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//! Demonstrates different sub view effects.
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//!
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//! A sub view is essentially a smaller section of a larger viewport. Some use
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//! cases include:
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//! - Split one image across multiple cameras, for use in a multimonitor setups
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//! - Magnify a section of the image, by rendering a small sub view in another
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//!   camera
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//! - Rapidly change the sub view offset to get a screen shake effect
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use bevy::{
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    camera::{ScalingMode, SubCameraView, Viewport},
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    prelude::*,
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};
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fn main() {
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    App::new()
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        .add_plugins(DefaultPlugins)
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        .add_systems(Startup, setup)
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        .add_systems(Update, (move_camera_view, resize_viewports))
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        .run();
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}
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#[derive(Debug, Component)]
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struct MovingCameraMarker;
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/// Set up a simple 3D scene
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fn setup(
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    mut commands: Commands,
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    mut meshes: ResMut<Assets<Mesh>>,
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    mut materials: ResMut<Assets<StandardMaterial>>,
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) {
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    let transform = Transform::from_xyz(-2.0, 2.5, 5.0).looking_at(Vec3::ZERO, Vec3::Y);
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    // Plane
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    commands.spawn((
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        Mesh3d(meshes.add(Plane3d::default().mesh().size(5.0, 5.0))),
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        MeshMaterial3d(materials.add(Color::srgb(0.3, 0.5, 0.3))),
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    ));
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    // Cube
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    commands.spawn((
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        Mesh3d(meshes.add(Cuboid::default())),
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        MeshMaterial3d(materials.add(Color::srgb(0.8, 0.7, 0.6))),
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        Transform::from_xyz(0.0, 0.5, 0.0),
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    ));
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    // Light
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    commands.spawn((
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        PointLight {
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            shadows_enabled: true,
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            ..default()
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        },
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        Transform::from_xyz(4.0, 8.0, 4.0),
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    ));
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    // Main perspective camera:
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    //
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    // The main perspective image to use as a comparison for the sub views.
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    commands.spawn((
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        Camera3d::default(),
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        Camera::default(),
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        ExampleViewports::PerspectiveMain,
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        transform,
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    ));
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    // Perspective camera right half:
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    //
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    // For this camera, the projection is perspective, and `size` is half the
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    // width of the `full_size`, while the x value of `offset` is set to half
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    // the value of the full width, causing the right half of the image to be
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    // shown. Since the viewport has an aspect ratio of 1x1 and the sub view has
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    // an aspect ratio of 1x2, the image appears stretched along the horizontal
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    // axis.
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    commands.spawn((
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        Camera3d::default(),
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        Camera {
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            sub_camera_view: Some(SubCameraView {
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                // The values of `full_size` and `size` do not have to be the
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                // exact values of your physical viewport. The important part is
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                // the ratio between them.
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                full_size: UVec2::new(10, 10),
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                // The `offset` is also relative to the values in `full_size`
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                // and `size`
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                offset: Vec2::new(5.0, 0.0),
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                size: UVec2::new(5, 10),
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            }),
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            order: 1,
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            ..default()
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        },
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        ExampleViewports::PerspectiveStretched,
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        transform,
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    ));
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    // Perspective camera moving:
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    //
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    // For this camera, the projection is perspective, and the offset is updated
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    // continuously in 150 units per second in `move_camera_view`. Since the
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    // `full_size` is 500x500, the image should appear to be moving across the
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    // full image once every 3.3 seconds. `size` is a fifth of the size of
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    // `full_size`, so the image will appear zoomed in.
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    commands.spawn((
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        Camera3d::default(),
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        Camera {
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            sub_camera_view: Some(SubCameraView {
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                full_size: UVec2::new(500, 500),
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                offset: Vec2::ZERO,
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                size: UVec2::new(100, 100),
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            }),
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            order: 2,
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            ..default()
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        },
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        transform,
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        ExampleViewports::PerspectiveMoving,
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        MovingCameraMarker,
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    ));
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    // Perspective camera different aspect ratio:
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    //
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    // For this camera, the projection is perspective, and the aspect ratio of
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    // the sub view (2x1) is different to the aspect ratio of the full view
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    // (2x2). The aspect ratio of the sub view matches the aspect ratio of
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    // the viewport and should show an unstretched image of the top half of the
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    // full perspective image.
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    commands.spawn((
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        Camera3d::default(),
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        Camera {
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            sub_camera_view: Some(SubCameraView {
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                full_size: UVec2::new(800, 800),
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                offset: Vec2::ZERO,
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                size: UVec2::new(800, 400),
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            }),
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            order: 3,
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            ..default()
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        },
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        ExampleViewports::PerspectiveControl,
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        transform,
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    ));
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    // Main orthographic camera:
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    //
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    // The main orthographic image to use as a comparison for the sub views.
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    commands.spawn((
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        Camera3d::default(),
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        Projection::from(OrthographicProjection {
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            scaling_mode: ScalingMode::FixedVertical {
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                viewport_height: 6.0,
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            },
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            ..OrthographicProjection::default_3d()
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        }),
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        Camera {
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            order: 4,
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            ..default()
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        },
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        ExampleViewports::OrthographicMain,
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        transform,
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    ));
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    // Orthographic camera left half:
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    //
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    // For this camera, the projection is orthographic, and `size` is half the
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    // width of the `full_size`, causing the left half of the image to be shown.
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    // Since the viewport has an aspect ratio of 1x1 and the sub view has an
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    // aspect ratio of 1x2, the image appears stretched along the horizontal axis.
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    commands.spawn((
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        Camera3d::default(),
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        Projection::from(OrthographicProjection {
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            scaling_mode: ScalingMode::FixedVertical {
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                viewport_height: 6.0,
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            },
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            ..OrthographicProjection::default_3d()
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        }),
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        Camera {
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            sub_camera_view: Some(SubCameraView {
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                full_size: UVec2::new(2, 2),
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                offset: Vec2::ZERO,
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                size: UVec2::new(1, 2),
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            }),
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            order: 5,
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            ..default()
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        },
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        ExampleViewports::OrthographicStretched,
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        transform,
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    ));
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    // Orthographic camera moving:
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    //
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    // For this camera, the projection is orthographic, and the offset is
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    // updated continuously in 150 units per second in `move_camera_view`. Since
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    // the `full_size` is 500x500, the image should appear to be moving across
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    // the full image once every 3.3 seconds. `size` is a fifth of the size of
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    // `full_size`, so the image will appear zoomed in.
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    commands.spawn((
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        Camera3d::default(),
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        Projection::from(OrthographicProjection {
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            scaling_mode: ScalingMode::FixedVertical {
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                viewport_height: 6.0,
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            },
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            ..OrthographicProjection::default_3d()
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        }),
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        Camera {
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            sub_camera_view: Some(SubCameraView {
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                full_size: UVec2::new(500, 500),
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                offset: Vec2::ZERO,
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                size: UVec2::new(100, 100),
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            }),
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            order: 6,
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            ..default()
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        },
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        transform,
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        ExampleViewports::OrthographicMoving,
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        MovingCameraMarker,
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    ));
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    // Orthographic camera different aspect ratio:
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    //
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    // For this camera, the projection is orthographic, and the aspect ratio of
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    // the sub view (2x1) is different to the aspect ratio of the full view
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    // (2x2). The aspect ratio of the sub view matches the aspect ratio of
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    // the viewport and should show an unstretched image of the top half of the
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    // full orthographic image.
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    commands.spawn((
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        Camera3d::default(),
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        Projection::from(OrthographicProjection {
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            scaling_mode: ScalingMode::FixedVertical {
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                viewport_height: 6.0,
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            },
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            ..OrthographicProjection::default_3d()
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        }),
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        Camera {
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            sub_camera_view: Some(SubCameraView {
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                full_size: UVec2::new(200, 200),
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                offset: Vec2::ZERO,
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                size: UVec2::new(200, 100),
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            }),
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            order: 7,
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            ..default()
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        },
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        ExampleViewports::OrthographicControl,
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        transform,
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    ));
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}
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fn move_camera_view(
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    mut movable_camera_query: Query<&mut Camera, With<MovingCameraMarker>>,
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    time: Res<Time>,
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) {
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    for mut camera in movable_camera_query.iter_mut() {
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        if let Some(sub_view) = &mut camera.sub_camera_view {
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            sub_view.offset.x = (time.elapsed_secs() * 150.) % 450.0 - 50.0;
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            sub_view.offset.y = sub_view.offset.x;
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        }
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    }
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}
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// To ensure viewports remain the same at any window size
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fn resize_viewports(
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    window: Single<&Window, With<bevy::window::PrimaryWindow>>,
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    mut viewports: Query<(&mut Camera, &ExampleViewports)>,
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) {
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    let window_size = window.physical_size();
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    let small_height = window_size.y / 5;
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    let small_width = window_size.x / 8;
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    let large_height = small_height * 4;
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    let large_width = small_width * 4;
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    let large_size = UVec2::new(large_width, large_height);
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    // Enforce the aspect ratio of the small viewports to ensure the images
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    // appear unstretched
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    let small_dim = small_height.min(small_width);
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    let small_size = UVec2::new(small_dim, small_dim);
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    let small_wide_size = UVec2::new(small_dim * 2, small_dim);
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    for (mut camera, example_viewport) in viewports.iter_mut() {
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        if camera.viewport.is_none() {
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            camera.viewport = Some(Viewport::default());
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        };
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        let Some(viewport) = &mut camera.viewport else {
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            continue;
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        };
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        let (size, position) = match example_viewport {
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            ExampleViewports::PerspectiveMain => (large_size, UVec2::new(0, small_height)),
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            ExampleViewports::PerspectiveStretched => (small_size, UVec2::ZERO),
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            ExampleViewports::PerspectiveMoving => (small_size, UVec2::new(small_width, 0)),
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            ExampleViewports::PerspectiveControl => {
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                (small_wide_size, UVec2::new(small_width * 2, 0))
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            }
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            ExampleViewports::OrthographicMain => {
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                (large_size, UVec2::new(large_width, small_height))
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            }
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            ExampleViewports::OrthographicStretched => (small_size, UVec2::new(small_width * 4, 0)),
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            ExampleViewports::OrthographicMoving => (small_size, UVec2::new(small_width * 5, 0)),
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            ExampleViewports::OrthographicControl => {
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                (small_wide_size, UVec2::new(small_width * 6, 0))
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            }
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        };
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        viewport.physical_size = size;
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        viewport.physical_position = position;
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    }
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}
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#[derive(Component)]
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enum ExampleViewports {
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    PerspectiveMain,
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    PerspectiveStretched,
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    PerspectiveMoving,
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    PerspectiveControl,
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    OrthographicMain,
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    OrthographicStretched,
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    OrthographicMoving,
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    OrthographicControl,
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}
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