face crawler work
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@ -1,5 +1,5 @@
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use crate::physics::Body;
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use crate::physics::Body;
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use crate::integer::Time;
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use crate::integer::{Time,Planar64Vec3};
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struct VertexId(usize);
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struct VertexId(usize);
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struct EdgeId(usize);
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struct EdgeId(usize);
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@ -24,24 +24,31 @@ enum Transition{
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}
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}
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impl State{
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impl State{
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fn next_transition(&self,mesh:&VirtualMesh,time_limit:Time)->Transition{
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fn next_transition(&self,mesh:&VirtualMesh,body:&Body,time_limit:Time)->Transition{
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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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match self.fev{
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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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match &self.fev{
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FEV::Face(face_id)=>{
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FEV::Face(face_id)=>{
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//test own face collision time
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//test own face collision time, ignoring edges with zero or conflicting derivative
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//test each edge collision time, ignoring edges with zero or conflicting derivative
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//test each edge collision time, ignoring edges with zero or conflicting derivative
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//if face: return (Face,Time)
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//if face: Transition::Hit(Face,Time)
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//if edge: goto edge
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//if edge: Transition::NextState(State{time,fev:FEV::Edge(edge_id)})
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//if none:
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Transition::Miss
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},
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},
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FEV::Edge(edge_id)=>{
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FEV::Edge(edge_id)=>{
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//test each face collision time, ignoring faces with zero or conflicting derivative
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//test each face collision time, ignoring faces with zero or conflicting derivative
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//test each vertex collision time, ignoring vertices with zero or conflicting derivative
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//test each vertex collision time, ignoring vertices with zero or conflicting derivative
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//if face: goto face
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//if face: Transition::NextState(State{time,fev:FEV::Face(face_id)})
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//if vertex: goto vertex
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//if vert: Transition::NextState(State{time,fev:FEV::Vertex(vertex_id)})
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//if none:
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Transition::Miss
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},
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},
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FEV::Vertex(vertex_id)=>{
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FEV::Vertex(vertex_id)=>{
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//test each edge collision time, ignoring edges with zero or conflicting derivative
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//test each edge collision time, ignoring edges with zero or conflicting derivative
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//goto edge
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//if some: Transition::NextState(State{time,fev:FEV::Edge(edge_id)})
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//if none:
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Transition::Miss
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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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@ -52,24 +59,30 @@ impl State{
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//(edge,edge)
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//(edge,edge)
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//(vertex,face)
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//(vertex,face)
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struct VirtualMesh{
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struct VirtualMesh<'a>{
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//???
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mesh0:&'a PhysicsMesh,
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mesh1:&'a PhysicsMesh,
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}
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}
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impl VirtualMesh{
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impl VirtualMesh<'_>{
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pub fn minkowski_sum(mesh0:&PhysicsMesh,mesh1:&PhysicsMesh)->Self{
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pub fn minkowski_sum<'a>(mesh0:&PhysicsMesh,mesh1:&PhysicsMesh)->VirtualMesh<'a>{
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//?????
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Self{
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mesh0,
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mesh1,
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}
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}
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}
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pub fn predict_collision(&self,body:&Body,time:Time,time_limit:Time)->Option<(FaceId,Time)>{
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fn closest_fev(&self,point:Planar64Vec3)->FEV{
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//mesh.closest_point returns if the point is on a face, edge or vertex
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//put some genius code right here
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let (point,fev)=self.closest_point(body.extrapolated_position(time));
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todo!()
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}
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pub fn predict_collision(&self,relative_body:&Body,time_limit:Time)->Option<(FaceId,Time)>{
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let mut state=State{
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let mut state=State{
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time,
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time:relative_body.time,
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fev,
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fev:self.closest_fev(relative_body.position),
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};
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};
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//it would be possible to write down the point of closest approach...
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//it would be possible to write down the point of closest approach...
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loop{
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loop{
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match state.next_transition(self,time_limit){
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match state.next_transition(self,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::NextState(next_state)=>state=next_state,
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Transition::NextState(next_state)=>state=next_state,
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Transition::Hit(hit_face,hit_time)=>return Some((hit_face,hit_time)),
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Transition::Hit(hit_face,hit_time)=>return Some((hit_face,hit_time)),
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