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34 Commits

Author SHA1 Message Date
f07d9f968e Print Only Horizontal Velocity
The Speed function is unnecessary I forgot to remove it
2024-02-11 22:26:34 +00:00
2cef79da1d Something idk 2024-02-11 22:24:40 +00:00
3bad427f61 shrink code 2024-02-07 21:11:50 -08:00
90cca51e6e patch arcane 2024-02-07 19:50:03 -08:00
480cd0e3be commonize 2024-01-29 22:37:48 -08:00
515ca20fb5 this is now a multi year project 2024-01-29 16:19:57 -08:00
6dff6a2c33 update dependencies 2024-01-29 16:19:57 -08:00
ae9fc15320 update wgpu and slap lifetimes on everything until it works 2024-01-19 20:11:58 -08:00
6ae058d834 make room for missing texture print 2024-01-18 13:05:54 -08:00
517c4914ac load_bsp module 2024-01-18 13:05:26 -08:00
6ce057ac64 add vbsp dep 2024-01-18 13:00:08 -08:00
c86824bdc1 skip objects with zero determinant 2023-12-30 10:36:03 -08:00
a7f7edef00 update deps 2023-12-24 13:10:12 -08:00
5b8e5c8899 we're not using floats anymore 2023-12-12 15:47:31 -08:00
14000c016e multiply and check instead of doing bithacks 2023-12-12 15:30:09 -08:00
1c4191cfc9 convert recursion to stack 2023-12-12 14:47:20 -08:00
b2f067e0b4 stop erroring on subnormals, it's not really an issue 2023-12-04 08:55:21 -08:00
aec82358ee comment about conceptual failure case 2023-12-02 03:06:13 -08:00
5da5006027 attempt to fix the bug 2023-12-02 03:06:13 -08:00
97a1b57b65 TODO: relative d value 2023-12-02 02:02:51 -08:00
a359650ff8 use relative position to avoid overflow 2023-12-02 01:58:18 -08:00
1790390055 don't mess with casts, wtf 2023-12-02 01:31:47 -08:00
49e077996d overflow detect 2023-12-02 01:31:47 -08:00
9bfcf0b083 use det to make numbers smaller 2023-12-01 20:59:04 -08:00
82b3201b0a optimize face_nd: precalculate det 2023-12-01 20:50:38 -08:00
513414d4bd fix a near overflow bug 2023-12-01 18:28:05 -08:00
5c4bd4c3c7 wrong air accel limit 2023-12-01 05:01:13 -08:00
92ec137f33 v0.9.0 Face Crawler + Integer Physics + Threading Rewrite + Config File 2023-12-01 05:01:13 -08:00
5cedf91709 Face Crawler™ 2023-12-01 04:41:28 -08:00
c201a1a626 improve zeroes precision 2023-12-01 04:41:11 -08:00
fbae4d9f80 delete sweep 2023-12-01 04:41:11 -08:00
9374e93801 face crawler prerequisites 2023-12-01 04:41:11 -08:00
0585cfe6f1 fix test 2023-11-30 01:45:55 -08:00
3d96517213 update deps 2023-11-30 01:45:54 -08:00
23 changed files with 3454 additions and 3972 deletions

1025
Cargo.lock generated

File diff suppressed because it is too large Load Diff

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@ -1,6 +1,6 @@
[package]
name = "strafe-client"
version = "0.8.0"
version = "0.9.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
@ -9,7 +9,7 @@ edition = "2021"
bytemuck = { version = "1.13.1", features = ["derive"] }
configparser = "3.0.2"
ddsfile = "0.5.1"
glam = "0.24.1"
glam = "0.25.0"
lazy-regex = "3.0.2"
obj = "0.10.2"
parking_lot = "0.12.1"
@ -18,8 +18,11 @@ rbx_binary = "0.7.1"
rbx_dom_weak = "2.5.0"
rbx_reflection_database = "0.2.7"
rbx_xml = "0.13.1"
wgpu = "0.18.0"
winit = { version = "0.29.2", features = ["rwh_05"] }
strafesnet_common = { git = "https://git.itzana.me/StrafesNET/common", rev = "434ca29aef7e3015c9ca1ed45de8fef42e33fdfb" }
vbsp = "0.5.0"
vmdl = "0.1.1"
wgpu = "0.19.0"
winit = "0.29.2"
#[profile.release]
#lto = true

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@ -1,5 +1,5 @@
/*******************************************************
* Copyright (C) 2023 Rhys Lloyd <krakow20@gmail.com>
* Copyright (C) 2023-2024 Rhys Lloyd <krakow20@gmail.com>
*
* This file is part of the StrafesNET bhop/surf client.
*

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@ -1,43 +0,0 @@
use crate::integer::Planar64Vec3;
#[derive(Clone)]
pub struct Aabb{
pub min:Planar64Vec3,
pub max:Planar64Vec3,
}
impl Default for Aabb {
fn default()->Self {
Self{min:Planar64Vec3::MAX,max:Planar64Vec3::MIN}
}
}
impl Aabb{
pub fn grow(&mut self,point:Planar64Vec3){
self.min=self.min.min(point);
self.max=self.max.max(point);
}
pub fn join(&mut self,aabb:&Aabb){
self.min=self.min.min(aabb.min);
self.max=self.max.max(aabb.max);
}
pub fn inflate(&mut self,hs:Planar64Vec3){
self.min-=hs;
self.max+=hs;
}
pub fn intersects(&self,aabb:&Aabb)->bool{
(self.min.cmplt(aabb.max)&aabb.min.cmplt(self.max)).all()
}
pub fn center(&self)->Planar64Vec3{
return self.min.midpoint(self.max)
}
//probably use floats for area & volume because we don't care about precision
// pub fn area_weight(&self)->f32{
// let d=self.max-self.min;
// d.x*d.y+d.y*d.z+d.z*d.x
// }
// pub fn volume(&self)->f32{
// let d=self.max-self.min;
// d.x*d.y*d.z
// }
}

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@ -1,123 +0,0 @@
use crate::aabb::Aabb;
//da algaritum
//lista boxens
//sort by {minx,maxx,miny,maxy,minz,maxz} (6 lists)
//find the sets that minimizes the sum of surface areas
//splitting is done when the minimum split sum of surface areas is larger than the node's own surface area
//start with bisection into octrees because a bad bvh is still 1000x better than no bvh
//sort the centerpoints on each axis (3 lists)
//bv is put into octant based on whether it is upper or lower in each list
enum BvhNodeContent{
Branch(Vec<BvhNode>),
Leaf(usize),
}
impl Default for BvhNodeContent{
fn default()->Self{
Self::Branch(Vec::new())
}
}
#[derive(Default)]
pub struct BvhNode{
content:BvhNodeContent,
aabb:Aabb,
}
impl BvhNode{
pub fn the_tester<F:FnMut(usize)>(&self,aabb:&Aabb,f:&mut F){
match &self.content{
&BvhNodeContent::Leaf(model)=>f(model),
BvhNodeContent::Branch(children)=>for child in children{
//this test could be moved outside the match statement
//but that would test the root node aabb
//you're probably not going to spend a lot of time outside the map,
//so the test is extra work for nothing
if aabb.intersects(&child.aabb){
child.the_tester(aabb,f);
}
},
}
}
}
pub fn generate_bvh(boxen:Vec<Aabb>)->BvhNode{
generate_bvh_node(boxen.into_iter().enumerate().collect())
}
fn generate_bvh_node(boxen:Vec<(usize,Aabb)>)->BvhNode{
let n=boxen.len();
if n<20{
let mut aabb=Aabb::default();
let nodes=boxen.into_iter().map(|b|{
aabb.join(&b.1);
BvhNode{
content:BvhNodeContent::Leaf(b.0),
aabb:b.1,
}
}).collect();
BvhNode{
content:BvhNodeContent::Branch(nodes),
aabb,
}
}else{
let mut octant=std::collections::HashMap::with_capacity(n);//this ids which octant the boxen is put in
let mut sort_x=Vec::with_capacity(n);
let mut sort_y=Vec::with_capacity(n);
let mut sort_z=Vec::with_capacity(n);
for (i,aabb) in boxen.iter(){
let center=aabb.center();
octant.insert(*i,0);
sort_x.push((*i,center.x()));
sort_y.push((*i,center.y()));
sort_z.push((*i,center.z()));
}
sort_x.sort_by(|tup0,tup1|tup0.1.partial_cmp(&tup1.1).unwrap());
sort_y.sort_by(|tup0,tup1|tup0.1.partial_cmp(&tup1.1).unwrap());
sort_z.sort_by(|tup0,tup1|tup0.1.partial_cmp(&tup1.1).unwrap());
let h=n/2;
let median_x=sort_x[h].1;
let median_y=sort_y[h].1;
let median_z=sort_z[h].1;
for (i,c) in sort_x{
if median_x<c{
octant.insert(i,octant[&i]+1<<0);
}
}
for (i,c) in sort_y{
if median_y<c{
octant.insert(i,octant[&i]+1<<1);
}
}
for (i,c) in sort_z{
if median_z<c{
octant.insert(i,octant[&i]+1<<2);
}
}
//generate lists for unique octant values
let mut list_list=Vec::with_capacity(8);
let mut octant_list=Vec::with_capacity(8);
for (i,aabb) in boxen.into_iter(){
let octant_id=octant[&i];
let list_id=if let Some(list_id)=octant_list.iter().position(|&id|id==octant_id){
list_id
}else{
let list_id=list_list.len();
octant_list.push(octant_id);
list_list.push(Vec::new());
list_id
};
list_list[list_id].push((i,aabb));
}
let mut aabb=Aabb::default();
let children=list_list.into_iter().map(|b|{
let node=generate_bvh_node(b);
aabb.join(&node.aabb);
node
}).collect();
BvhNode{
content:BvhNodeContent::Branch(children),
aabb,
}
}
}

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@ -1,49 +1,46 @@
use crate::physics::Body;
use crate::model_physics::{FEV,MeshQuery};
use crate::integer::{Time,Planar64,Planar64Vec3};
use crate::zeroes::zeroes2;
use crate::model_physics::{FEV,MeshQuery,DirectedEdge};
use strafesnet_common::integer::{Time,Planar64};
use strafesnet_common::zeroes::zeroes2;
struct State<FEV>{
fev:FEV,
time:Time,
}
enum Transition<F,E,V>{
enum Transition<F,E:DirectedEdge,V>{
Miss,
Next(FEV<F,E,V>,Time),
Hit(F,Time),
}
impl<F:Copy,E:Copy,V:Copy> State<FEV<F,E,V>>{
fn next_transition(&self,mesh:&impl MeshQuery<F,E,V>,body:&Body,time_limit:Time)->Transition<F,E,V>{
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 &self.fev{
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);
//TODO: use higher precision d value?
//use the mesh transform translation instead of baking it into the d value.
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 self.time<t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
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 &(edge_id,test_face_id) in mesh.face_edges(face_id).iter(){
let edge_n=mesh.edge_n(edge_id);
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);
//picking a vert randomly is terrible
let d=n.dot(mesh.vert(mesh.edge_verts(edge_id)[0]));
for t in zeroes2((n.dot(body.position)-d)*2,n.dot(body.velocity)*2,n.dot(body.acceleration)){
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)){
let t=body.time+Time::from(t);
if self.time<t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
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(edge_id),t);
best_transtition=Transition::Next(FEV::<F,E,V>::Edge(directed_edge_id.as_undirected()),t);
break;
}
}
@ -53,26 +50,29 @@ impl<F:Copy,E:Copy,V:Copy> State<FEV<F,E,V>>{
&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);
for &test_face_id in mesh.edge_faces(edge_id).iter(){
let face_n=mesh.face_nd(test_face_id).0;
let n=edge_n.cross(face_n);
let d=n.dot(mesh.vert(mesh.edge_verts(edge_id)[0]));
for t in zeroes2((n.dot(body.position)-d)*2,n.dot(body.velocity)*2,n.dot(body.acceleration)){
let edge_verts=mesh.edge_verts(edge_id);
let delta_pos=body.position*2-(mesh.vert(edge_verts[0])+mesh.vert(edge_verts[1]));
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)){
let t=body.time+Time::from(t);
if self.time<t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
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(test_face_id),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
let n=mesh.edge_n(edge_id);
for &vert_id in mesh.edge_verts(edge_id).iter(){
let d=n.dot(mesh.vert(vert_id));
for t in zeroes2((n.dot(body.position)-d)*2,n.dot(body.velocity)*2,n.dot(body.acceleration)){
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)){
let t=body.time+Time::from(t);
if self.time<t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
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;
@ -83,14 +83,14 @@ impl<F:Copy,E:Copy,V:Copy> State<FEV<F,E,V>>{
},
&FEV::<F,E,V>::Vert(vert_id)=>{
//test each edge collision time, ignoring roots with zero or conflicting derivative
for &edge_id in mesh.vert_edges(vert_id).iter(){
let n=mesh.edge_n(edge_id);
let d=n.dot(mesh.vert(vert_id));
for t in zeroes2((n.dot(body.position)-d)*2,n.dot(body.velocity)*2,n.dot(body.acceleration)){
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)){
let t=body.time+Time::from(t);
if self.time<t&&t<best_time&&n.dot(body.extrapolated_velocity(t))<Planar64::ZERO{
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(edge_id),t);
best_transtition=Transition::Next(FEV::<F,E,V>::Edge(directed_edge_id.as_undirected()),t);
break;
}
}
@ -100,27 +100,20 @@ impl<F:Copy,E:Copy,V:Copy> State<FEV<F,E,V>>{
}
best_transtition
}
pub enum CrawlResult<F,E:DirectedEdge,V>{
Miss(FEV<F,E,V>),
Hit(F,Time),
}
pub fn predict_collision<F:Copy,E:Copy,V:Copy>(mesh:&impl MeshQuery<F,E,V>,relative_body:&Body,time_limit:Time)->Option<(F,Time)>{
let mut state=State{
fev:mesh.closest_fev(relative_body.position),
time:relative_body.time,
};
//it would be possible to write down the point of closest approach...
loop{
match state.next_transition(mesh,relative_body,time_limit){
Transition::Miss=>return None,
Transition::Next(fev,time)=>(state.fev,state.time)=(fev,time),
Transition::Hit(face,time)=>return Some((face,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),
}
}
}
pub fn predict_collision_end<F:Copy,E:Copy,V:Copy>(mesh:&impl MeshQuery<F,E,V>,relative_body:&Body,time_limit:Time,ignore_face_id:F)->Option<(F,Time)>{
//imagine the mesh without the collision face
//no algorithm needed, there is only one state and three cases (Face,Edge,None)
//determine when it passes an edge ("sliding off" case) or if it leaves the surface directly
//the state can be constructed from the ContactCollision directly
None
//TODO: fix all bugs
println!("Too many iterations! Using default behaviour instead of crashing...");
CrawlResult::Miss(fev)
}

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@ -1,4 +1,5 @@
use std::borrow::Cow;
use strafesnet_common::integer;
use wgpu::{util::DeviceExt,AstcBlock,AstcChannel};
use crate::model_graphics::{GraphicsVertex,GraphicsModelColor4,GraphicsModelInstance,GraphicsModelSingleTexture,IndexedGraphicsModelSingleTexture,IndexedGroupFixedTexture};
@ -152,11 +153,14 @@ impl GraphicsState{
let mut texture_loading_threads=Vec::new();
let num_textures=indexed_models.textures.len();
for (i,texture_id) in indexed_models.textures.into_iter().enumerate(){
if let Ok(mut file) = std::fs::File::open(std::path::Path::new(&format!("textures/{}.dds",texture_id))){
let path=std::path::PathBuf::from(format!("textures/{}.dds",texture_id));
if let Ok(mut file) = std::fs::File::open(path.clone()){
double_map.insert(i as u32, texture_loading_threads.len() as u32);
texture_loading_threads.push((texture_id,std::thread::spawn(move ||{
ddsfile::Dds::read(&mut file).unwrap()
})));
}else{
//println!("missing texture path={:?}",path);
}
}
@ -200,6 +204,7 @@ impl GraphicsState{
label: Some(format!("Texture{}",texture_id).as_str()),
view_formats: &[],
},
wgpu::util::TextureDataOrder::LayerMajor,
&image.data,
);
texture.create_view(&wgpu::TextureViewDescriptor {
@ -216,7 +221,7 @@ impl GraphicsState{
for model in indexed_models.models.into_iter(){
//convert ModelInstance into GraphicsModelInstance
let instances:Vec<GraphicsModelInstance>=model.instances.into_iter().filter_map(|instance|{
if instance.color.w==0.0{
if instance.color.w==0.0&&!model.groups.iter().any(|g|g.texture.is_some()){
None
}else{
Some(GraphicsModelInstance{
@ -697,6 +702,7 @@ impl GraphicsState{
label: Some("Skybox Texture"),
view_formats: &[],
},
wgpu::util::TextureDataOrder::LayerMajor,
&skybox_image.data,
);
@ -737,6 +743,7 @@ impl GraphicsState{
label: Some("Squid Texture"),
view_formats: &[],
},
wgpu::util::TextureDataOrder::LayerMajor,
&image.data,
);
@ -827,7 +834,7 @@ impl GraphicsState{
});
let camera=GraphicsCamera::default();
let camera_uniforms = camera.to_uniform_data(crate::physics::PhysicsOutputState::default().extrapolate(glam::IVec2::ZERO,crate::integer::Time::ZERO));
let camera_uniforms = camera.to_uniform_data(crate::physics::PhysicsOutputState::default().extrapolate(glam::IVec2::ZERO,integer::Time::ZERO));
let camera_buf = device.create_buffer_init(&wgpu::util::BufferInitDescriptor {
label: Some("Camera"),
contents: bytemuck::cast_slice(&camera_uniforms),
@ -896,7 +903,7 @@ impl GraphicsState{
device:&wgpu::Device,
queue:&wgpu::Queue,
physics_output:crate::physics::PhysicsOutputState,
predicted_time:crate::integer::Time,
predicted_time:integer::Time,
mouse_pos:glam::IVec2,
) {
//TODO: use scheduled frame times to create beautiful smoothing simulation physics extrapolation assuming no input

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@ -1,5 +1,7 @@
use strafesnet_common::integer;
pub enum Instruction{
Render(crate::physics::PhysicsOutputState,crate::integer::Time,glam::IVec2),
Render(crate::physics::PhysicsOutputState,integer::Time,glam::IVec2),
//UpdateModel(crate::graphics::GraphicsModelUpdate),
Resize(winit::dpi::PhysicalSize<u32>,crate::settings::UserSettings),
GenerateModels(crate::model::IndexedModelInstances),
@ -18,7 +20,7 @@ WorkerDescription{
pub fn new<'a>(
mut graphics:crate::graphics::GraphicsState,
mut config:wgpu::SurfaceConfiguration,
surface:wgpu::Surface,
surface:wgpu::Surface<'a>,
device:wgpu::Device,
queue:wgpu::Queue,
)->crate::compat_worker::INWorker<'a,Instruction>{

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@ -1,53 +0,0 @@
use crate::integer::Time;
#[derive(Debug)]
pub struct TimedInstruction<I>{
pub time:Time,
pub instruction:I,
}
pub trait InstructionEmitter<I>{
fn next_instruction(&self,time_limit:Time)->Option<TimedInstruction<I>>;
}
pub trait InstructionConsumer<I>{
fn process_instruction(&mut self, instruction:TimedInstruction<I>);
}
//PROPER PRIVATE FIELDS!!!
pub struct InstructionCollector<I>{
time:Time,
instruction:Option<I>,
}
impl<I> InstructionCollector<I>{
pub fn new(time:Time)->Self{
Self{
time,
instruction:None
}
}
#[inline]
pub fn time(&self)->Time{
self.time
}
pub fn collect(&mut self,instruction:Option<TimedInstruction<I>>){
match instruction{
Some(unwrap_instruction)=>{
if unwrap_instruction.time<self.time {
self.time=unwrap_instruction.time;
self.instruction=Some(unwrap_instruction.instruction);
}
},
None=>(),
}
}
pub fn instruction(self)->Option<TimedInstruction<I>>{
//STEAL INSTRUCTION AND DESTROY INSTRUCTIONCOLLECTOR
match self.instruction{
Some(instruction)=>Some(TimedInstruction{
time:self.time,
instruction
}),
None=>None,
}
}
}

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232
src/load_bsp.rs Normal file
View File

@ -0,0 +1,232 @@
use strafesnet_common::integer;
const VALVE_SCALE:f32=1.0/16.0;
fn valve_transform(v:[f32;3])->integer::Planar64Vec3{
integer::Planar64Vec3::try_from([v[0]*VALVE_SCALE,v[2]*VALVE_SCALE,-v[1]*VALVE_SCALE]).unwrap()
}
pub fn generate_indexed_models<R:std::io::Read+std::io::Seek>(input:&mut R)->Result<crate::model::IndexedModelInstances,vbsp::BspError>{
let mut s=Vec::new();
match input.read_to_end(&mut s){
Ok(_)=>(),
Err(e)=>println!("load_bsp::generate_indexed_models read_to_end failed: {:?}",e),
}
match vbsp::Bsp::read(s.as_slice()){
Ok(bsp)=>{
let mut spawn_point=integer::Planar64Vec3::ZERO;
let mut name_from_texture_id=Vec::new();
let mut texture_id_from_name=std::collections::HashMap::new();
let mut models=bsp.models().map(|world_model|{
//non-deduplicated
let mut spam_pos=Vec::new();
let mut spam_tex=Vec::new();
let mut spam_normal=Vec::new();
let mut spam_vertices=Vec::new();
let groups=world_model.faces()
.filter(|face| face.is_visible())//TODO: look at this
.map(|face|{
let face_texture=face.texture();
let face_texture_data=face_texture.texture_data();
let (texture_u,texture_v)=(glam::Vec3A::from_slice(&face_texture.texture_transforms_u[0..3]),glam::Vec3A::from_slice(&face_texture.texture_transforms_v[0..3]));
let texture_offset=glam::vec2(face_texture.texture_transforms_u[3],face_texture.texture_transforms_v[3]);
let texture_size=glam::vec2(face_texture_data.width as f32,face_texture_data.height as f32);
//texture
let texture_id=if let Some(&texture_id)=texture_id_from_name.get(face_texture_data.name()){
texture_id
}else{
let texture_id=name_from_texture_id.len() as u32;
texture_id_from_name.insert(face_texture_data.name().to_string(),texture_id);
name_from_texture_id.push(face_texture_data.name().to_string());
texture_id
};
//normal
let normal=face.normal();
let normal_idx=spam_normal.len() as u32;
spam_normal.push(valve_transform(<[f32;3]>::from(normal)));
let mut vertices:Vec<u32>=face.vertex_positions().map(|vertex_pos|{
let vertex_xyz=<[f32;3]>::from(vertex_pos);
let pos=glam::Vec3A::from_array(vertex_xyz);
let pos_idx=spam_pos.len();
spam_pos.push(valve_transform(vertex_xyz));
//calculate texture coordinates
let tex=(glam::vec2(pos.dot(texture_u),pos.dot(texture_v))+texture_offset)/texture_size;
let tex_idx=spam_tex.len() as u32;
spam_tex.push(tex);
let i=spam_vertices.len() as u32;
spam_vertices.push(crate::model::IndexedVertex{
pos: pos_idx as u32,
tex: tex_idx as u32,
normal: normal_idx,
color: 0,
});
i
}).collect();
vertices.reverse();
crate::model::IndexedGroup{
texture:Some(texture_id),
polys:vec![crate::model::IndexedPolygon{vertices}],
}
}).collect();
crate::model::IndexedModel{
unique_pos:spam_pos,
unique_tex:spam_tex,
unique_normal:spam_normal,
unique_color:vec![glam::Vec4::ONE],
unique_vertices:spam_vertices,
groups,
instances:vec![crate::model::ModelInstance{
attributes:crate::model::CollisionAttributes::Decoration,
transform:integer::Planar64Affine3::new(
integer::Planar64Mat3::default(),
valve_transform(<[f32;3]>::from(world_model.origin))
),
..Default::default()
}],
}
}).collect();
//dedupe prop models
let mut model_dedupe=std::collections::HashSet::new();
for prop in bsp.static_props(){
model_dedupe.insert(prop.model());
}
//generate unique meshes
let mut model_map=std::collections::HashMap::with_capacity(model_dedupe.len());
let mut prop_models=Vec::new();
for model_name in model_dedupe{
let model_name_lower=model_name.to_lowercase();
//.mdl, .vvd, .dx90.vtx
let mut path=std::path::PathBuf::from(model_name_lower.as_str());
let file_name=std::path::PathBuf::from(path.file_stem().unwrap());
path.pop();
path.push(file_name);
let mut vvd_path=path.clone();
let mut vtx_path=path.clone();
vvd_path.set_extension("vvd");
vtx_path.set_extension("dx90.vtx");
match (bsp.pack.get(model_name_lower.as_str()),bsp.pack.get(vvd_path.as_os_str().to_str().unwrap()),bsp.pack.get(vtx_path.as_os_str().to_str().unwrap())){
(Ok(Some(mdl_file)),Ok(Some(vvd_file)),Ok(Some(vtx_file)))=>{
match (vmdl::mdl::Mdl::read(mdl_file.as_ref()),vmdl::vvd::Vvd::read(vvd_file.as_ref()),vmdl::vtx::Vtx::read(vtx_file.as_ref())){
(Ok(mdl),Ok(vvd),Ok(vtx))=>{
let model=vmdl::Model::from_parts(mdl,vtx,vvd);
let texture_paths=model.texture_directories();
if texture_paths.len()!=1{
println!("WARNING: multiple texture paths");
}
let skin=model.skin_tables().nth(0).unwrap();
let mut spam_pos=Vec::with_capacity(model.vertices().len());
let mut spam_normal=Vec::with_capacity(model.vertices().len());
let mut spam_tex=Vec::with_capacity(model.vertices().len());
let mut spam_vertices=Vec::with_capacity(model.vertices().len());
for (i,vertex) in model.vertices().iter().enumerate(){
spam_pos.push(valve_transform(<[f32;3]>::from(vertex.position)));
spam_normal.push(valve_transform(<[f32;3]>::from(vertex.normal)));
spam_tex.push(glam::Vec2::from_array(vertex.texture_coordinates));
spam_vertices.push(crate::model::IndexedVertex{
pos:i as u32,
tex:i as u32,
normal:i as u32,
color:0,
});
}
let model_id=prop_models.len();
model_map.insert(model_name,model_id);
prop_models.push(crate::model::IndexedModel{
unique_pos:spam_pos,
unique_normal:spam_normal,
unique_tex:spam_tex,
unique_color:vec![glam::Vec4::ONE],
unique_vertices:spam_vertices,
groups:model.meshes().map(|mesh|{
let texture=if let (Some(texture_path),Some(texture_name))=(texture_paths.get(0),skin.texture(mesh.material_index())){
let mut path=std::path::PathBuf::from(texture_path.as_str());
path.push(texture_name);
let texture_location=path.as_os_str().to_str().unwrap();
let texture_id=if let Some(&texture_id)=texture_id_from_name.get(texture_location){
texture_id
}else{
println!("texture! {}",texture_location);
let texture_id=name_from_texture_id.len() as u32;
texture_id_from_name.insert(texture_location.to_string(),texture_id);
name_from_texture_id.push(texture_location.to_string());
texture_id
};
Some(texture_id)
}else{
None
};
crate::model::IndexedGroup{
texture,
polys:{
//looking at the code, it would seem that the strips are pre-deindexed into triangle lists when calling this function
mesh.vertex_strip_indices().map(|strip|{
strip.collect::<Vec<usize>>().chunks(3).map(|tri|{
crate::model::IndexedPolygon{vertices:vec![tri[0] as u32,tri[1] as u32,tri[2] as u32]}
}).collect::<Vec<crate::model::IndexedPolygon>>()
}).flatten().collect()
},
}
}).collect(),
instances:Vec::new(),
});
},
_=>println!("model_name={} error",model_name),
}
},
_=>println!("no model name={}",model_name),
}
}
//generate model instances
for prop in bsp.static_props(){
let placement=prop.as_prop_placement();
if let Some(&model_index)=model_map.get(placement.model){
prop_models[model_index].instances.push(crate::model::ModelInstance{
transform:integer::Planar64Affine3::new(
integer::Planar64Mat3::try_from(
glam::Mat3A::from_diagonal(glam::Vec3::splat(placement.scale))
//TODO: figure this out
*glam::Mat3A::from_quat(glam::Quat::from_xyzw(
placement.rotation.v.x,//b
placement.rotation.v.y,//c
placement.rotation.v.z,//d
placement.rotation.s,//a
))
).unwrap(),
valve_transform(<[f32;3]>::from(placement.origin)),
),
attributes:crate::model::CollisionAttributes::Decoration,
..Default::default()
});
}else{
//println!("model not found {}",placement.model);
}
}
//actually add the prop models
prop_models.append(&mut models);
Ok(crate::model::IndexedModelInstances{
textures:name_from_texture_id,
models:prop_models,
spawn_point,
modes:Vec::new(),
})
},
Err(e)=>{
println!("rotten {:?}",e);
Err(e)
},
}
}

View File

@ -1,5 +1,5 @@
use crate::primitives;
use crate::integer::{Planar64,Planar64Vec3,Planar64Mat3,Planar64Affine3};
use strafesnet_common::integer::{Planar64,Planar64Vec3,Planar64Mat3,Planar64Affine3};
fn class_is_a(class: &str, superclass: &str) -> bool {
if class==superclass {
@ -14,12 +14,15 @@ fn class_is_a(class: &str, superclass: &str) -> bool {
return false
}
fn recursive_collect_superclass(objects: &mut std::vec::Vec<rbx_dom_weak::types::Ref>,dom: &rbx_dom_weak::WeakDom, instance: &rbx_dom_weak::Instance, superclass: &str){
for &referent in instance.children() {
if let Some(c) = dom.get_by_ref(referent) {
if class_is_a(c.class.as_str(), superclass) {
objects.push(c.referent());//copy ref
let mut stack=vec![instance];
while let Some(item)=stack.pop(){
for &referent in item.children(){
if let Some(c)=dom.get_by_ref(referent){
if class_is_a(c.class.as_str(),superclass){
objects.push(c.referent());//copy ref
}
stack.push(c);
}
recursive_collect_superclass(objects,dom,c,superclass);
}
}
}
@ -262,6 +265,18 @@ pub fn generate_indexed_models(dom:rbx_dom_weak::WeakDom) -> crate::model::Index
{
let model_transform=planar64_affine3_from_roblox(cf,size);
if model_transform.matrix3.determinant()==Planar64::ZERO{
let mut parent_ref=object.parent();
let mut full_path=object.name.clone();
while let Some(parent)=dom.get_by_ref(parent_ref){
full_path=format!("{}.{}",parent.name,full_path);
parent_ref=parent.parent();
}
println!("Zero determinant CFrame at location {}",full_path);
println!("matrix3:{}",model_transform.matrix3);
continue;
}
//push TempIndexedAttributes
let mut force_intersecting=false;
let mut temp_indexing_attributes=Vec::new();

View File

@ -1,16 +1,14 @@
mod bvh;
mod aabb;
use strafesnet_common::integer;
mod model;
mod setup;
mod window;
mod worker;
mod zeroes;
mod integer;
mod physics;
mod graphics;
mod settings;
mod primitives;
mod instruction;
mod load_bsp;
mod load_roblox;
mod face_crawler;
mod compat_worker;
@ -46,7 +44,7 @@ fn load_file(path: std::path::PathBuf)->Option<model::IndexedModelInstances>{
},
}
},
//b"VBSP"=>Some(load_bsp::generate_indexed_models(input)),
b"VBSP"=>load_bsp::generate_indexed_models(&mut input).ok(),
//b"SNFM"=>Some(sniffer::generate_indexed_models(input)),
//b"SNFB"=>Some(sniffer::load_bot(input)),
other=>{
@ -116,6 +114,5 @@ pub fn default_models()->model::IndexedModelInstances{
}
fn main(){
let context=setup::setup(format!("Strafe Client v{}",env!("CARGO_PKG_VERSION")).as_str());
context.start();//creates and runs a window context
setup::setup_and_start(format!("Strafe Client v{}",env!("CARGO_PKG_VERSION")));
}

View File

@ -1,4 +1,4 @@
use crate::integer::{Time,Planar64,Planar64Vec3,Planar64Affine3};
use strafesnet_common::integer::{Time,Planar64,Planar64Vec3,Planar64Affine3};
pub type TextureCoordinate=glam::Vec2;
pub type Color4=glam::Vec4;
#[derive(Clone,Hash,PartialEq,Eq)]
@ -259,7 +259,6 @@ impl IntersectingAttributes{
}
}
//Spawn(u32) NO! spawns are indexed in the map header instead of marked with attibutes
//TODO: deduplicate attributes
pub enum CollisionAttributes{
Decoration,//visual only
Contact{//track whether you are contacting the object

File diff suppressed because it is too large Load Diff

File diff suppressed because it is too large Load Diff

View File

@ -1,133 +1,165 @@
use crate::integer::Time;
use crate::physics::{MouseState,PhysicsInputInstruction};
use crate::instruction::{TimedInstruction,InstructionConsumer};
#[derive(Debug)]
pub enum InputInstruction {
MoveMouse(glam::IVec2),
MoveRight(bool),
MoveUp(bool),
MoveBack(bool),
MoveLeft(bool),
MoveDown(bool),
MoveForward(bool),
Jump(bool),
Zoom(bool),
Reset,
}
pub enum Instruction{
Input(InputInstruction),
Render,
Resize(winit::dpi::PhysicalSize<u32>,crate::settings::UserSettings),
GenerateModels(crate::model::IndexedModelInstances),
ClearModels,
//Graphics(crate::graphics_worker::Instruction),
}
pub fn new(mut physics:crate::physics::PhysicsState,mut graphics_worker:crate::compat_worker::INWorker<crate::graphics_worker::Instruction>)->crate::compat_worker::QNWorker<TimedInstruction<Instruction>>{
let mut mouse_blocking=true;
let mut last_mouse_time=physics.next_mouse.time;
let mut timeline=std::collections::VecDeque::new();
crate::compat_worker::QNWorker::new(move |ins:TimedInstruction<Instruction>|{
if if let Some(phys_input)=match &ins.instruction{
Instruction::Input(input_instruction)=>match input_instruction{
&InputInstruction::MoveMouse(m)=>{
if mouse_blocking{
//tell the game state which is living in the past about its future
timeline.push_front(TimedInstruction{
time:last_mouse_time,
instruction:PhysicsInputInstruction::SetNextMouse(MouseState{time:ins.time,pos:m}),
});
}else{
//mouse has just started moving again after being still for longer than 10ms.
//replace the entire mouse interpolation state to avoid an intermediate state with identical m0.t m1.t timestamps which will divide by zero
timeline.push_front(TimedInstruction{
time:last_mouse_time,
instruction:PhysicsInputInstruction::ReplaceMouse(
MouseState{time:last_mouse_time,pos:physics.next_mouse.pos},
MouseState{time:ins.time,pos:m}
),
});
//delay physics execution until we have an interpolation target
mouse_blocking=true;
}
last_mouse_time=ins.time;
None
},
&InputInstruction::MoveForward(s)=>Some(PhysicsInputInstruction::SetMoveForward(s)),
&InputInstruction::MoveLeft(s)=>Some(PhysicsInputInstruction::SetMoveLeft(s)),
&InputInstruction::MoveBack(s)=>Some(PhysicsInputInstruction::SetMoveBack(s)),
&InputInstruction::MoveRight(s)=>Some(PhysicsInputInstruction::SetMoveRight(s)),
&InputInstruction::MoveUp(s)=>Some(PhysicsInputInstruction::SetMoveUp(s)),
&InputInstruction::MoveDown(s)=>Some(PhysicsInputInstruction::SetMoveDown(s)),
&InputInstruction::Jump(s)=>Some(PhysicsInputInstruction::SetJump(s)),
&InputInstruction::Zoom(s)=>Some(PhysicsInputInstruction::SetZoom(s)),
InputInstruction::Reset=>Some(PhysicsInputInstruction::Reset),
},
Instruction::GenerateModels(_)=>Some(PhysicsInputInstruction::Idle),
Instruction::ClearModels=>Some(PhysicsInputInstruction::Idle),
Instruction::Resize(_,_)=>Some(PhysicsInputInstruction::Idle),
Instruction::Render=>Some(PhysicsInputInstruction::Idle),
}{
//non-mouse event
timeline.push_back(TimedInstruction{
time:ins.time,
instruction:phys_input,
});
if mouse_blocking{
//assume the mouse has stopped moving after 10ms.
//shitty mice are 125Hz which is 8ms so this should cover that.
//setting this to 100us still doesn't print even though it's 10x lower than the polling rate,
//so mouse events are probably not handled separately from drawing and fire right before it :(
if Time::from_millis(10)<ins.time-physics.next_mouse.time{
//push an event to extrapolate no movement from
timeline.push_front(TimedInstruction{
time:last_mouse_time,
instruction:PhysicsInputInstruction::SetNextMouse(MouseState{time:ins.time,pos:physics.next_mouse.pos}),
});
last_mouse_time=ins.time;
//stop blocking. the mouse is not moving so the physics does not need to live in the past and wait for interpolation targets.
mouse_blocking=false;
true
}else{
false
}
}else{
//keep this up to date so that it can be used as a known-timestamp
//that the mouse was not moving when the mouse starts moving again
last_mouse_time=ins.time;
true
}
}else{
//mouse event
true
}{
//empty queue
while let Some(instruction)=timeline.pop_front(){
physics.run(instruction.time);
physics.process_instruction(TimedInstruction{
time:instruction.time,
instruction:crate::physics::PhysicsInstruction::Input(instruction.instruction),
});
}
}
match ins.instruction{
Instruction::Render=>{
graphics_worker.send(crate::graphics_worker::Instruction::Render(physics.output(),ins.time,physics.next_mouse.pos)).unwrap();
},
Instruction::Resize(size,user_settings)=>{
graphics_worker.send(crate::graphics_worker::Instruction::Resize(size,user_settings)).unwrap();
},
Instruction::GenerateModels(indexed_model_instances)=>{
physics.generate_models(&indexed_model_instances);
physics.spawn(indexed_model_instances.spawn_point);
graphics_worker.send(crate::graphics_worker::Instruction::GenerateModels(indexed_model_instances)).unwrap();
},
Instruction::ClearModels=>{
physics.clear();
graphics_worker.send(crate::graphics_worker::Instruction::ClearModels).unwrap();
},
_=>(),
}
})
use crate::physics::{MouseState,PhysicsInputInstruction};
use strafesnet_common::integer::Time;
use strafesnet_common::instruction::{TimedInstruction,InstructionConsumer};
use strafesnet_common::integer::{self,Planar64,Planar64Vec3,Planar64Mat3,Angle32,Ratio64,Ratio64Vec2};
#[derive(Debug)]
pub enum InputInstruction {
MoveMouse(glam::IVec2),
MoveRight(bool),
MoveUp(bool),
MoveBack(bool),
MoveLeft(bool),
MoveDown(bool),
MoveForward(bool),
Jump(bool),
Zoom(bool),
Reset,
}
pub enum Instruction{
Input(InputInstruction),
Render,
Resize(winit::dpi::PhysicalSize<u32>,crate::settings::UserSettings),
GenerateModels(crate::model::IndexedModelInstances),
ClearModels,
//Graphics(crate::graphics_worker::Instruction),
}
pub struct Speed{
pub player_vel:Planar64Vec3,
pub time:Time
}
impl std::ops::Neg for Speed{
type Output=Self;
fn neg(self)->Self::Output{
Self{
player_vel:self.player_vel,
time:self.time
}
}
}
impl Speed{
pub fn new(player_vel:Planar64Vec3,time:Time)->Self{
Self{
player_vel,
time,
}
}
}
pub fn new(mut physics:crate::physics::PhysicsState,mut graphics_worker:crate::compat_worker::INWorker<crate::graphics_worker::Instruction>)->crate::compat_worker::QNWorker<TimedInstruction<Instruction>>{
let mut mouse_blocking=true;
let mut last_mouse_time=physics.next_mouse.time;
let mut timeline=std::collections::VecDeque::new();
let mut next_velocity_print=std::time::Instant::now();
let mut player_vel = physics.body.velocity.length();
crate::compat_worker::QNWorker::new(move |ins:TimedInstruction<Instruction>|{
if if let Some(phys_input)=match &ins.instruction{
Instruction::Input(input_instruction)=>match input_instruction{
&InputInstruction::MoveMouse(m)=>{
if mouse_blocking{
//tell the game state which is living in the past about its future
timeline.push_front(TimedInstruction{
time:last_mouse_time,
instruction:PhysicsInputInstruction::SetNextMouse(MouseState{time:ins.time,pos:m}),
});
}else{
//mouse has just started moving again after being still for longer than 10ms.
//replace the entire mouse interpolation state to avoid an intermediate state with identical m0.t m1.t timestamps which will divide by zero
timeline.push_front(TimedInstruction{
time:last_mouse_time,
instruction:PhysicsInputInstruction::ReplaceMouse(
MouseState{time:last_mouse_time,pos:physics.next_mouse.pos},
MouseState{time:ins.time,pos:m}
),
});
//delay physics execution until we have an interpolation target
mouse_blocking=true;
}
last_mouse_time=ins.time;
None
},
&InputInstruction::MoveForward(s)=>Some(PhysicsInputInstruction::SetMoveForward(s)),
&InputInstruction::MoveLeft(s)=>Some(PhysicsInputInstruction::SetMoveLeft(s)),
&InputInstruction::MoveBack(s)=>Some(PhysicsInputInstruction::SetMoveBack(s)),
&InputInstruction::MoveRight(s)=>Some(PhysicsInputInstruction::SetMoveRight(s)),
&InputInstruction::MoveUp(s)=>Some(PhysicsInputInstruction::SetMoveUp(s)),
&InputInstruction::MoveDown(s)=>Some(PhysicsInputInstruction::SetMoveDown(s)),
&InputInstruction::Jump(s)=>Some(PhysicsInputInstruction::SetJump(s)),
&InputInstruction::Zoom(s)=>Some(PhysicsInputInstruction::SetZoom(s)),
InputInstruction::Reset=>Some(PhysicsInputInstruction::Reset),
},
Instruction::GenerateModels(_)=>Some(PhysicsInputInstruction::Idle),
Instruction::ClearModels=>Some(PhysicsInputInstruction::Idle),
Instruction::Resize(_,_)=>Some(PhysicsInputInstruction::Idle),
Instruction::Render=>Some(PhysicsInputInstruction::Idle),
}{
//non-mouse event
timeline.push_back(TimedInstruction{
time:ins.time,
instruction:phys_input,
});
if mouse_blocking{
//assume the mouse has stopped moving after 10ms.
//shitty mice are 125Hz which is 8ms so this should cover that.
//setting this to 100us still doesn't print even though it's 10x lower than the polling rate,
//so mouse events are probably not handled separately from drawing and fire right before it :(
if Time::from_millis(10)<ins.time-physics.next_mouse.time{
//push an event to extrapolate no movement from
timeline.push_front(TimedInstruction{
time:last_mouse_time,
instruction:PhysicsInputInstruction::SetNextMouse(MouseState{time:ins.time,pos:physics.next_mouse.pos}),
});
last_mouse_time=ins.time;
//stop blocking. the mouse is not moving so the physics does not need to live in the past and wait for interpolation targets.
mouse_blocking=false;
true
}else{
false
}
}else{
//keep this up to date so that it can be used as a known-timestamp
//that the mouse was not moving when the mouse starts moving again
last_mouse_time=ins.time;
true
}
}else{
//mouse event
true
}{
//empty queue
while let Some(instruction)=timeline.pop_front(){
physics.run(instruction.time);
physics.process_instruction(TimedInstruction{
time:instruction.time,
instruction:crate::physics::PhysicsInstruction::Input(instruction.instruction),
});
}
//some random print stuff
if 3.0/5.0<next_velocity_print.elapsed().as_secs_f64(){
next_velocity_print=next_velocity_print+std::time::Duration::from_secs_f64(1.0/30.0);
println!("velocity: {} u/s", (Planar64Vec3::new(physics.body.velocity.x(), Planar64::int(0), physics.body.velocity.z())).length()*(Planar64::int(130)/9));
}
}
match ins.instruction{
Instruction::Render=>{
graphics_worker.send(crate::graphics_worker::Instruction::Render(physics.output(),ins.time,physics.next_mouse.pos)).unwrap();
},
Instruction::Resize(size,user_settings)=>{
graphics_worker.send(crate::graphics_worker::Instruction::Resize(size,user_settings)).unwrap();
},
Instruction::GenerateModels(indexed_model_instances)=>{
physics.generate_models(&indexed_model_instances);
physics.spawn(indexed_model_instances.spawn_point);
graphics_worker.send(crate::graphics_worker::Instruction::GenerateModels(indexed_model_instances)).unwrap();
},
Instruction::ClearModels=>{
physics.clear();
graphics_worker.send(crate::graphics_worker::Instruction::ClearModels).unwrap();
},
_=>(),
}
})
}

View File

@ -1,5 +1,5 @@
use crate::model::{Color4,TextureCoordinate,IndexedModel,IndexedPolygon,IndexedGroup,IndexedVertex};
use crate::integer::Planar64Vec3;
use strafesnet_common::integer::Planar64Vec3;
#[derive(Debug)]
pub enum Primitives{

View File

@ -1,4 +1,4 @@
use crate::integer::{Ratio64,Ratio64Vec2};
use strafesnet_common::integer::{Ratio64,Ratio64Vec2};
#[derive(Clone)]
struct Ratio{
ratio:f64,

View File

@ -1,5 +1,6 @@
use crate::instruction::TimedInstruction;
use crate::window::WindowInstruction;
use strafesnet_common::instruction::TimedInstruction;
use strafesnet_common::integer;
fn optional_features()->wgpu::Features{
wgpu::Features::TEXTURE_COMPRESSION_ASTC
@ -46,21 +47,21 @@ fn create_instance()->SetupContextPartial1{
}
}
impl SetupContextPartial1{
fn create_surface(self,window:&winit::window::Window)->Result<SetupContextPartial2,wgpu::CreateSurfaceError>{
fn create_surface<'a>(self,window:&'a winit::window::Window)->Result<SetupContextPartial2<'a>,wgpu::CreateSurfaceError>{
Ok(SetupContextPartial2{
backends:self.backends,
surface:unsafe{self.instance.create_surface(window)}?,
surface:self.instance.create_surface(window)?,
instance:self.instance,
})
}
}
struct SetupContextPartial2{
struct SetupContextPartial2<'a>{
backends:wgpu::Backends,
instance:wgpu::Instance,
surface:wgpu::Surface,
surface:wgpu::Surface<'a>,
}
impl SetupContextPartial2{
fn pick_adapter(self)->SetupContextPartial3{
impl<'a> SetupContextPartial2<'a>{
fn pick_adapter(self)->SetupContextPartial3<'a>{
let adapter;
//TODO: prefer adapter that implements optional features
@ -122,13 +123,13 @@ impl SetupContextPartial2{
}
}
}
struct SetupContextPartial3{
struct SetupContextPartial3<'a>{
instance:wgpu::Instance,
surface:wgpu::Surface,
surface:wgpu::Surface<'a>,
adapter:wgpu::Adapter,
}
impl SetupContextPartial3{
fn request_device(self)->SetupContextPartial4{
impl<'a> SetupContextPartial3<'a>{
fn request_device(self)->SetupContextPartial4<'a>{
let optional_features=optional_features();
let required_features=required_features();
@ -140,8 +141,8 @@ impl SetupContextPartial3{
.request_device(
&wgpu::DeviceDescriptor {
label: None,
features: (optional_features & self.adapter.features()) | required_features,
limits: needed_limits,
required_features: (optional_features & self.adapter.features()) | required_features,
required_limits: needed_limits,
},
trace_dir.ok().as_ref().map(std::path::Path::new),
))
@ -156,15 +157,15 @@ impl SetupContextPartial3{
}
}
}
struct SetupContextPartial4{
struct SetupContextPartial4<'a>{
instance:wgpu::Instance,
surface:wgpu::Surface,
surface:wgpu::Surface<'a>,
adapter:wgpu::Adapter,
device:wgpu::Device,
queue:wgpu::Queue,
}
impl SetupContextPartial4{
fn configure_surface(self,size:&winit::dpi::PhysicalSize<u32>)->SetupContext{
impl<'a> SetupContextPartial4<'a>{
fn configure_surface(self,size:&'a winit::dpi::PhysicalSize<u32>)->SetupContext<'a>{
let mut config=self.surface
.get_default_config(&self.adapter, size.width, size.height)
.expect("Surface isn't supported by the adapter.");
@ -182,65 +183,42 @@ impl SetupContextPartial4{
}
}
}
pub struct SetupContext{
pub struct SetupContext<'a>{
pub instance:wgpu::Instance,
pub surface:wgpu::Surface,
pub surface:wgpu::Surface<'a>,
pub device:wgpu::Device,
pub queue:wgpu::Queue,
pub config:wgpu::SurfaceConfiguration,
}
pub fn setup(title:&str)->SetupContextSetup{
pub fn setup_and_start(title:String){
let event_loop=winit::event_loop::EventLoop::new().unwrap();
let window=create_window(title,&event_loop).unwrap();
println!("Initializing the surface...");
let partial_1=create_instance();
let window=create_window(title.as_str(),&event_loop).unwrap();
let partial_2=partial_1.create_surface(&window).unwrap();
let partial_3=partial_2.pick_adapter();
let partial_4=partial_3.request_device();
SetupContextSetup{
window,
event_loop,
partial_context:partial_4,
}
}
let size=window.inner_size();
pub struct SetupContextSetup{
window:winit::window::Window,
event_loop:winit::event_loop::EventLoop<()>,
partial_context:SetupContextPartial4,
}
let setup_context=partial_4.configure_surface(&size);
impl SetupContextSetup{
fn into_split(self)->(winit::window::Window,winit::event_loop::EventLoop<()>,SetupContext){
let size=self.window.inner_size();
//Steal values and drop self
(
self.window,
self.event_loop,
self.partial_context.configure_surface(&size),
)
}
pub fn start(self){
let (window,event_loop,setup_context)=self.into_split();
//dedicated thread to ping request redraw back and resize the window doesn't seem logical
//dedicated thread to ping request redraw back and resize the window doesn't seem logical
let window=crate::window::WindowContextSetup::new(&setup_context,&window);
//the thread that spawns the physics thread
let window_thread=window.into_worker(setup_context);
let window=crate::window::WindowContextSetup::new(&setup_context,window);
//the thread that spawns the physics thread
let window_thread=window.into_worker(setup_context);
println!("Entering event loop...");
let root_time=std::time::Instant::now();
run_event_loop(event_loop,window_thread,root_time).unwrap();
}
println!("Entering event loop...");
let root_time=std::time::Instant::now();
run_event_loop(event_loop,window_thread,root_time).unwrap();
}
fn run_event_loop(
@ -249,7 +227,7 @@ fn run_event_loop(
root_time:std::time::Instant
)->Result<(),winit::error::EventLoopError>{
event_loop.run(move |event,elwt|{
let time=crate::integer::Time::from_nanos(root_time.elapsed().as_nanos() as i64);
let time=integer::Time::from_nanos(root_time.elapsed().as_nanos() as i64);
// *control_flow=if cfg!(feature="metal-auto-capture"){
// winit::event_loop::ControlFlow::Exit
// }else{

View File

@ -1,5 +1,6 @@
use crate::instruction::TimedInstruction;
use crate::physics_worker::InputInstruction;
use strafesnet_common::integer;
use strafesnet_common::instruction::TimedInstruction;
pub enum WindowInstruction{
Resize(winit::dpi::PhysicalSize<u32>),
@ -15,7 +16,7 @@ struct WindowContext<'a>{
mouse:crate::physics::MouseState,//std::sync::Arc<std::sync::Mutex<>>
screen_size:glam::UVec2,
user_settings:crate::settings::UserSettings,
window:winit::window::Window,
window:&'a winit::window::Window,
physics_thread:crate::compat_worker::QNWorker<'a, TimedInstruction<crate::physics_worker::Instruction>>,
}
@ -23,7 +24,7 @@ impl WindowContext<'_>{
fn get_middle_of_screen(&self)->winit::dpi::PhysicalPosition<f32>{
winit::dpi::PhysicalPosition::new(self.screen_size.x as f32/2.0,self.screen_size.y as f32/2.0)
}
fn window_event(&mut self,time:crate::integer::Time,event: winit::event::WindowEvent) {
fn window_event(&mut self,time:integer::Time,event: winit::event::WindowEvent) {
match event {
winit::event::WindowEvent::DroppedFile(path)=>{
//blocking because it's simpler...
@ -121,7 +122,7 @@ impl WindowContext<'_>{
}
}
fn device_event(&mut self,time:crate::integer::Time,event: winit::event::DeviceEvent) {
fn device_event(&mut self,time:integer::Time,event: winit::event::DeviceEvent) {
match event {
winit::event::DeviceEvent::MouseMotion {
delta,//these (f64,f64) are integers on my machine
@ -158,15 +159,15 @@ impl WindowContext<'_>{
}
}
pub struct WindowContextSetup{
pub struct WindowContextSetup<'a>{
user_settings:crate::settings::UserSettings,
window:winit::window::Window,
window:&'a winit::window::Window,
physics:crate::physics::PhysicsState,
graphics:crate::graphics::GraphicsState,
}
impl WindowContextSetup{
pub fn new(context:&crate::setup::SetupContext,window:winit::window::Window)->Self{
impl<'a> WindowContextSetup<'a>{
pub fn new(context:&crate::setup::SetupContext,window:&'a winit::window::Window)->Self{
//wee
let user_settings=crate::settings::read_user_settings();
@ -194,7 +195,7 @@ impl WindowContextSetup{
}
}
fn into_context<'a>(self,setup_context:crate::setup::SetupContext)->WindowContext<'a>{
fn into_context(self,setup_context:crate::setup::SetupContext<'a>)->WindowContext<'a>{
let screen_size=glam::uvec2(setup_context.config.width,setup_context.config.height);
let graphics_thread=crate::graphics_worker::new(self.graphics,setup_context.config,setup_context.surface,setup_context.device,setup_context.queue);
WindowContext{
@ -208,7 +209,7 @@ impl WindowContextSetup{
}
}
pub fn into_worker<'a>(self,setup_context:crate::setup::SetupContext)->crate::compat_worker::QNWorker<'a,TimedInstruction<WindowInstruction>>{
pub fn into_worker(self,setup_context:crate::setup::SetupContext<'a>)->crate::compat_worker::QNWorker<'a,TimedInstruction<WindowInstruction>>{
let mut window_context=self.into_context(setup_context);
crate::compat_worker::QNWorker::new(move |ins:TimedInstruction<WindowInstruction>|{
match ins.instruction{

View File

@ -175,16 +175,16 @@ impl<'a,Task:Send+'a> INWorker<'a,Task>{
#[test]//How to run this test with printing: cargo test --release -- --nocapture
fn test_worker() {
println!("hiiiii");
// Create the worker thread
let test_body=crate::physics::Body::new(crate::integer::Planar64Vec3::ONE,crate::integer::Planar64Vec3::ONE,crate::integer::Planar64Vec3::ONE,crate::integer::Time::ZERO);
let worker=QRWorker::new(crate::physics::Body::default(),
|_|crate::physics::Body::new(crate::integer::Planar64Vec3::ONE,crate::integer::Planar64Vec3::ONE,crate::integer::Planar64Vec3::ONE,crate::integer::Time::ZERO)
);
// Send tasks to the worker
for _ in 0..5 {
let task = crate::instruction::TimedInstruction{
time:crate::integer::Time::ZERO,
let task = strafesnet_common::instruction::TimedInstruction{
time:strafesnet_common::integer::Time::ZERO,
instruction:crate::physics::PhysicsInstruction::StrafeTick,
};
worker.send(task).unwrap();
@ -197,13 +197,13 @@ fn test_worker() {
thread::sleep(std::time::Duration::from_millis(10));
// Send a new task
let task = crate::instruction::TimedInstruction{
time:crate::integer::Time::ZERO,
let task = strafesnet_common::instruction::TimedInstruction{
time:strafesnet_common::integer::Time::ZERO,
instruction:crate::physics::PhysicsInstruction::StrafeTick,
};
worker.send(task).unwrap();
println!("value={}",worker.grab_clone());
//assert_eq!(test_body,worker.grab_clone());
// wait long enough to see print from final task
thread::sleep(std::time::Duration::from_millis(10));

View File

@ -1,34 +0,0 @@
//find roots of polynomials
use crate::integer::Planar64;
#[inline]
pub fn zeroes2(a0:Planar64,a1:Planar64,a2:Planar64) -> Vec<Planar64>{
if a2==Planar64::ZERO{
return zeroes1(a0, a1);
}
let radicand=a1.get() as i128*a1.get() as i128-a2.get() as i128*a0.get() as i128*4;
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
//sort roots ascending and avoid taking the difference of large numbers
match (Planar64::ZERO<a2,Planar64::ZERO<a1){
(true, true )=>vec![(-a1-planar_radicand)/(a2*2),(a0*2)/(-a1-planar_radicand)],
(true, false)=>vec![(a0*2)/(-a1+planar_radicand),(-a1+planar_radicand)/(a2*2)],
(false,true )=>vec![(a0*2)/(-a1-planar_radicand),(-a1-planar_radicand)/(a2*2)],
(false,false)=>vec![(-a1+planar_radicand)/(a2*2),(a0*2)/(-a1+planar_radicand)],
}
} else if radicand==0 {
return vec![a1/(a2*-2)];
} else {
return vec![];
}
}
#[inline]
pub fn zeroes1(a0:Planar64,a1:Planar64) -> Vec<Planar64> {
if a1==Planar64::ZERO{
return vec![];
} else {
return vec![-a0/a1];
}
}