Added ship damage effects and effect fade

master
Mark 2024-01-07 12:15:34 -08:00
parent 1992bd7bb8
commit 60f84a4c8e
Signed by: Mark
GPG Key ID: C6D63995FE72FD80
12 changed files with 413 additions and 167 deletions

2
assets

@ -1 +1 @@
Subproject commit 74ddbde9e1cec1418c17844bc7336324ece88d15
Subproject commit 607aea5630a0c1ccadacd1cf207394b5dc86147e

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@ -6,6 +6,8 @@ size = 8.0
size_rng = 1.6
angle_rng = 360
velocity_scale_parent = 1.0
fade = 0.2
fade_rng = 0.1
[effect."large explosion"]
@ -16,6 +18,8 @@ size = 25.0
size_rng = 5.0
angle_rng = 360
velocity_scale_parent = 1.0
fade = 0.2
fade_rng = 0.1
[effect."huge explosion"]
@ -26,6 +30,46 @@ size = 50.0
size_rng = 10.0
angle_rng = 360
velocity_scale_parent = 1.0
fade = 0.2
fade_rng = 0.1
[effect."blue spark"]
sprite = "particle::spark::blue"
lifetime = 0.5
lifetime_rng = 0.5
inherit_velocity = "parent"
size = 4.0
size_rng = 2.0
angle_rng = 360
angvel_rng = 0.0
velocity_scale_parent = 1.0
fade = 0.2
fade_rng = 0.1
[effect."yellow spark"]
sprite = "particle::spark::yellow"
lifetime = "inherit"
inherit_velocity = "parent"
size = 4.0
size_rng = 2.0
angle_rng = 360
angvel_rng = 0.0
velocity_scale_parent = 1.0
fade = 0.2
fade_rng = 0.1
[effect."red spark"]
sprite = "particle::spark::red"
lifetime = "inherit"
inherit_velocity = "parent"
size = 4.0
size_rng = 1.0
angle_rng = 360
angvel_rng = 0.0
velocity_scale_parent = 1.0
fade = 0.2
fade_rng = 0.1
# Every effect has a parent, some effects have a target
@ -53,6 +97,8 @@ velocity_scale_target_rng = 1.0
direction_rng = 1.0 # Random variation of travel direction, in degrees, applied to velocity vector (/2 each side?)
fade = 0.2
fade_rng = 0.1
# TODO:
# effect probabilities & variants

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@ -17,6 +17,15 @@ engines = [{ x = 0.0, y = -1.05, size = 50.0 }]
guns = [{ x = 0.0, y = 1 }, { x = 0.1, y = 0.80 }, { x = -0.1, y = 0.80 }]
# Show these once we've been reduced to this much hull
damage.hull = 190
# Spawn this effect once every n seconds, on average
damage.effects = [
{ effect = "blue spark", frequency = 3 },
{ effect = "yellow spark", frequency = 1 },
]
# Length of death sequence, in seconds
collapse.length = 5.0

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@ -139,3 +139,39 @@ frames = [
"particle/explosion-huge/09.png",
"particle/explosion-huge/10.png",
]
[sprite."particle::spark::blue"]
timing.duration = 0.3
#timing.rng = 0.2 # each frame will be independently sped up/slowed by this factor
#timing.uniform_rng = 0.2 # one factor for all frames
repeat = "reverse"
frames = [
"particle/spark-blue/01.png",
"particle/spark-blue/02.png",
"particle/spark-blue/03.png",
"particle/spark-blue/04.png",
"particle/spark-blue/05.png",
]
[sprite."particle::spark::yellow"]
timing.duration = 0.3
timing.rng = 0.2
repeat = "once"
frames = [
"particle/spark-yellow/01.png",
"particle/spark-yellow/02.png",
"particle/spark-yellow/03.png",
"particle/spark-yellow/04.png",
"particle/spark-yellow/05.png",
]
[sprite."particle::spark::red"]
timing.duration = 0.3
timing.rng = 0.2
repeat = "once"
frames = [
"particle/spark-red/01.png",
"particle/spark-red/02.png",
"particle/spark-red/03.png",
]

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@ -29,6 +29,8 @@ pub(crate) mod syntax {
pub velocity_scale_target: Option<f32>,
pub velocity_scale_target_rng: Option<f32>,
pub direction_rng: Option<f32>,
pub fade: Option<f32>,
pub fade_rng: Option<f32>,
}
#[derive(Debug, Deserialize)]
@ -56,7 +58,7 @@ pub(crate) mod syntax {
TextOrFloat::Text(s) => {
if s == "inherit" {
let sprite = content.get_sprite(sprite);
sprite.fps * sprite.frames.len() as f32
sprite.frame_duration * sprite.frames.len() as f32
} else {
bail!("bad effect lifetime, must be float or \"inherit\"",)
}
@ -74,14 +76,16 @@ pub(crate) mod syntax {
lifetime,
lifetime_rng: self.lifetime_rng.unwrap_or(0.0),
angle: Deg(self.angle.unwrap_or(0.0) / 2.0).into(),
angle_rng: Deg(self.angle_rng.unwrap_or(0.0) / 2.0).into(),
angle_rng: self.angle_rng.unwrap_or(0.0) / 2.0,
angvel: Deg(self.angvel.unwrap_or(0.0)).into(),
angvel_rng: Deg(self.angle_rng.unwrap_or(0.0)).into(),
angvel_rng: self.angvel_rng.unwrap_or(0.0),
velocity_scale_parent: self.velocity_scale_parent.unwrap_or(0.0),
velocity_scale_parent_rng: self.velocity_scale_parent_rng.unwrap_or(0.0),
velocity_scale_target: self.velocity_scale_target.unwrap_or(0.0),
velocity_scale_target_rng: self.velocity_scale_target_rng.unwrap_or(0.0),
direction_rng: Deg(self.direction_rng.unwrap_or(0.0) / 2.0).into(),
direction_rng: self.direction_rng.unwrap_or(0.0) / 2.0,
fade: self.fade.unwrap_or(0.0),
fade_rng: self.fade_rng.unwrap_or(0.0),
});
return Ok(handle);
@ -141,13 +145,13 @@ pub struct Effect {
pub angle: Rad<f32>,
/// Random angle variation
pub angle_rng: Rad<f32>,
pub angle_rng: f32,
/// How fast this particle spins
pub angvel: Rad<f32>,
/// Random angvel variation
pub angvel_rng: Rad<f32>,
pub angvel_rng: f32,
/// The amount of this particle's parent's velocity to inherit
pub velocity_scale_parent: f32,
@ -163,7 +167,13 @@ pub struct Effect {
pub velocity_scale_target_rng: f32,
/// Travel direction random variation
pub direction_rng: Rad<f32>,
pub direction_rng: f32,
/// Fade this effect out over this many seconds as it ends
pub fade: f32,
/// Random fade ariation
pub fade_rng: f32,
}
impl crate::Build for Effect {

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@ -26,6 +26,7 @@ pub(crate) mod syntax {
pub linear_drag: f32,
pub space: outfitspace::syntax::OutfitSpace,
pub collapse: Option<Collapse>,
pub damage: Option<Damage>,
}
#[derive(Debug, Deserialize)]
@ -41,6 +42,19 @@ pub(crate) mod syntax {
pub y: f32,
}
#[derive(Debug, Deserialize)]
pub struct Damage {
pub hull: f32,
pub effects: Vec<DamageEffectSpawner>,
}
#[derive(Debug, Deserialize)]
pub struct DamageEffectSpawner {
pub effect: EffectReference,
pub frequency: f32,
pub pos: Option<[f32; 2]>,
}
// TODO:
// plural or not? document!
#[derive(Debug, Deserialize)]
@ -118,6 +132,9 @@ pub struct Ship {
/// Ship collapse sequence
pub collapse: ShipCollapse,
/// Damaged ship effects
pub damage: ShipDamage,
}
/// Collision shape for this ship
@ -161,7 +178,31 @@ pub struct ShipCollapse {
pub events: Vec<CollapseEvent>,
}
/// A scripted event during a ship collapse sequence
/// Parameters for damaged ship effects
#[derive(Debug, Clone)]
pub struct ShipDamage {
/// Show damaged ship effects if hull is below this value
pub hull: f32,
/// Effects to create during collapse
pub effects: Vec<DamageEffectSpawner>,
}
/// An effect shown when a ship is damaged
#[derive(Debug, Clone)]
pub struct DamageEffectSpawner {
/// The effect to create
pub effect: EffectHandle,
/// How often to create this effect
pub frequency: f32,
/// Where to create is effect.
/// Position is random if None.
pub pos: Option<Point2<f32>>,
}
/// An effect shown during a ship collapse sequence
#[derive(Debug, Clone)]
pub struct CollapseEffectSpawner {
/// The effect to create
@ -170,7 +211,7 @@ pub struct CollapseEffectSpawner {
/// How many effects to create
pub count: f32,
/// Where to create these effects.
/// Where to create this effect.
/// Position is random if None.
pub pos: Option<Point2<f32>>,
}
@ -213,65 +254,101 @@ impl crate::Build for Ship {
let size = ship.size;
let aspect = ct.get_sprite(handle).aspect;
let collapse = if let Some(c) = ship.collapse {
let mut effects = Vec::new();
for e in c.effects {
effects.push(CollapseEffectSpawner {
effect: e
.effect
.to_handle(build_context, ct)
.with_context(|| format!("while loading ship `{}`", ship_name))?,
count: e.count,
pos: e.pos.map(|p| Point2 {
x: p[0] * (size / 2.0) * aspect,
y: p[1] * size / 2.0,
}),
});
}
let collapse = {
if let Some(c) = ship.collapse {
let mut effects = Vec::new();
for e in c.effects {
effects.push(CollapseEffectSpawner {
effect: e
.effect
.to_handle(build_context, ct)
.with_context(|| format!("while loading ship `{}`", ship_name))?,
count: e.count,
pos: e.pos.map(|p| Point2 {
x: p[0] * (size / 2.0) * aspect,
y: p[1] * size / 2.0,
}),
});
}
let mut events = Vec::new();
for e in c.event {
match e {
syntax::CollapseEvent::Effect(e) => {
let mut effects = Vec::new();
for g in e.effects {
effects.push(CollapseEffectSpawner {
effect: g.effect.to_handle(build_context, ct).with_context(
|| format!("while loading ship `{}`", ship_name),
)?,
count: g.count,
pos: g.pos.map(|p| Point2 {
x: p[0] * (size / 2.0) * aspect,
y: p[1] * size / 2.0,
}),
})
let mut events = Vec::new();
for e in c.event {
match e {
syntax::CollapseEvent::Effect(e) => {
let mut effects = Vec::new();
for g in e.effects {
effects.push(CollapseEffectSpawner {
effect: g
.effect
.to_handle(build_context, ct)
.with_context(|| {
format!("while loading ship `{}`", ship_name)
})?,
count: g.count,
pos: g.pos.map(|p| Point2 {
x: p[0] * (size / 2.0) * aspect,
y: p[1] * size / 2.0,
}),
})
}
events.push(CollapseEvent::Effect(EffectCollapseEvent {
time: e.time,
effects,
}))
}
events.push(CollapseEvent::Effect(EffectCollapseEvent {
time: e.time,
effects,
}))
}
}
}
ShipCollapse {
length: c.length,
effects,
events,
ShipCollapse {
length: c.length,
effects,
events,
}
} else {
// Default collapse sequence
ShipCollapse {
length: 0.0,
effects: vec![],
events: vec![],
}
}
} else {
// Default collapse sequence
ShipCollapse {
length: 0.0,
effects: vec![],
events: vec![],
};
let damage = {
if let Some(c) = ship.damage {
let mut effects = Vec::new();
for e in c.effects {
effects.push(DamageEffectSpawner {
effect: e
.effect
.to_handle(build_context, ct)
.with_context(|| format!("while loading ship `{}`", ship_name))?,
frequency: e.frequency,
pos: e.pos.map(|p| Point2 {
x: p[0] * (size / 2.0) * aspect,
y: p[1] * size / 2.0,
}),
});
}
ShipDamage {
hull: c.hull,
effects: effects,
}
} else {
// Default damage effects
ShipDamage {
hull: 0.0,
effects: vec![],
}
}
};
ct.ships.push(Self {
aspect,
collapse,
damage,
name: ship_name,
sprite: handle,
mass: ship.mass,

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@ -8,7 +8,8 @@ struct InstanceInput {
@location(6) size: f32,
@location(7) created: f32,
@location(8) expires: f32,
@location(9) sprite_index: u32,
@location(9) fade: f32,
@location(10) sprite_index: u32,
};
struct VertexInput {
@ -19,10 +20,11 @@ struct VertexInput {
struct VertexOutput {
@builtin(position) position: vec4<f32>,
@location(0) tween: f32,
@location(1) texture_index_a: u32,
@location(2) texture_coords_a: vec2<f32>,
@location(3) texture_index_b: u32,
@location(4) texture_coords_b: vec2<f32>,
@location(1) fade: f32,
@location(2) texture_index_a: u32,
@location(3) texture_coords_a: vec2<f32>,
@location(4) texture_index_b: u32,
@location(5) texture_coords_b: vec2<f32>,
}
@ -84,6 +86,11 @@ fn vertex_main(
out.position = vec4(pos, 0.0, 1.0);
if instance.expires - global_data.current_time.x <= instance.fade {
out.fade = (instance.expires - global_data.current_time.x) / instance.fade;
} else {
out.fade = 1.0;
}
// Compute texture coordinates
let frame = animate(instance.sprite_index, age, 0.0);
@ -131,5 +138,5 @@ fn fragment_main(in: VertexOutput) -> @location(0) vec4<f32> {
0.0
).rgba,
in.tween
);
) * vec4(1.0, 1.0, 1.0, in.fade);
}

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@ -586,6 +586,7 @@ impl GPUState {
sprite_index: i.sprite.get_index(),
created: state.current_time,
expires: state.current_time + i.lifetime,
fade: i.fade,
}]),
);
self.vertex_buffers.particle_array_head += 1;

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@ -1,5 +1,6 @@
use crate::content;
use cgmath::{Deg, Point2, Point3, Rad, Vector2};
use cgmath::{Deg, Matrix2, Point2, Point3, Rad, Vector2};
use rand::Rng;
/// Instructions to create a new particle
pub struct ParticleBuilder {
@ -24,6 +25,65 @@ pub struct ParticleBuilder {
/// The size of this particle,
/// given as height in world units.
pub size: f32,
/// Fade this particle out over this many seconds as it expires
pub fade: f32,
}
impl ParticleBuilder {
/// Create a ParticleBuilder from an Effect
pub fn from_content(
effect: &content::Effect,
pos: Point2<f32>,
parent_angle: Rad<f32>,
parent_velocity: Vector2<f32>,
target_velocity: Vector2<f32>,
) -> Self {
let mut rng = rand::thread_rng();
let velocity = {
let a =
rng.gen_range(-effect.velocity_scale_parent_rng..=effect.velocity_scale_parent_rng);
let b =
rng.gen_range(-effect.velocity_scale_target_rng..=effect.velocity_scale_target_rng);
let velocity = ((effect.velocity_scale_parent + a) * parent_velocity)
+ ((effect.velocity_scale_target + b) * target_velocity);
Matrix2::from_angle(Rad(
rng.gen_range(-effect.direction_rng..=effect.direction_rng)
)) * velocity
};
// Rad has odd behavior when its angle is zero, so we need extra checks here
let angvel = if effect.angvel_rng == 0.0 {
effect.angvel
} else {
Rad(effect.angvel.0 + rng.gen_range(-effect.angvel_rng..=effect.angvel_rng))
};
let angle = if effect.angle_rng == 0.0 {
parent_angle + effect.angle
} else {
parent_angle + effect.angle + Rad(rng.gen_range(-effect.angle_rng..=effect.angle_rng))
};
ParticleBuilder {
sprite: effect.sprite,
pos,
velocity,
angle,
angvel,
lifetime: 0f32
.max(effect.lifetime + rng.gen_range(-effect.lifetime_rng..=effect.lifetime_rng)),
// Make sure size isn't negative. This check should be on EVERY rng!
size: 0f32.max(effect.size + rng.gen_range(-effect.size_rng..=effect.size_rng)),
fade: 0f32.max(effect.fade + rng.gen_range(-effect.fade_rng..=effect.fade_rng)),
}
}
}
/// The location of a UI element, in one of a few

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@ -206,6 +206,9 @@ pub struct ParticleInstance {
/// Time is kept by a variable in the global uniform.
pub expires: f32,
/// Fade this particle out over this many seconds as it expires
pub fade: f32,
/// What sprite to use for this particle
pub sprite_index: u32,
}
@ -258,10 +261,16 @@ impl BufferObject for ParticleInstance {
shader_location: 8,
format: wgpu::VertexFormat::Float32,
},
// Sprite
// Fade
wgpu::VertexAttribute {
offset: mem::size_of::<[f32; 9]>() as wgpu::BufferAddress,
shader_location: 9,
format: wgpu::VertexFormat::Float32,
},
// Sprite
wgpu::VertexAttribute {
offset: mem::size_of::<[f32; 10]>() as wgpu::BufferAddress,
shader_location: 10,
format: wgpu::VertexFormat::Uint32,
},
],

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@ -98,51 +98,21 @@ impl ShipCollapseSequence {
} else {
self.random_in_ship(ship_content, collider)
};
// Position, adjusted for ship rotation
let pos = ship_pos
+ Matrix2::from_angle(-ship_ang - Rad::from(Deg(90.0))) * pos;
+ (Matrix2::from_angle(-ship_ang - Rad::from(Deg(90.0))) * pos);
let velocity = {
let a = self.rng.gen_range(
-effect.velocity_scale_parent_rng
..=effect.velocity_scale_parent_rng,
);
let velocity = rigid_body.velocity_at_point(&point![pos.x, pos.y]);
let velocity = (effect.velocity_scale_parent + a)
* rigid_body.velocity_at_point(&point![pos.x, pos.y]);
Matrix2::from_angle(Rad(self.rng.gen_range(
-effect.direction_rng.0..=effect.direction_rng.0,
))) * Vector2 {
particles.push(ParticleBuilder::from_content(
effect,
pos,
Rad::zero(),
Vector2 {
x: velocity.x,
y: velocity.y,
}
};
particles.push(ParticleBuilder {
sprite: effect.sprite,
pos,
velocity,
angle: effect.angle
+ Rad(self
.rng
.gen_range(-effect.angle_rng.0..=effect.angle_rng.0)),
angvel: Rad(effect.angvel.0
+ self
.rng
.gen_range(-effect.angvel_rng.0..=effect.angvel_rng.0)),
lifetime: effect.lifetime
+ self
.rng
.gen_range(-effect.lifetime_rng..=effect.lifetime_rng),
size: effect.size
+ self.rng.gen_range(-effect.size_rng..=effect.size_rng),
});
},
Vector2::zero(),
))
}
}
}
@ -188,6 +158,7 @@ impl ShipCollapseSequence {
angvel: Rad::zero(),
lifetime: effect.lifetime,
size: effect.size,
fade: 0.0,
});
}
}
@ -236,21 +207,68 @@ impl ShipWorldObject {
&mut self,
ct: &content::Content,
particles: &mut Vec<ParticleBuilder>,
r: &mut RigidBody,
c: &mut Collider,
rigid_body: &mut RigidBody,
collider: &mut Collider,
t: f32,
) {
if self.ship.is_dead() {
return self
.collapse_sequence
.step(&self.ship, ct, particles, r, c, t);
.step(&self.ship, ct, particles, rigid_body, collider, t);
}
let ship_content = ct.get_ship(self.ship.handle);
let ship_pos = util::rigidbody_position(&rigid_body);
let ship_rot = util::rigidbody_rotation(rigid_body);
let ship_ang = ship_rot.angle(Vector2 { x: 1.0, y: 0.0 });
let mut rng = rand::thread_rng();
if self.ship.hull <= ship_content.damage.hull {
for e in &ship_content.damage.effects {
if rng.gen_range(0.0..=1.0) <= t / e.frequency {
let effect = ct.get_effect(e.effect);
let ship_content = ct.get_ship(self.ship.handle);
let pos = if let Some(pos) = e.pos {
pos.to_vec()
} else {
// Pick a random point inside this ship's collider
let mut y = 0.0;
let mut x = 0.0;
let mut a = false;
while !a {
y = rng.gen_range(-1.0..=1.0) * ship_content.size / 2.0;
x = rng.gen_range(-1.0..=1.0)
* ship_content.size * ship_content.sprite.aspect
/ 2.0;
a = collider.shape().contains_local_point(&point![x, y]);
}
Vector2 { x, y }
};
let pos =
ship_pos + (Matrix2::from_angle(-ship_ang - Rad::from(Deg(90.0))) * pos);
let velocity = rigid_body.velocity_at_point(&point![pos.x, pos.y]);
particles.push(ParticleBuilder::from_content(
effect,
pos,
Rad::zero(),
Vector2 {
x: velocity.x,
y: velocity.y,
},
Vector2::zero(),
))
}
}
}
let ship_rot = util::rigidbody_rotation(r);
let engine_force = ship_rot * t;
if self.controls.thrust {
r.apply_impulse(
rigid_body.apply_impulse(
vector![engine_force.x, engine_force.y]
* self.ship.outfits.stat_sum().engine_thrust,
true,
@ -258,11 +276,13 @@ impl ShipWorldObject {
}
if self.controls.right {
r.apply_torque_impulse(self.ship.outfits.stat_sum().steer_power * -100.0 * t, true);
rigid_body
.apply_torque_impulse(self.ship.outfits.stat_sum().steer_power * -100.0 * t, true);
}
if self.controls.left {
r.apply_torque_impulse(self.ship.outfits.stat_sum().steer_power * 100.0 * t, true);
rigid_body
.apply_torque_impulse(self.ship.outfits.stat_sum().steer_power * 100.0 * t, true);
}
for i in self.ship.outfits.iter_guns() {

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@ -1,4 +1,4 @@
use cgmath::{Deg, EuclideanSpace, InnerSpace, Matrix2, Point2, Rad, Vector2};
use cgmath::{Deg, EuclideanSpace, InnerSpace, Matrix2, Point2, Rad, Vector2, Zero};
use crossbeam::channel::Receiver;
use nalgebra::{point, vector};
use rand::Rng;
@ -80,9 +80,9 @@ impl<'a> World {
let pos = ship_pos + (Matrix2::from_angle(-ship_ang) * point.pos.to_vec());
let spread: Rad<f32> = Deg(rng.gen_range(
-(projectile.content.angle_rng.0 / 2.0)..=projectile.content.angle_rng.0 / 2.0,
))
let spread: Rad<f32> = Deg(
rng.gen_range(-projectile.content.angle_rng.0..=projectile.content.angle_rng.0)
)
.into();
let vel = ship_vel
@ -117,11 +117,7 @@ impl<'a> World {
self.projectiles.insert(
collider.clone(),
ProjectileWorldObject {
projectile,
rigid_body,
collider,
},
ProjectileWorldObject::new(projectile, rigid_body, collider),
);
}
}
@ -133,7 +129,6 @@ impl<'a> World {
projectile_h: ColliderHandle,
ship_h: ColliderHandle,
) {
let mut rng = rand::thread_rng();
let projectile = self.projectiles.get(&projectile_h);
let ship = self.ships.get_mut(&ship_h);
if projectile.is_none() || ship.is_none() {
@ -173,40 +168,22 @@ impl<'a> World {
match &projectile.projectile.content.impact_effect {
None => {}
Some(x) => {
let x = ct.get_effect(*x);
let effect = ct.get_effect(*x);
let (_, sr) = self.get_ship_body(s).unwrap();
let parent_velocity = util::rigidbody_velocity(pr);
let target_velocity =
sr.velocity_at_point(&nalgebra::Point2::new(pos.x, pos.y));
let velocity = {
let (_, sr) = self.get_ship_body(s).unwrap();
let target_velocity =
sr.velocity_at_point(&nalgebra::Point2::new(pos.x, pos.y));
let a = rng
.gen_range(-x.velocity_scale_parent_rng..=x.velocity_scale_parent_rng);
let b = rng
.gen_range(-x.velocity_scale_target_rng..=x.velocity_scale_target_rng);
let velocity = ((x.velocity_scale_parent + a)
* util::rigidbody_velocity(pr))
+ ((x.velocity_scale_target + b)
* Vector2 {
x: target_velocity.x,
y: target_velocity.y,
});
Matrix2::from_angle(Rad(
rng.gen_range(-x.direction_rng.0..=x.direction_rng.0)
)) * velocity
};
particles.push(ParticleBuilder {
sprite: x.sprite,
pos: Point2 { x: pos.x, y: pos.y },
velocity,
angle: Rad::from(-angle)
+ Rad(rng.gen_range(-x.angle_rng.0..=x.angle_rng.0)),
angvel: Rad(x.angvel.0 + rng.gen_range(-x.angvel_rng.0..=x.angvel_rng.0)),
lifetime: x.lifetime + rng.gen_range(-x.lifetime_rng..=x.lifetime_rng),
size: x.size + rng.gen_range(-x.size_rng..=x.size_rng),
});
particles.push(ParticleBuilder::from_content(
effect,
pos,
Rad::from(-angle),
parent_velocity,
Vector2 {
x: target_velocity.x,
y: target_velocity.y,
},
));
}
};
@ -352,21 +329,15 @@ impl<'a> World {
let velocity = (x.velocity_scale_parent + a) * vel;
velocity
//Matrix2::from_angle(Rad(
// rng.gen_range(-x.direction_rng.0..=x.direction_rng.0)
//)) * velocity
};
particles.push(ParticleBuilder {
sprite: x.sprite,
pos: Point2 { x: pos.x, y: pos.y },
particles.push(ParticleBuilder::from_content(
x,
pos,
Rad::from(-angle),
velocity,
angle: Rad::from(-angle)
+ x.angle + Rad(rng.gen_range(-x.angle_rng.0..=x.angle_rng.0)),
angvel: Rad(x.angvel.0 + rng.gen_range(-x.angvel_rng.0..=x.angvel_rng.0)),
lifetime: x.lifetime + rng.gen_range(-x.lifetime_rng..=x.lifetime_rng),
size: x.size + rng.gen_range(-x.size_rng..=x.size_rng),
});
Vector2::zero(),
));
}
};
}