2019-09-09 19:11:40 +00:00
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use super::phys::GRAVITY;
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2019-07-21 12:42:45 +00:00
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use crate::{
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2019-08-23 10:11:37 +00:00
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comp::{
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2019-09-09 19:11:40 +00:00
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ActionState::*, CharacterState, Controller, Mounting, MovementState::*, Ori, PhysicsState,
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Pos, Stats, Vel,
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2019-08-23 10:11:37 +00:00
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},
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2019-07-21 12:42:45 +00:00
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state::DeltaTime,
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common: Rework volume API
See the doc comments in `common/src/vol.rs` for more information on
the API itself.
The changes include:
* Consistent `Err`/`Error` naming.
* Types are named `...Error`.
* `enum` variants are named `...Err`.
* Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation
to an upcoming change where a “map” in the game related sense will
be added.
* Add volume iterators. There are two types of them:
* _Position_ iterators obtained from the trait `IntoPosIterator`
using the method
`fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...`
which returns an iterator over `Vec3<i32>`.
* _Volume_ iterators obtained from the trait `IntoVolIterator`
using the method
`fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...`
which returns an iterator over `(Vec3<i32>, &Self::Vox)`.
Those traits will usually be implemented by references to volume
types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some
type which usually implements several volume traits, such as `Chunk`).
* _Position_ iterators iterate over the positions valid for that
volume.
* _Volume_ iterators do the same but return not only the position
but also the voxel at that position, in each iteration.
* Introduce trait `RectSizedVol` for the use case which we have with
`Chonk`: A `Chonk` is sized only in x and y direction.
* Introduce traits `RasterableVol`, `RectRasterableVol`
* `RasterableVol` represents a volume that is compile-time sized and has
its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen
because such a volume can be used with `VolGrid3d`.
* `RectRasterableVol` represents a volume that is compile-time sized at
least in x and y direction and has its lower bound at `(0, 0, z)`.
There's no requirement on he lower bound or size in z direction.
The name `RectRasterableVol` was chosen because such a volume can be
used with `VolGrid2d`.
2019-09-03 22:23:29 +00:00
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terrain::TerrainGrid,
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2019-07-21 12:42:45 +00:00
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};
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2019-09-09 19:11:40 +00:00
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use specs::prelude::*;
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2019-08-23 10:11:37 +00:00
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use std::time::Duration;
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2019-07-21 12:42:45 +00:00
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use vek::*;
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2019-08-26 18:05:30 +00:00
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pub const ROLL_DURATION: Duration = Duration::from_millis(600);
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2019-07-21 12:42:45 +00:00
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const HUMANOID_ACCEL: f32 = 70.0;
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const HUMANOID_SPEED: f32 = 120.0;
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const HUMANOID_AIR_ACCEL: f32 = 10.0;
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const HUMANOID_AIR_SPEED: f32 = 100.0;
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2019-09-09 19:11:40 +00:00
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const HUMANOID_WATER_ACCEL: f32 = 70.0;
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const HUMANOID_WATER_SPEED: f32 = 120.0;
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const HUMANOID_CLIMB_ACCEL: f32 = 5.0;
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2019-08-25 16:08:00 +00:00
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const ROLL_SPEED: f32 = 13.0;
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2019-07-21 12:42:45 +00:00
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const GLIDE_ACCEL: f32 = 15.0;
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const GLIDE_SPEED: f32 = 45.0;
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2019-08-29 02:17:08 +00:00
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const BLOCK_ACCEL: f32 = 30.0;
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const BLOCK_SPEED: f32 = 75.0;
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2019-07-21 12:42:45 +00:00
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// Gravity is 9.81 * 4, so this makes gravity equal to .15
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2019-09-09 19:11:40 +00:00
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const GLIDE_ANTIGRAV: f32 = GRAVITY * 0.96;
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const CLIMB_SPEED: f32 = 5.0;
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2019-07-21 12:42:45 +00:00
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pub const MOVEMENT_THRESHOLD_VEL: f32 = 3.0;
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/// This system applies forces and calculates new positions and velocities.
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pub struct Sys;
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impl<'a> System<'a> for Sys {
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type SystemData = (
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2019-09-09 19:11:40 +00:00
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Entities<'a>,
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common: Rework volume API
See the doc comments in `common/src/vol.rs` for more information on
the API itself.
The changes include:
* Consistent `Err`/`Error` naming.
* Types are named `...Error`.
* `enum` variants are named `...Err`.
* Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation
to an upcoming change where a “map” in the game related sense will
be added.
* Add volume iterators. There are two types of them:
* _Position_ iterators obtained from the trait `IntoPosIterator`
using the method
`fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...`
which returns an iterator over `Vec3<i32>`.
* _Volume_ iterators obtained from the trait `IntoVolIterator`
using the method
`fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...`
which returns an iterator over `(Vec3<i32>, &Self::Vox)`.
Those traits will usually be implemented by references to volume
types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some
type which usually implements several volume traits, such as `Chunk`).
* _Position_ iterators iterate over the positions valid for that
volume.
* _Volume_ iterators do the same but return not only the position
but also the voxel at that position, in each iteration.
* Introduce trait `RectSizedVol` for the use case which we have with
`Chonk`: A `Chonk` is sized only in x and y direction.
* Introduce traits `RasterableVol`, `RectRasterableVol`
* `RasterableVol` represents a volume that is compile-time sized and has
its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen
because such a volume can be used with `VolGrid3d`.
* `RectRasterableVol` represents a volume that is compile-time sized at
least in x and y direction and has its lower bound at `(0, 0, z)`.
There's no requirement on he lower bound or size in z direction.
The name `RectRasterableVol` was chosen because such a volume can be
used with `VolGrid2d`.
2019-09-03 22:23:29 +00:00
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ReadExpect<'a, TerrainGrid>,
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2019-07-21 12:42:45 +00:00
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Read<'a, DeltaTime>,
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ReadStorage<'a, Stats>,
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2019-08-23 10:11:37 +00:00
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ReadStorage<'a, Controller>,
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ReadStorage<'a, PhysicsState>,
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WriteStorage<'a, CharacterState>,
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2019-07-21 12:42:45 +00:00
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WriteStorage<'a, Pos>,
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WriteStorage<'a, Vel>,
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WriteStorage<'a, Ori>,
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2019-09-09 19:11:40 +00:00
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ReadStorage<'a, Mounting>,
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2019-07-21 12:42:45 +00:00
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);
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fn run(
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&mut self,
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(
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2019-09-09 19:11:40 +00:00
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entities,
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2019-09-04 23:03:49 +00:00
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_terrain,
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2019-07-21 12:42:45 +00:00
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dt,
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stats,
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2019-08-23 10:11:37 +00:00
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controllers,
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physics_states,
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mut character_states,
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2019-07-21 12:42:45 +00:00
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mut positions,
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mut velocities,
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mut orientations,
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2019-09-09 19:11:40 +00:00
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mountings,
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2019-07-21 12:42:45 +00:00
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): Self::SystemData,
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) {
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// Apply movement inputs
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2019-09-09 19:11:40 +00:00
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for (
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_entity,
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stats,
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controller,
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physics,
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mut character,
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mut _pos,
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mut vel,
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mut ori,
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mounting,
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) in (
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&entities,
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2019-07-21 12:42:45 +00:00
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&stats,
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2019-08-23 10:11:37 +00:00
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&controllers,
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&physics_states,
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&mut character_states,
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2019-07-21 12:42:45 +00:00
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&mut positions,
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&mut velocities,
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&mut orientations,
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2019-09-09 19:11:40 +00:00
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mountings.maybe(),
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2019-07-21 12:42:45 +00:00
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)
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.join()
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{
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if stats.is_dead {
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continue;
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}
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2019-09-09 19:11:40 +00:00
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if mounting.is_some() {
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character.movement = Sit;
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continue;
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}
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2019-08-25 16:08:00 +00:00
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if character.movement.is_roll() {
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2019-08-25 16:47:45 +00:00
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vel.0 = Vec3::new(0.0, 0.0, vel.0.z)
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+ controller
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.move_dir
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.try_normalized()
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2019-08-25 19:22:56 +00:00
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.unwrap_or(Vec2::from(vel.0).try_normalized().unwrap_or_default())
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2019-08-25 16:47:45 +00:00
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* ROLL_SPEED
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2019-08-29 02:17:08 +00:00
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}
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2019-08-31 02:37:27 +00:00
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if character.action.is_block() || character.action.is_attack() {
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2019-08-29 02:17:08 +00:00
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vel.0 += Vec2::broadcast(dt.0)
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* controller.move_dir
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2019-09-04 23:03:49 +00:00
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* match physics.on_ground {
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true if vel.0.magnitude_squared() < BLOCK_SPEED.powf(2.0) => BLOCK_ACCEL,
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2019-08-29 02:17:08 +00:00
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_ => 0.0,
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}
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2019-08-25 16:08:00 +00:00
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} else {
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// Move player according to move_dir
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vel.0 += Vec2::broadcast(dt.0)
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* controller.move_dir
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* match (physics.on_ground, &character.movement) {
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(true, Run) if vel.0.magnitude_squared() < HUMANOID_SPEED.powf(2.0) => {
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HUMANOID_ACCEL
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}
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2019-09-09 19:11:40 +00:00
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(false, Climb) if vel.0.magnitude_squared() < HUMANOID_SPEED.powf(2.0) => {
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HUMANOID_CLIMB_ACCEL
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}
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2019-08-25 16:08:00 +00:00
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(false, Glide) if vel.0.magnitude_squared() < GLIDE_SPEED.powf(2.0) => {
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GLIDE_ACCEL
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}
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(false, Jump)
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if vel.0.magnitude_squared() < HUMANOID_AIR_SPEED.powf(2.0) =>
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{
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HUMANOID_AIR_ACCEL
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}
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2019-09-09 19:11:40 +00:00
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(false, Swim)
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if vel.0.magnitude_squared() < HUMANOID_WATER_SPEED.powf(2.0) =>
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{
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HUMANOID_WATER_ACCEL
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}
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2019-08-25 16:08:00 +00:00
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_ => 0.0,
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};
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}
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2019-07-21 12:42:45 +00:00
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2019-08-23 10:11:37 +00:00
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// Set direction based on move direction when on the ground
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2019-08-25 12:29:36 +00:00
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let ori_dir = if character.action.is_wield()
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|| character.action.is_attack()
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|| character.action.is_block()
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{
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2019-08-24 17:58:28 +00:00
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Vec2::from(controller.look_dir).normalized()
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2019-09-09 19:11:40 +00:00
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} else if let (Climb, Some(wall_dir)) = (character.movement, physics.on_wall) {
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if Vec2::<f32>::from(wall_dir).magnitude_squared() > 0.001 {
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Vec2::from(wall_dir).normalized()
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} else {
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Vec2::from(vel.0)
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}
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2019-08-25 10:10:42 +00:00
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} else {
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Vec2::from(vel.0)
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2019-08-23 10:11:37 +00:00
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};
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2019-08-24 17:58:28 +00:00
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2019-08-23 10:11:37 +00:00
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if ori_dir.magnitude_squared() > 0.0001
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&& (ori.0.normalized() - Vec3::from(ori_dir).normalized()).magnitude_squared()
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> 0.001
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{
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ori.0 = vek::ops::Slerp::slerp(
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ori.0,
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ori_dir.into(),
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if physics.on_ground { 12.0 } else { 2.0 } * dt.0,
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);
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2019-07-21 12:42:45 +00:00
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}
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// Glide
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2019-08-23 10:11:37 +00:00
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if character.movement == Glide
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2019-09-09 19:11:40 +00:00
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&& Vec2::<f32>::from(vel.0).magnitude_squared() < GLIDE_SPEED.powf(2.0)
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2019-08-23 10:11:37 +00:00
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&& vel.0.z < 0.0
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{
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character.action = Idle;
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2019-09-09 19:11:40 +00:00
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let lift = GLIDE_ANTIGRAV + vel.0.z.abs().powf(2.0) * 0.15;
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vel.0.z += dt.0
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* lift
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* (Vec2::<f32>::from(vel.0).magnitude() * 0.075)
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.min(1.0)
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.max(0.2);
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2019-07-21 12:42:45 +00:00
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}
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// Roll
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2019-08-23 10:11:37 +00:00
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if let Roll { time_left } = &mut character.movement {
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character.action = Idle;
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if *time_left == Duration::default() || vel.0.magnitude_squared() < 10.0 {
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character.movement = Run;
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} else {
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*time_left = time_left
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.checked_sub(Duration::from_secs_f32(dt.0))
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.unwrap_or_default();
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2019-07-21 12:42:45 +00:00
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}
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}
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2019-08-24 08:56:28 +00:00
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2019-09-09 19:11:40 +00:00
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// Climb
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if let (true, Some(_wall_dir)) = (
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(controller.climb | controller.climb_down) && vel.0.z <= CLIMB_SPEED,
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physics.on_wall,
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) {
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if controller.climb_down && !controller.climb {
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vel.0 -= dt.0 * vel.0.map(|e| e.abs().powf(1.5) * e.signum() * 6.0);
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} else if controller.climb && !controller.climb_down {
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vel.0.z = (vel.0.z + dt.0 * GRAVITY * 1.25).min(CLIMB_SPEED);
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} else {
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vel.0.z = vel.0.z + dt.0 * GRAVITY * 1.5;
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vel.0 = Lerp::lerp(
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vel.0,
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Vec3::zero(),
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30.0 * dt.0 / (1.0 - vel.0.z.min(0.0) * 5.0),
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);
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}
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character.movement = Climb;
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character.action = Idle;
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} else if let Climb = character.movement {
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character.movement = Jump;
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}
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if physics.on_ground
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&& (character.movement == Jump
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|| character.movement == Climb
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|| character.movement == Glide
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|| character.movement == Swim)
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{
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2019-08-24 08:56:28 +00:00
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character.movement = Stand;
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}
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2019-08-26 20:55:10 +00:00
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if !physics.on_ground
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&& (character.movement == Stand
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|| character.movement.is_roll()
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|| character.movement == Run)
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{
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2019-08-24 08:56:28 +00:00
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character.movement = Jump;
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}
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2019-09-09 19:11:40 +00:00
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if !physics.on_ground && physics.in_fluid {
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character.movement = Swim;
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} else if let Swim = character.movement {
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character.movement = Stand;
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}
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2019-07-21 12:42:45 +00:00
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}
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}
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}
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