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0e13b1ca5e
bevy/examples/math/random_sampling.rs
Martín Maita f237cf2441
Updates default Text font size to 24px (#13603) 
# Objective

- The default font size is too small to be useful in examples or for
debug text.
- Fixes #13587

## Solution

- Updated the default font size value in `TextStyle` from 12px to 24px.
- Resorted to Text defaults in examples to use the default font size in
most of them.

## Testing

- WIP

---

## Migration Guide

- The default font size has been increased to 24px from 12px. Make sure
you set the font to the appropriate values in places you were using
`Default` text style.
2024-05-31 16:41:27 +00:00

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//! This example shows how to sample random points from primitive shapes.
use bevy::{
input::mouse::{MouseButtonInput, MouseMotion},
math::prelude::*,
prelude::*,
render::mesh::SphereKind,
};
use rand::{distributions::Distribution, SeedableRng};
use rand_chacha::ChaCha8Rng;
fn main() {
App::new()
.add_plugins(DefaultPlugins)
.add_systems(Startup, setup)
.add_systems(Update, (handle_mouse, handle_keypress))
.run();
}
/// Resource for the random sampling mode, telling whether to sample the interior or the boundary.
#[derive(Resource)]
enum Mode {
Interior,
Boundary,
}
/// Resource storing the shape being sampled.
#[derive(Resource)]
struct SampledShape(Cuboid);
/// The source of randomness used by this example.
#[derive(Resource)]
struct RandomSource(ChaCha8Rng);
/// A container for the handle storing the mesh used to display sampled points as spheres.
#[derive(Resource)]
struct PointMesh(Handle<Mesh>);
/// A container for the handle storing the material used to display sampled points.
#[derive(Resource)]
struct PointMaterial(Handle<StandardMaterial>);
/// Marker component for sampled points.
#[derive(Component)]
struct SamplePoint;
/// The pressed state of the mouse, used for camera motion.
#[derive(Resource)]
struct MousePressed(bool);
fn setup(
mut commands: Commands,
mut meshes: ResMut<Assets<Mesh>>,
mut materials: ResMut<Assets<StandardMaterial>>,
) {
// Use seeded rng and store it in a resource; this makes the random output reproducible.
let seeded_rng = ChaCha8Rng::seed_from_u64(19878367467712);
commands.insert_resource(RandomSource(seeded_rng));
// Make a plane for establishing space.
commands.spawn(PbrBundle {
mesh: meshes.add(Plane3d::default().mesh().size(12.0, 12.0)),
material: materials.add(Color::srgb(0.3, 0.5, 0.3)),
transform: Transform::from_xyz(0.0, -2.5, 0.0),
..default()
});
// Store the shape we sample from in a resource:
let shape = Cuboid::from_length(2.9);
commands.insert_resource(SampledShape(shape));
// The sampled shape shown transparently:
commands.spawn(PbrBundle {
mesh: meshes.add(shape),
material: materials.add(StandardMaterial {
base_color: Color::srgba(0.2, 0.1, 0.6, 0.3),
alpha_mode: AlphaMode::Blend,
cull_mode: None,
..default()
}),
..default()
});
// A light:
commands.spawn(PointLightBundle {
point_light: PointLight {
shadows_enabled: true,
..default()
},
transform: Transform::from_xyz(4.0, 8.0, 4.0),
..default()
});
// A camera:
commands.spawn(Camera3dBundle {
transform: Transform::from_xyz(-2.0, 3.0, 5.0).looking_at(Vec3::ZERO, Vec3::Y),
..default()
});
// Store the mesh and material for sample points in resources:
commands.insert_resource(PointMesh(
meshes.add(
Sphere::new(0.03)
.mesh()
.kind(SphereKind::Ico { subdivisions: 3 }),
),
));
commands.insert_resource(PointMaterial(materials.add(StandardMaterial {
base_color: Color::srgb(1.0, 0.8, 0.8),
metallic: 0.8,
..default()
})));
// Instructions for the example:
commands.spawn(
TextBundle::from_section(
"Controls:\n\
M: Toggle between sampling boundary and interior.\n\
R: Restart (erase all samples).\n\
S: Add one random sample.\n\
D: Add 100 random samples.\n\
Rotate camera by panning left/right.",
TextStyle::default(),
)
.with_style(Style {
position_type: PositionType::Absolute,
top: Val::Px(12.0),
left: Val::Px(12.0),
..default()
}),
);
// The mode starts with interior points.
commands.insert_resource(Mode::Interior);
// Starting mouse-pressed state is false.
commands.insert_resource(MousePressed(false));
}
// Handle user inputs from the keyboard:
#[allow(clippy::too_many_arguments)]
fn handle_keypress(
mut commands: Commands,
keyboard: Res<ButtonInput<KeyCode>>,
mut mode: ResMut<Mode>,
shape: Res<SampledShape>,
mut random_source: ResMut<RandomSource>,
sample_mesh: Res<PointMesh>,
sample_material: Res<PointMaterial>,
samples: Query<Entity, With<SamplePoint>>,
) {
// R => restart, deleting all samples
if keyboard.just_pressed(KeyCode::KeyR) {
for entity in &samples {
commands.entity(entity).despawn();
}
}
// S => sample once
if keyboard.just_pressed(KeyCode::KeyS) {
let rng = &mut random_source.0;
// Get a single random Vec3:
let sample: Vec3 = match *mode {
Mode::Interior => shape.0.sample_interior(rng),
Mode::Boundary => shape.0.sample_boundary(rng),
};
// Spawn a sphere at the random location:
commands.spawn((
PbrBundle {
mesh: sample_mesh.0.clone(),
material: sample_material.0.clone(),
transform: Transform::from_translation(sample),
..default()
},
SamplePoint,
));
// NOTE: The point is inside the cube created at setup just because of how the
// scene is constructed; in general, you would want to use something like
// `cube_transform.transform_point(sample)` to get the position of where the sample
// would be after adjusting for the position and orientation of the cube.
//
// If the spawned point also needed to follow the position of the cube as it moved,
// then making it a child entity of the cube would be a good approach.
}
// D => generate many samples
if keyboard.just_pressed(KeyCode::KeyD) {
let mut rng = &mut random_source.0;
// Get 100 random Vec3s:
let samples: Vec<Vec3> = match *mode {
Mode::Interior => {
let dist = shape.0.interior_dist();
dist.sample_iter(&mut rng).take(100).collect()
}
Mode::Boundary => {
let dist = shape.0.boundary_dist();
dist.sample_iter(&mut rng).take(100).collect()
}
};
// For each sample point, spawn a sphere:
for sample in samples {
commands.spawn((
PbrBundle {
mesh: sample_mesh.0.clone(),
material: sample_material.0.clone(),
transform: Transform::from_translation(sample),
..default()
},
SamplePoint,
));
}
// NOTE: See the previous note above regarding the positioning of these samples
// relative to the transform of the cube containing them.
}
// M => toggle mode between interior and boundary.
if keyboard.just_pressed(KeyCode::KeyM) {
match *mode {
Mode::Interior => *mode = Mode::Boundary,
Mode::Boundary => *mode = Mode::Interior,
}
}
}
// Handle user mouse input for panning the camera around:
fn handle_mouse(
mut button_events: EventReader<MouseButtonInput>,
mut motion_events: EventReader<MouseMotion>,
mut camera: Query<&mut Transform, With<Camera>>,
mut mouse_pressed: ResMut<MousePressed>,
) {
// Store left-pressed state in the MousePressed resource
for button_event in button_events.read() {
if button_event.button != MouseButton::Left {
continue;
}
*mouse_pressed = MousePressed(button_event.state.is_pressed());
}
// If the mouse is not pressed, just ignore motion events
if !mouse_pressed.0 {
return;
}
let displacement: f32 = motion_events.read().map(|motion| motion.delta.x).sum();
let mut camera_transform = camera.single_mut();
camera_transform.rotate_around(Vec3::ZERO, Quat::from_rotation_y(-displacement / 150.));
}
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