Start writing up Yet Another Vector Library
author |
Steve Losh <steve@stevelosh.com> |
date |
Wed, 03 Aug 2016 13:53:19 +0000 |
parents |
0e40a0899f0f |
children |
28dc985f4d51 |
(in-package #:coding-math.2d.particles)
(defstruct (particle
(:constructor make-particle%))
(pos (make-vec) :type vec)
(vel (make-vec) :type vec)
(grv (make-vec) :type vec)
(radius 1 :type fixnum)
(friction 0.0 :type single-float)
(mass 1.0 :type single-float)
(springs nil :type list)
(gravitations nil :type list))
(defstruct spring
(target (make-vec) :type vec)
(constant 0.0 :type single-float)
(offset 0.0 :type single-float))
(defun make-particle
(x y
&key
(speed 0)
(direction 0)
(mass 1.0)
(radius 1)
(gravity 0.0)
(friction 0.0))
(make-particle%
:pos (make-vec x y)
:vel (make-vec-md speed direction)
:grv (make-vec-md gravity (/ tau 4))
:friction friction
:mass mass
:radius radius))
(defun particle-x (particle)
(vec-x (particle-pos particle)))
(defun particle-y (particle)
(vec-y (particle-pos particle)))
(defun particle-speed (particle)
(vec-magnitude (particle-vel particle)))
(defun particle-direction (particle)
(vec-direction (particle-vel particle)))
(defun particle-wrap! (particle width height)
(let ((radius (particle-radius particle)))
(wrapf (particle-x particle)
(- radius)
(+ radius width))
(wrapf (particle-y particle)
(- radius)
(+ radius height))))
(defun (setf particle-x) (new-value particle)
(setf (vec-x (particle-pos particle)) new-value))
(defun (setf particle-y) (new-value particle)
(setf (vec-y (particle-pos particle)) new-value))
(defun (setf particle-speed) (new-value particle)
(setf (vec-magnitude (particle-vel particle)) new-value))
(defun (setf particle-direction) (new-value particle)
(setf (vec-direction (particle-vel particle)) new-value))
(defun particle-angle-to (particle other-particle)
(let ((distance (vec-sub (particle-pos other-particle)
(particle-pos particle))))
(atan (vec-y distance)
(vec-x distance))))
(defun particle-distance-to (particle other-particle)
(vec-magnitude (vec-sub (particle-pos particle)
(particle-pos other-particle))))
(defun particle-accelerate! (particle acceleration)
(vec-add! (particle-vel particle)
acceleration))
(defun particle-gravitate-add! (particle target)
(push target (particle-gravitations particle)))
(defun particle-gravitate-remove! (particle target)
(zap% (particle-gravitations particle)
#'remove target %))
(defun particle-gravitate-to! (particle attractor-particle)
(let ((distance (particle-distance-to particle attractor-particle)))
(particle-accelerate!
particle
(make-vec-md (/ (particle-mass attractor-particle)
(* distance distance))
(particle-angle-to particle attractor-particle)))))
(defun particle-spring-to! (particle target spring-constant &optional (offset 0))
(let ((distance (vec-sub target (particle-pos particle))))
(decf (vec-magnitude distance) offset)
(vec-add! (particle-vel particle)
(vec-mul distance spring-constant))))
(defun particle-spring-add! (particle target spring-constant &optional (offset 0))
(push (make-spring :target target
:constant (float spring-constant)
:offset (float offset))
(particle-springs particle)))
(defun particle-spring-remove! (particle target)
(zap% (particle-springs particle)
#'remove target % :key #'spring-target))
(defun particle-update! (particle)
(with-accessors
((pos particle-pos)
(vel particle-vel)
(grv particle-grv)
(friction particle-friction))
particle
(vec-add! pos vel)
(vec-add! vel grv)
(vec-mul! vel (- 1 friction))
(loop :for g :in (particle-gravitations particle)
:do (particle-gravitate-to! particle g))
(loop :for s :in (particle-springs particle)
:do (particle-spring-to! particle
(spring-target s)
(spring-constant s)
(spring-offset s)))))
(defmethod hitbox-x ((p particle))
(particle-x p))
(defmethod hitbox-y ((p particle))
(particle-y p))
(defmethod hitbox-radius ((p particle))
(particle-radius p))
(defmethod drag-requested-p ((p particle) mouse)
(circle-point-collide-p p mouse))
(defmethod drag-location-vec ((p particle))
(particle-pos p))
(defmethod (setf drag-location-vec) (new-value (p particle))
(setf (particle-pos p) new-value))
(defun particle-ease-to! (particle target &optional (ease 0.1) (always nil))
"Ease this particle toward the target vector.
Returns whether or not the easing still needs to continue.
"
(with-slots (pos vel) particle
(let* ((new-vel (vec-mul (vec-sub target pos) ease))
(done (and (not always)
(< (abs (vec-x new-vel)) 0.0001)
(< (abs (vec-y new-vel)) 0.0001))))
(if done
(setf pos target)
(setf vel new-vel))
(not done))))