def init_backing(self):
     self._backing = GLDrawingArea(self.glconfig)
     #must be overriden in subclasses to setup self._backing
     assert self._backing
     if self._alpha_enabled:
         assert GL_ALPHA_SUPPORTED, "BUG: cannot enable alpha if GL backing does not support it!"
         screen = self._backing.get_screen()
         rgba = screen.get_rgba_colormap()
         display = screen.get_display()
         if not display.supports_composite():
             log.warn("display %s does not support compositing, transparency disabled", display.get_name())
             self._alpha_enabled = False
         elif rgba:
             log("%s.__init__() using rgba colormap %s", self, rgba)
             self._backing.set_colormap(rgba)
         else:
             log.warn("failed to enable transparency on screen %s", screen)
             self._alpha_enabled = False
     self._backing.set_events(self._backing.get_events() | POINTER_MOTION_MASK | POINTER_MOTION_HINT_MASK)
 def init_backing(self):
     self._backing = GLDrawingArea(self.glconfig)
     #must be overriden in subclasses to setup self._backing
     assert self._backing
     if self._alpha_enabled:
         assert GL_ALPHA_SUPPORTED, "BUG: cannot enable alpha if GL backing does not support it!"
         screen = self._backing.get_screen()
         rgba = screen.get_rgba_colormap()
         display = screen.get_display()
         if not display.supports_composite():
             log.warn("display %s does not support compositing, transparency disabled", display.get_name())
             self._alpha_enabled = False
         elif rgba:
             log("%s.__init__() using rgba colormap %s", self, rgba)
             self._backing.set_colormap(rgba)
         else:
             log.warn("failed to enable transparency on screen %s", screen)
             self._alpha_enabled = False
     self._backing.set_events(self._backing.get_events() | POINTER_MOTION_MASK | POINTER_MOTION_HINT_MASK)
class GLWindowBackingBase(GTKWindowBacking):

    RGB_MODES = ["YUV420P", "YUV422P", "YUV444P", "GBRP", "BGRA", "BGRX", "RGBA", "RGBX", "RGB", "BGR"]
    HAS_ALPHA = GL_ALPHA_SUPPORTED

    def __init__(self, wid, window_alpha):
        self.wid = wid
        self.size = 0, 0
        self.render_size = 0, 0
        self.texture_pixel_format = None
        #this is the pixel format we are currently updating the fbo with
        #can be: "YUV420P", "YUV422P", "YUV444P", "GBRP" or None when not initialized yet.
        self.pixel_format = None
        self.textures = None # OpenGL texture IDs
        self.shaders = None
        self.texture_size = 0, 0
        self.gl_setup = False
        self.debug_setup = False
        self.border = None
        self.paint_screen = False
        self.paint_spinner = False
        self.draw_needs_refresh = False
        self.offscreen_fbo = None
        self.pending_fbo_paint = []

        GTKWindowBacking.__init__(self, wid, window_alpha)
        self.init_gl_config(window_alpha)
        self.init_backing()
        #this is how many bpp we keep in the texture
        #(pixels are always stored in 32bpp - but this makes it clearer when we do/don't support alpha)
        if self._alpha_enabled:
            self.texture_pixel_format = GL_RGBA
        else:
            self.texture_pixel_format = GL_RGB
        self._backing.show()

    def init_gl_config(self, window_alpha):
        #setup gl config:
        alpha = GL_ALPHA_SUPPORTED and window_alpha
        display_mode = get_DISPLAY_MODE(want_alpha=alpha)
        self.glconfig = Config_new_by_mode(display_mode)
        if self.glconfig is None and CAN_DOUBLE_BUFFER:
            log("trying to toggle double-buffering")
            display_mode &= ~MODE_DOUBLE
            self.glconfig = Config_new_by_mode(display_mode)
        if not self.glconfig:
            raise Exception("cannot setup an OpenGL context")

    def init_backing(self):
        self._backing = GLDrawingArea(self.glconfig)
        #must be overriden in subclasses to setup self._backing
        assert self._backing
        if self._alpha_enabled:
            assert GL_ALPHA_SUPPORTED, "BUG: cannot enable alpha if GL backing does not support it!"
            screen = self._backing.get_screen()
            rgba = screen.get_rgba_colormap()
            display = screen.get_display()
            if not display.supports_composite():
                log.warn("display %s does not support compositing, transparency disabled", display.get_name())
                self._alpha_enabled = False
            elif rgba:
                log("%s.__init__() using rgba colormap %s", self, rgba)
                self._backing.set_colormap(rgba)
            else:
                log.warn("failed to enable transparency on screen %s", screen)
                self._alpha_enabled = False
        self._backing.set_events(self._backing.get_events() | POINTER_MOTION_MASK | POINTER_MOTION_HINT_MASK)


    def __repr__(self):
        return "GLWindowBacking(%s, %s, %s)" % (self.wid, self.size, self.pixel_format)

    def init(self, ww, wh, bw, bh):
        #re-init gl projection with new dimensions
        #(see gl_init)
        if self.size!=(bw, bh):
            self.gl_setup = False
            self.size = bw, bh
        self.render_size = ww, wh

    def gl_marker(self, *msg):
        log(*msg)
        if not bool(glStringMarkerGREMEDY):
            return
        try:
            s = "%s" % msg
        except:
            s = str(msg)
        c_string = c_char_p(s)
        glStringMarkerGREMEDY(0, c_string)

    def gl_frame_terminator(self):
        log("%s.gl_frame_terminator()", self)
        # Mark the end of the frame
        # This makes the debug output more readable especially when doing single-buffered rendering
        if not bool(glFrameTerminatorGREMEDY):
            return
        glFrameTerminatorGREMEDY()

    def gl_init_debug(self):
        #ensure python knows which scope we're talking about:
        global glInitStringMarkerGREMEDY, glStringMarkerGREMEDY
        global glInitFrameTerminatorGREMEDY, glFrameTerminatorGREMEDY
        # Ask GL to send us all debug messages
        if GL_DEBUG_OUTPUT and gl_debug_callback and glInitDebugKHR() == True:
            glEnable(GL_DEBUG_OUTPUT)
            glEnable(GL_DEBUG_OUTPUT_SYNCHRONOUS)
            glDebugMessageCallback(gl_debug_callback, None)
            glDebugMessageControl(GL_DONT_CARE, GL_DONT_CARE, GL_DONT_CARE, 0, None, GL_TRUE)
        # Initialize string_marker GL debugging extension if available
        if glInitStringMarkerGREMEDY and glInitStringMarkerGREMEDY() == True:
            log.info("Extension GL_GREMEDY_string_marker available. Will output detailed information about each frame.")
        else:
            # General case - running without debugger, extension not available
            glStringMarkerGREMEDY = None
            #don't bother trying again for another window:
            glInitStringMarkerGREMEDY = None
        # Initialize frame_terminator GL debugging extension if available
        if glInitFrameTerminatorGREMEDY and glInitFrameTerminatorGREMEDY() == True:
            log.info("Enabling GL frame terminator debugging.")
        else:
            glFrameTerminatorGREMEDY = None
            #don't bother trying again for another window:
            glInitFrameTerminatorGREMEDY = None

    def gl_init_textures(self):
        assert self.offscreen_fbo is None
        assert self.shaders is None
        self.textures = glGenTextures(5)
        if hasattr(glGenFramebuffers, "pyConverters") and len(glGenFramebuffers.pyConverters)==1:
            #single argument syntax:
            self.offscreen_fbo = glGenFramebuffers(1)
        else:
            self.offscreen_fbo = c_uint(1)
            glGenFramebuffers(1, self.offscreen_fbo)
        log("%s.gl_init_textures() textures: %s, offscreen fbo: %s", self, self.textures, self.offscreen_fbo)

    def gl_init_shaders(self):
        assert self.shaders is None
        # Create and assign fragment programs
        self.shaders = [ 1, 2 ]
        glGenProgramsARB(2, self.shaders)
        for name, progid, progstr in (("YUV2RGB", YUV2RGB_SHADER, YUV2RGB_shader), ("RGBP2RGB", RGBP2RGB_SHADER, RGBP2RGB_shader)):
            glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[progid])
            glProgramStringARB(GL_FRAGMENT_PROGRAM_ARB, GL_PROGRAM_FORMAT_ASCII_ARB, len(progstr), progstr)
            err = glGetString(GL_PROGRAM_ERROR_STRING_ARB)
            if err:
                #FIXME: maybe we should do something else here?
                log.error("OpenGL shader %s failed:", name)
                log.error(" %s", err)
                raise Exception("OpenGL shader %s setup failure: %s" % (name, err))
            else:
                log("%s shader initialized", name)

    def gl_context(self):
        if not self._backing:
            log("Error: no OpenGL backing")
            return None
        if not is_realized(self._backing):
            log.error("Error: OpenGL backing is not realized")
            return None
        w, h = self.size
        if w<=0 or h<=0:
            log.error("Error: invalid OpenGL backing size: %ix%i", w, h)
            return None
        context = GLContextManager(self._backing)
        log("%s.gl_context() GL Pixmap backing size: %d x %d, context=%s", self, w, h, context)
        return context

    def gl_init(self):
        #must be called within a context!
        #performs init if needed
        if not self.debug_setup:
            self.debug_setup = True
            self.gl_init_debug()

        if not self.gl_setup:
            w, h = self.size
            self.gl_marker("Initializing GL context for window size %s, backing size %s", self.render_size, self.size)
            # Initialize viewport and matrices for 2D rendering
            glViewport(0, 0, w, h)
            glMatrixMode(GL_PROJECTION)
            glLoadIdentity()
            glOrtho(0.0, w, h, 0.0, -1.0, 1.0)
            glMatrixMode(GL_MODELVIEW)
            # Mesa docs claim: this hint can improve the speed of texturing
            #when perspective-correct texture coordinate interpolation isn't needed,
            #such as when using a glOrtho() projection:
            glHint(GL_PERSPECTIVE_CORRECTION_HINT, GL_FASTEST)
            # Could be more optimal to use vertex arrays:
            # glEnableClientState(GL_VERTEX_ARRAY)
            # glEnableClientState(GL_TEXTURE_COORD_ARRAY)

            # Clear background to transparent black
            glClearColor(0.0, 0.0, 0.0, 0.0)

            # we don't use the depth (2D only):
            glDisable(GL_DEPTH_TEST)
            glDisable(GL_SCISSOR_TEST)
            glDisable(GL_LIGHTING)
            glDisable(GL_DITHER)
            # only do alpha blending in present_fbo:
            glDisable(GL_BLEND)

            # Default state is good for YUV painting:
            #  - fragment program enabled
            #  - YUV fragment program bound
            #  - render to offscreen FBO
            if self.textures is None:
                self.gl_init_textures()

            # Define empty FBO texture and set rendering to FBO
            glEnable(GL_FRAGMENT_PROGRAM_ARB)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO])
            # nvidia needs this even though we don't use mipmaps (repeated through this file):
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_BASE_LEVEL, 0)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAX_LEVEL, 0)
            try:
                glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, self.texture_pixel_format, w, h, 0, self.texture_pixel_format, GL_UNSIGNED_BYTE, None)
            except Exception as e:
                log.error("Error: cannot initialize %ix%i %s texture", w, h, CONSTANT_TO_PIXEL_FORMAT.get(self.texture_pixel_format, self.texture_pixel_format))
                log.error(" %r", e)
                log("%s", self.gl_init, exc_info=True)
                raise Exception("cannot initialize %ix%i %s texture: %r" % (w, h, CONSTANT_TO_PIXEL_FORMAT.get(self.texture_pixel_format, self.texture_pixel_format), e))
            glBindFramebuffer(GL_FRAMEBUFFER, self.offscreen_fbo)
            glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO], 0)
            glClear(GL_COLOR_BUFFER_BIT)

            # Create and assign fragment programs
            if not self.shaders:
                self.gl_init_shaders()

            # Bind program 0 for YUV painting by default
            glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[YUV2RGB_SHADER])
            self.gl_setup = True

    def close(self):
        #This seems to cause problems, so we rely
        #on destroying the context to clear textures and fbos...
        #if self.offscreen_fbo is not None:
        #    glDeleteFramebuffers(1, [self.offscreen_fbo])
        #    self.offscreen_fbo = None
        #if self.textures is not None:
        #    glDeleteTextures(self.textures)
        #    self.textures = None
        if self._backing:
            self._backing.destroy()
            self._backing = None
        self.glconfig = None

    def set_rgb_paint_state(self):
        # Set GL state for RGB painting:
        #    no fragment program
        #    only tex unit #0 active
        self.gl_marker("Switching to RGB paint state")
        glDisable(GL_FRAGMENT_PROGRAM_ARB);
        for texture in (GL_TEXTURE1, GL_TEXTURE2):
            glActiveTexture(texture)
            glDisable(GL_TEXTURE_RECTANGLE_ARB)
        glActiveTexture(GL_TEXTURE0);
        glEnable(GL_TEXTURE_RECTANGLE_ARB)

    def unset_rgb_paint_state(self):
        # Reset state to our default
        self.gl_marker("Switching back to YUV paint state")
        glEnable(GL_FRAGMENT_PROGRAM_ARB)

    def set_rgbP_paint_state(self):
        # Set GL state for planar RGB:
        #   change fragment program
        glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[RGBP2RGB_SHADER])

    def unset_rgbP_paint_state(self):
        # Reset state to our default (YUV painting):
        #   change fragment program
        glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[YUV2RGB_SHADER])

    def present_fbo(self, x, y, w, h, flush=0):
        log("present_fbo: adding %s to pending paint list (size=%i), flush=%s, paint_screen=%s", (x, y, w, h), len(self.pending_fbo_paint), flush, self.paint_screen)
        self.pending_fbo_paint.append((x, y, w, h))
        if not self.paint_screen:
            return
        #flush>0 means we should wait for the final flush=0 paint
        if flush==0:
            self.do_present_fbo()

    def do_present_fbo(self):
        self.gl_marker("Presenting FBO on screen")
        # Change state to target screen instead of our FBO
        glBindFramebuffer(GL_FRAMEBUFFER, 0)

        if self._alpha_enabled:
            # transparent background:
            glClearColor(0.0, 0.0, 0.0, 0.0)
        else:
            # plain white no alpha:
            glClearColor(1.0, 1.0, 1.0, 1.0)

        # Draw FBO texture on screen
        self.set_rgb_paint_state()
        bw, bh = self.size
        ww, wh = self.render_size

        if self.glconfig.is_double_buffered() or bw!=ww or bh!=wh:
            #refresh the whole window:
            rectangles = ((0, 0, bw, bh), )
        else:
            #paint just the rectangles we have accumulated:
            rectangles = self.pending_fbo_paint
        self.pending_fbo_paint = []
        log("do_present_fbo: painting %s", rectangles)

        glEnable(GL_TEXTURE_RECTANGLE_ARB)
        glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO])
        if self._alpha_enabled:
            # support alpha channel if present:
            glEnablei(GL_BLEND, self.textures[TEX_FBO])
            glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA)
        glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE)

        #viewport for painting to window:
        glViewport(0, 0, ww, wh)
        if ww!=bw or wh!=bh:
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER, GL_LINEAR)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER, GL_LINEAR)

        glBegin(GL_QUADS)
        for x,y,w,h in rectangles:
            #note how we invert coordinates..
            tx1, ty1, tx2, ty2 = x, bh-y,  x+w, bh-y-h
            vx1, vy1, vx2, vy2 = x, y,     x+w, y+h
            glTexCoord2i(tx1, ty1)
            glVertex2i(vx1, vy1)        #top-left of window viewport
            glTexCoord2i(tx1, ty2)
            glVertex2i(vx1, vy2)        #bottom-left of window viewport
            glTexCoord2i(tx2, ty2)
            glVertex2i(vx2, vy2)        #bottom-right of window viewport
            glTexCoord2i(tx2, ty1)
            glVertex2i(vx2, vy1)        #top-right of window viewport
        glEnd()
        glDisable(GL_TEXTURE_RECTANGLE_ARB)

        if self.paint_spinner:
            #add spinner:
            dim = min(bw/3.0, bh/3.0)
            t = time.time()
            count = int(t*4.0)
            bx = bw//2
            by = bh//2
            for i in range(8):      #8 lines
                glBegin(GL_POLYGON)
                c = cv.trs[count%8][i]
                glColor4f(c, c, c, 1)
                mi1 = math.pi*i/4-math.pi/16
                mi2 = math.pi*i/4+math.pi/16
                glVertex2i(int(bx+math.sin(mi1)*10), int(by+math.cos(mi1)*10))
                glVertex2i(int(bx+math.sin(mi1)*dim), int(by+math.cos(mi1)*dim))
                glVertex2i(int(bx+math.sin(mi2)*dim), int(by+math.cos(mi2)*dim))
                glVertex2i(int(bx+math.sin(mi2)*10), int(by+math.cos(mi2)*10))
                glEnd()

        #if desired, paint window border
        if self.border and self.border.shown:
            #double size since half the line will be off-screen
            glLineWidth(self.border.size*2)
            glBegin(GL_LINE_LOOP)
            glColor4f(self.border.red, self.border.green, self.border.blue, self.border.alpha)
            for px,py in ((0, 0), (bw, 0), (bw, bh), (0, bh)):
                glVertex2i(px, py)
            glEnd()

        # Show the backbuffer on screen
        self.gl_show()
        self.gl_frame_terminator()

        #restore pbo viewport
        glViewport(0, 0, bw, bh)
        glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER, GL_NEAREST)
        glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER, GL_NEAREST)

        self.unset_rgb_paint_state()
        log("%s(%s, %s)", glBindFramebuffer, GL_FRAMEBUFFER, self.offscreen_fbo)
        glBindFramebuffer(GL_FRAMEBUFFER, self.offscreen_fbo)
        log("%s.do_present_fbo() done", self)

    def gl_show(self):
        start = time.time()
        if self.glconfig.is_double_buffered():
            # Show the backbuffer on screen
            log("%s.gl_show() swapping buffers now", self)
            gldrawable = self.get_gl_drawable()
            gldrawable.swap_buffers()
        else:
            #just ensure stuff gets painted:
            log("%s.gl_show() flushing", self)
            glFlush()
        end = time.time()
        fpslog("gl_show took %ims", (end-start)*1000)


    def paint_box(self, encoding, is_delta, x, y, w, h):
        #show region being painted if debug paint box is enabled only:
        if not OPENGL_PAINT_BOX>0:
            return
        glDisable(GL_TEXTURE_RECTANGLE_ARB)
        glDisable(GL_FRAGMENT_PROGRAM_ARB)
        glLineWidth(OPENGL_PAINT_BOX+0.5)
        if is_delta:
            glLineStipple(1, 0xaaaa)
            glEnable(GL_LINE_STIPPLE)
        glBegin(GL_LINE_LOOP)
        color = BOX_COLORS.get(encoding, _DEFAULT_BOX_COLOR)
        log("Painting colored box around %s screen update using: %s (delta=%s)", encoding, color, is_delta)
        glColor4f(*color)
        for px,py in ((x, y), (x+w, y), (x+w, y+h), (x, y+h)):
            glVertex2i(px, py)
        glEnd()
        if is_delta:
            glDisable(GL_LINE_STIPPLE)


    def pixels_for_upload(self, img_data):
        #prepare the pixel buffer for upload:
        t = type(img_data)
        if t==memoryview_type:
            if not zerocopy_upload:
                #not safe, make a copy :(
                return "copy:memoryview.tobytes", img_data.tobytes()
            return "zerocopy:memoryview", img_data
        elif t in (str, buffer_type) and zerocopy_upload:
            #we can zerocopy if we wrap it:
            return "zerocopy:buffer-as-memoryview", memoryview_type(img_data)
        elif t!=str:
            if hasattr(img_data, "raw"):
                return "zerocopy:mmap", img_data.raw
            #everything else.. copy to bytes (aka str):
            return "copy:str(%s)" % t, str(img_data)
        else:
            #str already
            return  "copy:str", img_data


    def _do_paint_rgb32(self, img_data, x, y, width, height, rowstride, options):
        return self._do_paint_rgb(32, img_data, x, y, width, height, rowstride, options)

    def _do_paint_rgb24(self, img_data, x, y, width, height, rowstride, options):
        return self._do_paint_rgb(24, img_data, x, y, width, height, rowstride, options)

    def _do_paint_rgb(self, bpp, img_data, x, y, width, height, rowstride, options):
        log("%s._do_paint_rgb(%s, %s bytes, x=%d, y=%d, width=%d, height=%d, rowstride=%d, options=%s)", self, bpp, len(img_data), x, y, width, height, rowstride, options)
        context = self.gl_context()
        if not context:
            log("%s._do_paint_rgb(..) no context!", self)
            return False

        #TODO: move this code up to the decode thread section
        upload, img_data = self.pixels_for_upload(img_data)

        with context:
            self.gl_init()
            self.set_rgb_paint_state()

            rgb_format = options.get(b"rgb_format")
            if not rgb_format:
                #Older servers may not tell us the pixel format, so we must infer it:
                if bpp==24:
                    rgb_format = "RGB"
                else:
                    assert bpp==32
                    rgb_format = "RGBA"
            else:
                rgb_format = rgb_format.decode()
            #convert it to a GL constant:
            pformat = PIXEL_FORMAT_TO_CONSTANT.get(rgb_format)
            assert pformat is not None, "could not find pixel format for %s (bpp=%s)" % (rgb_format, bpp)

            bytes_per_pixel = len(rgb_format)       #ie: BGRX -> 4
            # Compute alignment and row length
            row_length = 0
            alignment = 1
            for a in [2, 4, 8]:
                # Check if we are a-aligned - ! (var & 0x1) means 2-aligned or better, 0x3 - 4-aligned and so on
                if (rowstride & a-1) == 0:
                    alignment = a
            # If number of extra bytes is greater than the alignment value,
            # then we also have to set row_length
            # Otherwise it remains at 0 (= width implicitely)
            if (rowstride - width * bytes_per_pixel) >= alignment:
                row_length = width + (rowstride - width * bytes_per_pixel) // bytes_per_pixel

            self.gl_marker("%s %sbpp update at (%d,%d) size %dx%d (%s bytes), stride=%d, row length %d, alignment %d, using GL %s format=%s",
                           rgb_format, bpp, x, y, width, height, len(img_data), rowstride, row_length, alignment, upload, CONSTANT_TO_PIXEL_FORMAT.get(pformat))

            # Upload data as temporary RGB texture
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_RGB])
            glPixelStorei(GL_UNPACK_ROW_LENGTH, row_length)
            glPixelStorei(GL_UNPACK_ALIGNMENT, alignment)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER, GL_NEAREST)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER, GL_NEAREST)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_BASE_LEVEL, 0)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAX_LEVEL, 0)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_BORDER)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_BORDER)
            glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, self.texture_pixel_format, width, height, 0, pformat, GL_UNSIGNED_BYTE, img_data)

            # Draw textured RGB quad at the right coordinates
            glBegin(GL_QUADS)
            glTexCoord2i(0, 0)
            glVertex2i(x, y)
            glTexCoord2i(0, height)
            glVertex2i(x, y+height)
            glTexCoord2i(width, height)
            glVertex2i(x+width, y+height)
            glTexCoord2i(width, 0)
            glVertex2i(x+width, y)
            glEnd()

            self.paint_box(options.get("encoding"), options.get("delta", -1)>=0, x, y, width, height)

            # Present update to screen
            self.present_fbo(x, y, width, height, options.get("flush", 0))
            # present_fbo has reset state already
        return True

    def do_video_paint(self, img, x, y, enc_width, enc_height, width, height, options, callbacks):
        #copy so the data will be usable (usually a str)
        img.clone_pixel_data()
        self.idle_add(self.gl_paint_planar, options.get("flush", 0), options.get("encoding"), img, x, y, enc_width, enc_height, width, height, callbacks)

    def gl_paint_planar(self, flush, encoding, img, x, y, enc_width, enc_height, width, height, callbacks):
        #this function runs in the UI thread, no video_decoder lock held
        log("gl_paint_planar%s", (flush, encoding, img, x, y, enc_width, enc_height, width, height, callbacks))
        try:
            pixel_format = img.get_pixel_format()
            assert pixel_format in ("YUV420P", "YUV422P", "YUV444P", "GBRP"), "sorry the GL backing does not handle pixel format '%s' yet!" % (pixel_format)

            context = self.gl_context()
            if not context:
                log("%s._do_paint_rgb(..) no context!", self)
                fire_paint_callbacks(callbacks, False, "failed to get a gl context")
                return
            with context:
                self.gl_init()
                self.update_planar_textures(x, y, enc_width, enc_height, img, pixel_format, scaling=(enc_width!=width or enc_height!=height))
                img.free()

                # Update FBO texture
                x_scale, y_scale = 1, 1
                if width!=enc_width or height!=enc_height:
                    x_scale = float(width)/enc_width
                    y_scale = float(height)/enc_height
                self.render_planar_update(x, y, enc_width, enc_height, x_scale, y_scale)
                self.paint_box(encoding, False, x, y, width, height)
                # Present it on screen
                self.present_fbo(x, y, width, height, flush)
            fire_paint_callbacks(callbacks, True)
            return
        except GLError as e:
            message = "gl_paint_planar error: %r" % e
        except Exception as e:
            message = "gl_paint_planar error: %s" % e
        log.error("%s.gl_paint_planar(..) error: %s", self, e, exc_info=True)
        fire_paint_callbacks(callbacks, False, message)

    def update_planar_textures(self, x, y, width, height, img, pixel_format, scaling=False):
        assert self.textures is not None, "no OpenGL textures!"
        log("%s.update_planar_textures%s", self, (x, y, width, height, img, pixel_format))

        divs = get_subsampling_divs(pixel_format)
        if self.pixel_format is None or self.pixel_format!=pixel_format or self.texture_size!=(width, height):
            self.pixel_format = pixel_format
            self.texture_size = (width, height)
            self.gl_marker("Creating new planar textures, pixel format %s", pixel_format)
            # Create textures of the same size as the window's
            glEnable(GL_TEXTURE_RECTANGLE_ARB)

            for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1), (GL_TEXTURE2, 2)):
                (div_w, div_h) = divs[index]
                glActiveTexture(texture)
                glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[index])
                glEnable(GL_TEXTURE_RECTANGLE_ARB)
                mag_filter = GL_NEAREST
                if scaling or (div_w > 1 or div_h > 1):
                    mag_filter = GL_LINEAR
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER, mag_filter)
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER, GL_NEAREST)
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_BASE_LEVEL, 0)
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAX_LEVEL, 0)
                glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, GL_LUMINANCE, width//div_w, height//div_h, 0, GL_LUMINANCE, GL_UNSIGNED_BYTE, None)

        self.gl_marker("updating planar textures: %sx%s %s", width, height, pixel_format)
        rowstrides = img.get_rowstride()
        img_data = img.get_pixels()
        assert len(rowstrides)==3 and len(img_data)==3
        for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1), (GL_TEXTURE2, 2)):
            (div_w, div_h) = divs[index]
            glActiveTexture(texture)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[index])
            glPixelStorei(GL_UNPACK_ROW_LENGTH, rowstrides[index])
            upload, pixel_data = self.pixels_for_upload(img_data[index])
            log("texture %s: div=%s, rowstride=%s, %sx%s, data=%s bytes, upload=%s", index, divs[index], rowstrides[index], width//div_w, height//div_h, len(pixel_data), upload)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_BASE_LEVEL, 0)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAX_LEVEL, 0)
            glTexSubImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, 0, 0, width//div_w, height//div_h, GL_LUMINANCE, GL_UNSIGNED_BYTE, pixel_data)

    def render_planar_update(self, rx, ry, rw, rh, x_scale=1, y_scale=1):
        log("%s.render_planar_update%s pixel_format=%s", self, (rx, ry, rw, rh, x_scale, y_scale), self.pixel_format)
        if self.pixel_format not in ("YUV420P", "YUV422P", "YUV444P", "GBRP"):
            #not ready to render yet
            return
        if self.pixel_format == "GBRP":
            self.set_rgbP_paint_state()
        self.gl_marker("painting planar update, format %s", self.pixel_format)
        divs = get_subsampling_divs(self.pixel_format)
        glEnable(GL_FRAGMENT_PROGRAM_ARB)
        for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1), (GL_TEXTURE2, 2)):
            glActiveTexture(texture)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[index])

        tw, th = self.texture_size
        log("%s.render_planar_update(..) texture_size=%s, size=%s", self, self.texture_size, self.size)
        glBegin(GL_QUADS)
        for x,y in ((0, 0), (0, rh), (rw, rh), (rw, 0)):
            ax = min(tw, x)
            ay = min(th, y)
            for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1), (GL_TEXTURE2, 2)):
                (div_w, div_h) = divs[index]
                glMultiTexCoord2i(texture, ax//div_w, ay//div_h)
            glVertex2i(int(rx+ax*x_scale), int(ry+ay*y_scale))
        glEnd()
        if self.pixel_format == "GBRP":
            self.unset_rgbP_paint_state()
class GLWindowBackingBase(GTKWindowBacking):

    RGB_MODES = ["YUV420P", "YUV422P", "YUV444P", "GBRP", "BGRA", "BGRX", "RGBA", "RGBX", "RGB", "BGR"]
    HAS_ALPHA = GL_ALPHA_SUPPORTED

    def __init__(self, wid, window_alpha):
        self.wid = wid
        self.size = 0, 0
        self.render_size = 0, 0
        self.texture_pixel_format = None
        #this is the pixel format we are currently updating the fbo with
        #can be: "YUV420P", "YUV422P", "YUV444P", "GBRP" or None when not initialized yet.
        self.pixel_format = None
        self.textures = None # OpenGL texture IDs
        self.shaders = None
        self.texture_size = 0, 0
        self.gl_setup = False
        self.debug_setup = False
        self.border = None
        self.paint_screen = False
        self.paint_spinner = False
        self.offscreen_fbo = None
        self.tmp_fbo = None
        self.pending_fbo_paint = []
        self.last_flush = time.time()
        self.default_paint_box_line_width = OPENGL_PAINT_BOX or 1
        self.paint_box_line_width = OPENGL_PAINT_BOX

        GTKWindowBacking.__init__(self, wid, window_alpha)
        self.init_gl_config(window_alpha)
        self.init_backing()
        #this is how many bpp we keep in the texture
        #(pixels are always stored in 32bpp - but this makes it clearer when we do/don't support alpha)
        if self._alpha_enabled:
            self.texture_pixel_format = GL_RGBA
        else:
            self.texture_pixel_format = GL_RGB
        #see #1469
        #self.draw_needs_refresh = False
        self._backing.show()

    def init_gl_config(self, window_alpha):
        #setup gl config:
        alpha = GL_ALPHA_SUPPORTED and window_alpha
        display_mode = get_DISPLAY_MODE(want_alpha=alpha)
        self.glconfig = Config_new_by_mode(display_mode)
        if self.glconfig is None and CAN_DOUBLE_BUFFER:
            log("trying to toggle double-buffering")
            display_mode &= ~MODE_DOUBLE
            self.glconfig = Config_new_by_mode(display_mode)
        if not self.glconfig:
            raise Exception("cannot setup an OpenGL context")

    def init_backing(self):
        self._backing = GLDrawingArea(self.glconfig)
        #must be overriden in subclasses to setup self._backing
        assert self._backing
        if self._alpha_enabled:
            assert GL_ALPHA_SUPPORTED, "BUG: cannot enable alpha if GL backing does not support it!"
            screen = self._backing.get_screen()
            rgba = screen.get_rgba_colormap()
            display = screen.get_display()
            if not display.supports_composite():
                log.warn("display %s does not support compositing, transparency disabled", display.get_name())
                self._alpha_enabled = False
            elif rgba:
                log("%s.__init__() using rgba colormap %s", self, rgba)
                self._backing.set_colormap(rgba)
            else:
                log.warn("failed to enable transparency on screen %s", screen)
                self._alpha_enabled = False
        self._backing.set_events(self._backing.get_events() | POINTER_MOTION_MASK | POINTER_MOTION_HINT_MASK)

    def get_encoding_properties(self):
        props = GTKWindowBacking.get_encoding_properties(self)
        if SCROLL_ENCODING:
            props["encoding.scrolling"] = True
        return props


    def __repr__(self):
        return "GLWindowBacking(%s, %s, %s)" % (self.wid, self.size, self.pixel_format)

    def init(self, ww, wh, bw, bh):
        #re-init gl projection with new dimensions
        #(see gl_init)
        if self.size!=(bw, bh):
            self.gl_setup = False
            self.size = bw, bh
        self.render_size = ww, wh

    def gl_marker(self, *msg):
        log(*msg)
        if not bool(glStringMarkerGREMEDY):
            return
        try:
            s = "%s" % msg
        except:
            s = str(msg)
        c_string = c_char_p(s)
        glStringMarkerGREMEDY(0, c_string)

    def gl_frame_terminator(self):
        log("%s.gl_frame_terminator()", self)
        # Mark the end of the frame
        # This makes the debug output more readable especially when doing single-buffered rendering
        if not bool(glFrameTerminatorGREMEDY):
            return
        glFrameTerminatorGREMEDY()

    def gl_init_debug(self):
        #ensure python knows which scope we're talking about:
        global glInitStringMarkerGREMEDY, glStringMarkerGREMEDY
        global glInitFrameTerminatorGREMEDY, glFrameTerminatorGREMEDY
        # Ask GL to send us all debug messages
        if GL_DEBUG_OUTPUT and gl_debug_callback and glInitDebugKHR() == True:
            glEnable(GL_DEBUG_OUTPUT)
            glEnable(GL_DEBUG_OUTPUT_SYNCHRONOUS)
            glDebugMessageCallback(gl_debug_callback, None)
            glDebugMessageControl(GL_DONT_CARE, GL_DONT_CARE, GL_DONT_CARE, 0, None, GL_TRUE)
        # Initialize string_marker GL debugging extension if available
        if glInitStringMarkerGREMEDY and glInitStringMarkerGREMEDY() == True:
            log.info("Extension GL_GREMEDY_string_marker available. Will output detailed information about each frame.")
        else:
            # General case - running without debugger, extension not available
            glStringMarkerGREMEDY = None
            #don't bother trying again for another window:
            glInitStringMarkerGREMEDY = None
        # Initialize frame_terminator GL debugging extension if available
        if glInitFrameTerminatorGREMEDY and glInitFrameTerminatorGREMEDY() == True:
            log.info("Enabling GL frame terminator debugging.")
        else:
            glFrameTerminatorGREMEDY = None
            #don't bother trying again for another window:
            glInitFrameTerminatorGREMEDY = None

    def gl_init_textures(self):
        assert self.offscreen_fbo is None
        assert self.shaders is None
        self.textures = glGenTextures(6)
        self.offscreen_fbo = self._gen_fbo()
        self.tmp_fbo = self._gen_fbo()
        log("%s.gl_init_textures() textures: %s, offscreen fbo: %s, tmp fbo: %s", self, self.textures, self.offscreen_fbo, self.tmp_fbo)

    def _gen_fbo(self):
        if hasattr(glGenFramebuffers, "pyConverters") and len(glGenFramebuffers.pyConverters)==1:
            #single argument syntax:
            return glGenFramebuffers(1)
        fbo = c_uint(1)
        glGenFramebuffers(1, fbo)
        return fbo

    def gl_init_shaders(self):
        assert self.shaders is None
        # Create and assign fragment programs
        self.shaders = [ 1, 2 ]
        glGenProgramsARB(2, self.shaders)
        for name, progid, progstr in (("YUV2RGB", YUV2RGB_SHADER, YUV2RGB_shader), ("RGBP2RGB", RGBP2RGB_SHADER, RGBP2RGB_shader)):
            glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[progid])
            glProgramStringARB(GL_FRAGMENT_PROGRAM_ARB, GL_PROGRAM_FORMAT_ASCII_ARB, len(progstr), progstr)
            err = glGetString(GL_PROGRAM_ERROR_STRING_ARB)
            if err:
                log.error("OpenGL shader %s failed:", name)
                log.error(" %s", err)
                raise Exception("OpenGL shader %s setup failure: %s" % (name, err))
            else:
                log("%s shader initialized", name)

    def gl_context(self):
        b = self._backing
        if not b:
            log("Error: no OpenGL backing")
            return None
        if not is_realized(b):
            log.error("Error: OpenGL backing is not realized")
            return None
        w, h = self.size
        if w<=0 or h<=0:
            log.error("Error: invalid OpenGL backing size: %ix%i", w, h)
            return None
        try:
            context = GLContextManager(b)
        except Exception as e:
            log.error("Error: %s", e)
            return None
        log("%s.gl_context() GL Pixmap backing size: %d x %d, context=%s", self, w, h, context)
        return context

    def gl_init(self):
        #must be called within a context!
        #performs init if needed
        if not self.debug_setup:
            self.debug_setup = True
            self.gl_init_debug()

        if not self.gl_setup:
            w, h = self.size
            self.gl_marker("Initializing GL context for window size %s, backing size %s", self.render_size, self.size)
            # Initialize viewport and matrices for 2D rendering
            x, _, _, y = self.offsets
            glViewport(x, y, w, h)
            glMatrixMode(GL_PROJECTION)
            glLoadIdentity()
            glOrtho(0.0, w, h, 0.0, -1.0, 1.0)
            glMatrixMode(GL_MODELVIEW)
            # Mesa docs claim: this hint can improve the speed of texturing
            #when perspective-correct texture coordinate interpolation isn't needed,
            #such as when using a glOrtho() projection:
            glHint(GL_PERSPECTIVE_CORRECTION_HINT, GL_FASTEST)
            # Could be more optimal to use vertex arrays:
            # glEnableClientState(GL_VERTEX_ARRAY)
            # glEnableClientState(GL_TEXTURE_COORD_ARRAY)

            # Clear background to transparent black
            glClearColor(0.0, 0.0, 0.0, 0.0)

            # we don't use the depth (2D only):
            glDisable(GL_DEPTH_TEST)
            glDisable(GL_SCISSOR_TEST)
            glDisable(GL_LIGHTING)
            glDisable(GL_DITHER)
            # only do alpha blending in present_fbo:
            glDisable(GL_BLEND)

            # Default state is good for YUV painting:
            #  - fragment program enabled
            #  - YUV fragment program bound
            #  - render to offscreen FBO
            if self.textures is None:
                self.gl_init_textures()

            def clear_fbo():
                try:
                    glClear(GL_COLOR_BUFFER_BIT)
                except Exception as e:
                    log("glClear error", exc_info=True)
                    log.warn("Warning: failed to clear FBO")
                    log.warn(" %r", e)
                    if getattr(e, "err", None)==1286:
                        raise Exception("OpenGL error '%r' likely caused by buggy drivers" % e)

            # Define empty tmp FBO
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_TMP_FBO])
            set_texture_level()
            glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, self.texture_pixel_format, w, h, 0, self.texture_pixel_format, GL_UNSIGNED_BYTE, None)
            glBindFramebuffer(GL_FRAMEBUFFER, self.tmp_fbo)
            glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_TMP_FBO], 0)
            clear_fbo()

            # Define empty FBO texture and set rendering to FBO
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO])
            # nvidia needs this even though we don't use mipmaps (repeated through this file):
            set_texture_level()
            glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, self.texture_pixel_format, w, h, 0, self.texture_pixel_format, GL_UNSIGNED_BYTE, None)
            glBindFramebuffer(GL_FRAMEBUFFER, self.offscreen_fbo)
            glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO], 0)
            clear_fbo()

            # Create and assign fragment programs
            if not self.shaders:
                self.gl_init_shaders()

            # Bind program 0 for YUV painting by default
            glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[YUV2RGB_SHADER])
            glEnable(GL_FRAGMENT_PROGRAM_ARB)
            self.gl_setup = True

    def close(self):
        #This seems to cause problems, so we rely
        #on destroying the context to clear textures and fbos...
        #if self.offscreen_fbo is not None:
        #    glDeleteFramebuffers(1, [self.offscreen_fbo])
        #    self.offscreen_fbo = None
        #if self.textures is not None:
        #    glDeleteTextures(self.textures)
        #    self.textures = None
        b = self._backing
        if b:
            self._backing = None
            b.destroy()
        self.glconfig = None

    def paint_scroll(self, x, y, w, h, scroll_data, options, callbacks):
        flush = options.intget("flush", 0)
        self.idle_add(self.do_scroll_paints, scroll_data, flush, callbacks)

    def do_scroll_paints(self, scrolls, flush=0, callbacks=[]):
        log("do_scroll_paints%s", (scrolls, flush))
        context = self.gl_context()
        if not context:
            log.warn("Warning: cannot paint scroll, no OpenGL context!")
            return
        def fail(msg):
            log.error("Error: %s", msg)
            fire_paint_callbacks(callbacks, False, msg)
        with context:
            bw, bh = self.size
            self.set_rgb_paint_state()
            #paste from offscreen to tmp with delta offset:
            glBindFramebuffer(GL_READ_FRAMEBUFFER, self.offscreen_fbo)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO])
            glFramebufferTexture2D(GL_READ_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO], 0)
            glReadBuffer(GL_COLOR_ATTACHMENT0)

            glBindFramebuffer(GL_DRAW_FRAMEBUFFER, self.tmp_fbo)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_TMP_FBO])
            glFramebufferTexture2D(GL_DRAW_FRAMEBUFFER, GL_COLOR_ATTACHMENT1, GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_TMP_FBO], 0)
            glDrawBuffer(GL_COLOR_ATTACHMENT1)

            #copy current fbo:
            glBlitFramebuffer(0, 0, bw, bh,
                              0, 0, bw, bh,
                              GL_COLOR_BUFFER_BIT, GL_NEAREST)

            for x,y,w,h,xdelta,ydelta in scrolls:
                if abs(xdelta)>=bw:
                    fail("invalid xdelta value: %i" % xdelta)
                    continue
                if abs(ydelta)>=bh:
                    fail("invalid ydelta value: %i" % ydelta)
                    continue
                if ydelta==0 and xdelta==0:
                    fail("scroll has no delta!")
                    continue
                if w<=0 or h<=0:
                    fail("invalid scroll area size: %ix%i" % (w, h))
                    continue
                #these should be errors,
                #but desktop-scaling can cause a mismatch between the backing size
                #and the real window size server-side.. so we clamp the dimensions instead
                if x+w>bw:
                    w = bw-x
                if y+h>bh:
                    h = bh-y
                if x+w+xdelta>bw:
                    w = bw-x-xdelta
                    if w<=0:
                        continue        #nothing left!
                if y+h+ydelta>bh:
                    h = bh-y-ydelta
                    if h<=0:
                        continue        #nothing left!
                if x+xdelta<0:
                    fail("horizontal scroll by %i: rectangle %s overflows the backing buffer size %s" % (xdelta, (x, y, w, h), self.size))
                    continue
                if y+ydelta<0:
                    fail("vertical scroll by %i: rectangle %s overflows the backing buffer size %s" % (ydelta, (x, y, w, h), self.size))
                    continue
                #opengl buffer is upside down, so we must invert Y coordinates: bh-(..)
                glBlitFramebuffer(x, bh-y, x+w, bh-(y+h),
                                  x+xdelta, bh-(y+ydelta), x+w+xdelta, bh-(y+h+ydelta),
                                  GL_COLOR_BUFFER_BIT, GL_NEAREST)
                glFlush()

            #now swap references to tmp and offscreen so tmp becomes the new offscreen:
            tmp = self.offscreen_fbo
            self.offscreen_fbo = self.tmp_fbo
            self.tmp_fbo = tmp
            tmp = self.textures[TEX_FBO]
            self.textures[TEX_FBO] = self.textures[TEX_TMP_FBO]
            self.textures[TEX_TMP_FBO] = tmp

            #restore normal paint state:
            glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO], 0)
            glBindFramebuffer(GL_READ_FRAMEBUFFER, self.offscreen_fbo)
            glBindFramebuffer(GL_DRAW_FRAMEBUFFER, self.offscreen_fbo)
            glBindFramebuffer(GL_FRAMEBUFFER, self.offscreen_fbo)

            self.unset_rgb_paint_state()
            self.paint_box("scroll", True, x+xdelta, y+ydelta, x+w+xdelta, y+h+ydelta)
            self.present_fbo(0, 0, bw, bh, flush)
            fire_paint_callbacks(callbacks, True)

    def set_rgb_paint_state(self):
        # Set GL state for RGB painting:
        #    no fragment program
        #    only tex unit #0 active
        self.gl_marker("Switching to RGB paint state")
        glDisable(GL_FRAGMENT_PROGRAM_ARB);
        for texture in (GL_TEXTURE1, GL_TEXTURE2):
            glActiveTexture(texture)
            glDisable(GL_TEXTURE_RECTANGLE_ARB)
        glActiveTexture(GL_TEXTURE0);
        glEnable(GL_TEXTURE_RECTANGLE_ARB)

    def unset_rgb_paint_state(self):
        # Reset state to our default
        self.gl_marker("Switching back to YUV paint state")
        glEnable(GL_FRAGMENT_PROGRAM_ARB)

    def set_rgbP_paint_state(self):
        # Set GL state for planar RGB:
        #   change fragment program
        glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[RGBP2RGB_SHADER])

    def unset_rgbP_paint_state(self):
        # Reset state to our default (YUV painting):
        #   change fragment program
        glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[YUV2RGB_SHADER])

    def present_fbo(self, x, y, w, h, flush=0):
        log("present_fbo: adding %s to pending paint list (size=%i), flush=%s, paint_screen=%s", (x, y, w, h), len(self.pending_fbo_paint), flush, self.paint_screen)
        self.pending_fbo_paint.append((x, y, w, h))
        if not self.paint_screen:
            return
        #flush>0 means we should wait for the final flush=0 paint
        if flush==0 or not PAINT_FLUSH:
            with paint_context_manager:
                self.do_present_fbo()

    def do_present_fbo(self):
        bw, bh = self.size
        ww, wh = self.render_size

        self.gl_marker("Presenting FBO on screen")
        # Change state to target screen instead of our FBO
        glBindFramebuffer(GL_FRAMEBUFFER, 0)
        glBindFramebuffer(GL_DRAW_FRAMEBUFFER, 0)

        left, top, right, bottom = self.offsets

        #viewport for clearing the whole window:
        glViewport(0, 0, left+ww+right, top+wh+bottom)
        if self._alpha_enabled:
            # transparent background:
            glClearColor(0.0, 0.0, 0.0, 0.0)
        else:
            # black, no alpha:
            glClearColor(0.0, 0.0, 0.0, 1.0)
        if left or top or right or bottom:
            try:
                glClear(GL_COLOR_BUFFER_BIT)
            except:
                log("ignoring glClear(GL_COLOR_BUFFER_BIT) error, buggy driver?", exc_info=True)

        #viewport for painting to window:
        glViewport(left, top, ww, wh)

        # Draw FBO texture on screen
        self.set_rgb_paint_state()

        rect_count = len(self.pending_fbo_paint)
        if self.glconfig.is_double_buffered() or bw!=ww or bh!=wh:
            #refresh the whole window:
            rectangles = ((0, 0, bw, bh), )
        else:
            #paint just the rectangles we have accumulated:
            rectangles = self.pending_fbo_paint
        self.pending_fbo_paint = []
        log("do_present_fbo: painting %s", rectangles)

        glEnable(GL_TEXTURE_RECTANGLE_ARB)
        glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO])
        if self._alpha_enabled:
            # support alpha channel if present:
            glEnablei(GL_BLEND, self.textures[TEX_FBO])
            glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA)
        glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE)

        if SAVE_BUFFERS:
            glBindFramebuffer(GL_READ_FRAMEBUFFER, self.offscreen_fbo)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO])
            glFramebufferTexture2D(GL_READ_FRAMEBUFFER, GL_COLOR_ATTACHMENT0, GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO], 0)
            glReadBuffer(GL_COLOR_ATTACHMENT0)
            glViewport(0, 0, bw, bh)
            from OpenGL.GL import glGetTexImage
            size = bw*bh*4
            import numpy
            data = numpy.empty(size)
            img_data = glGetTexImage(GL_TEXTURE_RECTANGLE_ARB, 0, GL_BGRA, GL_UNSIGNED_BYTE, data)
            from PIL import Image, ImageOps
            img = Image.frombuffer("RGBA", (bw, bh), img_data, "raw", "BGRA", bw*4)
            img = ImageOps.flip(img)
            kwargs = {}
            if SAVE_BUFFERS=="jpeg":
                kwargs = {
                          "quality"     : 0,
                          "optimize"    : False,
                          }
            t = time.time()
            tstr = time.strftime("%H-%M-%S", time.localtime(t))
            filename = "./W%i-FBO-%s.%03i.%s" % (self.wid, tstr, (t*1000)%1000, SAVE_BUFFERS)
            log("do_present_fbo: saving %4ix%-4i pixels, %7i bytes to %s", bw, bh, size, filename)
            img.save(filename, SAVE_BUFFERS, **kwargs)
            glBindFramebuffer(GL_READ_FRAMEBUFFER, 0)

        if ww!=bw or wh!=bh:
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER, GL_LINEAR)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER, GL_LINEAR)

        glBegin(GL_QUADS)
        for x,y,w,h in rectangles:
            #note how we invert coordinates..
            tx1, ty1, tx2, ty2 = x, bh-y,  x+w, bh-y-h
            vx1, vy1, vx2, vy2 = x, y,     x+w, y+h
            glTexCoord2i(tx1, ty1)
            glVertex2i(vx1, vy1)        #top-left of window viewport
            glTexCoord2i(tx1, ty2)
            glVertex2i(vx1, vy2)        #bottom-left of window viewport
            glTexCoord2i(tx2, ty2)
            glVertex2i(vx2, vy2)        #bottom-right of window viewport
            glTexCoord2i(tx2, ty1)
            glVertex2i(vx2, vy1)        #top-right of window viewport
        glEnd()
        glDisable(GL_TEXTURE_RECTANGLE_ARB)

        if self.paint_spinner:
            #add spinner:
            dim = min(bw/3.0, bh/3.0)
            t = time.time()
            count = int(t*4.0)
            bx = bw//2
            by = bh//2
            for i in range(8):      #8 lines
                glBegin(GL_POLYGON)
                c = cv.trs[count%8][i]
                glColor4f(c, c, c, 1)
                mi1 = math.pi*i/4-math.pi/16
                mi2 = math.pi*i/4+math.pi/16
                glVertex2i(int(bx+math.sin(mi1)*10), int(by+math.cos(mi1)*10))
                glVertex2i(int(bx+math.sin(mi1)*dim), int(by+math.cos(mi1)*dim))
                glVertex2i(int(bx+math.sin(mi2)*dim), int(by+math.cos(mi2)*dim))
                glVertex2i(int(bx+math.sin(mi2)*10), int(by+math.cos(mi2)*10))
                glEnd()

        #if desired, paint window border
        if self.border and self.border.shown:
            #double size since half the line will be off-screen
            glLineWidth(self.border.size*2)
            glBegin(GL_LINE_LOOP)
            glColor4f(self.border.red, self.border.green, self.border.blue, self.border.alpha)
            for px,py in ((0, 0), (bw, 0), (bw, bh), (0, bh)):
                glVertex2i(px, py)
            glEnd()

        if self.pointer_overlay:
            x, y, _, _, size, start_time = self.pointer_overlay
            elapsed = time.time()-start_time
            if elapsed<6:
                alpha = max(0, (5.0-elapsed)/5.0)
                glLineWidth(1)
                glBegin(GL_LINES)
                glColor4f(0, 0, 0, alpha)
                glVertex2i(x-size, y)
                glVertex2i(x+size, y)
                glVertex2i(x, y-size)
                glVertex2i(x, y+size)
                glEnd()
            else:
                self.pointer_overlay = None

        # Show the backbuffer on screen
        self.gl_show(rect_count)
        self.gl_frame_terminator()

        #restore pbo viewport
        glViewport(0, 0, bw, bh)
        glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER, GL_NEAREST)
        glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER, GL_NEAREST)

        self.unset_rgb_paint_state()
        log("%s(%s, %s)", glBindFramebuffer, GL_FRAMEBUFFER, self.offscreen_fbo)
        glBindFramebuffer(GL_FRAMEBUFFER, self.offscreen_fbo)
        log("%s.do_present_fbo() done", self)

    def gl_show(self, rect_count):
        start = time.time()
        if self.glconfig.is_double_buffered():
            # Show the backbuffer on screen
            log("%s.gl_show() swapping buffers now", self)
            gldrawable = self.get_gl_drawable()
            gldrawable.swap_buffers()
        else:
            #just ensure stuff gets painted:
            log("%s.gl_show() flushing", self)
            glFlush()
        end = time.time()
        flush_elapsed = end-self.last_flush
        self.last_flush = end
        fpslog("gl_show after %3ims took %2ims, %2i updates", flush_elapsed*1000, (end-start)*1000, rect_count)


    def paint_box(self, encoding, is_delta, x, y, w, h):
        #show region being painted if debug paint box is enabled only:
        if self.paint_box_line_width<=0:
            return
        glDisable(GL_TEXTURE_RECTANGLE_ARB)
        glDisable(GL_FRAGMENT_PROGRAM_ARB)
        glLineWidth(self.paint_box_line_width+0.5+int(encoding=="scroll")*2)
        if is_delta:
            glLineStipple(1, 0xaaaa)
            glEnable(GL_LINE_STIPPLE)
        glBegin(GL_LINE_LOOP)
        color = BOX_COLORS.get(encoding, _DEFAULT_BOX_COLOR)
        log("Painting colored box around %s screen update using: %s (delta=%s)", encoding, color, is_delta)
        glColor4f(*color)
        for px,py in ((x, y), (x+w, y), (x+w, y+h), (x, y+h)):
            glVertex2i(px, py)
        glEnd()
        if is_delta:
            glDisable(GL_LINE_STIPPLE)


    def pixels_for_upload(self, img_data):
        #prepare the pixel buffer for upload:
        t = type(img_data)
        if t==memoryview_type:
            if not zerocopy_upload:
                #not safe, make a copy :(
                return "copy:memoryview.tobytes", img_data.tobytes()
            return "zerocopy:memoryview", img_data
        elif t in (str, buffer_type) and zerocopy_upload:
            #we can zerocopy if we wrap it:
            return "zerocopy:buffer-as-memoryview", memoryview_type(img_data)
        elif t!=str:
            if hasattr(img_data, "raw"):
                return "zerocopy:mmap", img_data.raw
            #everything else.. copy to bytes (aka str):
            return "copy:str(%s)" % t, str(img_data)
        else:
            #str already
            return  "copy:str", img_data

    def set_alignment(self, width, rowstride, pixel_format):
        bytes_per_pixel = len(pixel_format)       #ie: BGRX -> 4
        # Compute alignment and row length
        row_length = 0
        alignment = 1
        for a in [2, 4, 8]:
            # Check if we are a-aligned - ! (var & 0x1) means 2-aligned or better, 0x3 - 4-aligned and so on
            if (rowstride & a-1) == 0:
                alignment = a
        # If number of extra bytes is greater than the alignment value,
        # then we also have to set row_length
        # Otherwise it remains at 0 (= width implicitely)
        if (rowstride - width * bytes_per_pixel) >= alignment:
            row_length = width + (rowstride - width * bytes_per_pixel) // bytes_per_pixel
        glPixelStorei(GL_UNPACK_ROW_LENGTH, row_length)
        glPixelStorei(GL_UNPACK_ALIGNMENT, alignment)
        self.gl_marker("set_alignment%s GL_UNPACK_ROW_LENGTH=%i, GL_UNPACK_ALIGNMENT=%i", (width, rowstride, pixel_format), row_length, alignment)


    def do_paint_rgb(self, rgb_format, img_data, x, y, width, height, rowstride, options, callbacks):
        log("%s.do_paint_rgb(%s, %s bytes, x=%d, y=%d, width=%d, height=%d, rowstride=%d, options=%s)", self, rgb_format, len(img_data), x, y, width, height, rowstride, options)
        context = self.gl_context()
        if not context:
            log("%s._do_paint_rgb(..) no context!", self)
            fire_paint_callbacks(callbacks, False, "no opengl context")
            return
        if not options.get("paint", True):
            fire_paint_callbacks(callbacks)
            return

        try:
            upload, img_data = self.pixels_for_upload(img_data)

            with context:
                self.gl_init()
                self.set_rgb_paint_state()

                #convert it to a GL constant:
                pformat = PIXEL_FORMAT_TO_CONSTANT.get(rgb_format.decode())
                assert pformat is not None, "could not find pixel format for %s" % rgb_format

                self.gl_marker("%s update at (%d,%d) size %dx%d (%s bytes), using GL %s format=%s",
                               rgb_format, x, y, width, height, len(img_data), upload, CONSTANT_TO_PIXEL_FORMAT.get(pformat))

                # Upload data as temporary RGB texture
                glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_RGB])
                self.set_alignment(width, rowstride, rgb_format)
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER, GL_NEAREST)
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER, GL_NEAREST)
                set_texture_level()
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_BORDER)
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_BORDER)
                glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, self.texture_pixel_format, width, height, 0, pformat, GL_UNSIGNED_BYTE, img_data)

                # Draw textured RGB quad at the right coordinates
                glBegin(GL_QUADS)
                glTexCoord2i(0, 0)
                glVertex2i(x, y)
                glTexCoord2i(0, height)
                glVertex2i(x, y+height)
                glTexCoord2i(width, height)
                glVertex2i(x+width, y+height)
                glTexCoord2i(width, 0)
                glVertex2i(x+width, y)
                glEnd()

                self.paint_box(options.get("encoding"), options.get("delta", -1)>=0, x, y, width, height)

                # Present update to screen
                self.present_fbo(x, y, width, height, options.get("flush", 0))
                # present_fbo has reset state already
            fire_paint_callbacks(callbacks)
        except Exception as e:
            log("Error in %s paint of %i bytes, options=%s)", rgb_format, len(img_data), options)
            fire_paint_callbacks(callbacks, False, "OpenGL %s paint error: %s" % (rgb_format, e))

    def do_video_paint(self, img, x, y, enc_width, enc_height, width, height, options, callbacks):
        #copy so the data will be usable (usually a str)
        img.clone_pixel_data()
        self.idle_add(self.gl_paint_planar, options.get("flush", 0), options.get("encoding"), img, x, y, enc_width, enc_height, width, height, callbacks)

    def gl_paint_planar(self, flush, encoding, img, x, y, enc_width, enc_height, width, height, callbacks):
        #this function runs in the UI thread, no video_decoder lock held
        log("gl_paint_planar%s", (flush, encoding, img, x, y, enc_width, enc_height, width, height, callbacks))
        try:
            pixel_format = img.get_pixel_format()
            assert pixel_format in ("YUV420P", "YUV422P", "YUV444P", "GBRP"), "sorry the GL backing does not handle pixel format '%s' yet!" % (pixel_format)

            context = self.gl_context()
            if not context:
                log("%s._do_paint_rgb(..) no context!", self)
                fire_paint_callbacks(callbacks, False, "failed to get a gl context")
                return
            with context:
                self.gl_init()
                self.update_planar_textures(x, y, enc_width, enc_height, img, pixel_format, scaling=(enc_width!=width or enc_height!=height))

                # Update FBO texture
                x_scale, y_scale = 1, 1
                if width!=enc_width or height!=enc_height:
                    x_scale = float(width)/enc_width
                    y_scale = float(height)/enc_height
                self.render_planar_update(x, y, enc_width, enc_height, x_scale, y_scale)
                self.paint_box(encoding, False, x, y, width, height)
                # Present it on screen
                self.present_fbo(x, y, width, height, flush)
            img.free()
            fire_paint_callbacks(callbacks, True)
            return
        except GLError as e:
            message = "OpenGL %s paint error: %r" % (encoding, e)
        except Exception as e:
            message = "OpenGL %s paint error: %s" % (encoding, e)
        log.error("%s.gl_paint_planar(..) error: %s", self, e, exc_info=True)
        fire_paint_callbacks(callbacks, False, message)

    def update_planar_textures(self, x, y, width, height, img, pixel_format, scaling=False):
        assert self.textures is not None, "no OpenGL textures!"
        log("%s.update_planar_textures%s", self, (x, y, width, height, img, pixel_format))

        divs = get_subsampling_divs(pixel_format)
        if self.pixel_format is None or self.pixel_format!=pixel_format or self.texture_size!=(width, height):
            self.pixel_format = pixel_format
            self.texture_size = (width, height)
            self.gl_marker("Creating new planar textures, pixel format %s", pixel_format)
            # Create textures of the same size as the window's
            glEnable(GL_TEXTURE_RECTANGLE_ARB)

            for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1), (GL_TEXTURE2, 2)):
                (div_w, div_h) = divs[index]
                glActiveTexture(texture)
                glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[index])
                glEnable(GL_TEXTURE_RECTANGLE_ARB)
                mag_filter = GL_NEAREST
                if scaling or (div_w > 1 or div_h > 1):
                    mag_filter = GL_LINEAR
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER, mag_filter)
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER, GL_NEAREST)
                set_texture_level()
                glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, GL_LUMINANCE, width//div_w, height//div_h, 0, GL_LUMINANCE, GL_UNSIGNED_BYTE, None)

        self.gl_marker("updating planar textures: %sx%s %s", width, height, pixel_format)
        rowstrides = img.get_rowstride()
        img_data = img.get_pixels()
        assert len(rowstrides)==3 and len(img_data)==3
        for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1), (GL_TEXTURE2, 2)):
            (div_w, div_h) = divs[index]
            glActiveTexture(texture)

            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[index])
            self.set_alignment(width//div_w, rowstrides[index], "YUV"[index])
            upload, pixel_data = self.pixels_for_upload(img_data[index])
            log("texture %s: div=%s, rowstride=%s, %sx%s, data=%s bytes, upload=%s", index, divs[index], rowstrides[index], width//div_w, height//div_h, len(pixel_data), upload)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_BASE_LEVEL, 0)
            try:
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAX_LEVEL, 0)
            except:
                pass
            glTexSubImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, 0, 0, width//div_w, height//div_h, GL_LUMINANCE, GL_UNSIGNED_BYTE, pixel_data)

    def render_planar_update(self, rx, ry, rw, rh, x_scale=1, y_scale=1):
        log("%s.render_planar_update%s pixel_format=%s", self, (rx, ry, rw, rh, x_scale, y_scale), self.pixel_format)
        if self.pixel_format not in ("YUV420P", "YUV422P", "YUV444P", "GBRP"):
            #not ready to render yet
            return
        if self.pixel_format == "GBRP":
            self.set_rgbP_paint_state()
        self.gl_marker("painting planar update, format %s", self.pixel_format)
        divs = get_subsampling_divs(self.pixel_format)
        glEnable(GL_FRAGMENT_PROGRAM_ARB)
        for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1), (GL_TEXTURE2, 2)):
            glActiveTexture(texture)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[index])

        tw, th = self.texture_size
        log("%s.render_planar_update(..) texture_size=%s, size=%s", self, self.texture_size, self.size)
        glBegin(GL_QUADS)
        for x,y in ((0, 0), (0, rh), (rw, rh), (rw, 0)):
            ax = min(tw, x)
            ay = min(th, y)
            for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1), (GL_TEXTURE2, 2)):
                (div_w, div_h) = divs[index]
                glMultiTexCoord2i(texture, ax//div_w, ay//div_h)
            glVertex2i(int(rx+ax*x_scale), int(ry+ay*y_scale))
        glEnd()
        if self.pixel_format == "GBRP":
            self.unset_rgbP_paint_state()
Example #5
0
def check_support(force_enable=False, check_colormap=False):
    #platform checks:
    from xpra.platform.gui import gl_check
    warning = gl_check()
    if warning:
        if force_enable:
            log.warn("Warning: trying to continue despite '%s'" % warning)
        else:
            gl_check_error(warning)

    props = {}
    #this will import gtk.gtkgl / gdkgl or gi.repository.GtkGLExt / GdkGLExt:
    try:
        from xpra.client.gl.gtk_compat import get_info, gdkgl, Config_new_by_mode, MODE_DOUBLE, GLDrawingArea
    except RuntimeError as e:
        gl_check_error(str(e))
        return {}
    props.update(get_info())
    display_mode = get_DISPLAY_MODE()
    glconfig = Config_new_by_mode(display_mode)
    if glconfig is None and CAN_DOUBLE_BUFFER:
        log("trying to toggle double-buffering")
        display_mode &= ~MODE_DOUBLE
        glconfig = Config_new_by_mode(display_mode)
    if not glconfig:
        gl_check_error("cannot setup an OpenGL context")
    props["display_mode"] = get_MODE_names(display_mode)
    props["glconfig"] = glconfig
    props["has_alpha"] = glconfig.has_alpha()
    props["rgba"] = glconfig.is_rgba()
    log("GL props=%s", props)
    from xpra.gtk_common.gtk_util import import_gtk, gdk_window_process_all_updates
    gtk = import_gtk()
    assert gdkgl.query_extension()
    glext, w = None, None
    try:
        #ugly code for win32 and others (virtualbox broken GL drivers)
        #for getting a GL drawable and context: we must use a window...
        #(which we do not even show on screen)
        #
        #here is the old simpler alternative which does not work on some platforms:
        # glext = gtk.gdkgl.ext(gdk.Pixmap(gdk.get_default_root_window(), 1, 1))
        # gldrawable = glext.set_gl_capability(glconfig)
        # glcontext = gtk.gdkgl.Context(gldrawable, direct=True)
        w = gtk.Window()
        w.set_decorated(False)
        vbox = gtk.VBox()
        glarea = GLDrawingArea(glconfig)
        glarea.set_size_request(32, 32)
        vbox.add(glarea)
        vbox.show_all()
        w.add(vbox)
        #we don't need to actually show the window!
        #w.show_all()
        glarea.realize()
        gdk_window_process_all_updates()

        gl_props = check_GL_support(glarea, force_enable)

        if check_colormap:
            s = w.get_screen()
            for x in ("rgb_visual", "rgba_visual", "system_visual"):
                try:
                    visual = getattr(s, "get_%s" % x)()
                    gl_props[x] = visual_to_str(visual)
                except:
                    pass
            #i = 0
            #for v in s.list_visuals():
            #    gl_props["visual[%s]" % i] = visual_to_str(v)
            #    i += 1
    finally:
        if w:
            w.destroy()
        del glext, glconfig
    props.update(gl_props)
    return props
Example #6
0
class GLWindowBackingBase(GTKWindowBacking):

    RGB_MODES = [
        "YUV420P", "YUV422P", "YUV444P", "GBRP", "BGRA", "BGRX", "RGBA",
        "RGBX", "RGB", "BGR"
    ]
    HAS_ALPHA = GL_ALPHA_SUPPORTED

    def __init__(self, wid, w, h, window_alpha):
        self.wid = wid
        self.size = 0, 0
        self.pixel_format = None
        self.texture_pixel_format = None
        #this is the pixel format we are currently updating the fbo with
        #can be: "YUV420P", "YUV422P", "YUV444P", "GBRP" or None when not initialized yet.
        self.pixel_format = None
        self.textures = None  # OpenGL texture IDs
        self.shaders = None
        self.size = 0, 0
        self.texture_size = 0, 0
        self.gl_setup = False
        self.debug_setup = False
        self.border = None
        self.paint_screen = False
        self.paint_spinner = False
        self.draw_needs_refresh = False
        self.offscreen_fbo = None

        GTKWindowBacking.__init__(self, wid, window_alpha)
        self.init_gl_config(window_alpha)
        self.init_backing()
        #this is how many bpp we keep in the texture
        #(pixels are always stored in 32bpp - but this makes it clearer when we do/don't support alpha)
        if self._alpha_enabled:
            self.texture_pixel_format = GL_RGBA
        else:
            self.texture_pixel_format = GL_RGB
        self._backing.show()

    def init_gl_config(self, window_alpha):
        #setup gl config:
        alpha = GL_ALPHA_SUPPORTED and window_alpha
        display_mode = get_DISPLAY_MODE(want_alpha=alpha)
        self.glconfig = Config_new_by_mode(display_mode)
        if self.glconfig is None and CAN_DOUBLE_BUFFER:
            log("trying to toggle double-buffering")
            display_mode &= ~MODE_DOUBLE
            self.glconfig = Config_new_by_mode(display_mode)
        if not self.glconfig:
            raise Exception("cannot setup an OpenGL context")

    def init_backing(self):
        self._backing = GLDrawingArea(self.glconfig)
        #must be overriden in subclasses to setup self._backing
        assert self._backing
        if self._alpha_enabled:
            assert GL_ALPHA_SUPPORTED, "BUG: cannot enable alpha if GL backing does not support it!"
            screen = self._backing.get_screen()
            rgba = screen.get_rgba_colormap()
            display = screen.get_display()
            if not display.supports_composite():
                log.warn(
                    "display %s does not support compositing, transparency disabled",
                    display.get_name())
                self._alpha_enabled = False
            elif rgba:
                log("%s.__init__() using rgba colormap %s", self, rgba)
                self._backing.set_colormap(rgba)
            else:
                log.warn("failed to enable transparency on screen %s", screen)
                self._alpha_enabled = False
        self._backing.set_events(self._backing.get_events()
                                 | POINTER_MOTION_MASK
                                 | POINTER_MOTION_HINT_MASK)

    def __repr__(self):
        return "GLWindowBacking(%s, %s, %s)" % (self.wid, self.size,
                                                self.pixel_format)

    def init(self, w, h):
        #re-init gl projection with new dimensions
        #(see gl_init)
        if self.size != (w, h):
            self.gl_setup = False
            self.size = w, h

    def gl_marker(self, *msg):
        log(*msg)
        if not bool(glStringMarkerGREMEDY):
            return
        try:
            s = "%s" % msg
        except:
            s = str(msg)
        c_string = c_char_p(s)
        glStringMarkerGREMEDY(0, c_string)

    def gl_frame_terminator(self):
        log("%s.gl_frame_terminator()", self)
        # Mark the end of the frame
        # This makes the debug output more readable especially when doing single-buffered rendering
        if not bool(glFrameTerminatorGREMEDY):
            return
        glFrameTerminatorGREMEDY()

    def gl_init_debug(self):
        #ensure python knows which scope we're talking about:
        global glInitStringMarkerGREMEDY, glStringMarkerGREMEDY
        global glInitFrameTerminatorGREMEDY, glFrameTerminatorGREMEDY
        # Ask GL to send us all debug messages
        if GL_DEBUG_OUTPUT and gl_debug_callback and glInitDebugKHR() == True:
            glEnable(GL_DEBUG_OUTPUT)
            glEnable(GL_DEBUG_OUTPUT_SYNCHRONOUS)
            glDebugMessageCallback(gl_debug_callback, None)
            glDebugMessageControl(GL_DONT_CARE, GL_DONT_CARE, GL_DONT_CARE, 0,
                                  None, GL_TRUE)
        # Initialize string_marker GL debugging extension if available
        if glInitStringMarkerGREMEDY and glInitStringMarkerGREMEDY() == True:
            log.info(
                "Extension GL_GREMEDY_string_marker available. Will output detailed information about each frame."
            )
        else:
            # General case - running without debugger, extension not available
            glStringMarkerGREMEDY = None
            #don't bother trying again for another window:
            glInitStringMarkerGREMEDY = None
        # Initialize frame_terminator GL debugging extension if available
        if glInitFrameTerminatorGREMEDY and glInitFrameTerminatorGREMEDY(
        ) == True:
            log.info("Enabling GL frame terminator debugging.")
        else:
            glFrameTerminatorGREMEDY = None
            #don't bother trying again for another window:
            glInitFrameTerminatorGREMEDY = None

    def gl_init_textures(self):
        assert self.offscreen_fbo is None
        assert self.shaders is None
        self.textures = glGenTextures(5)
        if hasattr(glGenFramebuffers, "pyConverters") and len(
                glGenFramebuffers.pyConverters) == 1:
            #single argument syntax:
            self.offscreen_fbo = glGenFramebuffers(1)
        else:
            self.offscreen_fbo = c_uint(1)
            glGenFramebuffers(1, self.offscreen_fbo)
        log("%s.gl_init_textures() textures: %s, offscreen fbo: %s", self,
            self.textures, self.offscreen_fbo)

    def gl_init_shaders(self):
        assert self.shaders is None
        # Create and assign fragment programs
        self.shaders = [1, 2]
        glGenProgramsARB(2, self.shaders)
        for progid, progstr in ((YUV2RGB_SHADER, YUV2RGB_shader),
                                (RGBP2RGB_SHADER, RGBP2RGB_shader)):
            glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[progid])
            glProgramStringARB(GL_FRAGMENT_PROGRAM_ARB,
                               GL_PROGRAM_FORMAT_ASCII_ARB, len(progstr),
                               progstr)
            err = glGetString(GL_PROGRAM_ERROR_STRING_ARB)
            if err:
                #FIXME: maybe we should do something else here?
                log.error(err)

    def gl_context(self):
        if not self._backing:
            return None
        w, h = self.size
        context = GLContextManager(self._backing)
        log("%s.gl_context() GL Pixmap backing size: %d x %d, context=%s",
            self, w, h, context)
        return context

    def gl_init(self):
        #must be called within a context!
        #performs init if needed
        if not self.debug_setup:
            self.debug_setup = True
            self.gl_init_debug()

        if not self.gl_setup:
            w, h = self.size
            self.gl_marker("Initializing GL context for window size %d x %d",
                           w, h)
            # Initialize viewport and matrices for 2D rendering
            glViewport(0, 0, w, h)
            glMatrixMode(GL_PROJECTION)
            glLoadIdentity()
            glOrtho(0.0, w, h, 0.0, -1.0, 1.0)
            glMatrixMode(GL_MODELVIEW)
            # Mesa docs claim: this hint can improve the speed of texturing
            #when perspective-correct texture coordinate interpolation isn't needed,
            #such as when using a glOrtho() projection:
            glHint(GL_PERSPECTIVE_CORRECTION_HINT, GL_FASTEST)
            # Could be more optimal to use vertex arrays:
            # glEnableClientState(GL_VERTEX_ARRAY)
            # glEnableClientState(GL_TEXTURE_COORD_ARRAY)

            # Clear background to transparent black
            glClearColor(0.0, 0.0, 0.0, 0.0)

            # we don't use the depth (2D only):
            glDisable(GL_DEPTH_TEST)
            # only do alpha blending in present_fbo:
            glDisable(GL_BLEND)

            # Default state is good for YUV painting:
            #  - fragment program enabled
            #  - YUV fragment program bound
            #  - render to offscreen FBO
            if self.textures is None:
                self.gl_init_textures()

            # Define empty FBO texture and set rendering to FBO
            glEnable(GL_FRAGMENT_PROGRAM_ARB)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO])
            # nvidia needs this even though we don't use mipmaps (repeated through this file):
            glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAX_LEVEL, 0)
            glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0,
                         self.texture_pixel_format, w, h, 0,
                         self.texture_pixel_format, GL_UNSIGNED_BYTE, None)
            glBindFramebuffer(GL_FRAMEBUFFER, self.offscreen_fbo)
            glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0,
                                   GL_TEXTURE_RECTANGLE_ARB,
                                   self.textures[TEX_FBO], 0)
            glClear(GL_COLOR_BUFFER_BIT)

            # Create and assign fragment programs
            if not self.shaders:
                self.gl_init_shaders()

            # Bind program 0 for YUV painting by default
            glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB,
                             self.shaders[YUV2RGB_SHADER])
            self.gl_setup = True

    def close(self):
        #This seems to cause problems, so we rely
        #on destroying the context to clear textures and fbos...
        #if self.offscreen_fbo is not None:
        #    glDeleteFramebuffers(1, [self.offscreen_fbo])
        #    self.offscreen_fbo = None
        #if self.textures is not None:
        #    glDeleteTextures(self.textures)
        #    self.textures = None
        if self._backing:
            self._backing.destroy()
            self._backing = None
        self.glconfig = None

    def set_rgb_paint_state(self):
        # Set GL state for RGB painting:
        #    no fragment program
        #    only tex unit #0 active
        self.gl_marker("Switching to RGB paint state")
        glDisable(GL_FRAGMENT_PROGRAM_ARB)
        for texture in (GL_TEXTURE1, GL_TEXTURE2):
            glActiveTexture(texture)
            glDisable(GL_TEXTURE_RECTANGLE_ARB)
        glActiveTexture(GL_TEXTURE0)
        glEnable(GL_TEXTURE_RECTANGLE_ARB)

    def unset_rgb_paint_state(self):
        # Reset state to our default
        self.gl_marker("Switching back to YUV paint state")
        glEnable(GL_FRAGMENT_PROGRAM_ARB)

    def set_rgbP_paint_state(self):
        # Set GL state for planar RGB:
        #   change fragment program
        glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB,
                         self.shaders[RGBP2RGB_SHADER])

    def unset_rgbP_paint_state(self):
        # Reset state to our default (YUV painting):
        #   change fragment program
        glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, self.shaders[YUV2RGB_SHADER])

    def present_fbo(self, encoding, is_delta, x, y, w, h):
        if not self.paint_screen:
            return
        self.gl_marker("Presenting FBO on screen")
        # Change state to target screen instead of our FBO
        glBindFramebuffer(GL_FRAMEBUFFER, 0)

        if self._alpha_enabled:
            # transparent background:
            glClearColor(0.0, 0.0, 0.0, 0.0)
        else:
            # plain white no alpha:
            glClearColor(1.0, 1.0, 1.0, 1.0)

        # Draw FBO texture on screen
        self.set_rgb_paint_state()
        ww, wh = self.size
        if self.glconfig.is_double_buffered():
            #refresh the whole window:
            x, y = 0, 0
            w, h = ww, wh

        glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_FBO])
        if self._alpha_enabled:
            # support alpha channel if present:
            glEnablei(GL_BLEND, self.textures[TEX_FBO])
            glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA)
        glTexEnvi(GL_TEXTURE_ENV, GL_TEXTURE_ENV_MODE, GL_REPLACE)
        glBegin(GL_QUADS)
        #note how we invert coordinates..
        glTexCoord2i(x, wh - y)
        glVertex2i(x, y)  #top-left of window viewport
        glTexCoord2i(x, wh - y - h)
        glVertex2i(x, y + h)  #bottom-left of window viewport
        glTexCoord2i(x + w, wh - y - h)
        glVertex2i(x + w, y + h)  #bottom-right of window viewport
        glTexCoord2i(x + w, wh - y)
        glVertex2i(x + w, y)  #top-right of window viewport
        glEnd()
        glDisable(GL_TEXTURE_RECTANGLE_ARB)

        #show region being painted:
        if OPENGL_PAINT_BOX:
            glLineWidth(1)
            if is_delta:
                glLineStipple(1, 0xf0f0)
                glEnable(GL_LINE_STIPPLE)
            glBegin(GL_LINE_LOOP)
            color = BOX_COLORS.get(encoding, _DEFAULT_BOX_COLOR)
            glColor4f(*color)
            for px, py in ((x, y), (x + w, y), (x + w, y + h), (x, y + h)):
                glVertex2i(px, py)
            glEnd()
            if is_delta:
                glDisable(GL_LINE_STIPPLE)

        if self.paint_spinner:
            #add spinner:
            dim = min(ww / 3.0, wh / 3.0)
            t = time.time()
            count = int(t * 4.0)
            bx = ww // 2
            by = wh // 2
            for i in range(8):  #8 lines
                glBegin(GL_POLYGON)
                c = cv.trs[count % 8][i]
                glColor4f(c, c, c, 1)
                mi1 = math.pi * i / 4 - math.pi / 16
                mi2 = math.pi * i / 4 + math.pi / 16
                glVertex2i(int(bx + math.sin(mi1) * 10),
                           int(by + math.cos(mi1) * 10))
                glVertex2i(int(bx + math.sin(mi1) * dim),
                           int(by + math.cos(mi1) * dim))
                glVertex2i(int(bx + math.sin(mi2) * dim),
                           int(by + math.cos(mi2) * dim))
                glVertex2i(int(bx + math.sin(mi2) * 10),
                           int(by + math.cos(mi2) * 10))
                glEnd()

        #if desired, paint window border
        if self.border and self.border.shown:
            #double size since half the line will be off-screen
            glLineWidth(self.border.size * 2)
            glBegin(GL_LINE_LOOP)
            glColor4f(self.border.red, self.border.green, self.border.blue,
                      self.border.alpha)
            for px, py in ((0, 0), (ww, 0), (ww, wh), (0, wh)):
                glVertex2i(px, py)
            glEnd()

        # Show the backbuffer on screen
        self.gl_show()
        self.gl_frame_terminator()

        self.unset_rgb_paint_state()
        log("%s(%s, %s)", glBindFramebuffer, GL_FRAMEBUFFER,
            self.offscreen_fbo)
        glBindFramebuffer(GL_FRAMEBUFFER, self.offscreen_fbo)
        log("%s.present_fbo() done", self)

    def gl_show(self):
        if self.glconfig.is_double_buffered():
            # Show the backbuffer on screen
            log("%s.gl_show() swapping buffers now", self)
            gldrawable = self.get_gl_drawable()
            gldrawable.swap_buffers()
        else:
            #just ensure stuff gets painted:
            log("%s.gl_show() flushing", self)
            glFlush()

    def _do_paint_rgb32(self, img_data, x, y, width, height, rowstride,
                        options):
        return self._do_paint_rgb(32, img_data, x, y, width, height, rowstride,
                                  options)

    def _do_paint_rgb24(self, img_data, x, y, width, height, rowstride,
                        options):
        return self._do_paint_rgb(24, img_data, x, y, width, height, rowstride,
                                  options)

    def _do_paint_rgb(self, bpp, img_data, x, y, width, height, rowstride,
                      options):
        log(
            "%s._do_paint_rgb(%s, %s bytes, x=%d, y=%d, width=%d, height=%d, rowstride=%d, options=%s)",
            self, bpp, len(img_data), x, y, width, height, rowstride, options)
        context = self.gl_context()
        if not context:
            log("%s._do_paint_rgb(..) no context!", self)
            return False

        #TODO: move this code up to the decode thread section
        #prepare the pixel buffer for upload:
        t = type(img_data)
        if t == memoryview_type:
            if not zerocopy_upload:
                #not safe, make a copy :(
                img_data = memoryview_to_bytes(img_data)
                upload = "copy:memoryview_to_bytes"
            else:
                upload = "zerocopy:memoryview"
        elif t in (str, buffer_type) and zerocopy_upload:
            #we can zerocopy if we wrap it:
            img_data = memoryview_type(img_data)
            upload = "zerocopy:memoryview", t
        elif t != str:
            if hasattr(img_data, "raw"):
                img_data = img_data.raw
                upload = "zerocopy:mmap"
            else:
                #everything else.. copy to bytes (aka str):
                img_data = str(img_data)
                upload = "copy:str", t
        else:
            upload = "copy:str"

        with context:
            self.gl_init()
            self.set_rgb_paint_state()

            rgb_format = options.get(b"rgb_format")
            if not rgb_format:
                #Older servers may not tell us the pixel format, so we must infer it:
                if bpp == 24:
                    rgb_format = "RGB"
                else:
                    assert bpp == 32
                    rgb_format = "RGBA"
            else:
                rgb_format = rgb_format.decode()
            #convert it to a GL constant:
            pformat = PIXEL_FORMAT_TO_CONSTANT.get(rgb_format)
            assert pformat is not None, "could not find pixel format for %s (bpp=%s)" % (
                rgb_format, bpp)

            bytes_per_pixel = len(rgb_format)  #ie: BGRX -> 4
            # Compute alignment and row length
            row_length = 0
            alignment = 1
            for a in [2, 4, 8]:
                # Check if we are a-aligned - ! (var & 0x1) means 2-aligned or better, 0x3 - 4-aligned and so on
                if (rowstride & a - 1) == 0:
                    alignment = a
            # If number of extra bytes is greater than the alignment value,
            # then we also have to set row_length
            # Otherwise it remains at 0 (= width implicitely)
            if (rowstride - width * bytes_per_pixel) >= alignment:
                row_length = width + (
                    rowstride - width * bytes_per_pixel) // bytes_per_pixel

            self.gl_marker(
                "%s %sbpp update at (%d,%d) size %dx%d (%s bytes), stride=%d, row length %d, alignment %d, using GL %s format=%s",
                rgb_format, bpp, x, y, width, height, len(img_data), rowstride,
                row_length, alignment, upload,
                CONSTANT_TO_PIXEL_FORMAT.get(pformat))

            # Upload data as temporary RGB texture
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[TEX_RGB])
            glPixelStorei(GL_UNPACK_ROW_LENGTH, row_length)
            glPixelStorei(GL_UNPACK_ALIGNMENT, alignment)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER,
                            GL_NEAREST)
            glTexParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER,
                            GL_NEAREST)
            glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAX_LEVEL, 0)
            glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S,
                            GL_CLAMP_TO_BORDER)
            glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T,
                            GL_CLAMP_TO_BORDER)
            glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0,
                         self.texture_pixel_format, width, height, 0, pformat,
                         GL_UNSIGNED_BYTE, img_data)

            # Draw textured RGB quad at the right coordinates
            glBegin(GL_QUADS)
            glTexCoord2i(0, 0)
            glVertex2i(x, y)
            glTexCoord2i(0, height)
            glVertex2i(x, y + height)
            glTexCoord2i(width, height)
            glVertex2i(x + width, y + height)
            glTexCoord2i(width, 0)
            glVertex2i(x + width, y)
            glEnd()

            # Present update to screen
            self.present_fbo(options.get("encoding"),
                             options.get("delta", -1) >= 0, x, y, width,
                             height)
            # present_fbo has reset state already
        return True

    def do_video_paint(self, img, x, y, enc_width, enc_height, width, height,
                       options, callbacks):
        #copy so the data will be usable (usually a str)
        img.clone_pixel_data()
        idle_add(self.gl_paint_planar, options.get("encoding"), img, x, y,
                 enc_width, enc_height, width, height, callbacks)

    def gl_paint_planar(self, encoding, img, x, y, enc_width, enc_height,
                        width, height, callbacks):
        #this function runs in the UI thread, no video_decoder lock held
        log("gl_paint_planar%s",
            (img, x, y, enc_width, enc_height, width, height, callbacks))
        try:
            pixel_format = img.get_pixel_format()
            assert pixel_format in (
                "YUV420P", "YUV422P", "YUV444P", "GBRP"
            ), "sorry the GL backing does not handle pixel format '%s' yet!" % (
                pixel_format)

            context = self.gl_context()
            if not context:
                log("%s._do_paint_rgb(..) not context!", self)
                fire_paint_callbacks(callbacks, False)
                return
            with context:
                self.gl_init()
                self.update_planar_textures(x,
                                            y,
                                            enc_width,
                                            enc_height,
                                            img,
                                            pixel_format,
                                            scaling=(enc_width != width
                                                     or enc_height != height))
                img.free()

                # Update FBO texture
                x_scale, y_scale = 1, 1
                if width != enc_width or height != enc_height:
                    x_scale = float(width) / enc_width
                    y_scale = float(height) / enc_height
                self.render_planar_update(x, y, enc_width, enc_height, x_scale,
                                          y_scale)
                # Present it on screen
                self.present_fbo(encoding, False, x, y, width, height)
            fire_paint_callbacks(callbacks, True)
        except Exception as e:
            log.error("%s.gl_paint_planar(..) error: %s",
                      self,
                      e,
                      exc_info=True)
            fire_paint_callbacks(callbacks, False)

    def update_planar_textures(self,
                               x,
                               y,
                               width,
                               height,
                               img,
                               pixel_format,
                               scaling=False):
        assert self.textures is not None, "no OpenGL textures!"
        log("%s.update_planar_textures%s", self,
            (x, y, width, height, img, pixel_format))

        divs = get_subsampling_divs(pixel_format)
        if self.pixel_format is None or self.pixel_format != pixel_format or self.texture_size != (
                width, height):
            self.pixel_format = pixel_format
            self.texture_size = (width, height)
            self.gl_marker("Creating new planar textures, pixel format %s",
                           pixel_format)
            # Create textures of the same size as the window's
            glEnable(GL_TEXTURE_RECTANGLE_ARB)

            for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1),
                                   (GL_TEXTURE2, 2)):
                (div_w, div_h) = divs[index]
                glActiveTexture(texture)
                glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[index])
                glEnable(GL_TEXTURE_RECTANGLE_ARB)
                mag_filter = GL_NEAREST
                if scaling or (div_w > 1 or div_h > 1):
                    mag_filter = GL_LINEAR
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB,
                                GL_TEXTURE_MAG_FILTER, mag_filter)
                glTexParameteri(GL_TEXTURE_RECTANGLE_ARB,
                                GL_TEXTURE_MIN_FILTER, GL_NEAREST)
                glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAX_LEVEL, 0)
                glTexImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, GL_LUMINANCE,
                             width // div_w, height // div_h, 0, GL_LUMINANCE,
                             GL_UNSIGNED_BYTE, None)

        self.gl_marker("updating planar textures: %sx%s %s", width, height,
                       pixel_format)
        rowstrides = img.get_rowstride()
        img_data = img.get_pixels()
        assert len(rowstrides) == 3 and len(img_data) == 3
        for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1),
                               (GL_TEXTURE2, 2)):
            (div_w, div_h) = divs[index]
            glActiveTexture(texture)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[index])
            glPixelStorei(GL_UNPACK_ROW_LENGTH, rowstrides[index])
            pixel_data = img_data[index]
            log("texture %s: div=%s, rowstride=%s, %sx%s, data=%s bytes",
                index, divs[index], rowstrides[index], width // div_w,
                height // div_h, len(pixel_data))
            glTexSubImage2D(GL_TEXTURE_RECTANGLE_ARB, 0, 0, 0, width // div_w,
                            height // div_h, GL_LUMINANCE, GL_UNSIGNED_BYTE,
                            pixel_data)

    def render_planar_update(self, rx, ry, rw, rh, x_scale=1, y_scale=1):
        log("%s.render_planar_update%s pixel_format=%s", self,
            (rx, ry, rw, rh, x_scale, y_scale), self.pixel_format)
        if self.pixel_format not in ("YUV420P", "YUV422P", "YUV444P", "GBRP"):
            #not ready to render yet
            return
        if self.pixel_format == "GBRP":
            self.set_rgbP_paint_state()
        self.gl_marker("painting planar update, format %s", self.pixel_format)
        divs = get_subsampling_divs(self.pixel_format)
        glEnable(GL_FRAGMENT_PROGRAM_ARB)
        for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1),
                               (GL_TEXTURE2, 2)):
            glActiveTexture(texture)
            glBindTexture(GL_TEXTURE_RECTANGLE_ARB, self.textures[index])

        tw, th = self.texture_size
        log("%s.render_planar_update(..) texture_size=%s, size=%s", self,
            self.texture_size, self.size)
        glBegin(GL_QUADS)
        for x, y in ((0, 0), (0, rh), (rw, rh), (rw, 0)):
            ax = min(tw, x)
            ay = min(th, y)
            for texture, index in ((GL_TEXTURE0, 0), (GL_TEXTURE1, 1),
                                   (GL_TEXTURE2, 2)):
                (div_w, div_h) = divs[index]
                glMultiTexCoord2i(texture, ax // div_w, ay // div_h)
            glVertex2i(int(rx + ax * x_scale), int(ry + ay * y_scale))
        glEnd()
        if self.pixel_format == "GBRP":
            self.unset_rgbP_paint_state()
Example #7
0
def check_support(force_enable=False, check_colormap=False):
    #platform checks:
    from xpra.platform.gui import gl_check
    warning = gl_check()
    if warning:
        if force_enable:
            log.warn("Warning: trying to continue despite '%s'" % warning)
        else:
            gl_check_error(warning)

    props = {}
    #this will import gtk.gtkgl / gdkgl or gi.repository.GtkGLExt / GdkGLExt:
    try:
        from xpra.client.gl.gtk_compat import get_info, gdkgl, Config_new_by_mode, GLDrawingArea
    except RuntimeError as e:
        gl_check_error(str(e))
        return {}
    props.update(get_info())
    display_mode = get_DISPLAY_MODE()
    glconfig = Config_new_by_mode(display_mode)
    if glconfig is None and CAN_DOUBLE_BUFFER:
        log("trying to toggle double-buffering")
        display_mode &= ~MODE_DOUBLE
        glconfig = Config_new_by_mode(display_mode)
    if not glconfig:
        gl_check_error("cannot setup an OpenGL context")
        return {}
    props["display_mode"] = get_MODE_names(display_mode)
    #on OSX, we had to patch out get_depth...
    #so take extra precautions when querying properties:
    for x, fn_name in {
            "has_alpha": "has_alpha",
            "rgba": "is_rgba",
            "stereo": "is_stereo",
            "double-buffered": "is_double_buffered",
            "depth": "get_depth",
            "has-depth-buffer": "has_depth_buffer",
            "has-stencil-buffer": "has_stencil_buffer",
    }.items():
        fn = getattr(glconfig, fn_name, None)
        if fn:
            props[x] = fn()
        else:
            log("%s does not support %s()", glconfig, fn_name)
    for x in ("RED_SIZE", "GREEN_SIZE", "BLUE_SIZE", "ALPHA_SIZE",
              "AUX_BUFFERS", "DEPTH_SIZE", "STENCIL_SIZE", "ACCUM_RED_SIZE",
              "ACCUM_GREEN_SIZE", "ACCUM_BLUE_SIZE", "SAMPLE_BUFFERS",
              "SAMPLES"):
        prop = getattr(gdkgl, x)
        if not prop:
            continue
        try:
            v = glconfig.get_attrib(prop)[0]
            props[x.lower().replace("_", "-")] = v
        except:
            pass
    log("GL props=%s", props)

    from xpra.gtk_common.gtk_util import import_gtk, gdk_window_process_all_updates
    gtk = import_gtk()
    assert gdkgl.query_extension()
    glext, w = None, None
    try:
        #ugly code for win32 and others (virtualbox broken GL drivers)
        #for getting a GL drawable and context: we must use a window...
        #(which we do not even show on screen)
        #
        #here is the old simpler alternative which does not work on some platforms:
        # glext = gtk.gdkgl.ext(gdk.Pixmap(gdk.get_default_root_window(), 1, 1))
        # gldrawable = glext.set_gl_capability(glconfig)
        # glcontext = gtk.gdkgl.Context(gldrawable, direct=True)
        w = gtk.Window()
        w.set_decorated(False)
        vbox = gtk.VBox()
        glarea = GLDrawingArea(glconfig)
        glarea.set_size_request(32, 32)
        vbox.add(glarea)
        vbox.show_all()
        w.add(vbox)
        #we don't need to actually show the window!
        #w.show_all()
        glarea.realize()
        gdk_window_process_all_updates()

        gl_props = check_GL_support(glarea, force_enable)

        if check_colormap:
            s = w.get_screen()
            for x in ("rgb_visual", "rgba_visual", "system_visual"):
                try:
                    visual = getattr(s, "get_%s" % x)()
                    gl_props[x] = visual_to_str(visual)
                except:
                    pass
            #i = 0
            #for v in s.list_visuals():
            #    gl_props["visual[%s]" % i] = visual_to_str(v)
            #    i += 1
    finally:
        if w:
            w.destroy()
        del glext, glconfig
    props.update(gl_props)
    return props
Example #8
0
def check_support(force_enable=False, check_colormap=False):
    #platform checks:
    from xpra.platform.gui import gl_check
    warning = gl_check()
    if warning:
        if force_enable:
            log.warn("Warning: trying to continue despite '%s'" % warning)
        else:
            gl_check_error(warning)

    props = {}
    #this will import gtk.gtkgl / gdkgl or gi.repository.GtkGLExt / GdkGLExt:
    try:
        from xpra.client.gl.gtk_compat import get_info, gdkgl, Config_new_by_mode, MODE_DOUBLE, GLDrawingArea
    except RuntimeError as e:
        gl_check_error(str(e))
        return {}
    props.update(get_info())
    display_mode = get_DISPLAY_MODE()
    glconfig = Config_new_by_mode(display_mode)
    if glconfig is None and CAN_DOUBLE_BUFFER:
        log("trying to toggle double-buffering")
        display_mode &= ~MODE_DOUBLE
        glconfig = Config_new_by_mode(display_mode)
    if not glconfig:
        gl_check_error("cannot setup an OpenGL context")
        return {}
    props["display_mode"] = get_MODE_names(display_mode)
    props["glconfig"] = glconfig
    props["has_alpha"] = glconfig.has_alpha()
    props["rgba"] = glconfig.is_rgba()
    log("GL props=%s", props)
    from xpra.gtk_common.gtk_util import import_gtk, gdk_window_process_all_updates
    gtk = import_gtk()
    assert gdkgl.query_extension()
    glext, w = None, None
    try:
        #ugly code for win32 and others (virtualbox broken GL drivers)
        #for getting a GL drawable and context: we must use a window...
        #(which we do not even show on screen)
        #
        #here is the old simpler alternative which does not work on some platforms:
        # glext = gtk.gdkgl.ext(gdk.Pixmap(gdk.get_default_root_window(), 1, 1))
        # gldrawable = glext.set_gl_capability(glconfig)
        # glcontext = gtk.gdkgl.Context(gldrawable, direct=True)
        w = gtk.Window()
        w.set_decorated(False)
        vbox = gtk.VBox()
        glarea = GLDrawingArea(glconfig)
        glarea.set_size_request(32, 32)
        vbox.add(glarea)
        vbox.show_all()
        w.add(vbox)
        #we don't need to actually show the window!
        #w.show_all()
        glarea.realize()
        gdk_window_process_all_updates()

        gl_props = check_GL_support(glarea, force_enable)

        if check_colormap:
            s = w.get_screen()
            for x in ("rgb_visual", "rgba_visual", "system_visual"):
                try:
                    visual = getattr(s, "get_%s" % x)()
                    gl_props[x] = visual_to_str(visual)
                except:
                    pass
            #i = 0
            #for v in s.list_visuals():
            #    gl_props["visual[%s]" % i] = visual_to_str(v)
            #    i += 1
    finally:
        if w:
            w.destroy()
        del glext, glconfig
    props.update(gl_props)
    return props