import numpy as np from matplotlib.backends.backend_agg import RendererAgg from matplotlib.tight_bbox import process_figure_for_rasterizing class MixedModeRenderer(object): """ A helper class to implement a renderer that switches between vector and raster drawing. An example may be a PDF writer, where most things are drawn with PDF vector commands, but some very complex objects, such as quad meshes, are rasterised and then output as images. """ def __init__(self, figure, width, height, dpi, vector_renderer, raster_renderer_class=None, bbox_inches_restore=None): """ Parameters ---------- figure : `matplotlib.figure.Figure` The figure instance. width : scalar The width of the canvas in logical units height : scalar The height of the canvas in logical units dpi : scalar The dpi of the canvas vector_renderer : `matplotlib.backend_bases.RendererBase` An instance of a subclass of `~matplotlib.backend_bases.RendererBase` that will be used for the vector drawing. raster_renderer_class : `matplotlib.backend_bases.RendererBase` The renderer class to use for the raster drawing. If not provided, this will use the Agg backend (which is currently the only viable option anyway.) """ if raster_renderer_class is None: raster_renderer_class = RendererAgg self._raster_renderer_class = raster_renderer_class self._width = width self._height = height self.dpi = dpi self._vector_renderer = vector_renderer self._raster_renderer = None self._rasterizing = 0 # A reference to the figure is needed as we need to change # the figure dpi before and after the rasterization. Although # this looks ugly, I couldn't find a better solution. -JJL self.figure = figure self._figdpi = figure.get_dpi() self._bbox_inches_restore = bbox_inches_restore self._renderer = vector_renderer def __getattr__(self, attr): # Proxy everything that hasn't been overridden to the base # renderer. Things that *are* overridden can call methods # on self._renderer directly, but must not cache/store # methods (because things like RendererAgg change their # methods on the fly in order to optimise proxying down # to the underlying C implementation). return getattr(self._renderer, attr) def start_rasterizing(self): """ Enter "raster" mode. All subsequent drawing commands (until stop_rasterizing is called) will be drawn with the raster backend. If start_rasterizing is called multiple times before stop_rasterizing is called, this method has no effect. """ # change the dpi of the figure temporarily. self.figure.set_dpi(self.dpi) if self._bbox_inches_restore: # when tight bbox is used r = process_figure_for_rasterizing(self.figure, self._bbox_inches_restore) self._bbox_inches_restore = r if self._rasterizing == 0: self._raster_renderer = self._raster_renderer_class( self._width*self.dpi, self._height*self.dpi, self.dpi) self._renderer = self._raster_renderer self._rasterizing += 1 def stop_rasterizing(self): """ Exit "raster" mode. All of the drawing that was done since the last start_rasterizing command will be copied to the vector backend by calling draw_image. If stop_rasterizing is called multiple times before start_rasterizing is called, this method has no effect. """ self._rasterizing -= 1 if self._rasterizing == 0: self._renderer = self._vector_renderer height = self._height * self.dpi buffer, bounds = self._raster_renderer.tostring_rgba_minimized() l, b, w, h = bounds if w > 0 and h > 0: image = np.frombuffer(buffer, dtype=np.uint8) image = image.reshape((h, w, 4)) image = image[::-1] gc = self._renderer.new_gc() # TODO: If the mixedmode resolution differs from the figure's # dpi, the image must be scaled (dpi->_figdpi). Not all # backends support this. self._renderer.draw_image( gc, l * self._figdpi / self.dpi, (height-b-h) * self._figdpi / self.dpi, image) self._raster_renderer = None self._rasterizing = False # restore the figure dpi. self.figure.set_dpi(self._figdpi) if self._bbox_inches_restore: # when tight bbox is used r = process_figure_for_rasterizing(self.figure, self._bbox_inches_restore, self._figdpi) self._bbox_inches_restore = r