var component = { toString() { if ('gameobject' in this) return this.name + " on " + this.gameobject; else return this.name; }, name: "component", component: true, set enabled(x) { }, get enabled() { }, enable() { this.enabled = true; }, disable() { this.enabled = false; }, make(go) { }, kill() { Log.info("Kill not created for this component yet"); }, gui() { }, gizmo() { }, prepare_center() {}, finish_center() {}, clone(spec) { return clone(this, spec); }, }; var sprite = clone(component, { name: "sprite", _path: "", get path() { return this._path; }, set path(x) { this._path = x; this.load_img(x); }, _pos: [0, 0], get layer() { if (!this.gameobject) return 0; else return this.gameobject.draw_layer; }, get pos() { return this._pos; }, set pos(x) { this._pos = x; this.sync(); }, input_kp9_pressed() { this.pos = [0,0]; }, input_kp8_pressed() { this.pos = [-0.5,0]; }, input_kp7_pressed() { this.pos = [-1,0]; }, input_kp6_pressed() { this.pos = [0,-0.5]; }, input_kp5_pressed() { this.pos = [-0.5,-0.5]; }, input_kp4_pressed() { this.pos = [-1,-0.5]; }, input_kp3_pressed() { this.pos = [0, -1]; }, input_kp2_pressed() { this.pos = [-0.5,-1]; }, input_kp1_pressed() { this.pos = [-1,-1]; }, get boundingbox() { if (!this.gameobject) return null; var dim = cmd(64, this.path); dim = dim.scale(this.gameobject.scale); var realpos = this.pos.copy(); realpos.x *= dim.x; realpos.y *= dim.y; realpos.x += (dim.x/2); realpos.y += (dim.y/2); return cwh2bb(realpos, dim); }, set asset(x) { if (!x) return; if (!x.endsWith(".png")) { Log.error("Can't set texture to a non image."); return; } this.path = x; Log.info("path is now " + x); this.sync(); }, _enabled: true, set enabled(x) { this._enabled = x; cmd(20, this.id, x); }, get enabled() { return this._enabled; return cmd(21, this.id); }, get visible() { return this.enabled; }, set visible(x) { this.enabled = x; }, _angle: 0, get angle() { return this._angle; }, set angle(x) { this._angle = x; sync(); }, make(go) { var sprite = clone(this); Object.defineProperty(sprite, 'id', {value:make_sprite(go,this.path,this.pos)}); sprite.sync(); return sprite; }, rect: {s0:0, s1: 1, t0: 0, t1: 1}, sync() { if (!this.hasOwn('id')) return; cmd(60, this.id, this.layer); cmd(37, this.id, this.pos); }, set color(x) { cmd(96, this.id, x); }, load_img(img) { cmd(12, this.id, img, this.rect); }, kill() { cmd(9, this.id); }, }); /* Container to play sprites and anim2ds */ var char2d = clone(sprite, { clone(anims) { var char = clone(this); char.anims = anims; return char; }, name: "char 2d", frame2rect(frames, frame) { var rect = {s0:0,s1:1,t0:0,t1:1}; var frameslice = 1/frames; rect.s0 = frameslice*frame; rect.s1 = frameslice*(frame+1); return rect; }, make(go) { var char = clone(this); char.curplaying = char.anims.array()[0]; char.obscure('curplaying'); Object.defineProperty(char, 'id', {value:make_sprite(go,char.curplaying.path,this.pos)}); char.obscure('id'); char.frame = 0; char.timer = timer.make(char.advance.bind(char), 1/char.curplaying.fps); char.timer.loop = true; char.obscure('timer'); // char.obscure('rect'); char.rect = {}; char.setsprite(); return char; }, frame: 0, play(name) { if (!(name in this.anims)) { Log.info("Can't find an animation named " + name); return; } if (this.curplaying === this.anims[name]) { this.timer.start(); return; } this.curplaying = this.anims[name]; this.timer.time = 1/this.curplaying.fps; this.timer.start(); this.frame = 0; this.setsprite(); }, setsprite() { this.path = this.curplaying.path; this.rect = this.frame2rect(this.curplaying.frames, this.frame); cmd(12, this.id, this.path, this.rect); }, advance() { this.frame = (this.frame + 1) % this.curplaying.frames; this.setsprite(); if (this.frame === 0 && !this.curplaying.loop) this.timer.pause(); }, devance() { this.frame = (this.frame - 1); if (this.frame === -1) this.frame = this.curplaying.frames-1; this.setsprite(); }, setframe(frame) { this.frame = frame; this.setsprite(); }, pause() { this.timer.pause(); }, stop() { this.setframe(0); this.timer.stop(); }, kill() { this.timer.kill(); cmd(9, this.id); }, }); /* For all colliders, "shape" is a pointer to a phys2d_shape, "id" is a pointer to the shape data */ var collider2d = clone(component, { name: "collider 2d", _sensor: false, set sensor(x) { this._sensor = x; if (this.shape) cmd(18, this.shape, x); }, get sensor() { return this._sensor; }, input_s_pressed() { if (!Keys.alt()) return; this.sensor = !this.sensor; }, input_t_pressed() { if (!Keys.alt()) return; this.enabled = !this.enabled; }, coll_sync() { cmd(18, this.shape, this.sensor); }, _enabled: true, set enabled(x) {this._enabled = x; if (this.id) cmd(22, this.id, x); }, get enabled() { return this._enabled; }, 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); }, }); var polygon2d = clone(collider2d, { name: "polygon 2d", points: [], help: "Ctrl-click Add a point\nShift-click Remove a point", clone(spec) { var obj = Object.create(this); obj.points = this.points.copy(); Object.assign(obj, spec); return obj; }, make(go) { var poly = Object.create(this); Object.assign(poly, make_poly2d(go, this.points)); Object.defineProperty(poly, 'id', {enumerable:false}); Object.defineProperty(poly, 'shape', {enumerable:false}); return poly; }, get boundingbox() { if (!this.gameobject) return null; var scaledpoints = []; this.points.forEach(function(x) { scaledpoints.push(x.scale(this.gameobject.scale)); }, this); return points2bb(scaledpoints); }, input_f10_pressed() { this.points = sortpointsccw(this.points); }, sync() { if (!this.id) return; cmd_poly2d(0, this.id, this.spoints); this.coll_sync(); }, input_b_pressed() { if (!Keys.ctrl()) return; this.points = this.spoints; this.mirrorx = false; this.mirrory = false; }, get spoints() { var spoints = this.points.slice(); if (this.mirrorx) { spoints.forEach(function(x) { var newpoint = x.slice(); newpoint.x = -newpoint.x; spoints.push(newpoint); }); } if (this.mirrory) { spoints.forEach(function(x) { var newpoint = x.slice(); newpoint.y = -newpoint.y; spoints.push(newpoint); }); } return spoints; }, gizmo() { if (!this.hasOwn('points')) this.points = this.__proto__.points.copy(); this.spoints.forEach(function(x) { Debug.point(world2screen(this.gameobject.this2world(x)), 3, Color.green); }, this); this.points.forEach(function(x, i) { Debug.numbered_point(this.gameobject.this2world(x), i); }, this); this.sync(); }, input_lmouse_pressed() { if (Keys.ctrl()) { this.points.push(this.gameobject.world2this(Mouse.worldpos)); } else if (Keys.shift()) { var idx = grab_from_points(screen2world(Mouse.pos), this.points.map(this.gameobject.this2world,this.gameobject), 25); if (idx === -1) return; this.points.splice(idx, 1); } }, pick(pos) { return Gizmos.pick_gameobject_points(pos, this.gameobject, this.points); }, query() { return cmd(80, this.shape); }, mirrorx: false, mirrory: false, input_m_pressed() { if (Keys.ctrl()) this.mirrory = !this.mirrory; else this.mirrorx = !this.mirrorx; }, }); var bucket = clone(collider2d, { name: "bucket", help: "Ctrl-click Add a point\nShift-click Remove a point\n+,- Increase/decrease spline segs\nCtrl-+,- Inc/dec spline degrees\nCtrl-b,v Inc/dec spline thickness", clone(spec) { var obj = Object.create(this); obj.cpoints = this.cpoints.copy(); dainty_assign(obj, spec); return obj; }, cpoints:[], degrees:2, dimensions:2, /* open: 0 clamped: 1 beziers: 2 looped: 3 */ type: 3, get boundingbox() { if (!this.gameobject) return null; var scaledpoints = []; this.points.forEach(function(x) { scaledpoints.push(x.scale(this.gameobject.scale)); }, this); return points2bb(scaledpoints); }, mirrorx: false, mirrory: false, input_m_pressed() { if (Keys.ctrl()) { this.mirrory = !this.mirrory; } else { this.mirrorx = !this.mirrorx; } this.sync(); }, hollow: false, input_h_pressed() { this.hollow = !this.hollow; }, get spoints() { var spoints = this.cpoints.slice(); if (this.mirrorx) { for (var i = spoints.length-1; i >= 0; i--) { var newpoint = spoints[i].slice(); newpoint.x = -newpoint.x; spoints.push(newpoint); } } if (this.mirrory) { for (var i = spoints.length-1; i >= 0; i--) { var newpoint = spoints[i].slice(); newpoint.y = -newpoint.y; spoints.push(newpoint); } } return spoints; if (this.hollow) { var hpoints = []; var inflatep = inflate_cpv(spoints, spoints.length, this.hollowt); inflatep[0].slice().reverse().forEach(function(x) { hpoints.push(x); }); inflatep[1].forEach(function(x) { hpoints.push(x); }); return hpoints; } return spoints; }, hollowt: 0, input_g_pressed() { if (!Keys.ctrl()) return; this.hollowt--; if (this.hollowt < 0) this.hollowt = 0; }, input_f_pressed() { if (!Keys.ctrl()) return; this.hollowt++; }, sample(n) { var spoints = this.spoints; this.degrees = Math.clamp(this.degrees, 1, spoints.length-1); if (spoints.length === 2) return spoints; if (spoints.length < 2) return []; if (this.degrees < 2) { if (this.type === 3) return spoints.wrapped(1); return spoints; } /* order = degrees+1 knots = spoints.length + order assert knots%order != 0 */ if (this.type === 3) return spline_cmd(0, this.degrees, this.dimensions, 0, spoints.wrapped(this.degrees), n); return spline_cmd(0, this.degrees, this.dimensions, this.type, spoints, n); }, samples: 10, points:[], make(go) { var edge = Object.create(this); Object.assign(edge, make_edge2d(go, this.points, this.thickness)); Object.defineProperty(edge, 'id', {enumerable:false}); Object.defineProperty(edge, 'shape', {enumerable:false}); edge.defn('points', []); // Object.defineProperty(edge, 'points', {enumerable:false}); edge.sync(); return edge; }, sync() { if (!this.gameobject) return; this.points = this.sample(this.samples); cmd_edge2d(0, this.id, this.points); cmd_edge2d(1, this.id, this._thickness * this.gameobject.scale); this.coll_sync(); }, gizmo() { if (!this.hasOwn('cpoints')) this.cpoints = this.__proto__.cpoints.copy(); this.spoints.forEach(function(x) { Debug.point(world2screen(this.gameobject.this2world(x)), 3, Color.green); }, this); this.cpoints.forEach(function(x, i) { Debug.numbered_point(this.gameobject.this2world(x), i); }, this); this.sync(); }, _thickness:0, /* Number of pixels out the edge is */ get thickness() { return this._thickness; }, set thickness(x) { this._thickness = Math.max(x, 0); cmd_edge2d(1, this.id, this._thickness); }, input_v_pressrep() { if (!Keys.alt()) return; this.thickness--; }, input_b_pressrep() { if (Keys.alt()) { this.thickness++; } else if (Keys.ctrl()) { this.cpoints = this.spoints; this.mirrorx = false; this.mirrory = false; } }, finish_center(change) { this.cpoints = this.cpoints.map(function(x) { return x.sub(change); }); this.sync(); }, input_plus_pressrep() { if (Keys.ctrl()) this.degrees++; else this.samples += 1; }, input_minus_pressrep() { if (Keys.ctrl()) this.degrees--; else { this.samples -= 1; if (this.samples < 1) this.samples = 1; } }, input_r_pressed() { if (!Keys.ctrl()) return; this.cpoints = this.cpoints.reverse(); }, input_l_pressed() { if (!Keys.ctrl()) return; this.type = 3; }, input_c_pressed() { if (!Keys.ctrl()) return; this.type = 1; }, input_o_pressed() { if (!Keys.ctrl()) return; this.type = 0; }, input_lmouse_pressed() { if (Keys.ctrl()) { if (Keys.alt()) { var idx = grab_from_points(Mouse.worldpos, this.cpoints.map(this.gameobject.world2this,this.gameobject), 25); if (idx === -1) return; this.cpoints = this.cpoints.newfirst(idx); return; } var idx = 0; if (this.cpoints.length >= 2) { idx = cmd(59, screen2world(Mouse.pos).sub(this.gameobject.pos), this.cpoints, 1000); if (idx === -1) return; } if (idx === this.cpoints.length) this.cpoints.push(this.gameobject.world2this(screen2world(Mouse.pos))); else this.cpoints.splice(idx, 0, this.gameobject.world2this(screen2world(Mouse.pos))); return; } else if (Keys.shift()) { var idx = grab_from_points(screen2world(Mouse.pos), this.cpoints.map(function(x) {return x.add(this.gameobject.pos); }, this), 25); if (idx === -1) return; this.cpoints.splice(idx, 1); } }, pick(pos) { return Gizmos.pick_gameobject_points(pos, this.gameobject, this.cpoints); }, input_lbracket_pressrep() { var np = []; this.cpoints.forEach(function(c) { np.push(Vector.rotate(c, Math.deg2rad(-1))); }); this.cpoints = np; }, input_rbracket_pressrep() { var np = []; this.cpoints.forEach(function(c) { np.push(Vector.rotate(c, Math.deg2rad(1))); }); this.cpoints = np; }, }); var circle2d = clone(collider2d, { name: "circle 2d", get radius() { return this.rradius; }, rradius: 10, set radius(x) { this.rradius = x; cmd_circle2d(0, this.id, this.rradius); }, get boundingbox() { if (!this.gameobject) return null; var radius = this.radius*2*this.gameobject.scale; return cwh2bb(this.offset.scale(this.gameobject.scale), [radius, radius]); }, get scale() { return this.radius; }, set scale(x) { this.radius = x; }, ofset: [0,0], get offset() { return this.ofset; }, set offset(x) { this.ofset = x; cmd_circle2d(1, this.id, this.ofset); }, get pos() { return this.ofset; }, set pos(x) { this.offset = x; }, make(go) { var circle = clone(this); var circ = make_circle2d(go, circle.radius, circle.offset); Object.assign(circle, circ); Object.defineProperty(circle, 'id', {enumerable:false}); Object.defineProperty(circle, 'shape', {enumerable:false}); return circle; }, gui() { Nuke.newline(); Nuke.label("circle2d"); this.radius = Nuke.pprop("Radius", this.radius); this.offset = Nuke.pprop("offset", this.offset); }, sync() { cmd_circle2d(0, this.id, this.rradius); cmd_circle2d(-1, this.id); this.coll_sync(); }, }); /* ASSETS */ var Texture = { mipmaps(path, x) { cmd(94, path, x); }, sprite(path, x) { cmd(95, path, x); }, }; var Resources = { load(path) { if (path in this) return this[path]; var src = {}; this[path] = src; src.path = path; if (!IO.exists(`${path}.asset`)) return this[path]; var data = JSON.parse(IO.slurp(`${path}.asset`)); Object.assign(src,data); return this[path]; }, };