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game/ui/animation.sx
agra 0782353ffa panels
2026-03-04 17:17:29 +02:00

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#import "modules/std.sx";
#import "modules/math";
// --- Lerpable protocol (inline — static dispatch, no vtable) ---
Lerpable :: protocol #inline {
lerp :: (b: Self, t: f32) -> Self;
}
// --- Easing Functions ---
ease_linear :: (t: f32) -> f32 { t; }
ease_in_quad :: (t: f32) -> f32 { t * t; }
ease_out_quad :: (t: f32) -> f32 { t * (2.0 - t); }
ease_in_out_quad :: (t: f32) -> f32 {
if t < 0.5 then 2.0 * t * t
else -1.0 + (4.0 - 2.0 * t) * t;
}
ease_out_cubic :: (t: f32) -> f32 { u := t - 1.0; u * u * u + 1.0; }
// --- AnimatedFloat — duration-based ---
AnimatedFloat :: struct {
current: f32;
from: f32;
to: f32;
elapsed: f32;
duration: f32;
easing: ?Closure(f32) -> f32;
active: bool;
make :: (value: f32) -> AnimatedFloat {
AnimatedFloat.{
current = value,
from = value,
to = value,
elapsed = 0.0,
duration = 0.0,
easing = null,
active = false
};
}
animate_to :: (self: *AnimatedFloat, target: f32, dur: f32, ease: Closure(f32) -> f32) {
self.from = self.current;
self.to = target;
self.elapsed = 0.0;
self.duration = dur;
self.easing = ease;
self.active = true;
}
tick :: (self: *AnimatedFloat, dt: f32) {
if !self.active { return; }
self.elapsed += dt;
t := clamp(self.elapsed / self.duration, 0.0, 1.0);
eased := if ease := self.easing { ease(t); } else { t; };
self.current = self.from + (self.to - self.from) * eased;
if t >= 1.0 {
self.current = self.to;
self.active = false;
}
}
}
// --- SpringFloat — physics-based ---
SpringFloat :: struct {
current: f32;
velocity: f32;
target: f32;
stiffness: f32;
damping: f32;
mass: f32;
threshold: f32;
make :: (value: f32) -> SpringFloat {
SpringFloat.{
current = value,
velocity = 0.0,
target = value,
stiffness = 200.0,
damping = 20.0,
mass = 1.0,
threshold = 0.01
};
}
snappy :: (value: f32) -> SpringFloat {
SpringFloat.{
current = value,
velocity = 0.0,
target = value,
stiffness = 300.0,
damping = 25.0,
mass = 1.0,
threshold = 0.01
};
}
tick :: (self: *SpringFloat, dt: f32) {
if self.is_settled() { return; }
force := 0.0 - self.stiffness * (self.current - self.target);
damping_force := 0.0 - self.damping * self.velocity;
accel := (force + damping_force) / self.mass;
self.velocity += accel * dt;
self.current += self.velocity * dt;
}
is_settled :: (self: *SpringFloat) -> bool {
abs(self.current - self.target) < self.threshold
and abs(self.velocity) < self.threshold;
}
}
// --- Animated(T) — generic duration-based animation for any Lerpable type ---
Animated :: struct ($T: Lerpable) {
current: T;
from: T;
to: T;
elapsed: f32;
duration: f32;
active: bool;
make :: (value: T) -> Animated(T) {
Animated(T).{
current = value,
from = value,
to = value,
elapsed = 0.0,
duration = 0.0,
active = false
};
}
// Jump immediately to value (no animation). Used to avoid animating from zero on first layout.
set_immediate :: (self: *Animated(T), value: T) {
self.current = value;
self.from = value;
self.to = value;
self.elapsed = 0.0;
self.active = false;
}
// Start animating towards target.
animate_to :: (self: *Animated(T), target: T, dur: f32) {
self.from = self.current;
self.to = target;
self.elapsed = 0.0;
self.duration = dur;
self.active = true;
}
tick :: (self: *Animated(T), dt: f32) {
if !self.active { return; }
self.elapsed += dt;
t := clamp(self.elapsed / self.duration, 0.0, 1.0);
self.current = self.from.lerp(self.to, t);
if t >= 1.0 {
self.current = self.to;
self.active = false;
}
}
is_animating :: (self: *Animated(T)) -> bool { self.active; }
}
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