strafe-client-jed/src/face_crawler.rs

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use crate::physics::Body;
use crate::model_physics::{FEV,MeshQuery,DirectedEdge};
use crate::integer::{Time,Planar64};
use crate::zeroes::zeroes2;
enum Transition<F,E:DirectedEdge,V>{
Miss,
Next(FEV<F,E,V>,Time),
Hit(F,Time),
}
fn next_transition<F:Copy,E:Copy+DirectedEdge,V:Copy>(fev:&FEV<F,E,V>,time:Time,mesh:&impl MeshQuery<F,E,V>,body:&Body,time_limit:Time)->Transition<F,E,V>{
//conflicting derivative means it crosses in the wrong direction.
//if the transition time is equal to an already tested transition, do not replace the current best.
let mut best_time=time_limit;
let mut best_transtition=Transition::Miss;
match fev{
&FEV::<F,E,V>::Face(face_id)=>{
//test own face collision time, ignoring roots with zero or conflicting derivative
//n=face.normal d=face.dot
//n.a t^2+n.v t+n.p-d==0
let (n,d)=mesh.face_nd(face_id);
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//TODO: use higher precision d value?
//use the mesh transform translation instead of baking it into the d value.
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for t in zeroes2((n.dot(body.position)-d)*2,n.dot(body.velocity)*2,n.dot(body.acceleration)){
let t=body.time+Time::from(t);
if time<=t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
best_time=t;
best_transtition=Transition::Hit(face_id,t);
break;
}
}
//test each edge collision time, ignoring roots with zero or conflicting derivative
for &directed_edge_id in mesh.face_edges(face_id).iter(){
let edge_n=mesh.directed_edge_n(directed_edge_id);
let n=n.cross(edge_n);
let verts=mesh.edge_verts(directed_edge_id.as_undirected());
//WARNING: d is moved out of the *2 block because of adding two vertices!
for t in zeroes2(n.dot(body.position*2-(mesh.vert(verts[0])+mesh.vert(verts[1]))),n.dot(body.velocity)*2,n.dot(body.acceleration)){
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let t=body.time+Time::from(t);
if time<=t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
best_time=t;
best_transtition=Transition::Next(FEV::<F,E,V>::Edge(directed_edge_id.as_undirected()),t);
break;
}
}
}
//if none:
},
&FEV::<F,E,V>::Edge(edge_id)=>{
//test each face collision time, ignoring roots with zero or conflicting derivative
let edge_n=mesh.edge_n(edge_id);
let edge_verts=mesh.edge_verts(edge_id);
let delta_pos=body.position*2-(mesh.vert(edge_verts[0])+mesh.vert(edge_verts[1]));
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for (i,&edge_face_id) in mesh.edge_faces(edge_id).iter().enumerate(){
let face_n=mesh.face_nd(edge_face_id).0;
//edge_n gets parity from the order of edge_faces
let n=face_n.cross(edge_n)*((i as i64)*2-1);
//WARNING yada yada d *2
for t in zeroes2(n.dot(delta_pos),n.dot(body.velocity)*2,n.dot(body.acceleration)){
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let t=body.time+Time::from(t);
if time<=t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
best_time=t;
best_transtition=Transition::Next(FEV::<F,E,V>::Face(edge_face_id),t);
break;
}
}
}
//test each vertex collision time, ignoring roots with zero or conflicting derivative
for (i,&vert_id) in edge_verts.iter().enumerate(){
//vertex normal gets parity from vert index
let n=edge_n*(1-2*(i as i64));
for t in zeroes2((n.dot(body.position-mesh.vert(vert_id)))*2,n.dot(body.velocity)*2,n.dot(body.acceleration)){
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let t=body.time+Time::from(t);
if time<=t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
best_time=t;
best_transtition=Transition::Next(FEV::<F,E,V>::Vert(vert_id),t);
break;
}
}
}
//if none:
},
&FEV::<F,E,V>::Vert(vert_id)=>{
//test each edge collision time, ignoring roots with zero or conflicting derivative
for &directed_edge_id in mesh.vert_edges(vert_id).iter(){
//edge is directed away from vertex, but we want the dot product to turn out negative
let n=-mesh.directed_edge_n(directed_edge_id);
for t in zeroes2((n.dot(body.position-mesh.vert(vert_id)))*2,n.dot(body.velocity)*2,n.dot(body.acceleration)){
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let t=body.time+Time::from(t);
if time<=t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
best_time=t;
best_transtition=Transition::Next(FEV::<F,E,V>::Edge(directed_edge_id.as_undirected()),t);
break;
}
}
}
//if none:
},
}
best_transtition
}
pub enum CrawlResult<F,E:DirectedEdge,V>{
Miss(FEV<F,E,V>),
Hit(F,Time),
}
pub fn crawl_fev<F:Copy,E:Copy+DirectedEdge,V:Copy>(mut fev:FEV<F,E,V>,mesh:&impl MeshQuery<F,E,V>,relative_body:&Body,start_time:Time,time_limit:Time)->CrawlResult<F,E,V>{
let mut time=start_time;
for _ in 0..20{
match next_transition(&fev,time,mesh,relative_body,time_limit){
Transition::Miss=>return CrawlResult::Miss(fev),
Transition::Next(next_fev,next_time)=>(fev,time)=(next_fev,next_time),
Transition::Hit(face,time)=>return CrawlResult::Hit(face,time),
}
}
//TODO: fix all bugs
println!("Too many iterations! Using default behaviour instead of crashing...");
CrawlResult::Miss(fev)
}