2023-09-09 00:34:26 +00:00
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use crate::instruction::TimedInstruction;
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2023-09-08 19:03:32 +00:00
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2023-09-09 00:34:26 +00:00
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pub enum PhysicsInstruction {
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2023-09-09 00:00:50 +00:00
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CollisionStart(RelativeCollision),
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CollisionEnd(RelativeCollision),
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StrafeTick,
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Jump,
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2023-09-09 03:14:18 +00:00
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SetWalkTargetVelocity(glam::Vec3),
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ReachWalkTargetVelocity,
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2023-09-09 03:13:30 +00:00
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// Water,
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// Spawn(
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// Option<SpawnId>,
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// bool,//true = Trigger; false = teleport
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// bool,//true = Force
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// )
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2023-09-09 00:00:50 +00:00
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}
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2023-09-08 18:33:16 +00:00
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pub struct Body {
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pub position: glam::Vec3,//I64 where 2^32 = 1 u
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pub velocity: glam::Vec3,//I64 where 2^32 = 1 u/s
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pub time: TIME,//nanoseconds x xxxxD!
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}
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2023-09-09 03:14:18 +00:00
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pub enum MoveRestriction {
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Air,
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Water,
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Ground,
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Ladder,//multiple ladders how
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}
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2023-09-08 18:33:16 +00:00
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pub struct PhysicsState {
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pub body: Body,
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2023-09-08 22:54:22 +00:00
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pub contacts: Vec<RelativeCollision>,
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2023-09-08 22:55:33 +00:00
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pub models_cringe_clone: Vec<Model>,
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pub time: TIME,
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pub strafe_tick_num: TIME,
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pub strafe_tick_den: TIME,
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pub tick: u32,
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pub mv: f32,
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pub walkspeed: f32,
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2023-09-08 18:38:34 +00:00
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pub friction: f32,
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pub gravity: glam::Vec3,
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pub grounded: bool,
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2023-09-08 18:33:20 +00:00
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pub jump_trying: bool,
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2023-09-08 18:33:16 +00:00
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}
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2023-09-08 22:54:43 +00:00
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#[derive(Clone,Copy)]
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pub enum AabbFace{
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Right,//+X
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Top,
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Back,
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Left,
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Bottom,
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Front,
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}
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2023-09-08 23:14:01 +00:00
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pub struct Aabb {
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min: glam::Vec3,
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max: glam::Vec3,
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}
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impl Aabb {
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// const FACE_DATA: [[f32; 3]; 6] = [
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// [0.0f32, 0., 1.],
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// [0.0f32, 0., -1.],
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// [1.0f32, 0., 0.],
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// [-1.0f32, 0., 0.],
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// [0.0f32, 1., 0.],
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// [0.0f32, -1., 0.],
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// ];
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const VERTEX_DATA_RIGHT: [glam::Vec3; 4] = [
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glam::vec3(1., -1., -1.),
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glam::vec3(1., 1., -1.),
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glam::vec3(1., 1., 1.),
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glam::vec3(1., -1., 1.),
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];
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const VERTEX_DATA_TOP: [glam::Vec3; 4] = [
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glam::vec3(1., 1., -1.),
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glam::vec3(-1., 1., -1.),
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glam::vec3(-1., 1., 1.),
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glam::vec3(1., 1., 1.),
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];
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const VERTEX_DATA_BACK: [glam::Vec3; 4] = [
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glam::vec3(-1., -1., 1.),
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glam::vec3(1., -1., 1.),
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glam::vec3(1., 1., 1.),
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glam::vec3(-1., 1., 1.),
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];
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const VERTEX_DATA_LEFT: [glam::Vec3; 4] = [
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glam::vec3(-1., -1., 1.),
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glam::vec3(-1., 1., 1.),
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glam::vec3(-1., 1., -1.),
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glam::vec3(-1., -1., -1.),
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];
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const VERTEX_DATA_BOTTOM: [glam::Vec3; 4] = [
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glam::vec3(1., -1., 1.),
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glam::vec3(-1., -1., 1.),
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glam::vec3(-1., -1., -1.),
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glam::vec3(1., -1., -1.),
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];
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const VERTEX_DATA_FRONT: [glam::Vec3; 4] = [
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glam::vec3(-1., 1., -1.),
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glam::vec3(1., 1., -1.),
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glam::vec3(1., -1., -1.),
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glam::vec3(-1., -1., -1.),
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];
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pub fn new() -> Self {
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Self {min: glam::Vec3::INFINITY,max: glam::Vec3::NEG_INFINITY}
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}
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pub fn grow(&mut self, point:glam::Vec3){
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self.min=self.min.min(point);
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self.max=self.max.max(point);
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}
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pub fn normal(face:AabbFace) -> glam::Vec3 {
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match face {
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AabbFace::Right => glam::vec3(1.,0.,0.),
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AabbFace::Top => glam::vec3(0.,1.,0.),
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AabbFace::Back => glam::vec3(0.,0.,1.),
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AabbFace::Left => glam::vec3(-1.,0.,0.),
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AabbFace::Bottom => glam::vec3(0.,-1.,0.),
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AabbFace::Front => glam::vec3(0.,0.,-1.),
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}
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}
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pub fn face_vertices(face:AabbFace) -> [glam::Vec3;4] {
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match face {
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AabbFace::Right => Self::VERTEX_DATA_RIGHT,
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AabbFace::Top => Self::VERTEX_DATA_TOP,
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AabbFace::Back => Self::VERTEX_DATA_BACK,
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AabbFace::Left => Self::VERTEX_DATA_LEFT,
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AabbFace::Bottom => Self::VERTEX_DATA_BOTTOM,
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AabbFace::Front => Self::VERTEX_DATA_FRONT,
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}
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}
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}
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type Face = AabbFace;
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type TreyMesh = Aabb;
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pub struct Model {
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//A model is a thing that has a hitbox. can be represented by a list of TreyMesh-es
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//in this iteration, all it needs is extents.
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transform: glam::Mat4,
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}
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impl Model {
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pub fn new(transform:glam::Mat4) -> Self {
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Self{transform}
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}
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pub fn face_vertices(&self,face:Face) -> [glam::Vec3;4] {
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Aabb::face_vertices(face)
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}
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pub fn face_mesh(&self,face:Face) -> TreyMesh {
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let mut aabb=Aabb::new();
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for &vertex in self.face_vertices(face).iter() {
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aabb.grow(vertex);
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}
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return aabb;
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}
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pub fn face_normal(&self,face:Face) -> glam::Vec3 {
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let mut n=glam::Vec3Swizzles::xyzz(Aabb::normal(face));
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n.w=0.0;//what a man will do to avoid writing out the components
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glam::Vec4Swizzles::xyz(self.transform*n)//this is wrong for scale
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}
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}
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2023-09-08 22:54:22 +00:00
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pub struct RelativeCollision {
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face: Face,//just an id
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model: u32,//using id to avoid lifetimes
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}
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impl RelativeCollision {
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pub fn mesh(&self,models:&Vec<Model>) -> TreyMesh {
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return models.get(self.model as usize).unwrap().face_mesh(self.face)
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}
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pub fn normal(&self,models:&Vec<Model>) -> glam::Vec3 {
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return models.get(self.model as usize).unwrap().face_normal(self.face)
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}
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}
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2023-09-08 18:33:16 +00:00
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pub type TIME = i64;
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2023-09-08 22:55:43 +00:00
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const CONTROL_JUMP:u32 = 0b01000000;//temp DATA NORMALIZATION!@#$
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impl PhysicsState {
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//delete this, we are tickless gamers
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2023-09-09 03:14:18 +00:00
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pub fn run(&mut self, time: TIME){
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//prepare is ommitted - everything is done via instructions.
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while let Some(instruction) = self.next_instruction() {//collect
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if time<instruction.time {
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break;
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}
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//advance
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self.advance_time(instruction.time);
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//process
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self.process_instruction(instruction);
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//write hash lol
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}
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}
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//delete this
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pub fn extrapolate_position(&self, time: TIME) -> glam::Vec3 {
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let dt=(time-self.body.time) as f64/1_000_000_000f64;
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self.body.position+self.body.velocity*(dt as f32)+self.gravity*((0.5*dt*dt) as f32)
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}
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2023-09-08 18:33:20 +00:00
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2023-09-09 00:34:26 +00:00
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fn next_strafe_instruction(&self) -> Option<TimedInstruction<PhysicsInstruction>> {
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return Some(TimedInstruction{
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time:(self.time*self.strafe_tick_num/self.strafe_tick_den+1)*self.strafe_tick_den/self.strafe_tick_num,
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//only poll the physics if there is a before and after mouse event
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2023-09-09 00:34:26 +00:00
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instruction:PhysicsInstruction::StrafeTick
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});
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}
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2023-09-08 21:11:24 +00:00
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2023-09-09 03:13:30 +00:00
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//state mutated on collision:
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//Accelerator
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//stair step-up
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//state mutated on instruction
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//change fly acceleration (fly_sustain)
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//change fly velocity
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//generic event emmiters
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//PlatformStandTime
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//walk/swim/air/ladder sounds
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//VState?
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//falling under the map
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// fn next_respawn_instruction(&self) -> Option<TimedInstruction<PhysicsInstruction>> {
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// if self.body.position<self.world.min_y {
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// return Some(TimedInstruction{
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// time:self.time,
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// instruction:PhysicsInstruction::Trigger(None)
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// });
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// }
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// }
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// fn next_water_instruction(&self) -> Option<TimedInstruction<PhysicsInstruction>> {
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// return Some(TimedInstruction{
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// time:(self.time*self.strafe_tick_num/self.strafe_tick_den+1)*self.strafe_tick_den/self.strafe_tick_num,
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// //only poll the physics if there is a before and after mouse event
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// instruction:PhysicsInstruction::Water
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// });
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// }
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2023-09-09 00:34:26 +00:00
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fn next_walk_instruction(&self) -> Option<TimedInstruction<PhysicsInstruction>> {
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//check if you are accelerating towards a walk target velocity and create an instruction
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return None;
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}
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fn predict_collision_end(&self,model:&Model) -> Option<TimedInstruction<PhysicsInstruction>> {
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//must treat cancollide false objects differently: you may not exit through the same face you entered.
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None
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}
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fn predict_collision_start(&self,model:&Model) -> Option<TimedInstruction<PhysicsInstruction>> {
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2023-09-08 22:55:33 +00:00
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None
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}
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2023-09-08 18:33:20 +00:00
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}
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2023-09-09 00:34:26 +00:00
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impl crate::instruction::InstructionEmitter<PhysicsInstruction> for PhysicsState {
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//this little next instruction function can cache its return value and invalidate the cached value by watching the State.
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fn next_instruction(&self) -> Option<TimedInstruction<PhysicsInstruction>> {
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//JUST POLLING!!! NO MUTATION
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let mut collector = crate::instruction::InstructionCollector::new();
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2023-09-08 19:04:30 +00:00
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//autohop (already pressing spacebar; the signal to begin trying to jump is different)
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2023-09-08 18:33:20 +00:00
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if self.grounded&&self.jump_trying {
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//scroll will be implemented with InputInstruction::Jump(true) but it blocks setting self.jump_trying=true
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2023-09-09 03:12:58 +00:00
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collector.collect(Some(TimedInstruction{
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time:self.time,
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instruction:PhysicsInstruction::Jump
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}));
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}
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2023-09-09 00:34:26 +00:00
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//check for collision stop instructions with curent contacts
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for collision_data in self.contacts.iter() {
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2023-09-09 03:12:58 +00:00
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collector.collect(self.predict_collision_end(self.models_cringe_clone.get(collision_data.model as usize).unwrap()));
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2023-09-08 18:33:20 +00:00
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}
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2023-09-09 00:34:26 +00:00
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//check for collision start instructions (against every part in the game with no optimization!!)
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2023-09-08 22:55:33 +00:00
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for model in &self.models_cringe_clone {
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collector.collect(self.predict_collision_start(model));
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2023-09-08 22:55:33 +00:00
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}
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2023-09-08 21:11:24 +00:00
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if self.grounded {
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//walk maintenance
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2023-09-09 03:12:58 +00:00
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collector.collect(self.next_walk_instruction());
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2023-09-08 21:11:24 +00:00
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}else{
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//check to see when the next strafe tick is
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2023-09-09 03:12:58 +00:00
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collector.collect(self.next_strafe_instruction());
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2023-09-08 18:33:20 +00:00
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}
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2023-09-09 03:12:58 +00:00
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collector.instruction()
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2023-09-08 18:33:20 +00:00
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}
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2023-09-08 18:33:16 +00:00
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}
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2023-09-09 00:15:49 +00:00
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2023-09-09 00:34:26 +00:00
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impl crate::instruction::InstructionConsumer<PhysicsInstruction> for PhysicsState {
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2023-09-09 03:14:18 +00:00
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fn process_instruction(&mut self, ins:TimedInstruction<PhysicsInstruction>) {
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//mutate position and velocity and time
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self.body.advance_time(ins.time);//should this be in a separate function: self.advance_time?
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match ins.instruction {
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PhysicsInstruction::CollisionStart(_) => todo!(),
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PhysicsInstruction::CollisionEnd(_) => todo!(),
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PhysicsInstruction::StrafeTick => {
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let control_dir=self.get_control_dir();//this respects your mouse interpolation settings
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let d=self.body.velocity.dot(control_dir);
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if d<self.mv {
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self.body.velocity+=(self.mv-d)*control_dir;
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}
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}
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PhysicsInstruction::Jump => {
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self.grounded=false;//do I need this?
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self.body.velocity+=glam::Vec3::new(0.0,0.715588/2.0*100.0,0.0);
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}
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PhysicsInstruction::ReachWalkTargetVelocity => {
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//precisely set velocity
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self.body.velocity=self.walk_target_velocity;
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}
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PhysicsInstruction::SetWalkTargetVelocity(v) => {
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self.walk_target_velocity=v;
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//calculate acceleration yada yada
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},
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}
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2023-09-09 00:15:49 +00:00
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}
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}
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