255 lines
12 KiB
Text
255 lines
12 KiB
Text
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.. _doc_viewports:
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Using Viewports
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===============
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Introduction
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------------
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Think of a :ref:`Viewport <class_Viewport>` as a screen onto which the game is projected. In order
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to see the game, we need to have a surface on which to draw it; that surface is
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the Root :ref:`Viewport <class_Viewport>`.
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.. image:: img/viewportnode.png
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:ref:`Viewports <class_Viewport>` can also be added to the scene so that there
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are multiple surfaces to draw on. When we are drawing to a :ref:`Viewport <class_Viewport>`
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that is not the Root, we call it a render target. We can access the contents
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of a render target by accessing its corresponding :ref:`texture <class_ViewportTexture>`.
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By using a :ref:`Viewport <class_Viewport>` as a render target,
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we can either render multiple scenes simultaneously or we can render to
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a :ref:`texture <class_ViewportTexture>` which is applied to an object in the scene, for example a dynamic
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skybox.
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:ref:`Viewports <class_Viewport>` have a variety of use cases, including:
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- Rendering 3D objects within a 2D game
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- Rendering 2D elements in a 3D game
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- Rendering dynamic textures
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- Generating procedural textures at runtime
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- Rendering multiple cameras in the same scene
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What all these use cases have in common is that you are given the ability to
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draw objects to a texture as if it were another screen and can then choose
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what to do with the resulting texture.
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Input
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-----
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:ref:`Viewports <class_Viewport>` are also responsible for delivering properly adjusted and
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scaled input events to all their children nodes. Typically, input is received by the
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nearest :ref:`Viewport <class_Viewport>` in the tree, but you can set :ref:`Viewports <class_Viewport>` not to receive input by checking
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'Disable Input' to 'on'; this will allow the next nearest :ref:`Viewport <class_Viewport>` in the tree to capture
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the input.
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.. image:: img/input.png
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For more information on how Godot handles input, please read the :ref:`Input Event Tutorial<doc_inputevent>`.
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Listener
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--------
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Godot supports 3D sound (in both 2D and 3D nodes); more on this can be
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found in the :ref:`Audio Streams Tutorial<doc_audio_streams>`. For this type of sound to be
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audible, the :ref:`Viewport <class_Viewport>` needs to be enabled as a listener (for 2D or 3D).
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If you are using a custom :ref:`Viewport <class_Viewport>` to display your :ref:`World <class_World>`, don't forget
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to enable this!
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Cameras (2D & 3D)
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-----------------
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When using a :ref:`Camera <class_Camera>` /
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:ref:`Camera2D <class_Camera2D>`, cameras will always display on the
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closest parent :ref:`Viewport <class_Viewport>` (going towards the root). For example, in the
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following hierarchy:
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.. image:: img/cameras.png
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CameraA will display on the Root :ref:`Viewport <class_Viewport>` and it will draw MeshA. CameraB
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will be captured by the :ref:`Viewport <class_Viewport>` Node along with MeshB. Even though MeshB is in the scene
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hierarchy, it will still not be drawn to the Root :ref:`Viewport <class_Viewport>`. Similarly MeshA will not
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be visible from the :ref:`Viewport <class_Viewport>` node because :ref:`Viewport <class_Viewport>` nodes only
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capture nodes below them in the hierarchy.
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There can only be one active camera per :ref:`Viewport <class_Viewport>`, so if there is more
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than one, make sure that the desired one has the "current" property set,
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or make it the current camera by calling:
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::
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camera.make_current()
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By default, cameras will render all objects in their world. In 3D, cameras can use their
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:ref:`cull_mask <class_Camera_property_cull_mask>` property combined with the
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:ref:`VisualInstance's <class_VisualInstance>` :ref:`layer <class_VisualInstance_property_layers>`
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property to restrict which objects are rendered.
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Scale & stretching
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------------------
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:ref:`Viewports <class_Viewport>` have a "size" property, which represents the size of the :ref:`Viewport <class_Viewport>`
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in pixels. For :ref:`Viewports <class_Viewport>` which are children of :ref:`ViewportContainers <class_viewportcontainer>`,
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these values are overridden, but for all others, this sets their resolution.
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It is also possible to scale the 2D content and make the :ref:`Viewport <class_Viewport>` resolution
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different from the one specified in size, by calling:
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::
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viewport.set_size_override(true, Vector2(width, height)) # Custom size for 2D.
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viewport.set_size_override_stretch(true) # Enable stretch for custom size.
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The root :ref:`Viewport <class_Viewport>` uses this for the stretch options in the project
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settings. For more information on scaling and stretching visit the :ref:`Multiple Resolutions Tutorial <doc_multiple_resolutions>`
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Worlds
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------
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For 3D, a :ref:`Viewport <class_Viewport>` will contain a :ref:`World <class_World>`. This
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is basically the universe that links physics and rendering together.
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Spatial-based nodes will register using the :ref:`World <class_World>` of the closest
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:ref:`Viewport <class_Viewport>`. By default, newly created :ref:`Viewports <class_Viewport>` do not contain a :ref:`World <class_World>` but
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use the same as their parent :ref:`Viewport <class_Viewport>` (the root :ref:`Viewport <class_Viewport>` always contains a
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:ref:`World <class_World>`, which is the one objects are rendered to by default). A :ref:`World <class_World>` can
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be set in a :ref:`Viewport <class_Viewport>` using the "world" property, and that will separate
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all children nodes of that :ref:`Viewport <class_Viewport>` from interacting with the parent
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:ref:`Viewport's <class_Viewport>` :ref:`World <class_World>`. This is especially useful in scenarios where, for
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example, you might want to show a separate character in 3D imposed over
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the game (like in StarCraft).
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As a helper for situations where you want to create :ref:`Viewports <class_Viewport>` that
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display single objects and don't want to create a :ref:`World <class_World>`, :ref:`Viewport <class_Viewport>` has
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the option to use its own :ref:`World <class_World>`. This is useful when you want to
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instance 3D characters or objects in a 2D :ref:`World <class_World2D>`.
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For 2D, each :ref:`Viewport <class_Viewport>` always contains its own :ref:`World2D <class_World2D>`.
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This suffices in most cases, but in case sharing them may be desired, it
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is possible to do so by setting the :ref:`Viewport's <class_Viewport>` :ref:`World2D <class_World2D>` manually.
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For an example of how this works, see the demo projects `3D in 2D <https://github.com/godotengine/godot-demo-projects/tree/master/viewport/3d_in_2d>`_ and `2D in 3D <https://github.com/godotengine/godot-demo-projects/tree/master/viewport/2d_in_3d>`_ respectively.
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Capture
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-------
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It is possible to query a capture of the :ref:`Viewport <class_Viewport>` contents. For the root
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:ref:`Viewport <class_Viewport>`, this is effectively a screen capture. This is done with the
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following code:
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::
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# Retrieve the captured Image using get_data().
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var img = get_viewport().get_texture().get_data()
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# Flip on the Y axis.
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# You can also set "V Flip" to true if not on the root Viewport.
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img.flip_y()
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# Convert Image to ImageTexture.
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var tex = ImageTexture.new()
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tex.create_from_image(img)
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# Set Sprite Texture.
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$sprite.texture = tex
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But if you use this in ``_ready()`` or from the first frame of the :ref:`Viewport's <class_Viewport>` initialization,
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you will get an empty texture because there is nothing to get as texture. You can deal with
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it using (for example):
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::
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# Wait until the frame has finished before getting the texture.
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yield(VisualServer, "frame_post_draw")
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# You can get the image after this.
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Viewport Container
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------------------
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If the :ref:`Viewport <class_Viewport>` is a child of a :ref:`ViewportContainer <class_viewportcontainer>`, it will become active and display anything it has inside. The layout looks like this:
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.. image:: img/container.png
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The :ref:`Viewport <class_Viewport>` will cover the area of its parent :ref:`ViewportContainer <class_viewportcontainer>` completely
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if :ref:`Stretch<class_viewportcontainer_property_stretch>` is set to ``true`` in :ref:`ViewportContainer <class_viewportcontainer>`.
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Note: The size of the :ref:`ViewportContainer <class_viewportcontainer>` cannot be smaller than the size of the :ref:`Viewport <class_Viewport>`.
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Rendering
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---------
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Due to the fact that the :ref:`Viewport <class_Viewport>` is an entryway into another rendering surface, it exposes a few
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rendering properties that can be different from the project settings. The first is MSAA; you can
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choose to use a different level of MSAA for each :ref:`Viewport <class_Viewport>`; the default behavior is DISABLED.
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You can also set the :ref:`Viewport <class_Viewport>` to use HDR, HDR is very useful for when you want to store values in the texture that are outside the range 0.0 - 1.0.
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If you know how the :ref:`Viewport <class_Viewport>` is going to be used, you can set its Usage to either 3D or 2D. Godot will then
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restrict how the :ref:`Viewport <class_Viewport>` is drawn to in accordance with your choice; default is 3D.
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The 2D usage mode is slightly faster and uses less memory compared to the 3D one. It's a good idea to set the :ref:`Viewport <class_Viewport>`'s Usage property to 2D if your viewport doesn't render anything in 3D.
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.. note::
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If you need to render 3D shadows in the viewport, make sure to set the viewport's *Shadow Atlas Size* property to a value higher than 0.
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Otherwise, shadows won't be rendered. For reference, the Project Settings define it to 4096 by default.
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Godot also provides a way of customizing how everything is drawn inside :ref:`Viewports <class_Viewport>` using “Debug Draw”.
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Debug Draw allows you to specify one of four options for how the :ref:`Viewport <class_Viewport>` will display things drawn
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inside it. Debug Draw is disabled by default.
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.. image:: img/default_scene.png
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*A scene drawn with Debug Draw disabled*
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The other three options are Unshaded, Overdraw, and Wireframe. Unshaded draws the scene
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without using lighting information so all the objects appear flatly colored the color of
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their albedo.
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.. image:: img/unshaded.png
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*The same scene with Debug Draw set to Unshaded*
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Overdraw draws the meshes semi-transparent with an additive blend so you can see how the meshes overlap.
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.. image:: img/overdraw.png
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*The same scene with Debug Draw set to Overdraw*
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Lastly, Wireframe draws the scene using only the edges of triangles in the meshes.
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.. note::
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The effects of the Wireframe mode are only visible in the editor, not while the project is running.
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Render target
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-------------
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When rendering to a :ref:`Viewport <class_Viewport>`, whatever is inside will not be
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visible in the scene editor. To display the contents, you have to draw the :ref:`Viewport's <class_Viewport>` :ref:`ViewportTexture <class_ViewportTexture>` somewhere.
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This can be requested via code using (for example):
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::
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# This gives us the ViewportTexture.
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var rtt = viewport.get_texture()
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sprite.texture = rtt
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Or it can be assigned in the editor by selecting "New ViewportTexture"
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.. image:: img/texturemenu.png
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and then selecting the :ref:`Viewport <class_Viewport>` you want to use.
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.. image:: img/texturepath.png
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Every frame, the :ref:`Viewport <class_Viewport>`'s texture is cleared away with the default clear color (or a transparent
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color if :ref:`Transparent Bg<class_Viewport_property_transparent_bg>` is set to ``true``). This can be changed by setting :ref:`Clear Mode<class_Viewport_property_render_target_clear_mode>` to Never or Next Frame.
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As the name implies, Never means the texture will never be cleared, while next frame will
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clear the texture on the next frame and then set itself to Never.
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By default, re-rendering of the :ref:`Viewport <class_Viewport>` happens when the
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:ref:`Viewport <class_Viewport>`'s :ref:`ViewportTexture <class_ViewportTexture>` has been drawn in a frame. If visible, it will be
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rendered; otherwise, it will not. This behavior can be changed to manual
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rendering (once), or always render, no matter if visible or not. This flexibility
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allows users to render an image once and then use the texture without
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incurring the cost of rendering every frame.
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Make sure to check the Viewport demos! Viewport folder in the demos
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archive available to download, or
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https://github.com/godotengine/godot-demo-projects/tree/master/viewport
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