function make_point_obj(o, p) { return { pos: p, move(d) { d = o.gameobject.dir_world2this(d); p.x += d.x; p.y += d.y; }, sync: o.sync.bind(o) } } function assign_impl(obj, impl) { var tmp = {}; for (var key of Object.keys(impl)) if (typeof obj[key] !== 'undefined' && typeof obj[key] !== 'function') tmp[key] = obj[key]; Object.mixin(obj, impl); for (var key in tmp) obj[key] = tmp[key]; } var component = { components: [], toString() { if ('gameobject' in this) return this.name + " on " + this.gameobject; else return this.name; }, name: "component", component: true, enabled: true, enable() { this.enabled = true; }, disable() { this.enabled = false; }, isComponent(c) { if (typeof c !== 'object') return false; if (typeof c.toString !== 'function') return false; if (typeof c.make !== 'function') return false; return (typeof component[c.toString()] === 'object'); }, hides: ['gameobject', 'id'], make(go) { var nc = Object.create(this); nc.gameobject = go; Object.assign(nc, this._enghook(go.body)); assign_impl(nc,this.impl); Object.hide(nc, ...this.hides); nc.post(); return nc; }, kill() { Log.info("Kill not created for this component yet"); }, sync() {}, post(){}, gui() { }, gizmo() { }, prepare_center() {}, finish_center() {}, extend(spec) { return Object.copy(this, spec); }, }; component.sprite = Object.copy(component, { pos:[0,0], color:[1,1,1,1], layer:0, enabled:true, path: "", rect: {s0:0, s1: 1, t0: 0, t1: 1}, toString() { return "sprite"; }, _enghook: make_sprite, }); Object.hide(component.sprite, 'rect'); component.sprite.impl = { set path(x) { //cmd(12,this.id,prototypes.resani(this.gameobject.__proto__.toString(), x),this.rect); cmd(12,this.id,x,this.rect); }, get path() { var s = cmd(116,this.id); if (s === "icons/no_tex.gif") return undefined; return s; //return prototypes.resavi(this.gameobject.__proto__.toString(), cmd(116,this.id)); }, toString() { return "sprite"; }, hide() { this.enabled = false; }, show() { this.enabled = true; }, asset(str) { this.path = str; }, get enabled() { return cmd(114,this.id); }, set enabled(x) { cmd(20,this.id,x); }, set color(x) { cmd(96,this.id,x); }, get color() {return cmd(148,this.id);}, get pos() { return cmd(111, this.id); }, set pos(x) { cmd(37,this.id,x); }, get angle() { return cmd(217,this.id); }, set angle(x) { cmd(218,this.id,x); }, get scale() { return cmd(215, this.id); }, set scale(x) { cmd(216, this.id, x); }, get drawmode() { return cmd(220,this.id); }, set drawmode(x) { cmd(219,this.id,x); }, emissive(x) { cmd(170, this.id, x); }, sync() { this.path = this.path; }, pickm() { return this; }, move(d) { this.pos = this.pos.add(d); }, boundingbox() { var dim = this.dimensions(); dim = dim.scale(this.gameobject.gscale()); var realpos = dim.scale(0.5).add(this.pos); return cwh2bb(realpos,dim); }, kill() { cmd(9,this.id); }, dimensions() { var dim = Resources.texture.dimensions(this.path); dim.x *= (this.rect.s1-this.rect.s0); dim.y *= (this.rect.t1-this.rect.t0); return dim; }, width() { return this.dimensions().x; }, height() { return this.dimensions().y; }, }; Object.freeze(sprite); component.model = Object.copy(component, { path:"", _enghook: make_model, }); component.model.impl = { set path(x) { cmd(149, this.id, x); }, draw() { cmd(150, this.id); }, kill() { cmd(213, this.id); }, }; var sprite = component.sprite; sprite.doc = { path: "Path to the texture.", color: "Color to mix with the sprite.", pos: "The offset position of the sprite, relative to its entity." }; sprite.inputs = {}; sprite.inputs.kp9 = function() { this.pos = this.dimensions().scale([0,0]); }; sprite.inputs.kp8 = function() { this.pos = this.dimensions().scale([-0.5, 0]); }; sprite.inputs.kp7 = function() { this.pos = this.dimensions().scale([-1,0]); }; sprite.inputs.kp6 = function() { this.pos = this.dimensions().scale([0,-0.5]); }; sprite.inputs.kp5 = function() { this.pos = this.dimensions().scale([-0.5,-0.5]); }; sprite.inputs.kp4 = function() { this.pos = this.dimensions().scale([-1,-0.5]); }; sprite.inputs.kp3 = function() { this.pos = this.dimensions().scale([0, -1]); }; sprite.inputs.kp2 = function() { this.pos = this.dimensions().scale([-0.5,-1]); }; sprite.inputs.kp1 = function() { this.pos = this.dimensions().scale([-1,-1]); }; Object.seal(sprite); var SpriteAnim = { gif(path) { var anim = {}; anim.frames = []; anim.path = path; var frames = Resources.gif.frames(path); var yslice = 1/frames; for (var f = 0; f < frames; f++) { var frame = {}; frame.rect = { s0: 0, s1: 1, t0: yslice*f, t1: yslice*(f+1) }; frame.time = 0.05; anim.frames.push(frame); } anim.loop = true; var dim = Resources.texture.dimensions(path); dim.y /= frames; anim.dim = dim; anim.toJSON = function() { return {}; }; return anim; }, strip(path, frames, time=0.05) { var anim = {}; anim.frames = []; anim.path = path; var xslice = 1/frames; for (var f = 0; f < frames; f++) { var frame = {}; frame.rect = {s0:xslice*f, s1: xslice*(f+1), t0:0, t1:1}; frame.time = time; anim.frames.push(frame); } anim.dim = Resources.texture.dimensions(path); anim.dim.x /= frames; return anim; }, aseprite(path) { function aseframeset2anim(frameset, meta) { var anim = {}; anim.frames = []; anim.path = meta.image; var dim = meta.size; var ase_make_frame = function(ase_frame,i) { var f = ase_frame.frame; var frame = {}; frame.rect = { s0: f.x/dim.w, s1: (f.x+f.w)/dim.w, t0: f.y/dim.h, t1: (f.y+f.h)/dim.h }; frame.time = ase_frame.duration / 1000; anim.frames.push(frame); }; frameset.forEach(ase_make_frame); anim.dim = [frameset[0].sourceSize.x, frameset[0].sourceSize.y]; anim.loop = true; return anim; }; var json = IO.slurp(ase); json = JSON.parse(json); var anims = {}; var frames = Array.isArray(json.frames) ? json.frames : Object.values(json.frames); for (var tag of json.meta.frameTags) anims[tag.name] = aseframeset2anim(frames.slice(tag.from, tag.to+1), json.meta); return anims; }, validate(anim) { if (!Object.isObject(anim)) return false; if (typeof anim.path !== 'string') return false; if (typeof anim.dim !== 'object') return false; return true; }, find(path) { if (!IO.exists(path + ".asset")) return; var asset = JSON.parse(IO.slurp(path + ".asset")); }, }; SpriteAnim.doc = 'Functions to create Primum animations from varying sources.'; SpriteAnim.gif.doc = 'Convert a gif.'; SpriteAnim.strip.doc = 'Given a path and number of frames, converts a horizontal strip animation, where each cell is the same width.' SpriteAnim.aseprite.doc = 'Given an aseprite json metadata, returns an object of animations defined in the aseprite file.'; SpriteAnim.find.doc = 'Given a path, find the relevant animation for the file.'; /* Container to play sprites and anim2ds */ component.char2d = Object.create(component.sprite); component.char2dimpl = { boundingbox() { var dim = this.acur.dim.slice(); dim = dim.scale(this.gameobject.scale); var realpos = this.pos.slice(); realpos.x = realpos.x * dim.x + (dim.x/2); realpos.y = realpos.y * dim.y + (dim.y/2); return cwh2bb(realpos,dim); }, anims:{}, acur:{}, frame: 0, play_anim(anim) { this.acur = anim; this.frame = 0; this.gameobject.delay(this.advance.bind(this), this.acur.frames[this.frame].time); this.setsprite(); }, play(name) { if (!(name in this)) { Log.info("Can't find an animation named " + name); return; } if (this.acur === this[name]) { this.timer.start(); return; } this.acur = this[name]; this.frame = 0; this.timer.time = this.acur.frames[this.frame].time; this.timer.start(); this.setsprite(); }, setsprite() { this.rect = this.acur.frames[this.frame].rect; this.path = this.path; }, advance() { this.frame = (this.frame + 1) % this.acur.frames.length; this.setsprite(); this.gameobject.delay(this.advance.bind(this), this.acur.frames[this.frame].time); }, devance() { this.frame = (this.frame - 1); if (this.frame === -1) this.frame = this.acur.frames-1; this.setsprite(); }, setframe(frame) { this.frame = frame; this.setsprite(); }, pause() { this.timer.pause(); }, stop() { this.setframe(0); this.timer.stop(); }, kill() { cmd(9, this.id); }, add_anim(anim,name) { if (name in this) return; this[name] = function() { this.play_anim(anim); } }, }; component.char2dimpl.doc = { doc: "An animation player for sprites.", frame: "The current frame of animation.", anims: "A list of all animations in this player.", acur: "The currently playing animation object.", advance: "Advance the animation by one frame.", devance: "Go back one frame in the animation.", setframe: "Set a specific frame of animation.", stop: "Stops the animation and returns to the first frame.", pause: "Pauses the animation sequence in place.", play: "Given an animation string, play it. Equivalent to anim.[name].play().", play_anim: "Play a given animation object.", add_anim: "Add an animation object with the given name." }; Object.hide(component.char2dimpl, "doc"); /* Returns points specifying this geometry, with ccw */ var Geometry = { box(w, h) { w /= 2; h /= 2; var points = [ [w,h], [-w,h], [-w,-h], [w,-h] ]; return points; }, arc(radius, angle, n, start) { start ??= 0; start = Math.deg2rad(start); if (angle >= 360) angle = 360; if (n <= 1) return []; var points = []; angle = Math.deg2rad(angle); var arclen = angle/n; for (var i = 0; i < n; i++) points.push(Vector.rotate([radius,0], start + (arclen*i))); return points; }, circle(radius, n) { if (n <= 1) return []; return Geometry.arc(radius, 360, n); }, ngon(radius, n) { return Geometry.arc(radius,360,n); }, }; Geometry.doc = { doc: "Functions for creating a list of points for various geometric shapes.", box: "Create a box.", arc: "Create an arc, made of n points.", circle: "Create a circle, made of n points.", ngon: "Create a polygon of n sides.", }; /* For all colliders, "shape" is a pointer to a phys2d_shape, "id" is a pointer to the shape data */ var collider2d = Object.copy(component, { name: "collider 2d", sensor: false, kill() {}, /* No killing is necessary - it is done through the gameobject's kill */ register_hit(fn, obj) { register_collide(1, fn, obj, this.gameobject.body, this.shape); }, impl: { set sensor(x) { cmd(18,this.shape,x); }, get sensor() { return cmd(21,this.shape); }, set enabled(x) { cmd(22,this.shape,x); }, get enabled() { return cmd(23,this.shape); } }, }); Object.hide(collider2d.impl, 'enabled'); collider2d.inputs = {}; collider2d.inputs['M-s'] = function() { this.sensor = !this.sensor; } collider2d.inputs['M-s'].doc = "Toggle if this collider is a sensor."; collider2d.inputs['M-t'] = function() { this.enabled = !this.enabled; } collider2d.inputs['M-t'].doc = "Toggle if this collider is enabled."; component.polygon2d = Object.copy(collider2d, { toString() { return "polygon2d"; }, flipx: false, flipy: false, boundingbox() { return points2bb(this.spoints()); }, hides: ['id', 'shape', 'gameobject'], _enghook: make_poly2d, points:[], setpoints(points) { this.points = points; this.sync(); }, /* EDITOR */ spoints() { var spoints = this.points.slice(); if (this.flipx) { spoints.forEach(function(x) { var newpoint = x.slice(); newpoint.x = -newpoint.x; spoints.push(newpoint); }); } if (this.flipy) { spoints.forEach(function(x) { var newpoint = x.slice(); newpoint.y = -newpoint.y; spoints.push(newpoint); }); } return spoints; }, gizmo() { this.spoints().forEach(x => Shape.point(this.gameobject.this2screen(x), 3, Color.green)); this.points.forEach((x,i)=>Debug.numbered_point(this.gameobject.this2screen(x), i)); }, pick(pos) { if (!Object.hasOwn(this,'points')) this.points = deep_copy(this.__proto__.points); var i = Gizmos.pick_gameobject_points(pos, this.gameobject, this.points); var p = this.points[i]; if (p) return make_point_obj(this, p); return undefined; }, }); component.polygon2d.impl = Object.mix(collider2d.impl, { sync() { cmd_poly2d(0, this.id, this.spoints());}, query() { return cmd(80, this.shape); }, }); var polygon2d = component.polygon2d; polygon2d.inputs = {}; //polygon2d.inputs.post = function() { this.sync(); }; polygon2d.inputs.f10 = function() { this.points = sortpointsccw(this.points); }; polygon2d.inputs.f10.doc = "Sort all points to be CCW order."; polygon2d.inputs['C-lm'] = function() { this.points.push(this.gameobject.world2this(Mouse.worldpos)); }; polygon2d.inputs['C-lm'].doc = "Add a point to location of mouse."; polygon2d.inputs.lm = function(){}; polygon2d.inputs.lm.released = function(){}; polygon2d.inputs['C-M-lm'] = function() { var idx = Math.grab_from_points(Mouse.worldpos, this.points.map(p => this.gameobject.this2world(p)), 25); if (idx === -1) return; this.points.splice(idx, 1); }; polygon2d.inputs['C-M-lm'].doc = "Remove point under mouse."; polygon2d.inputs['C-b'] = function() { this.points = this.spoints; this.flipx = false; this.flipy = false; }; polygon2d.inputs['C-b'].doc = "Freeze mirroring in place."; component.edge2d = Object.copy(collider2d, { dimensions:2, thickness:0, /* if type === -1, point to point */ type: Spline.type.catmull, C: 1, /* when in bezier, continuity required. 0, 1 or 2. */ looped: false, angle: 0.5, /* smaller for smoother bezier */ flipx: false, flipy: false, cpoints:[], toString() { return "edge2d"; }, hollow: false, hollowt: 0, spoints() { if (!this.cpoints) return []; var spoints = this.cpoints.slice(); if (this.flipx) { if (Spline.is_bezier(this.type)) spoints.push(Vector.reflect_point(spoints.at(-2), spoints.at(-1))); for (var i = spoints.length-1; i >= 0; i--) { var newpoint = spoints[i].slice(); newpoint.x = -newpoint.x; spoints.push(newpoint); } } if (this.flipy) { if (Spline.is_bezier(this.type)) spoints.push(Vector.reflect(point(spoints.at(-2),spoints.at(-1)))); for (var i = spoints.length-1; i >= 0; i--) { var newpoint = spoints[i].slice(); newpoint.y = -newpoint.y; spoints.push(newpoint); } } if (this.hollow) { var hpoints = inflate_cpv(spoints, spoints.length, this.hollowt); if (hpoints.length === spoints.length) return spoints; var arr1 = hpoints.filter(function(x,i) { return i % 2 === 0; }); var arr2 = hpoints.filter(function(x,i) { return i % 2 !== 0; }); return arr1.concat(arr2.reverse()); } return spoints; }, setpoints(points) { this.cpoints = points; // this.sync(); }, post() { this.cpoints = []; }, sample() { var spoints = this.spoints(); if (this.type === -1) { if (this.looped) spoints.push(spoints[0]); return spoints; } if (this.type === Spline.type.catmull) { if (this.looped) spoints = Spline.catmull_loop(spoints); else spoints = Spline.catmull_caps(spoints); return Spline.sample_angle(this.type, spoints,this.angle); } if (this.looped && Spline.is_bezier(this.type)) spoints = Spline.bezier_loop(spoints); return Spline.sample_angle(this.type, spoints, this.angle); }, boundingbox() { return points2bb(this.points.map(x => x.scale(this.gameobject.scale))); }, hides: ['gameobject', 'id', 'shape'], _enghook: make_edge2d, /* EDITOR */ gizmo() { if (this.type === Spline.type.catmull || this.type === -1) { this.spoints().forEach(x => Shape.point(this.gameobject.this2screen(x), 3, Color.teal)); this.cpoints.forEach((x,i) => Debug.numbered_point(this.gameobject.this2screen(x), i)); } else { for (var i = 0; i < this.cpoints.length; i += 3) Debug.numbered_point(this.gameobject.this2screen(this.cpoints[i]), i, Color.teal); for (var i = 1; i < this.cpoints.length; i+=3) { Debug.numbered_point(this.gameobject.this2screen(this.cpoints[i]), i, Color.green); Debug.numbered_point(this.gameobject.this2screen(this.cpoints[i+1]), i+1, Color.green); Shape.line([this.gameobject.this2screen(this.cpoints[i-1]), this.gameobject.this2screen(this.cpoints[i])], Color.yellow); Shape.line([this.gameobject.this2screen(this.cpoints[i+1]), this.gameobject.this2screen(this.cpoints[i+2])], Color.yellow); } } }, finish_center(change) { this.cpoints = this.cpoints.map(function(x) { return x.sub(change); }); }, pick(pos) { var i = Gizmos.pick_gameobject_points(pos, this.gameobject, this.cpoints); var p = this.cpoints[i]; if (!p) return undefined; if (Spline.is_catmull(this.type) || this.type === -1) return make_point_obj(this,p); var that = this.gameobject; var me = this; if (p) { var o = { pos: p, sync: me.sync.bind(me) }; if (Spline.bezier_is_handle(this.cpoints,i)) o.move = function(d) { d = that.dir_world2this(d); p.x += d.x; p.y += d.y; Spline.bezier_cp_mirror(me.cpoints,i); }; else o.move = function(d) { d = that.dir_world2this(d); p.x += d.x; p.y += d.y; var pp = Spline.bezier_point_handles(me.cpoints,i); pp.forEach(ph => me.cpoints[ph] = me.cpoints[ph].add(d)); } return o; } }, rm_node(idx) { if (idx < 0 || idx >= this.cpoints.length) return; if (Spline.is_catmull(this.type)) this.cpoints.splice(idx,1); if (Spline.is_bezier(this.type)) { Debug.assert(Spline.bezier_is_node(this.cpoints, idx), 'Attempted to delete a bezier handle.'); if (idx === 0) this.cpoints.splice(idx,2); else if (idx === this.cpoints.length-1) this.cpoints.splice(this.cpoints.length-2,2); else this.cpoints.splice(idx-1,3); } }, add_node(pos) { pos = this.gameobject.world2this(pos); var idx = 0; if (Spline.is_catmull(this.type) || this.type === -1) { if (this.cpoints.length >= 2) idx = cmd(59, pos, this.cpoints, 400); if (idx === this.cpoints.length) this.cpoints.push(pos); else this.cpoints.splice(idx, 0, pos); } if (Spline.is_bezier(this.type)) { idx = cmd(59, pos, Spline.bezier_nodes(this.cpoints),400); if (idx < 0) return; if (idx === 0) { this.cpoints.unshift(pos.slice(), pos.add([-100,0]), Vector.reflect_point(this.cpoints[1], this.cpoints[0])); return; } if (idx === Spline.bezier_node_count(this.cpoints)) { this.cpoints.push(Vector.reflect_point(this.cpoints.at(-2), this.cpoints.at(-1)), pos.add([-100,0]), pos.slice()); return; } idx = 2 + (idx-1)*3; var adds = [pos.add([100,0]), pos.slice(), pos.add([-100,0])]; this.cpoints.splice(idx, 0, ...adds); } }, pick_all() { var picks = []; this.cpoints.forEach(x =>picks.push(make_point_obj(this,x))); return picks; }, }); component.edge2d.impl = Object.mix({ set thickness(x) { cmd_edge2d(1,this.id,x); }, get thickness() { return cmd(112,this.id); }, sync() { var sensor = this.sensor; var points = this.sample(); if (!points) return; cmd_edge2d(0,this.id,points); this.sensor = sensor; }, }, component.edge2d.impl); var bucket = component.edge2d; bucket.spoints.doc = "Returns the controls points after modifiers are applied, such as it being hollow or mirrored on its axises."; bucket.inputs = {}; //bucket.inputs.post = function() { this.sync(); }; bucket.inputs.h = function() { this.hollow = !this.hollow; }; bucket.inputs.h.doc = "Toggle hollow."; bucket.inputs['C-g'] = function() { if (this.hollowt > 0) this.hollowt--; }; bucket.inputs['C-g'].doc = "Thin the hollow thickness."; bucket.inputs['C-g'].rep = true; bucket.inputs['C-f'] = function() { this.hollowt++; }; bucket.inputs['C-f'].doc = "Increase the hollow thickness."; bucket.inputs['C-f'].rep = true; bucket.inputs['M-v'] = function() { if (this.thickness > 0) this.thickness--; }; bucket.inputs['M-v'].doc = "Decrease spline thickness."; bucket.inputs['M-v'].rep = true; bucket.inputs['C-y'] = function() { this.cpoints = this.spoints(); this.flipx = false; this.flipy = false; this.hollow = false; }; bucket.inputs['C-y'].doc = "Freeze mirroring,"; bucket.inputs['M-b'] = function() { this.thickness++; }; bucket.inputs['M-b'].doc = "Increase spline thickness."; bucket.inputs['M-b'].rep = true; bucket.inputs.plus = function() { if (this.angle <= 1) { this.angle = 1; return; } this.angle *= 0.9; }; bucket.inputs.plus.doc = "Increase the number of samples of this spline."; bucket.inputs.plus.rep = true; bucket.inputs.minus = function() { this.angle *= 1.1; }; bucket.inputs.minus.doc = "Decrease the number of samples on this spline."; bucket.inputs.minus.rep = true; bucket.inputs['C-r'] = function() { this.cpoints = this.cpoints.reverse(); }; bucket.inputs['C-r'].doc = "Reverse the order of the spline's points."; bucket.inputs['C-l'] = function() { this.looped = !this.looped}; bucket.inputs['C-l'].doc = "Toggle spline being looped."; bucket.inputs['C-c'] = function() { switch(this.type) { case Spline.type.bezier: this.cpoints = Spline.bezier2catmull(this.cpoints); break; } this.type = Spline.type.catmull; }; bucket.inputs['C-c'].doc = "Set type of spline to catmull-rom."; bucket.inputs['C-b'] = function() { switch(this.type) { case Spline.type.catmull: this.cpoints = Spline.catmull2bezier(Spline.catmull_caps(this.cpoints)); break; } this.type = Spline.type.bezier; }; bucket.inputs['C-o'] = function() { this.type = -1; }; bucket.inputs['C-o'].doc = "Set spline to linear."; bucket.inputs['C-M-lm'] = function() { if (Spline.is_catmull(this.type)) { var idx = Math.grab_from_points(Mouse.worldpos, this.cpoints.map(p => this.gameobject.this2world(p)), 25); if (idx === -1) return; } else { } this.cpoints = this.cpoints.newfirst(idx); }; bucket.inputs['C-M-lm'].doc = "Select the given point as the '0' of this spline."; bucket.inputs['C-lm'] = function() { this.add_node(Mouse.worldpos); } bucket.inputs['C-lm'].doc = "Add a point to the spline at the mouse position."; bucket.inputs['C-M-lm'] = function() { var idx = -1; if (Spline.is_catmull(this.type)) idx = Math.grab_from_points(Mouse.worldpos, this.cpoints.map(p => this.gameobject.this2world(p)), 25); else { var nodes = Spline.bezier_nodes(this.cpoints); idx = Math.grab_from_points(Mouse.worldpos, nodes.map(p => this.gameobject.this2world(p)), 25); idx *= 3; } this.rm_node(idx); }; bucket.inputs['C-M-lm'].doc = "Remove point from the spline."; bucket.inputs.lm = function(){}; bucket.inputs.lm.released = function(){}; bucket.inputs.lb = function() { var np = []; this.cpoints.forEach(function(c) { np.push(Vector.rotate(c, Math.deg2rad(-1))); }); this.cpoints = np; }; bucket.inputs.lb.doc = "Rotate the points CCW."; bucket.inputs.lb.rep = true; bucket.inputs.rb = function() { var np = []; this.cpoints.forEach(function(c) { np.push(Vector.rotate(c, Math.deg2rad(1))); }); this.cpoints = np; }; bucket.inputs.rb.doc = "Rotate the points CW."; bucket.inputs.rb.rep = true; component.circle2d = Object.copy(collider2d, { radius:10, offset:[0,0], toString() { return "circle2d"; }, boundingbox() { return cwh2bb(this.offset.scale(this.gameobject.scale), [this.radius,this.radius]); }, hides: ['gameobject', 'id', 'shape', 'scale'], _enghook: make_circle2d, }); component.circle2d.impl = Object.mix({ set radius(x) { cmd_circle2d(0,this.id,x); }, get radius() { return cmd_circle2d(2,this.id); }, set scale(x) { this.radius = x; }, get scale() { return this.radius; }, set offset(x) { cmd_circle2d(1,this.id,x); }, get offset() { return cmd_circle2d(3,this.id); }, get pos() { return this.offset; }, set pos(x) { this.offset = x; }, }, collider2d.impl);; /* ASSETS */ var Texture = { mipmaps(path, x) { cmd(94, path, x); }, sprite(path, x) { cmd(95, path, x); }, }; Texture.mipmaps.doc = "Return true if the texture has mipmaps."; Texture.sprite.do = "Return true if the texture is treated as a sprite.";