Add objects from first choice

Add draw fn to ParticleSystem structs.
This commit is contained in:
Stephen Seo 2019-10-05 20:53:44 +09:00
parent dec7627e37
commit c3b50c8995

View file

@ -16,6 +16,12 @@ const HEIGHT_F: f32 = 600.0;
const MUSIC2_LENGTH: f64 = 2.0 * 60.0 * 1000.0; const MUSIC2_LENGTH: f64 = 2.0 * 60.0 * 1000.0;
const TEXT_RATE: f64 = 100.0; const TEXT_RATE: f64 = 100.0;
const PP_GEN_RATE: f64 = 75.0; const PP_GEN_RATE: f64 = 75.0;
const PARTICLE_RAND_VEL_RANGE: f32 = 0.2;
const PARTICLE_RAND_VEL_DIST: f32 = 0.2828427; // dist where x and y = 0.2
const PARTICLE_RAND_ROT_RANGE: f32 = 0.5;
const JOINING_OPACITY_RATE: f32 = 0.00008;
const JOINING_FAR_DIST: f32 = 700.0;
const JOINING_NEAR_DIST: f32 = 150.0;
enum MenuItemType { enum MenuItemType {
Button { Button {
@ -117,13 +123,7 @@ impl Menu {
Menu { Menu {
items: vec![ items: vec![
item, item,
Menu::instant_text( Menu::instant_text(150.0, 50.0, 55.0, true, "One And All"),
150.0,
50.0,
45.0,
true,
"One And All",
),
Menu::instant_text( Menu::instant_text(
25.0, 25.0,
HEIGHT_F - 100.0, HEIGHT_F - 100.0,
@ -445,10 +445,19 @@ struct ParticleSystem {
lifetime: f64, lifetime: f64,
host_rect: Rectangle, host_rect: Rectangle,
direction: Vector, direction: Vector,
color: Color,
opacity: f32,
} }
impl ParticleSystem { impl ParticleSystem {
fn new(spawn_time: f64, lifetime: f64, host_rect: Rectangle, direction: Vector) -> Self { fn new(
spawn_time: f64,
lifetime: f64,
host_rect: Rectangle,
direction: Vector,
color: Color,
opacity: f32,
) -> Self {
Self { Self {
particles: Vec::new(), particles: Vec::new(),
spawn_timer: 0.0, spawn_timer: 0.0,
@ -456,6 +465,8 @@ impl ParticleSystem {
lifetime, lifetime,
host_rect, host_rect,
direction, direction,
color,
opacity,
} }
} }
@ -476,15 +487,99 @@ impl ParticleSystem {
self.spawn_timer -= self.spawn_time; self.spawn_timer -= self.spawn_time;
self.particles.push(Particle { self.particles.push(Particle {
rect: self.host_rect, rect: self.host_rect,
velx: rand::thread_rng().gen_range(-0.2, 0.2) + self.direction.x, velx: rand::thread_rng()
vely: rand::thread_rng().gen_range(-0.2, 0.2) + self.direction.y, .gen_range(-PARTICLE_RAND_VEL_RANGE, PARTICLE_RAND_VEL_RANGE)
velr: rand::thread_rng().gen_range(-0.5, 0.5), + self.direction.x,
vely: rand::thread_rng()
.gen_range(-PARTICLE_RAND_VEL_RANGE, PARTICLE_RAND_VEL_RANGE)
+ self.direction.y,
// velx: self.direction.x,
// vely: self.direction.y,
velr: rand::thread_rng()
.gen_range(-PARTICLE_RAND_ROT_RANGE, PARTICLE_RAND_ROT_RANGE),
r: rand::thread_rng().gen_range(0.0, 90.0), r: rand::thread_rng().gen_range(0.0, 90.0),
lifetime: self.lifetime, lifetime: self.lifetime,
life_timer: 0.0, life_timer: 0.0,
}); });
} }
} }
fn draw(&mut self, window: &mut Window, transform: Transform) {
if self.opacity == 0.0 {
return;
}
for particle in &mut self.particles {
self.color.a = (1.0 - (particle.life_timer / particle.lifetime) as f32) * self.opacity;
let pre_transform =
Transform::translate((-particle.rect.size.x / 2.0, -particle.rect.size.y / 2.0))
* Transform::rotate(particle.r);
window.draw_ex(
&particle.rect,
Col(self.color),
transform * pre_transform,
1,
);
}
}
}
struct RotatingParticleSystem {
particle_system: ParticleSystem,
r: f32,
velr: f32,
offset: f32,
}
impl RotatingParticleSystem {
fn new(
spawn_time: f64,
lifetime: f64,
host_rect: Rectangle,
direction: Vector,
color: Color,
opacity: f32,
rotation: f32,
velr: f32,
offset: f32,
) -> Self {
RotatingParticleSystem {
particle_system: ParticleSystem::new(
spawn_time, lifetime, host_rect, direction, color, opacity,
),
r: rotation,
velr,
offset,
}
}
fn update(&mut self, dt: f64) {
let saved_rect = self.particle_system.host_rect;
self.particle_system.host_rect.pos +=
Transform::rotate(self.r) * Vector::new(self.offset, 0.0);
self.particle_system.update(dt);
self.particle_system.host_rect = saved_rect;
self.r += self.velr * dt as f32;
}
fn draw(&mut self, window: &mut Window, transform: Transform) {
if self.particle_system.opacity == 0.0 {
return;
}
self.particle_system.direction =
Transform::rotate(self.r) * Vector::new(0.0, -PARTICLE_RAND_VEL_DIST);
self.particle_system.draw(window, transform);
let mut moved_rect = self.particle_system.host_rect;
moved_rect.pos += Transform::rotate(self.r) * Vector::new(self.offset, 0.0);
let mut solid_color = self.particle_system.color;
solid_color.a = self.particle_system.opacity;
window.draw_ex(
&moved_rect,
Col(solid_color),
Transform::translate((-moved_rect.size.x / 2.0, -moved_rect.size.y / 2.0))
* Transform::rotate(self.r * 1.3),
1,
);
}
} }
struct GameState { struct GameState {
@ -507,7 +602,7 @@ struct GameState {
player: Rectangle, player: Rectangle,
player_r: f64, player_r: f64,
player_particles: ParticleSystem, player_particles: ParticleSystem,
player_opacity: f32, joining_particles: RotatingParticleSystem,
} }
impl State for GameState { impl State for GameState {
@ -536,8 +631,20 @@ impl State for GameState {
1000.0, 1000.0,
Rectangle::new((400.0, 300.0), (32.0, 32.0)), Rectangle::new((400.0, 300.0), (32.0, 32.0)),
Vector::new(0.0, 0.0), Vector::new(0.0, 0.0),
Color::WHITE,
0.0,
),
joining_particles: RotatingParticleSystem::new(
PP_GEN_RATE,
1000.0,
Rectangle::new((400.0, 300.0), (16.0, 16.0)),
Vector::new(0.0, 0.0),
Color::GREEN,
0.0,
0.0,
0.1,
JOINING_FAR_DIST,
), ),
player_opacity: 0.0,
}) })
} }
@ -573,18 +680,26 @@ impl State for GameState {
// hope // hope
self.state = 3; self.state = 3;
self.state_dirty = true; self.state_dirty = true;
self.joining_particles.particle_system.color =
Color::from_rgba(0xAA, 0xCC, 0xFF, 1.0);
} else if idx == 6 { } else if idx == 6 {
// miracles // miracles
self.state = 4; self.state = 4;
self.state_dirty = true; self.state_dirty = true;
self.joining_particles.particle_system.color =
Color::from_rgba(0xFF, 0xFF, 0xAA, 1.0);
} else if idx == 7 { } else if idx == 7 {
// kindness // kindness
self.state = 5; self.state = 5;
self.state_dirty = true; self.state_dirty = true;
self.joining_particles.particle_system.color =
Color::from_rgba(0xBB, 0xFF, 0xBB, 1.0);
} else { } else {
// determination // determination
self.state = 6; self.state = 6;
self.state_dirty = true; self.state_dirty = true;
self.joining_particles.particle_system.color =
Color::from_rgba(0xFF, 0xAA, 0xAA, 1.0);
} }
} }
_ => { _ => {
@ -716,15 +831,26 @@ impl State for GameState {
self.current_item = None; self.current_item = None;
self.selection_mode = true; self.selection_mode = true;
self.state = 0; self.state = 0;
self.player_opacity = 0.0; self.player_particles.opacity = 0.0;
self.joining_particles.particle_system.opacity = 0.0;
} }
} }
} }
if self.player_opacity < 1.0 && self.state > 1 { if self.joining_particles.particle_system.opacity < 1.0 && self.state > 2 {
self.player_opacity += dt as f32 / 7000.0; self.joining_particles.particle_system.opacity += JOINING_OPACITY_RATE * dt as f32;
if self.player_opacity > 1.0 { if self.joining_particles.particle_system.opacity > 1.0 {
self.player_opacity = 1.0; self.joining_particles.particle_system.opacity = 1.0;
}
self.joining_particles.offset =
(1.0 - self.joining_particles.particle_system.opacity / 1.0) * JOINING_FAR_DIST
+ self.joining_particles.particle_system.opacity / 1.0 * JOINING_NEAR_DIST;
}
if self.player_particles.opacity < 1.0 && self.state > 1 {
self.player_particles.opacity += dt as f32 / 7000.0;
if self.player_particles.opacity > 1.0 {
self.player_particles.opacity = 1.0;
} }
} }
@ -831,6 +957,7 @@ impl State for GameState {
self.player_particles.host_rect = self.player; self.player_particles.host_rect = self.player;
self.player_particles.update(dt); self.player_particles.update(dt);
self.joining_particles.update(dt);
Ok(()) Ok(())
} }
@ -894,27 +1021,20 @@ impl State for GameState {
MenuItemType::Pause { timer, length } => (), MenuItemType::Pause { timer, length } => (),
} }
} }
for particle in &self.player_particles.particles { self.player_particles.draw(window, Transform::IDENTITY);
window.draw_ex( window.draw_ex(
&particle.rect, &self.player,
Col(Color::from_rgba( Col(Color::from_rgba(
0xFF, 0xFF,
0xFF, 0xFF,
0xFF, 0xFF,
(1.0 - (particle.life_timer / particle.lifetime) as f32) * self.player_opacity, self.player_particles.opacity,
)), )),
Transform::translate((-particle.rect.size.x / 2.0, -particle.rect.size.y / 2.0))
* Transform::rotate(particle.r),
1,
);
}
window.draw_ex(
&self.player,
Col(Color::from_rgba(0xFF, 0xFF, 0xFF, self.player_opacity)),
Transform::translate((-self.player.size.x / 2.0, -self.player.size.y / 2.0)) Transform::translate((-self.player.size.x / 2.0, -self.player.size.y / 2.0))
* Transform::rotate(self.player_r as f32), * Transform::rotate(self.player_r as f32),
1, 1,
); );
self.joining_particles.draw(window, Transform::IDENTITY);
Ok(()) Ok(())
} }
} }