import numpy as np from .. import cbook, transforms from . import backend_agg, backend_gtk3 from .backend_gtk3 import Gtk, _BackendGTK3 import cairo # Presence of cairo is already checked by _backend_gtk. class FigureCanvasGTK3Agg(backend_agg.FigureCanvasAgg, backend_gtk3.FigureCanvasGTK3): def __init__(self, figure): super().__init__(figure=figure) self._bbox_queue = [] def on_draw_event(self, widget, ctx): scale = self.device_pixel_ratio allocation = self.get_allocation() w = allocation.width * scale h = allocation.height * scale if not len(self._bbox_queue): Gtk.render_background( self.get_style_context(), ctx, allocation.x, allocation.y, allocation.width, allocation.height) bbox_queue = [transforms.Bbox([[0, 0], [w, h]])] else: bbox_queue = self._bbox_queue for bbox in bbox_queue: x = int(bbox.x0) y = h - int(bbox.y1) width = int(bbox.x1) - int(bbox.x0) height = int(bbox.y1) - int(bbox.y0) buf = cbook._unmultiplied_rgba8888_to_premultiplied_argb32( np.asarray(self.copy_from_bbox(bbox))) image = cairo.ImageSurface.create_for_data( buf.ravel().data, cairo.FORMAT_ARGB32, width, height) image.set_device_scale(scale, scale) ctx.set_source_surface(image, x / scale, y / scale) ctx.paint() if len(self._bbox_queue): self._bbox_queue = [] return False def blit(self, bbox=None): # If bbox is None, blit the entire canvas to gtk. Otherwise # blit only the area defined by the bbox. if bbox is None: bbox = self.figure.bbox scale = self.device_pixel_ratio allocation = self.get_allocation() x = int(bbox.x0 / scale) y = allocation.height - int(bbox.y1 / scale) width = (int(bbox.x1) - int(bbox.x0)) // scale height = (int(bbox.y1) - int(bbox.y0)) // scale self._bbox_queue.append(bbox) self.queue_draw_area(x, y, width, height) @_BackendGTK3.export class _BackendGTK3Cairo(_BackendGTK3): FigureCanvas = FigureCanvasGTK3Agg