Display texture in window ========================= In this example we will open a window and iterate through the capture on a loop, displaying the first colour output target on it. .. note:: This is intended for use with the python module directly, as the UI already has a texture viewer panel to do this with much more control. The principle is the same though and it can be useful reference of how to iterate over a capture. To create a window we use tkinter, since it is provided with the Python distribution. .. highlight:: python .. code:: python # Use tkinter to create windows import tkinter # Create a simple window window = tkinter.Tk() window.geometry("1280x720") Next we need to determine which windowing systems the RenderDoc implementation supports, and create a :py:class:`~renderdoc.WindowingData` object for the window we want to render to. For the purposes of this example we will look for Win32 since it's the simplest to set up - needing only a window handle that we can get from tkinter easily. XCB/XLib require a display connection, which would be possible to get from another library such as Qt. Once we have the :py:class:`~renderdoc.WindowingData`, we can create a :py:class:`~renderdoc.ReplayOutput` using :py:meth:`~renderdoc.ReplayController.CreateOutput`. .. highlight:: python .. code:: python # Create renderdoc windowing data. winsystems = [rd.WindowingSystem(i) for i in controller.GetSupportedWindowSystems()] # Pass window system specific data here, See: # - renderdoc.CreateWin32WindowingData # - renderdoc.CreateXlibWindowingData # - renderdoc.CreateXCBWindowingData # This example code works on windows as that's simple to integrate with tkinter if not rd.WindowingSystem.Win32 in winsystems: raise RuntimeError("Example requires Win32 windowing system: " + str(winsystems)) windata = rd.CreateWin32WindowingData(int(window.frame(), 16)) # Create a texture output on the window out = controller.CreateOutput(windata, rd.ReplayOutputType.Texture) In order to iterate over all actions we need some global state first from :py:meth:`~renderdoc.ReplayController.GetTextures` and :py:meth:`~renderdoc.ReplayController.GetRootActions`, and we'll also define a helper function to fetch a particular texture by resourceId, so that we can easily look up the details for a texture. .. highlight:: python .. code:: python # Fetch the list of textures textures = controller.GetTextures() # Fetch the list of actions actions = controller.GetRootActions() # Function to look up the texture descriptor for a given resourceId def getTexture(texid): global textures for tex in textures: if tex.resourceId == texid: return tex return None We now define two callback functions - ``paint`` and ``advance``. ``paint`` will be called every 33ms, it will display the output with the latest state using :py:meth:`~renderdoc.ReplayOutput.Display`. ``advance`` changes the current state to reflect a new action. .. highlight:: python .. code:: python # Our paint function will be called ever 33ms, to display the output def paint(): global out, window out.Display() window.after(33, paint) Within ``advance`` we do a few things. First we move the current event to the current action's ``eventId``, using :py:meth:`~renderdoc.ReplayController.SetFrameEvent`. Then we set up the texture display configuration with :py:meth:`~renderdoc.ReplayOutput.SetTextureDisplay`, to point to the first colour output at that action. When we update to a new texture, we fetch its details using our earlier ``getTexture`` and calculate a scale that keeps the texture fully visible on screen. Finally we move to the next action in the list for the next time ``advance`` is called. .. highlight:: python .. code:: python # Start on the first action curact = actions[0] loopcount = 0 # The advance function will be called every 50ms, to move to the next action def advance(): global out, window, curact, actions, loopcount # Move to the current action controller.SetFrameEvent(curact.eventId, False) # Initialise a default TextureDisplay object disp = rd.TextureDisplay() # Set the first colour output as the texture to display disp.resourceId = curact.outputs[0] if disp.resourceId != rd.ResourceId.Null(): # Get the details of this texture texDetails = getTexture(disp.resourceId) # Calculate the scale required in width and height widthScale = window.winfo_width() / texDetails.width heightScale = window.winfo_height() / texDetails.height # Use the lower scale to fit the texture on the window disp.scale = min(widthScale, heightScale) # Update the texture display out.SetTextureDisplay(disp) # Set the next action curact = curact.next # If we have no next action, start again from the first if curact is None: loopcount = loopcount + 1 curact = actions[0] # after 3 loops, quit if loopcount == 3: window.quit() else: window.after(50, advance) Once we have the callbacks defined, we call them once to initialise the display and set up the repeated callbacks, and start the tkinter main window loop. .. highlight:: python .. code:: python # Start the callbacks advance() paint() # Start the main window loop window.mainloop() Example Source -------------- .. only:: html and not htmlhelp :download:`Download the example script `. .. literalinclude:: display_window.py