FTXUI/include/ftxui/component/animation.hpp

#ifndef FTXUI_ANIMATION_HPP
#define FTXUI_ANIMATION_HPP

#include <chrono>      // for milliseconds, duration, steady_clock, time_point
#include <functional>  // for function

#include "ftxui/component/event.hpp"

namespace ftxui {

namespace animation {
// Components who haven't completed their animation can call this function to
// request a new frame to be drawn later.
//
// When there is no new events and no animations to complete, no new frame is
// drawn.
void RequestAnimationFrame();

using Clock = std::chrono::steady_clock;
using TimePoint = std::chrono::time_point<Clock>;
using Duration = std::chrono::duration<double>;

// Parameter of Component::OnAnimation(param).
class Params {
 public:
  Params(Duration duration) : duration_(duration) {}

  /// The duration this animation step represents.
  Duration duration() const { return duration_; }

 private:
  Duration duration_;
};

namespace easing {
using Function = std::function<float(float)>;
// Linear interpolation (no easing)
float Linear(float p);

// Quadratic easing; p^2
float QuadraticIn(float p);
float QuadraticOut(float p);
float QuadraticInOut(float p);

// Cubic easing; p^3
float CubicIn(float p);
float CubicOut(float p);
float CubicInOut(float p);

// Quartic easing; p^4
float QuarticIn(float p);
float QuarticOut(float p);
float QuarticInOut(float p);

// Quintic easing; p^5
float QuinticIn(float p);
float QuinticOut(float p);
float QuinticInOut(float p);

// Sine wave easing; sin(p * PI/2)
float SineIn(float p);
float SineOut(float p);
float SineInOut(float p);

// Circular easing; sqrt(1 - p^2)
float CircularIn(float p);
float CircularOut(float p);
float CircularInOut(float p);

// Exponential easing, base 2
float ExponentialIn(float p);
float ExponentialOut(float p);
float ExponentialInOut(float p);

// Exponentially-damped sine wave easing
float ElasticIn(float p);
float ElasticOut(float p);
float ElasticInOut(float p);

// Overshooting cubic easing;
float BackIn(float p);
float BackOut(float p);
float BackInOut(float p);

// Exponentially-decaying bounce easing
float BounceIn(float p);
float BounceOut(float p);
float BounceInOut(float p);
}  // namespace easing

class Animator {
 public:
  Animator(float* from,
           float to = 0.f,
           Duration duration = std::chrono::milliseconds(250),
           easing::Function easing_function = easing::Linear,
           Duration delay = std::chrono::milliseconds(0));

  void OnAnimation(Params&);

  float to() const { return to_; }

 private:
  float* value_;
  float from_;
  float to_;
  Duration duration_;
  easing::Function easing_function_;
  Duration current_;
};

}  // namespace animation
}  // namespace ftxui

#endif /* end of include guard: FTXUI_ANIMATION_HPP */

// Copyright 2022 Arthur Sonzogni. All rights reserved.
// Use of this source code is governed by the MIT license that can be found in
// the LICENSE file.
Animation (#355) 2022-03-14 01:51:46 +08:00			`#ifndef FTXUI_ANIMATION_HPP`
			`#define FTXUI_ANIMATION_HPP`

			`#include <chrono> // for milliseconds, duration, steady_clock, time_point`
			`#include <functional> // for function`

			`#include "ftxui/component/event.hpp"`

			`namespace ftxui {`

			`namespace animation {`
			`// Components who haven't completed their animation can call this function to`
			`// request a new frame to be drawn later.`
			`//`
			`// When there is no new events and no animations to complete, no new frame is`
			`// drawn.`
			`void RequestAnimationFrame();`

			`using Clock = std::chrono::steady_clock;`
			`using TimePoint = std::chrono::time_point<Clock>;`
			`using Duration = std::chrono::duration<double>;`

			`// Parameter of Component::OnAnimation(param).`
			`class Params {`
			`public:`
			`Params(Duration duration) : duration_(duration) {}`

			`/// The duration this animation step represents.`
			`Duration duration() const { return duration_; }`

			`private:`
			`Duration duration_;`
			`};`

			`namespace easing {`
			`using Function = std::function<float(float)>;`
			`// Linear interpolation (no easing)`
			`float Linear(float p);`

			`// Quadratic easing; p^2`
			`float QuadraticIn(float p);`
			`float QuadraticOut(float p);`
			`float QuadraticInOut(float p);`

			`// Cubic easing; p^3`
			`float CubicIn(float p);`
			`float CubicOut(float p);`
			`float CubicInOut(float p);`

			`// Quartic easing; p^4`
			`float QuarticIn(float p);`
			`float QuarticOut(float p);`
			`float QuarticInOut(float p);`

			`// Quintic easing; p^5`
			`float QuinticIn(float p);`
			`float QuinticOut(float p);`
			`float QuinticInOut(float p);`

			`// Sine wave easing; sin(p * PI/2)`
			`float SineIn(float p);`
			`float SineOut(float p);`
			`float SineInOut(float p);`

			`// Circular easing; sqrt(1 - p^2)`
			`float CircularIn(float p);`
			`float CircularOut(float p);`
			`float CircularInOut(float p);`

			`// Exponential easing, base 2`
			`float ExponentialIn(float p);`
			`float ExponentialOut(float p);`
			`float ExponentialInOut(float p);`

			`// Exponentially-damped sine wave easing`
			`float ElasticIn(float p);`
			`float ElasticOut(float p);`
			`float ElasticInOut(float p);`

			`// Overshooting cubic easing;`
			`float BackIn(float p);`
			`float BackOut(float p);`
			`float BackInOut(float p);`

			`// Exponentially-decaying bounce easing`
			`float BounceIn(float p);`
			`float BounceOut(float p);`
			`float BounceInOut(float p);`
			`} // namespace easing`

			`class Animator {`
			`public:`
			`Animator(float* from,`
			`float to = 0.f,`
			`Duration duration = std::chrono::milliseconds(250),`
			`easing::Function easing_function = easing::Linear,`
			`Duration delay = std::chrono::milliseconds(0));`

			`void OnAnimation(Params&);`

			`float to() const { return to_; }`

			`private:`
			`float* value_;`
			`float from_;`
			`float to_;`
			`Duration duration_;`
			`easing::Function easing_function_;`
			`Duration current_;`
			`};`

			`} // namespace animation`
			`} // namespace ftxui`

			`#endif /* end of include guard: FTXUI_ANIMATION_HPP */`

			`// Copyright 2022 Arthur Sonzogni. All rights reserved.`
			`// Use of this source code is governed by the MIT license that can be found in`
			`// the LICENSE file.`