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Copy in physics functions from a 2018 project

main
_ 2020-03-26 01:27:26 +00:00
parent 1c4edfbcd1
commit 198254aa79
5 changed files with 347 additions and 0 deletions
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7
Cargo.lock generated
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@ -212,11 +212,17 @@ dependencies = [
"iota 0.2.1 (registry+https://github.com/rust-lang/crates.io-index)",
"maplit 1.0.2 (registry+https://github.com/rust-lang/crates.io-index)",
"nom 5.1.0 (registry+https://github.com/rust-lang/crates.io-index)",
"partial-min-max 0.4.0 (registry+https://github.com/rust-lang/crates.io-index)",
"png 0.15.3 (registry+https://github.com/rust-lang/crates.io-index)",
"rand 0.6.5 (registry+https://github.com/rust-lang/crates.io-index)",
"sdl2 0.32.2 (registry+https://github.com/rust-lang/crates.io-index)",
]
[[package]]
name = "partial-min-max"
version = "0.4.0"
source = "registry+https://github.com/rust-lang/crates.io-index"
[[package]]
name = "png"
version = "0.15.3"
@ -444,6 +450,7 @@ source = "registry+https://github.com/rust-lang/crates.io-index"
"checksum num-integer 0.1.41 (registry+https://github.com/rust-lang/crates.io-index)" = "b85e541ef8255f6cf42bbfe4ef361305c6c135d10919ecc26126c4e5ae94bc09"
"checksum num-iter 0.1.39 (registry+https://github.com/rust-lang/crates.io-index)" = "76bd5272412d173d6bf9afdf98db8612bbabc9a7a830b7bfc9c188911716132e"
"checksum num-traits 0.2.10 (registry+https://github.com/rust-lang/crates.io-index)" = "d4c81ffc11c212fa327657cb19dd85eb7419e163b5b076bede2bdb5c974c07e4"
"checksum partial-min-max 0.4.0 (registry+https://github.com/rust-lang/crates.io-index)" = "6448add382c60bbbc64f9dab41309a12ec530c05191601042f911356ac09758c"
"checksum png 0.15.3 (registry+https://github.com/rust-lang/crates.io-index)" = "ef859a23054bbfee7811284275ae522f0434a3c8e7f4b74bd4a35ae7e1c4a283"
"checksum rand 0.6.5 (registry+https://github.com/rust-lang/crates.io-index)" = "6d71dacdc3c88c1fde3885a3be3fbab9f35724e6ce99467f7d9c5026132184ca"
"checksum rand_chacha 0.1.1 (registry+https://github.com/rust-lang/crates.io-index)" = "556d3a1ca6600bfcbab7c7c91ccb085ac7fbbcd70e008a98742e7847f4f7bcef"

1
Cargo.toml
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@ -19,6 +19,7 @@ maplit = "1.0.2"
# TODO: Drop nom depend. It's way overkill for iqm.
nom = "5.1.0"
partial-min-max = "0.4.0"
png = "0.15.3"
rand = "0.6.5"
sdl2 = "0.32.2"

4
src/bin/racing-game.rs Normal file
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@ -0,0 +1,4 @@
fn main () {
println! ("Racing game.");
}

1
src/lib.rs
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@ -9,6 +9,7 @@ pub mod glezz;
pub mod gl_state;
pub mod gpu_buffers;
pub mod iqm;
pub mod physics;
pub mod renderable_model;
pub mod shader;
pub mod shader_closure;

334
src/physics.rs Normal file
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@ -0,0 +1,334 @@
use glam::{Vec2, Vec3};
use partial_min_max::{min, max};
pub struct PhysicsBody {
pos: Vec3,
vel: Vec3,
}
pub struct PhysicsResult {
body: PhysicsBody,
triangles_hit: Vec <usize>,
kill: bool,
}
pub struct Triangle {
verts: [Vec3; 3],
}
pub trait MeshBuffer {
fn num_triangles (&self) -> usize;
fn get_triangle (&self, i: usize) -> Triangle;
}
fn vec_min (a: &Vec3, b: &Vec3) -> Vec3 {
Vec3::from ((
min (a.x (), b.x ()),
min (a.y (), b.y ()),
min (a.z (), b.z ())
))
}
fn vec_max (a: &Vec3, b: &Vec3) -> Vec3 {
Vec3::from ((
max (a.x (), b.x ()),
max (a.y (), b.y ()),
max (a.z (), b.z ())
))
}
impl Triangle {
pub fn min (&self) -> Vec3 {
self.verts [1..].iter ().fold (
self.verts [0],
|pre, v| vec_min (&pre, v)
)
}
pub fn max (&self) -> Vec3 {
self.verts [1..].iter ().fold (
self.verts [0],
|pre, v| vec_max (&pre, v)
)
}
}
#[derive (Clone)]
pub struct Collision {
t: f32,
p_impact: Vec3,
normal: Vec3,
i: usize,
}
impl Collision {
pub fn take_if_closer (&self, o: &Self) -> Self {
if o.t < self.t && o.t >= 0.0 {
o.clone ()
}
else {
self.clone ()
}
}
}
pub fn get_candidate <MB> (world: &MB, p0: Vec3, p1: Vec3)
-> Collision
where MB: MeshBuffer
{
let radius = 0.0625f32;
let radius3 = Vec3::from ((
radius,
radius,
radius
));
let v = p1 - p0;
let mut candidate = Collision {
t: 2.0,
p_impact: Default::default (),
normal: Default::default (),
i: 0,
};
for i in 0..world.num_triangles () {
let tri = world.get_triangle (i);
let tri_min = tri.min () - radius3;
let tri_max = tri.max () + radius3;
let ray_min = min (p0, p1);
let ray_max = max (p0, p1);
if
ray_max.x () < tri_min.x () || ray_min.x () > tri_max.x () ||
ray_max.y () < tri_min.y () || ray_min.y () > tri_max.y () ||
ray_max.z () < tri_min.z () || ray_min.z () > tri_max.z ()
{
// AABB reject
continue;
}
// Collision for each triangle is roughly split into:
// Face collisions
// Edge collisions
// Vertex collisions
let normal = Vec3::cross (tri.verts [2] - tri.verts [1], tri.verts [1] - tri.verts [0]).normalize ();
let speed_towards_face = -Vec3::dot (v, normal);
// Face collisions
if speed_towards_face >= 0.0 {
let distance_to_face0 = Vec3::dot (normal, p0 - tri.verts [0]) - radius;
let distance_to_face1 = Vec3::dot (normal, p1 - tri.verts [0]) - radius;
let passed_plane = distance_to_face0 > 0.0 && distance_to_face1 < 0.0;
if passed_plane {
let t = distance_to_face0 / (distance_to_face0 - distance_to_face1);
// Because of previous early returns we know that 0.0 < t < 1.0
let p_impact = p0 * (1.0 - t) + p1 * (t);
let impact_inside_tri = (|| {
for j in 0..3 {
let a = tri.verts [j];
let b = tri.verts [(j + 1) % 3];
let tangent = Vec3::cross (b - a, normal);
if Vec3::dot (tangent, p_impact - a) < 0.0 {
return false;
}
}
true
})();
if impact_inside_tri {
// Stop it
let c = Collision {
t,
p_impact,
normal,
i,
};
candidate = candidate.take_if_closer (&c);
// goto triangle_collided
}
}
}
// Edge collisions
let ray_dir = (p1 - p0).normalize ();
for j in 0..3 {
let a = tri.verts [j];
let b = tri.verts [(j + 1) % 3];
let cylinder_axis = (b - a).normalize ();
let third_axis = Vec3::cross (cylinder_axis, ray_dir).normalize ();
let perp_ray_axis = Vec3::cross (third_axis, cylinder_axis);
let into_triangle = Vec3::cross (cylinder_axis, normal);
let a_minus_p0 = a - p0;
let a_ray = Vec2::from ((
Vec3::dot (a_minus_p0, perp_ray_axis),
Vec3::dot (a_minus_p0, third_axis)
));
// a_ray is now in a space where X is the ray's t,
// Z is the cylinder axis (and irrelevant for now),
// and Y is the cross of those.
// I forgot the maths word for this
let discriminant = radius * radius - a_ray.y () * a_ray.y ();
if discriminant < 0.0 {
// No possible collision
continue;
}
let t = (a_ray.x () - discriminant.sqrt ()) / (p1 - p0).length ();
if t < 0.0 || t > 1.0 {
// The cylinder is along the line,
// but outside the line segment
//triangles_hit.push_back (i);
continue;
}
let p_impact = p0 * (1.0 - t) + p1 * (t);
let impact_along_cylinder = Vec3::dot (cylinder_axis, p_impact);
let a_along_cylinder = Vec3::dot (cylinder_axis, a);
if impact_along_cylinder < a_along_cylinder || impact_along_cylinder > Vec3::dot (cylinder_axis, b)
{
// The infinite cylinder is on the line segment,
// but the finite cylinder is not.
//cout << "Finite cylinder reject" << endl;
continue;
}
let edge_normal = (p_impact - (a + (impact_along_cylinder - a_along_cylinder) * cylinder_axis)).normalize ();
let speed_towards_edge = -Vec3::dot (v, edge_normal);
let speed_into_triangle = Vec3::dot (v, into_triangle);
if speed_towards_edge > 0.0 && speed_into_triangle >= 0.0 {
let c = Collision {
t,
p_impact,
normal: edge_normal,
i,
};
candidate = candidate.take_if_closer (&c);
}
}
// Vertex collisions
for j in 0..3 {
let a = tri.verts [j];
let a_minus_p0 = a - p0;
let a_ray_x = Vec3::dot (a_minus_p0, ray_dir);
let nearest_on_ray = p0 + a_ray_x * ray_dir;
let a_ray_y = (a - nearest_on_ray).length ();
let discriminant = radius * radius - a_ray_y * a_ray_y;
if discriminant < 0.0 {
// The sphere is not on the line
continue;
}
let t = (a_ray_x - discriminant.sqrt ()) / (p1 - p0).length ();
if t < 0.0 || t > 1.0 {
// The sphere is along the line,
// but outside the line segment
continue;
}
let p_impact = p0 * (1.0 - t) + p1 * (t);
let vert_normal = (p_impact - a).normalize ();
// I skip the speed check here cause I'm pretty sure
// the previous work makes it redundant
let c = Collision {
t,
p_impact,
normal: vert_normal,
i,
};
candidate = candidate.take_if_closer (&c);
}
}
candidate
}
pub fn physics_step <MB> (input: &PhysicsBody, world: &MB)
-> PhysicsResult
where MB: MeshBuffer
{
let dt = 1.0 / 60.0;
let z = Vec3::from ((0.0, 0.0, 1.0));
let gravity = z * -16.0 * dt;
let margin = 0.00125;
let mut t_remaining = 1.0;
let mut old_pos = input.pos;
let mut new_vel = input.vel + gravity;
let mut new_pos = old_pos + new_vel * dt * t_remaining;
let mut triangles_hit = Vec::new ();
for i in 0..5 {
let candidate = get_candidate (world, old_pos, new_pos);
if candidate.t <= 1.0 {
t_remaining *= 1.0 - candidate.t;
let speed_towards_normal = -Vec3::dot (new_vel, candidate.normal);
let push_out_pos = candidate.p_impact + candidate.normal * margin;
// Rewind the object to when it hit the margin
let speed = new_vel.length ();
let dir = new_vel / speed;
old_pos = candidate.p_impact + dir * margin / Vec3::dot (candidate.normal, dir);
// Push the object out of the triangle along the normal
new_vel += candidate.normal * speed_towards_normal;
// But also compensate for the slide distance it lost
new_pos = push_out_pos + new_vel * dt * t_remaining;
}
else {
t_remaining = 0.0;
old_pos = new_pos;
break;
}
}
PhysicsResult {
body: PhysicsBody {
pos: old_pos,
vel: new_vel,
},
triangles_hit,
kill: false,
}
}