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bevy/examples/2d/mesh2d_arcs.rs

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New circular primitives: `Arc2d`, `CircularSector`, `CircularSegment` (#13482) # Objective Adopted #11748 ## Solution I've rebased on main to fix the merge conflicts. ~~Not quite ready to merge yet~~ * Clippy is happy and the tests are passing, but... * ~~The new shapes in `examples/2d/2d_shapes.rs` don't look right at all~~ Never mind, looks like radians and degrees just got mixed up at some point? * I have updated one doc comment based on a review in the original PR. --------- Co-authored-by: Alexis "spectria" Horizon <spectria.limina@gmail.com> Co-authored-by: Alexis "spectria" Horizon <118812919+spectria-limina@users.noreply.github.com> Co-authored-by: Joona Aalto <jondolf.dev@gmail.com> Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com> Co-authored-by: Ben Harper <ben@tukom.org>
2024-05-23 16:12:46 +00:00
//! Demonstrates UV mappings of the [`CircularSector`] and [`CircularSegment`] primitives.
//!
//! Also draws the bounding boxes and circles of the primitives.
use std::f32::consts::FRAC_PI_2;
use bevy::{
color::palettes::css::{BLUE, DARK_SLATE_GREY, RED},
Refactor Bounded2d/Bounded3d to use isometries (#14485) # Objective Previously, this area of bevy_math used raw translation and rotations to encode isometries, which did not exist earlier. The goal of this PR is to make the codebase of bevy_math more harmonious by using actual isometries (`Isometry2d`/`Isometry3d`) in these places instead — this will hopefully make the interfaces more digestible for end-users, in addition to facilitating conversions. For instance, together with the addition of #14478, this means that a bounding box for a collider with an isometric `Transform` can be computed as ```rust collider.aabb_3d(collider_transform.to_isometry()) ``` instead of using manual destructuring. ## Solution - The traits `Bounded2d` and `Bounded3d` now use `Isometry2d` and `Isometry3d` (respectively) instead of `translation` and `rotation` parameters; e.g.: ```rust /// A trait with methods that return 3D bounding volumes for a shape. pub trait Bounded3d { /// Get an axis-aligned bounding box for the shape translated and rotated by the given isometry. fn aabb_3d(&self, isometry: Isometry3d) -> Aabb3d; /// Get a bounding sphere for the shape translated and rotated by the given isometry. fn bounding_sphere(&self, isometry: Isometry3d) -> BoundingSphere; } ``` - Similarly, the `from_point_cloud` constructors for axis-aligned bounding boxes and bounding circles/spheres now take isometries instead of separate `translation` and `rotation`; e.g.: ```rust /// Computes the smallest [`Aabb3d`] containing the given set of points, /// transformed by the rotation and translation of the given isometry. /// /// # Panics /// /// Panics if the given set of points is empty. #[inline(always)] pub fn from_point_cloud( isometry: Isometry3d, points: impl Iterator<Item = impl Into<Vec3A>>, ) -> Aabb3d { //... } ``` This has a couple additional results: 1. The end-user no longer interacts directly with `Into<Vec3A>` or `Into<Rot2>` parameters; these conversions all happen earlier now, inside the isometry types. 2. Similarly, almost all intermediate `Vec3 -> Vec3A` conversions have been eliminated from the `Bounded3d` implementations for primitives. This probably has some performance benefit, but I have not measured it as of now. ## Testing Existing unit tests help ensure that nothing has been broken in the refactor. --- ## Migration Guide The `Bounded2d` and `Bounded3d` traits now take `Isometry2d` and `Isometry3d` parameters (respectively) instead of separate translation and rotation arguments. Existing calls to `aabb_2d`, `bounding_circle`, `aabb_3d`, and `bounding_sphere` will have to be changed to use isometries instead. A straightforward conversion is to refactor just by calling `Isometry2d/3d::new`, as follows: ```rust // Old: let aabb = my_shape.aabb_2d(my_translation, my_rotation); // New: let aabb = my_shape.aabb_2d(Isometry2d::new(my_translation, my_rotation)); ``` However, if the old translation and rotation are 3d translation/rotations originating from a `Transform` or `GlobalTransform`, then `to_isometry` may be used instead. For example: ```rust // Old: let bounding_sphere = my_shape.bounding_sphere(shape_transform.translation, shape_transform.rotation); // New: let bounding_sphere = my_shape.bounding_sphere(shape_transform.to_isometry()); ``` This discussion also applies to the `from_point_cloud` construction method of `Aabb2d`/`BoundingCircle`/`Aabb3d`/`BoundingSphere`, which has similarly been altered to use isometries.
2024-07-29 23:37:02 +00:00
math::{
bounding::{Bounded2d, BoundingVolume},
Isometry2d,
},
New circular primitives: `Arc2d`, `CircularSector`, `CircularSegment` (#13482) # Objective Adopted #11748 ## Solution I've rebased on main to fix the merge conflicts. ~~Not quite ready to merge yet~~ * Clippy is happy and the tests are passing, but... * ~~The new shapes in `examples/2d/2d_shapes.rs` don't look right at all~~ Never mind, looks like radians and degrees just got mixed up at some point? * I have updated one doc comment based on a review in the original PR. --------- Co-authored-by: Alexis "spectria" Horizon <spectria.limina@gmail.com> Co-authored-by: Alexis "spectria" Horizon <118812919+spectria-limina@users.noreply.github.com> Co-authored-by: Joona Aalto <jondolf.dev@gmail.com> Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com> Co-authored-by: Ben Harper <ben@tukom.org>
2024-05-23 16:12:46 +00:00
prelude::*,
render::mesh::{CircularMeshUvMode, CircularSectorMeshBuilder, CircularSegmentMeshBuilder},
sprite::MaterialMesh2dBundle,
};
fn main() {
App::new()
.add_plugins(DefaultPlugins)
.add_systems(Startup, setup)
.add_systems(
Update,
(
draw_bounds::<CircularSector>,
draw_bounds::<CircularSegment>,
),
)
.run();
}
#[derive(Component, Debug)]
struct DrawBounds<Shape: Bounded2d + Send + Sync + 'static>(Shape);
fn setup(
mut commands: Commands,
asset_server: Res<AssetServer>,
mut meshes: ResMut<Assets<Mesh>>,
mut materials: ResMut<Assets<ColorMaterial>>,
) {
let material = materials.add(asset_server.load("branding/icon.png"));
commands.spawn(Camera2dBundle {
camera: Camera {
clear_color: ClearColorConfig::Custom(DARK_SLATE_GREY.into()),
..default()
},
..default()
});
const UPPER_Y: f32 = 50.0;
const LOWER_Y: f32 = -50.0;
const FIRST_X: f32 = -450.0;
const OFFSET: f32 = 100.0;
const NUM_SLICES: i32 = 8;
// This draws NUM_SLICES copies of the Bevy logo as circular sectors and segments,
// with successively larger angles up to a complete circle.
for i in 0..NUM_SLICES {
let fraction = (i + 1) as f32 / NUM_SLICES as f32;
let sector = CircularSector::from_turns(40.0, fraction);
// We want to rotate the circular sector so that the sectors appear clockwise from north.
// We must rotate it both in the Transform and in the mesh's UV mappings.
let sector_angle = -sector.half_angle();
let sector_mesh =
CircularSectorMeshBuilder::new(sector).uv_mode(CircularMeshUvMode::Mask {
angle: sector_angle,
});
commands.spawn((
MaterialMesh2dBundle {
mesh: meshes.add(sector_mesh).into(),
material: material.clone(),
transform: Transform {
translation: Vec3::new(FIRST_X + OFFSET * i as f32, 2.0 * UPPER_Y, 0.0),
rotation: Quat::from_rotation_z(sector_angle),
..default()
},
..default()
},
DrawBounds(sector),
));
let segment = CircularSegment::from_turns(40.0, fraction);
// For the circular segment, we will draw Bevy charging forward, which requires rotating the
// shape and texture by 90 degrees.
//
// Note that this may be unintuitive; it may feel like we should rotate the texture by the
// opposite angle to preserve the orientation of Bevy. But the angle is not the angle of the
// texture itself, rather it is the angle at which the vertices are mapped onto the texture.
// so it is the negative of what you might otherwise expect.
let segment_angle = -FRAC_PI_2;
let segment_mesh =
CircularSegmentMeshBuilder::new(segment).uv_mode(CircularMeshUvMode::Mask {
angle: -segment_angle,
});
commands.spawn((
MaterialMesh2dBundle {
mesh: meshes.add(segment_mesh).into(),
material: material.clone(),
transform: Transform {
translation: Vec3::new(FIRST_X + OFFSET * i as f32, LOWER_Y, 0.0),
rotation: Quat::from_rotation_z(segment_angle),
..default()
},
..default()
},
DrawBounds(segment),
));
}
}
fn draw_bounds<Shape: Bounded2d + Send + Sync + 'static>(
q: Query<(&DrawBounds<Shape>, &GlobalTransform)>,
mut gizmos: Gizmos,
) {
for (shape, transform) in &q {
let (_, rotation, translation) = transform.to_scale_rotation_translation();
let translation = translation.truncate();
let rotation = rotation.to_euler(EulerRot::XYZ).2;
Refactor Bounded2d/Bounded3d to use isometries (#14485) # Objective Previously, this area of bevy_math used raw translation and rotations to encode isometries, which did not exist earlier. The goal of this PR is to make the codebase of bevy_math more harmonious by using actual isometries (`Isometry2d`/`Isometry3d`) in these places instead — this will hopefully make the interfaces more digestible for end-users, in addition to facilitating conversions. For instance, together with the addition of #14478, this means that a bounding box for a collider with an isometric `Transform` can be computed as ```rust collider.aabb_3d(collider_transform.to_isometry()) ``` instead of using manual destructuring. ## Solution - The traits `Bounded2d` and `Bounded3d` now use `Isometry2d` and `Isometry3d` (respectively) instead of `translation` and `rotation` parameters; e.g.: ```rust /// A trait with methods that return 3D bounding volumes for a shape. pub trait Bounded3d { /// Get an axis-aligned bounding box for the shape translated and rotated by the given isometry. fn aabb_3d(&self, isometry: Isometry3d) -> Aabb3d; /// Get a bounding sphere for the shape translated and rotated by the given isometry. fn bounding_sphere(&self, isometry: Isometry3d) -> BoundingSphere; } ``` - Similarly, the `from_point_cloud` constructors for axis-aligned bounding boxes and bounding circles/spheres now take isometries instead of separate `translation` and `rotation`; e.g.: ```rust /// Computes the smallest [`Aabb3d`] containing the given set of points, /// transformed by the rotation and translation of the given isometry. /// /// # Panics /// /// Panics if the given set of points is empty. #[inline(always)] pub fn from_point_cloud( isometry: Isometry3d, points: impl Iterator<Item = impl Into<Vec3A>>, ) -> Aabb3d { //... } ``` This has a couple additional results: 1. The end-user no longer interacts directly with `Into<Vec3A>` or `Into<Rot2>` parameters; these conversions all happen earlier now, inside the isometry types. 2. Similarly, almost all intermediate `Vec3 -> Vec3A` conversions have been eliminated from the `Bounded3d` implementations for primitives. This probably has some performance benefit, but I have not measured it as of now. ## Testing Existing unit tests help ensure that nothing has been broken in the refactor. --- ## Migration Guide The `Bounded2d` and `Bounded3d` traits now take `Isometry2d` and `Isometry3d` parameters (respectively) instead of separate translation and rotation arguments. Existing calls to `aabb_2d`, `bounding_circle`, `aabb_3d`, and `bounding_sphere` will have to be changed to use isometries instead. A straightforward conversion is to refactor just by calling `Isometry2d/3d::new`, as follows: ```rust // Old: let aabb = my_shape.aabb_2d(my_translation, my_rotation); // New: let aabb = my_shape.aabb_2d(Isometry2d::new(my_translation, my_rotation)); ``` However, if the old translation and rotation are 3d translation/rotations originating from a `Transform` or `GlobalTransform`, then `to_isometry` may be used instead. For example: ```rust // Old: let bounding_sphere = my_shape.bounding_sphere(shape_transform.translation, shape_transform.rotation); // New: let bounding_sphere = my_shape.bounding_sphere(shape_transform.to_isometry()); ``` This discussion also applies to the `from_point_cloud` construction method of `Aabb2d`/`BoundingCircle`/`Aabb3d`/`BoundingSphere`, which has similarly been altered to use isometries.
2024-07-29 23:37:02 +00:00
let isometry = Isometry2d::new(translation, Rot2::radians(rotation));
New circular primitives: `Arc2d`, `CircularSector`, `CircularSegment` (#13482) # Objective Adopted #11748 ## Solution I've rebased on main to fix the merge conflicts. ~~Not quite ready to merge yet~~ * Clippy is happy and the tests are passing, but... * ~~The new shapes in `examples/2d/2d_shapes.rs` don't look right at all~~ Never mind, looks like radians and degrees just got mixed up at some point? * I have updated one doc comment based on a review in the original PR. --------- Co-authored-by: Alexis "spectria" Horizon <spectria.limina@gmail.com> Co-authored-by: Alexis "spectria" Horizon <118812919+spectria-limina@users.noreply.github.com> Co-authored-by: Joona Aalto <jondolf.dev@gmail.com> Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com> Co-authored-by: Ben Harper <ben@tukom.org>
2024-05-23 16:12:46 +00:00
Refactor Bounded2d/Bounded3d to use isometries (#14485) # Objective Previously, this area of bevy_math used raw translation and rotations to encode isometries, which did not exist earlier. The goal of this PR is to make the codebase of bevy_math more harmonious by using actual isometries (`Isometry2d`/`Isometry3d`) in these places instead — this will hopefully make the interfaces more digestible for end-users, in addition to facilitating conversions. For instance, together with the addition of #14478, this means that a bounding box for a collider with an isometric `Transform` can be computed as ```rust collider.aabb_3d(collider_transform.to_isometry()) ``` instead of using manual destructuring. ## Solution - The traits `Bounded2d` and `Bounded3d` now use `Isometry2d` and `Isometry3d` (respectively) instead of `translation` and `rotation` parameters; e.g.: ```rust /// A trait with methods that return 3D bounding volumes for a shape. pub trait Bounded3d { /// Get an axis-aligned bounding box for the shape translated and rotated by the given isometry. fn aabb_3d(&self, isometry: Isometry3d) -> Aabb3d; /// Get a bounding sphere for the shape translated and rotated by the given isometry. fn bounding_sphere(&self, isometry: Isometry3d) -> BoundingSphere; } ``` - Similarly, the `from_point_cloud` constructors for axis-aligned bounding boxes and bounding circles/spheres now take isometries instead of separate `translation` and `rotation`; e.g.: ```rust /// Computes the smallest [`Aabb3d`] containing the given set of points, /// transformed by the rotation and translation of the given isometry. /// /// # Panics /// /// Panics if the given set of points is empty. #[inline(always)] pub fn from_point_cloud( isometry: Isometry3d, points: impl Iterator<Item = impl Into<Vec3A>>, ) -> Aabb3d { //... } ``` This has a couple additional results: 1. The end-user no longer interacts directly with `Into<Vec3A>` or `Into<Rot2>` parameters; these conversions all happen earlier now, inside the isometry types. 2. Similarly, almost all intermediate `Vec3 -> Vec3A` conversions have been eliminated from the `Bounded3d` implementations for primitives. This probably has some performance benefit, but I have not measured it as of now. ## Testing Existing unit tests help ensure that nothing has been broken in the refactor. --- ## Migration Guide The `Bounded2d` and `Bounded3d` traits now take `Isometry2d` and `Isometry3d` parameters (respectively) instead of separate translation and rotation arguments. Existing calls to `aabb_2d`, `bounding_circle`, `aabb_3d`, and `bounding_sphere` will have to be changed to use isometries instead. A straightforward conversion is to refactor just by calling `Isometry2d/3d::new`, as follows: ```rust // Old: let aabb = my_shape.aabb_2d(my_translation, my_rotation); // New: let aabb = my_shape.aabb_2d(Isometry2d::new(my_translation, my_rotation)); ``` However, if the old translation and rotation are 3d translation/rotations originating from a `Transform` or `GlobalTransform`, then `to_isometry` may be used instead. For example: ```rust // Old: let bounding_sphere = my_shape.bounding_sphere(shape_transform.translation, shape_transform.rotation); // New: let bounding_sphere = my_shape.bounding_sphere(shape_transform.to_isometry()); ``` This discussion also applies to the `from_point_cloud` construction method of `Aabb2d`/`BoundingCircle`/`Aabb3d`/`BoundingSphere`, which has similarly been altered to use isometries.
2024-07-29 23:37:02 +00:00
let aabb = shape.0.aabb_2d(isometry);
Use `Isometry` in `bevy_gizmos` wherever we can (#14676) # Objective - Solves the last bullet in and closes #14319 - Make better use of the `Isometry` types - Prevent issues like #14655 - Probably simplify and clean up a lot of code through the use of Gizmos as well (i.e. the 3D gizmos for cylinders circles & lines don't connect well, probably due to wrong rotations) ## Solution - go through the `bevy_gizmos` crate and give all methods a slight workover ## Testing - For all the changed examples I run `git switch main && cargo rr --example <X> && git switch <BRANCH> && cargo rr --example <X>` and compare the visual results - Check if all doc tests are still compiling - Check the docs in general and update them !!! --- ## Migration Guide The gizmos methods function signature changes as follows: - 2D - if it took `position` & `rotation_angle` before -> `Isometry2d::new(position, Rot2::radians(rotation_angle))` - if it just took `position` before -> `Isometry2d::from_translation(position)` - 3D - if it took `position` & `rotation` before -> `Isometry3d::new(position, rotation)` - if it just took `position` before -> `Isometry3d::from_translation(position)`
2024-08-28 01:37:19 +00:00
gizmos.rect_2d(
Isometry2d::from_translation(aabb.center()),
aabb.half_size() * 2.0,
RED,
);
New circular primitives: `Arc2d`, `CircularSector`, `CircularSegment` (#13482) # Objective Adopted #11748 ## Solution I've rebased on main to fix the merge conflicts. ~~Not quite ready to merge yet~~ * Clippy is happy and the tests are passing, but... * ~~The new shapes in `examples/2d/2d_shapes.rs` don't look right at all~~ Never mind, looks like radians and degrees just got mixed up at some point? * I have updated one doc comment based on a review in the original PR. --------- Co-authored-by: Alexis "spectria" Horizon <spectria.limina@gmail.com> Co-authored-by: Alexis "spectria" Horizon <118812919+spectria-limina@users.noreply.github.com> Co-authored-by: Joona Aalto <jondolf.dev@gmail.com> Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com> Co-authored-by: Ben Harper <ben@tukom.org>
2024-05-23 16:12:46 +00:00
Refactor Bounded2d/Bounded3d to use isometries (#14485) # Objective Previously, this area of bevy_math used raw translation and rotations to encode isometries, which did not exist earlier. The goal of this PR is to make the codebase of bevy_math more harmonious by using actual isometries (`Isometry2d`/`Isometry3d`) in these places instead — this will hopefully make the interfaces more digestible for end-users, in addition to facilitating conversions. For instance, together with the addition of #14478, this means that a bounding box for a collider with an isometric `Transform` can be computed as ```rust collider.aabb_3d(collider_transform.to_isometry()) ``` instead of using manual destructuring. ## Solution - The traits `Bounded2d` and `Bounded3d` now use `Isometry2d` and `Isometry3d` (respectively) instead of `translation` and `rotation` parameters; e.g.: ```rust /// A trait with methods that return 3D bounding volumes for a shape. pub trait Bounded3d { /// Get an axis-aligned bounding box for the shape translated and rotated by the given isometry. fn aabb_3d(&self, isometry: Isometry3d) -> Aabb3d; /// Get a bounding sphere for the shape translated and rotated by the given isometry. fn bounding_sphere(&self, isometry: Isometry3d) -> BoundingSphere; } ``` - Similarly, the `from_point_cloud` constructors for axis-aligned bounding boxes and bounding circles/spheres now take isometries instead of separate `translation` and `rotation`; e.g.: ```rust /// Computes the smallest [`Aabb3d`] containing the given set of points, /// transformed by the rotation and translation of the given isometry. /// /// # Panics /// /// Panics if the given set of points is empty. #[inline(always)] pub fn from_point_cloud( isometry: Isometry3d, points: impl Iterator<Item = impl Into<Vec3A>>, ) -> Aabb3d { //... } ``` This has a couple additional results: 1. The end-user no longer interacts directly with `Into<Vec3A>` or `Into<Rot2>` parameters; these conversions all happen earlier now, inside the isometry types. 2. Similarly, almost all intermediate `Vec3 -> Vec3A` conversions have been eliminated from the `Bounded3d` implementations for primitives. This probably has some performance benefit, but I have not measured it as of now. ## Testing Existing unit tests help ensure that nothing has been broken in the refactor. --- ## Migration Guide The `Bounded2d` and `Bounded3d` traits now take `Isometry2d` and `Isometry3d` parameters (respectively) instead of separate translation and rotation arguments. Existing calls to `aabb_2d`, `bounding_circle`, `aabb_3d`, and `bounding_sphere` will have to be changed to use isometries instead. A straightforward conversion is to refactor just by calling `Isometry2d/3d::new`, as follows: ```rust // Old: let aabb = my_shape.aabb_2d(my_translation, my_rotation); // New: let aabb = my_shape.aabb_2d(Isometry2d::new(my_translation, my_rotation)); ``` However, if the old translation and rotation are 3d translation/rotations originating from a `Transform` or `GlobalTransform`, then `to_isometry` may be used instead. For example: ```rust // Old: let bounding_sphere = my_shape.bounding_sphere(shape_transform.translation, shape_transform.rotation); // New: let bounding_sphere = my_shape.bounding_sphere(shape_transform.to_isometry()); ``` This discussion also applies to the `from_point_cloud` construction method of `Aabb2d`/`BoundingCircle`/`Aabb3d`/`BoundingSphere`, which has similarly been altered to use isometries.
2024-07-29 23:37:02 +00:00
let bounding_circle = shape.0.bounding_circle(isometry);
Use `Isometry` in `bevy_gizmos` wherever we can (#14676) # Objective - Solves the last bullet in and closes #14319 - Make better use of the `Isometry` types - Prevent issues like #14655 - Probably simplify and clean up a lot of code through the use of Gizmos as well (i.e. the 3D gizmos for cylinders circles & lines don't connect well, probably due to wrong rotations) ## Solution - go through the `bevy_gizmos` crate and give all methods a slight workover ## Testing - For all the changed examples I run `git switch main && cargo rr --example <X> && git switch <BRANCH> && cargo rr --example <X>` and compare the visual results - Check if all doc tests are still compiling - Check the docs in general and update them !!! --- ## Migration Guide The gizmos methods function signature changes as follows: - 2D - if it took `position` & `rotation_angle` before -> `Isometry2d::new(position, Rot2::radians(rotation_angle))` - if it just took `position` before -> `Isometry2d::from_translation(position)` - 3D - if it took `position` & `rotation` before -> `Isometry3d::new(position, rotation)` - if it just took `position` before -> `Isometry3d::from_translation(position)`
2024-08-28 01:37:19 +00:00
gizmos.circle_2d(
Isometry2d::from_translation(bounding_circle.center),
bounding_circle.radius(),
BLUE,
);
New circular primitives: `Arc2d`, `CircularSector`, `CircularSegment` (#13482) # Objective Adopted #11748 ## Solution I've rebased on main to fix the merge conflicts. ~~Not quite ready to merge yet~~ * Clippy is happy and the tests are passing, but... * ~~The new shapes in `examples/2d/2d_shapes.rs` don't look right at all~~ Never mind, looks like radians and degrees just got mixed up at some point? * I have updated one doc comment based on a review in the original PR. --------- Co-authored-by: Alexis "spectria" Horizon <spectria.limina@gmail.com> Co-authored-by: Alexis "spectria" Horizon <118812919+spectria-limina@users.noreply.github.com> Co-authored-by: Joona Aalto <jondolf.dev@gmail.com> Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com> Co-authored-by: Ben Harper <ben@tukom.org>
2024-05-23 16:12:46 +00:00
}
}
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