlotGraphicsContext
            container = self.plot
            tempSize = copy.deepcopy( container.outer_bounds )
            container.outer_bounds = list((self.width-1,self.height-1))
            container.do_layout(force=True)
            # gc = PlotGraphicsContext((self.width,self.height), dpi=self.dpi)
            gc = PlotGraphicsContext((self.width-1,self.height-1))
            gc.render_component(container)
            gc.save( outfileName )
            container.outer_bounds = tempSize
            self.plot.request_redraw()
Example #22
0
def draw_plot(filename, size=(800,600), num_plots=8, type='line', key=''):
    """ Save the plot, and generate the hover_data file. """
    container = create_plot(num_plots, type)
    container.outer_bounds = list(size)
    container.do_layout(force=True)
    gc = PlotGraphicsContext(size, dpi=DPI)
    gc.render_component(container)
    if filename:
        gc.save(filename)
        script_filename = filename[:-4] + "_png_hover_data.js"
    else:
        script_filename = None
    plot = make_palettized_png_str(gc)
    script_data = write_hover_coords(container, key, script_filename)
    return (plot, script_data)
Example #23
0
    def _SaveFlag_changed(self):
	DPI = 72
	#Main plot save code
	size = (1000,1000)
	path = os.getenv('PWD')
	filenamelist = [path, '/', 'SourcePlots_X', str(self.InspectorPosition[0]), '_Y', str(self.InspectorPosition[1]), '.png']
	filename = ''.join(filenamelist)
	container = self.PrimaryPlotC
	temp = container.outer_bounds
	container.outer_bounds = list(size)
	container.do_layout(force=True)
	gc = PlotGraphicsContext(size, dpi=DPI)
	gc.render_component(container)
	gc.save(filename)
	container.outer_bounds = temp
	print "SAVED: ", filename
Example #24
0
    def setUp(self):
        self.index = ArrayDataSource(arange(10))
        self.value = ArrayDataSource(arange(10))
        self.color_data = ArrayDataSource(arange(10))
        self.size_data = arange(10)

        self.index_range = DataRange1D()
        self.index_range.add(self.index)
        self.index_mapper = LinearMapper(range=self.index_range)

        self.value_range = DataRange1D()
        self.value_range.add(self.value)
        self.value_mapper = LinearMapper(range=self.value_range)

        self.color_range = DataRange1D()
        self.color_range.add(self.color_data)
        self.color_mapper = jet(self.color_range)

        self.scatterplot = ColormappedScatterPlot(
            index=self.index,
            value=self.value,
            index_mapper=self.index_mapper,
            value_mapper=self.value_mapper,
            color_data=self.color_data,
            marker_size=self.size_data,
            color_mapper=self.color_mapper,
        )
        self.scatterplot.outer_bounds = [50, 50]
        self.gc = PlotGraphicsContext((50, 50))
Example #25
0
    def test_draw_border_simple(self):
        """ Borders should have the correct height and width.
        """
        size = (5,5)
        container = Plot(padding=1, border_visible=True)
        container.outer_bounds = list(size)
        gc = PlotGraphicsContext(size)
        gc.render_component(container)

        desired = array(((255, 255, 255, 255, 255, 255),
                         (255, 255, 255, 255, 255, 255),
                         (255,   0,   0,   0, 255, 255),
                         (255,   0, 255,   0, 255, 255),
                         (255,   0,   0,   0, 255, 255),
                         (255, 255, 255, 255, 255, 255)))

        actual = gc.bmp_array[:,:,0]
        self.assertRavelEqual(actual, desired)
Example #26
0
 def test_data_label_arrow_not_visible(self):
     # Regression test for https://github.com/enthought/chaco/issues/281
     # Before the problem was fixed, this test (specifically, using
     # arrow_visible=False in the DataLabel constructor) would raise an
     # exception because of an undefined reference.
     size = (50, 50)
     plot = create_scatter_plot(data=[range(10), range(10)])
     label = DataLabel(component=plot,
                       data_point=(4, 4),
                       marker_color="red",
                       marker_size=3,
                       label_position=(20, 50),
                       label_style='bubble',
                       label_text="Something interesting",
                       label_format="at x=%(x).2f, y=%(y).2f",
                       arrow_visible=False)
     plot.overlays.append(label)
     plot.outer_bounds = list(size)
     gc = PlotGraphicsContext(size)
     gc.render_component(plot)
Example #27
0
    def test_scatter_custom(self):
        """ Coverage test to check custom markers work """
        # build path
        path = CompiledPath()
        path.move_to(-5, -5)
        path.line_to(5, 5)
        path.line_to(5, -5)
        path.line_to(-5, 5)
        path.line_to(-5, -5)

        size = (50, 50)
        scatterplot = create_scatter_plot(
            data=[range(10), range(10)],
            marker='custom',
            border_visible=False,
        )
        scatterplot.custom_symbol = path
        scatterplot.outer_bounds = list(size)
        gc = PlotGraphicsContext(size)
        gc.render_component(scatterplot)
        actual = gc.bmp_array[:, :, :]
        self.assertFalse(alltrue(actual == 255))
Example #28
0
    def _export_fired(self):
        dialog = FileDialog(action="save as", wildcard='.dat')
        dialog.open()
        if dialog.return_code == OK:
            # prepare plot for saving
            width = 800
            height = 600
            self.plot.outer_bounds = [width, height]
            self.plot.do_layout(force=True)
            gc = PlotGraphicsContext((width, height), dpi=72)
            gc.render_component(self.plot)

            #save data,image,description
            timetag = "" #init empty str for later
            directory = dialog.directory
            t = self.acqtime #retrieve time from last aquisition
            timelist = [t.tm_year,t.tm_mon,t.tm_mday,t.tm_hour,t.tm_min,t.tm_sec]
            timelist = map(str,timelist) #convert every entry to str of timelist
            for i in range(len(timelist)): #if sec is eg "5" change to "05"
                if len(timelist[i]) == 1:
                    timelist[i] = "0" + timelist[i]
            timetag = timetag.join(timelist) #make single str of all entries
            filename = timetag + dialog.filename # join timetag and inidivid. name
            print "target directory: " + directory
            gc.save(filename+".png")
            self.wvl = self.create_wavelength_for_plotting()
            x,y = self.icCryo.pos() #get cryo pos
            pos = "Cryo was at pos "+ str(x) + " x " + str(y)+" y"
            with open(filename+'.dat','wb') as f:
                f.write('#'+
                        str(pos)+
                        '\n'+
                        '#\n'+
                        '#\n'+
                        '#\n') #this is for the header
                np.savetxt(f,
                        np.transpose([self.wvl,self.line]),
                        delimiter='\t')
Example #29
0
 def test_errorbarplot(self):
     """ Coverage test to check basic case works """
     size = (50, 50)
     x = np.array([1, 2])
     y = np.array([5, 10])
     errors = np.array([1, 2])
     low = ArrayDataSource(y - errors)
     high = ArrayDataSource(y + errors)
     errorbar_plot = ErrorBarPlot(
         index=ArrayDataSource(x),
         values=ArrayDataSource(y),
         index_mapper=LinearMapper(range=DataRange1D(low=0, high=3)),
         value_mapper=LinearMapper(range=DataRange1D(low=0, high=15)),
         value_low=low,
         value_high=high,
         color='blue',
         line_width=3.0,
     )
     errorbar_plot.outer_bounds = list(size)
     gc = PlotGraphicsContext(size)
     gc.render_component(errorbar_plot)
     actual = gc.bmp_array[:, :, :]
     self.assertFalse(alltrue(actual == 255))
Example #30
0
 def test_scatter_1d_line_style(self):
     self.scatterplot.line_style = 'dash'
     gc = PlotGraphicsContext(self.size)
     gc.render_component(self.scatterplot)
     actual = gc.bmp_array[:, :, :]
     self.assertFalse(alltrue(actual == 255))
Example #31
0
 def test_linescatter_1d_color(self):
     self.linescatterplot.color = 'orange'
     gc = PlotGraphicsContext(self.size)
     gc.render_component(self.linescatterplot)
     actual = gc.bmp_array[:, :, :]
     self.assertFalse(alltrue(actual == 255))
Example #32
0
def save_renderer_result(renderer, filename):
    renderer.padding = 0
    gc = PlotGraphicsContext(renderer.outer_bounds)
    with gc:
        gc.render_component(renderer)
        gc.save(filename)
Example #33
0
 def test_scatter_1d_circle(self):
     self.scatterplot.marker = 'circle'
     gc = PlotGraphicsContext(self.size)
     gc.render_component(self.scatterplot)
     actual = gc.bmp_array[:, :, :]
     self.assertFalse(alltrue(actual == 255))
Example #34
0
 def snapshot(self, params):
     gc = PlotGraphicsContext(self.conn_mat.outer_bounds, dpi=params.dpi)
     gc.render_component(self.conn_mat)
     gc.save(params.savefile)
Example #35
0
 def test_scatter_1d_rotated(self):
     self.scatterplot.text_rotate_angle = 45
     gc = PlotGraphicsContext(self.size)
     gc.render_component(self.scatterplot)
     actual = gc.bmp_array[:, :, :]
     self.assertFalse(alltrue(actual == 255))
Example #36
0
class TestColormappedScatterplot(unittest.TestCase):
    def setUp(self):
        self.index = ArrayDataSource(arange(10))
        self.value = ArrayDataSource(arange(10))
        self.color_data = ArrayDataSource(arange(10))
        self.size_data = arange(10)

        self.index_range = DataRange1D()
        self.index_range.add(self.index)
        self.index_mapper = LinearMapper(range=self.index_range)

        self.value_range = DataRange1D()
        self.value_range.add(self.value)
        self.value_mapper = LinearMapper(range=self.value_range)

        self.color_range = DataRange1D()
        self.color_range.add(self.color_data)
        self.color_mapper = jet(self.color_range)

        self.scatterplot = ColormappedScatterPlot(
            index=self.index,
            value=self.value,
            index_mapper=self.index_mapper,
            value_mapper=self.value_mapper,
            color_data=self.color_data,
            marker_size=self.size_data,
            color_mapper=self.color_mapper,
        )
        self.scatterplot.outer_bounds = [50, 50]
        self.gc = PlotGraphicsContext((50, 50))

    def test_scatter_render(self):
        """ Coverage test to check basic case works """
        self.gc.render_component(self.scatterplot)
        actual = self.gc.bmp_array[:, :, :]
        self.assertFalse(alltrue(actual == 255))

    def test_scatter_circle(self):
        """ Coverage test to check circles work """
        self.scatterplot.marker = 'circle'

        self.gc.render_component(self.scatterplot)
        actual = self.gc.bmp_array[:, :, :]
        self.assertFalse(alltrue(actual == 255))

    @skip
    def test_scatter_custom(self):
        """ Coverage test to check custom markers work...

        XXX ...which apparently they currently don't. See #232.
        """

        # build path
        path = CompiledPath()
        path.begin_path()
        path.move_to(-5, -5)
        path.line_to(-5, 5)
        path.line_to(5, 5)
        path.line_to(5, -5)
        path.line_to(-5, -5)

        self.scatterplot.marker = 'custom'
        self.scatterplot.custom_symbol = path

        self.gc.render_component(self.scatterplot)
        actual = self.gc.bmp_array[:, :, :]
        self.assertFalse(alltrue(actual == 255))

    def test_colormap_updated(self):
        """ If colormapper updated then we need to redraw """
        self.color_mapper.updated = True
        self.assertFalse(self.scatterplot.draw_valid)
Example #37
0
 def _save(self):
     win_size = self.plot.outer_bounds
     plot_gc = PlotGraphicsContext(win_size)  #, dpi=300)
     plot_gc.render_component(self.plot)
     plot_gc.save("image_test.png")
Example #38
0
 def test_scatter_1d_thicker(self):
     self.scatterplot.line_width = 2.0
     gc = PlotGraphicsContext(self.size)
     gc.render_component(self.scatterplot)
     actual = gc.bmp_array[:, :, :]
     self.assertFalse(alltrue(actual == 255))
Example #39
0
 def render_agg():
     gc2 = PlotGraphicsContext((800, 600), dpi=DPI)
     gc2.render_component(container)
     gc2.save("/tmp/kiva_agg.png")
Example #40
0
def save_renderer_result(renderer, filename):
    renderer.padding = 0
    gc = PlotGraphicsContext(renderer.outer_bounds)
    with gc:
        gc.render_component(renderer)
        gc.save(filename)
Example #41
0
from chaco.api import Plot, ArrayPlotData
from chaco.api import PlotGraphicsContext
from chaco.pdf_graphics_context import PdfPlotGraphicsContext
from chaco.tools.api import SaveTool

data = {"x": [1, 2, 3, 4, 5], "y": [1, 2, 3, 2, 1]}

plot = Plot(ArrayPlotData(**data))

plot.plot(("x", "y"), type="scatter", color="blue")

plot.padding = 20
plot.outer_bounds = (800, 600)
plot.do_layout(force=True)

gc = PlotGraphicsContext((800, 600), dpi=72)
gc.render_component(plot, container_coords=(10, 10))
gc.save("test1.PNG")

# save_plot_to_file(plot, "test1.PNG")
# save_plot_to_file(plot, "test2.PNG")

# gc = PlotGraphicsContext((800, 600), dpi=72)
# plot.draw(gc)
# gc.save("test1.JPG")

# gc = PdfPlotGraphicsContext(filename="test1.PDF",
#                             pagesize="letter",
#                             dest_box=(0.5, 0.5, -0.5, -0.5),
#                             dest_box_units="inch")
# gc.render_component(plot)