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pull from: StrafesNET:zeroes-opti
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6 Commits
master ... zeroes-opt

Author SHA1 Message Date
Quaternions
91f8652ece fix fix 2023-10-26 20:24:43 -07:00
Quaternions
0ec0d24302 the goober 2023-10-26 20:20:12 -07:00
Quaternions
f7ee18076a iter wrong code but it has no red squiggle 2023-10-26 20:16:45 -07:00
Quaternions
ee7df7787a stack :( 2023-10-26 20:01:26 -07:00
Quaternions
db5f4e1da3 fix usage 2023-10-26 20:01:26 -07:00
Quaternions
01a8efe4d4 return fixed length array and len to avoid heap allocation 2023-10-26 19:51:14 -07:00
2 changed files with 40 additions and 27 deletions
Show Stats Expand all files Collapse all files

36
src/physics.rs
View File

@ -975,7 +975,8 @@ impl PhysicsState {
//collect x
match collision_data.face {
TreyMeshFace::Top|TreyMeshFace::Back|TreyMeshFace::Bottom|TreyMeshFace::Front=>{
for t in zeroes2(mesh0.max.x()-mesh1.min.x(),v.x(),a.x()/2) {
let (roots,nroots)=zeroes2(mesh0.max.x()-mesh1.min.x(),v.x(),a.x()/2);
for &t in &roots[0..nroots]{
//negative t = back in time
//must be moving towards surface to collide
//must beat the current soonest collision time
@ -988,7 +989,8 @@ impl PhysicsState {
break;
}
}
for t in zeroes2(mesh0.min.x()-mesh1.max.x(),v.x(),a.x()/2) {
let (roots,nroots)=zeroes2(mesh0.min.x()-mesh1.max.x(),v.x(),a.x()/2);
for &t in &roots[0..nroots]{
//negative t = back in time
//must be moving towards surface to collide
//must beat the current soonest collision time
@ -1020,7 +1022,8 @@ impl PhysicsState {
//collect y
match collision_data.face {
TreyMeshFace::Left|TreyMeshFace::Back|TreyMeshFace::Right|TreyMeshFace::Front=>{
for t in zeroes2(mesh0.max.y()-mesh1.min.y(),v.y(),a.y()/2) {
let (roots,nroots)=zeroes2(mesh0.max.y()-mesh1.min.y(),v.y(),a.y()/2);
for &t in &roots[0..nroots]{
//negative t = back in time
//must be moving towards surface to collide
//must beat the current soonest collision time
@ -1033,7 +1036,8 @@ impl PhysicsState {
break;
}
}
for t in zeroes2(mesh0.min.y()-mesh1.max.y(),v.y(),a.y()/2) {
let (roots,nroots)=zeroes2(mesh0.min.y()-mesh1.max.y(),v.y(),a.y()/2);
for &t in &roots[0..nroots]{
//negative t = back in time
//must be moving towards surface to collide
//must beat the current soonest collision time
@ -1065,7 +1069,8 @@ impl PhysicsState {
//collect z
match collision_data.face {
TreyMeshFace::Left|TreyMeshFace::Bottom|TreyMeshFace::Right|TreyMeshFace::Top=>{
for t in zeroes2(mesh0.max.z()-mesh1.min.z(),v.z(),a.z()/2) {
let (roots,nroots)=zeroes2(mesh0.max.z()-mesh1.min.z(),v.z(),a.z()/2);
for &t in &roots[0..nroots]{
//negative t = back in time
//must be moving towards surface to collide
//must beat the current soonest collision time
@ -1078,7 +1083,8 @@ impl PhysicsState {
break;
}
}
for t in zeroes2(mesh0.min.z()-mesh1.max.z(),v.z(),a.z()/2) {
let (roots,nroots)=zeroes2(mesh0.min.z()-mesh1.max.z(),v.z(),a.z()/2);
for &t in &roots[0..nroots]{
//negative t = back in time
//must be moving towards surface to collide
//must beat the current soonest collision time
@ -1124,7 +1130,8 @@ impl PhysicsState {
let mut best_time=time_limit;
let mut best_face:Option<TreyMeshFace>=None;
//collect x
for t in zeroes2(mesh0.max.x()-mesh1.min.x(),v.x(),a.x()/2) {
let (roots,nroots)=zeroes2(mesh0.max.x()-mesh1.min.x(),v.x(),a.x()/2);
for &t in &roots[0..nroots]{
//must collide now or in the future
//must beat the current soonest collision time
//must be moving towards surface
@ -1140,7 +1147,8 @@ impl PhysicsState {
}
}
}
for t in zeroes2(mesh0.min.x()-mesh1.max.x(),v.x(),a.x()/2) {
let (roots,nroots)=zeroes2(mesh0.min.x()-mesh1.max.x(),v.x(),a.x()/2);
for &t in &roots[0..nroots]{
//must collide now or in the future
//must beat the current soonest collision time
//must be moving towards surface
@ -1157,7 +1165,8 @@ impl PhysicsState {
}
}
//collect y
for t in zeroes2(mesh0.max.y()-mesh1.min.y(),v.y(),a.y()/2) {
let (roots,nroots)=zeroes2(mesh0.max.y()-mesh1.min.y(),v.y(),a.y()/2);
for &t in &roots[0..nroots]{
//must collide now or in the future
//must beat the current soonest collision time
//must be moving towards surface
@ -1173,7 +1182,8 @@ impl PhysicsState {
}
}
}
for t in zeroes2(mesh0.min.y()-mesh1.max.y(),v.y(),a.y()/2) {
let (roots,nroots)=zeroes2(mesh0.min.y()-mesh1.max.y(),v.y(),a.y()/2);
for &t in &roots[0..nroots]{
//must collide now or in the future
//must beat the current soonest collision time
//must be moving towards surface
@ -1190,7 +1200,8 @@ impl PhysicsState {
}
}
//collect z
for t in zeroes2(mesh0.max.z()-mesh1.min.z(),v.z(),a.z()/2) {
let (roots,nroots)=zeroes2(mesh0.max.z()-mesh1.min.z(),v.z(),a.z()/2);
for &t in &roots[0..nroots]{
//must collide now or in the future
//must beat the current soonest collision time
//must be moving towards surface
@ -1206,7 +1217,8 @@ impl PhysicsState {
}
}
}
for t in zeroes2(mesh0.min.z()-mesh1.max.z(),v.z(),a.z()/2) {
let (roots,nroots)=zeroes2(mesh0.min.z()-mesh1.max.z(),v.z(),a.z()/2);
for &t in &roots[0..nroots]{
//must collide now or in the future
//must beat the current soonest collision time
//must be moving towards surface

31
src/zeroes.rs
View File

@ -2,31 +2,32 @@
use crate::integer::Planar64;
#[inline]
pub fn zeroes2(a0:Planar64,a1:Planar64,a2:Planar64) -> Vec<Planar64>{
pub fn zeroes2(a0:Planar64,a1:Planar64,a2:Planar64)->([Planar64;2],usize){
if a2==Planar64::ZERO{
return zeroes1(a0, a1);
let ([ret],ret_len)=zeroes1(a0,a1);
return ([ret,Planar64::ZERO],ret_len);
}
let radicand=a1.get() as i128*a1.get() as i128-a2.get() as i128*a0.get() as i128*4;
if 0<radicand {
if 0<radicand{
//start with f64 sqrt
let planar_radicand=Planar64::raw(unsafe{(radicand as f64).sqrt().to_int_unchecked()});
//TODO: one or two newtons
if Planar64::ZERO<a2 {
return vec![(-a1-planar_radicand)/(a2*2),(-a1+planar_radicand)/(a2*2)];
} else {
return vec![(-a1+planar_radicand)/(a2*2),(-a1-planar_radicand)/(a2*2)];
if Planar64::ZERO<a2{
([(-a1-planar_radicand)/(a2*2),(-a1+planar_radicand)/(a2*2)],2)
}else{
([(-a1+planar_radicand)/(a2*2),(-a1-planar_radicand)/(a2*2)],2)
}
} else if radicand==0 {
return vec![a1/(a2*-2)];
} else {
return vec![];
}else if radicand==0{
([a1/(a2*-2),Planar64::ZERO],1)
}else{
([Planar64::ZERO,Planar64::ZERO],0)
}
}
#[inline]
pub fn zeroes1(a0:Planar64,a1:Planar64) -> Vec<Planar64> {
pub fn zeroes1(a0:Planar64,a1:Planar64)->([Planar64;1],usize){
if a1==Planar64::ZERO{
return vec![];
} else {
return vec![-a0/a1];
return ([Planar64::ZERO],0);
}else{
return ([-a0/a1],1);
}
}