implement final algorithm with infinity tech
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@ -9,7 +9,7 @@ enum Transition<F,E:DirectedEdge,V>{
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Hit(F,Time),
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Hit(F,Time),
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}
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}
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pub fn next_transition_body<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>{
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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>{
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//conflicting derivative means it crosses in the wrong direction.
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//conflicting derivative means it crosses in the wrong direction.
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//if the transition time is equal to an already tested transition, do not replace the current best.
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//if the transition time is equal to an already tested transition, do not replace the current best.
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let mut best_time=time_limit;
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let mut best_time=time_limit;
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@ -101,13 +101,27 @@ enum Transition<F,E:DirectedEdge,V>{
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}
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}
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best_transtition
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best_transtition
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}
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}
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pub fn crawl_fev_body<F:Copy,E:Copy+DirectedEdge,V:Copy>(mut fev:FEV<F,E,V>,mesh:&impl MeshQuery<F,E,V>,relative_body:&Body,time_limit:Time)->Option<(F,Time)>{
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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,time_limit:Time)->Option<(F,Time)>{
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let mut time=relative_body.time;
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let mut time=relative_body.time;
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loop{
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loop{
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match next_transition_body(&fev,time,mesh,relative_body,time_limit){
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match next_transition(&fev,time,mesh,relative_body,time_limit){
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Transition::Miss=>return None,
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Transition::Miss=>return None,
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Transition::Next(next_fev,next_time)=>(fev,time)=(next_fev,next_time),
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Transition::Next(next_fev,next_time)=>(fev,time)=(next_fev,next_time),
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Transition::Hit(face,time)=>return Some((face,time)),
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Transition::Hit(face,time)=>return Some((face,time)),
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}
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}
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}
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}
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}
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}
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pub enum CrawlResult<F,E:DirectedEdge,V>{
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Closest(FEV<F,E,V>),
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Hit(F,Time),
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}
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pub fn crawl_fev_from_negative_infinity<F:Copy,E:Copy+DirectedEdge,V:Copy>(mut fev:FEV<F,E,V>,mesh:&impl MeshQuery<F,E,V>,relative_body:&Body)->CrawlResult<F,E,V>{
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let mut time=Time::MIN;
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loop{
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match next_transition(&fev,time,mesh,relative_body,relative_body.time){
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Transition::Miss=>return CrawlResult::Closest(fev),
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Transition::Next(next_fev,next_time)=>(fev,time)=(next_fev,next_time),
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Transition::Hit(face,time)=>return CrawlResult::Hit(face,time),//algorithm breaks down inside without full fat voronoi
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}
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}
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}
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@ -2,6 +2,8 @@
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#[derive(Clone,Copy,Hash,Eq,PartialEq,PartialOrd,Debug)]
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#[derive(Clone,Copy,Hash,Eq,PartialEq,PartialOrd,Debug)]
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pub struct Time(i64);
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pub struct Time(i64);
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impl Time{
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impl Time{
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pub const MIN:Self=Self(i64::MIN);
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pub const MAX:Self=Self(i64::MAX);
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pub const ZERO:Self=Self(0);
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pub const ZERO:Self=Self(0);
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pub const ONE_SECOND:Self=Self(1_000_000_000);
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pub const ONE_SECOND:Self=Self(1_000_000_000);
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pub const ONE_MILLISECOND:Self=Self(1_000_000);
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pub const ONE_MILLISECOND:Self=Self(1_000_000);
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@ -352,15 +352,23 @@ impl MinkowskiMesh<'_>{
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fn farthest_vert(&self,dir:Planar64Vec3)->MinkowskiVert{
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fn farthest_vert(&self,dir:Planar64Vec3)->MinkowskiVert{
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MinkowskiVert::VertVert(self.mesh0.farthest_vert(dir),self.mesh1.farthest_vert(-dir))
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MinkowskiVert::VertVert(self.mesh0.farthest_vert(dir),self.mesh1.farthest_vert(-dir))
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}
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}
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fn closest_fev(&self,point:Planar64Vec3)->FEV<MinkowskiFace,MinkowskiDirectedEdge,MinkowskiVert>{
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//put some genius code right here instead of this
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//assume that point is outside the mesh and nonzero
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//find vertex on mesh0 farthest in point direction
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let fev=FEV::<MinkowskiFace,MinkowskiDirectedEdge,MinkowskiVert>::Vert(self.farthest_vert(point));
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crate::face_crawler::crawl_fev_dot(fev,self,point)
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}
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pub fn predict_collision_in(&self,relative_body:&crate::physics::Body,time_limit:crate::integer::Time)->Option<(MinkowskiFace,crate::integer::Time)>{
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pub fn predict_collision_in(&self,relative_body:&crate::physics::Body,time_limit:crate::integer::Time)->Option<(MinkowskiFace,crate::integer::Time)>{
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crate::face_crawler::crawl_fev_body(self.closest_fev(relative_body.position),self,relative_body,time_limit)
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let start_vert=FEV::<MinkowskiFace,MinkowskiDirectedEdge,MinkowskiVert>::Vert(self.farthest_vert((-relative_body.clone()).infinity_dir()));
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match crate::face_crawler::crawl_fev_from_negative_infinity(start_vert,self,relative_body){
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crate::face_crawler::CrawlResult::Closest(fev)=>{
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crate::face_crawler::crawl_fev(fev,self,relative_body,time_limit)
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},
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crate::face_crawler::CrawlResult::Hit(_,_)=>None,//already in or passed
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}
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}
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pub fn predict_collision_out(&self,relative_body:&crate::physics::Body,time_limit:crate::integer::Time)->Option<(MinkowskiFace,crate::integer::Time)>{
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let start_vert=FEV::<MinkowskiFace,MinkowskiDirectedEdge,MinkowskiVert>::Vert(self.farthest_vert(relative_body.infinity_dir()));
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match crate::face_crawler::crawl_fev_from_negative_infinity(start_vert,self,&-relative_body.clone()){
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crate::face_crawler::CrawlResult::Closest(fev)=>{
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crate::face_crawler::crawl_fev(fev,self,&-relative_body.clone(),-time_limit).map(|t|(t.0,-t.1))
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},
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crate::face_crawler::CrawlResult::Hit(face,time)=>Some((face,-time)),
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}
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}
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}
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pub fn predict_collision_face_out(&self,relative_body:&crate::physics::Body,time_limit:crate::integer::Time,contact_face_id:MinkowskiFace)->Option<(MinkowskiEdge,crate::integer::Time)>{
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pub fn predict_collision_face_out(&self,relative_body:&crate::physics::Body,time_limit:crate::integer::Time,contact_face_id:MinkowskiFace)->Option<(MinkowskiEdge,crate::integer::Time)>{
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//no algorithm needed, there is only one state and two cases (Edge,None)
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//no algorithm needed, there is only one state and two cases (Edge,None)
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@ -43,6 +43,17 @@ pub struct Body{
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pub acceleration:Planar64Vec3,//I64 where 2^32 = 1 u/s/s
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pub acceleration:Planar64Vec3,//I64 where 2^32 = 1 u/s/s
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pub time:Time,//nanoseconds x xxxxD!
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pub time:Time,//nanoseconds x xxxxD!
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}
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}
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impl std::ops::Neg for Body{
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type Output=Self;
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fn neg(self)->Self::Output{
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Self{
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position:self.position,
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velocity:-self.velocity,
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acceleration:self.acceleration,
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time:-self.time,
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}
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}
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}
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//hey dumbass just use a delta
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//hey dumbass just use a delta
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#[derive(Clone,Debug)]
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#[derive(Clone,Debug)]
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@ -955,6 +966,13 @@ impl Body{
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self.velocity=self.extrapolated_velocity(time);
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self.velocity=self.extrapolated_velocity(time);
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self.time=time;
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self.time=time;
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}
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}
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pub fn infinity_dir(&self)->Planar64Vec3{
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if self.acceleration==Planar64Vec3::ZERO{
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self.velocity
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}else{
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self.acceleration
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}
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}
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}
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}
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impl std::fmt::Display for Body{
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impl std::fmt::Display for Body{
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fn fmt(&self,f:&mut std::fmt::Formatter<'_>)->std::fmt::Result{
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fn fmt(&self,f:&mut std::fmt::Formatter<'_>)->std::fmt::Result{
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