{"id":190327,"student_id":10,"content":"var SIZE = 50; // 每個世代的個數\nvar DNA_LENGTH = 24; // DNA 的長度\nvar generation = 0; // 紀錄目前是第幾代\n\nfor (var i = 0; i \u003c SIZE; i++) {\n let car = new Car();\n car.speed = 3; // 設定車速\n car.reset(50, 50, 90);\n\n car.addSensor(60); //安裝感測器1\n car.addSensor(30); //安裝感測器2\n car.addSensor(0); //安裝感測器3\n car.addSensor(-30); //安裝感測器4\n car.addSensor(-60); //安裝感測器5\n car.dna = randomDNA(24) //加上神經網路權重 24 個數字\n\n forever(function () {\n var output = NN(car.sensorsData, car.dna) //神經網路的運算\n car.turn(output*3) //打方向盤\n });\n\n}\n\n\n\n\n// 手動進入下一個世代來加速學習\nwhen('keydown', 'space', nextGeneration);\n\n// 不斷檢查所有車子的狀態是否都毀損\n// 如果是則進入下一個世代\nforever(function() {});\n\n// 當所有車子都壞掉時,會觸發這個函式\nfunction nextGeneration () {\n console.log('產生下一代車子...');\n \n for (var i=0; i\u003cSIZE; i++) {\n cars[i].dna = randomDNA(DNA_LENGTH);\n }\n}\n\n// 產生 dna1 dna2 的下一代基因\nfunction crossover (a, b) {}\n\n// length 要產生的 dna 長度\nfunction randomDNA (length) {\n var dna = []\n for (var i = 0; i \u003c length; i++) {\n dna.push(Math.random()*2 - 1)\n }\n return dna\n}\n\n// S型函數\nfunction sigmoid(x) {\n return (Math.exp(x) - Math.exp(-x)) / (Math.exp(x) + Math.exp(-x));\n}\n\n// input*5 hidden*4 output*1\nfunction NN (inputs, weights) {\n var i = inputs\n var w = weights\n\n a = i[0]*w[0] + i[1]*w[1] + i[2]*w[2] + i[3]*w[3] + i[4]*w[4];\n b = i[0]*w[5] + i[1]*w[6] + i[2]*w[7] + i[3]*w[8] + i[4]*w[9];\n c = i[0]*w[10] + i[1]*w[11] + i[2]*w[12] + i[3]*w[13] + i[4]*w[14];\n d = i[0]*w[15] + i[1]*w[16] + i[2]*w[17] + i[3]*w[18] + i[4]*w[19];\n\n a = sigmoid(a)\n b = sigmoid(b)\n c = sigmoid(c)\n d = sigmoid(d)\n\n output = a*w[20] + b*w[21] + c*w[22] + d*w[23]\n\n return output\n}","created_at":"2020-09-12T09:39:44.706+08:00","updated_at":"2020-09-12T11:54:02.042+08:00","name":"自動駕駛 副本","language":"javascript","screenshot":{"url":"https://cdn2.koding.school/uploads/project/screenshot/190327/8fd488aaa9971c4f36696e6f825397da.jpg"},"parent_id":70443,"plugin":"function Point (x, y) {\n this.x = x || 0;\n this.y = y || 0;\n}\n\nfunction Line (p1, p2, size, color) {\n\n this.p1 = p1;\n this.p2 = p2;\n this.size = size || 1;\n this.color = color || 'black';\n this.a = 0;\n this.b = 0;\n \n // 使用在繪圖用對應的 forever\n this.instance = createSprite('dot.jpg');\n this.instance.hidden = true;\n \n // y = ax + b\n // a:斜率 b:常數\n this.update = function () {\n // 計算斜率\n this.a = (this.p1.y - this.p2.y) / (this.p1.x - this.p2.x);\n \n // 這招真的很無恥,斜率 1000 畫面上分辨不出是否垂直線\n // 在計算交會點的時候就很方便,不用再判斷是否為垂直線\n if (Math.abs(this.a) \u003e 1000) this.a = 1000;\n \n // 計算常數項\n this.b = this.p1.y - this.p1.x*this.a;\n }\n this.update(); // 初始化更新\n \n \n // 取得兩線斷相交的座標,如果沒有相交就回傳 undefined\n this.touched = function (line) {\n\n if (!this.isCrossWith(line)) return; // undefined\n \n let x = (line.b - this.b)/(this.a - line.a);\n let y = this.a*x + this.b;\n return {x: x, y: y};\n }\n \n // 兩線斷是否相交\n this.isCrossWith = function (line) {\n return line._calc(this.p1.x, this.p1.y) * line._calc(this.p2.x, this.p2.y) \u003c 0 \u0026\u0026\n this._calc(line.p1.x, line.p1.y) * this._calc(line.p2.x, line.p2.y) \u003c 0\n }\n\n this._calc = function (x, y) {\n if (Math.abs(this.a) == Infinity) return x - this.b;\n return this.a*x + this.b - y;\n }\n \n // 渲染線條\n this.render = function () {\n pen.size = this.size;\n pen.color = this.color;\n pen.drawLine(this.p1.x, this.p1.y, this.p2.x, this.p2.y);\n }\n \n // 刪除線條\n this.destroy = this.instance.destroy.bind(this.instance);\n \n var self = this;\n this.instance.forever(function(){\n self.update();\n self.render();\n });\n}\n\n\nvar walls = []; // 存放賽道線條\nvar cars = []; // 存放所有製造出來的車子\n\n\nfunction Car (x, y) {\n \n let width = 17; // 車體中心到四個角的距離\n let sensorLength = 1000; // 感測器的長度距離\n\n let center = createSprite('dot.jpg');\n center.x = x || 320;\n center.y = y || 240;\n center.speed = 1; // 預設車速\n center.status = 'running'; // running, broken\n \n // 車體的四個點\n let p1 = new Point();\n let p2 = new Point();\n let p3 = new Point();\n let p4 = new Point();\n center.corner = [p1, p2, p3, p4];\n \n // 車體邊框\n center.border = [\n new Line(p1, p2, 2),\n new Line(p2, p3, 2),\n new Line(p3, p4, 2),\n new Line(p4, p1, 2),\n ];\n \n // 感測器的線段終點\n center.censorPoints = [];\n // 感測器的線段\n center.sensors = []\n // sensors 角度\n center.offset = [];\n // 感測器讀取的資料\n center.sensorsData = [];\n \n\n center.updateLines = function () {\n for (var i=0; i\u003c4; i++) {\n this.border[i].update();\n }\n for (var i=0; i\u003cthis.offset.length; i++) {\n this.sensors[i].update();\n }\n }\n \n center.update = function () {\n var self = this;\n this.border.forEach((line) =\u003e {\n if (self.status == 'broken') line.color = 'gray';\n else line.color = 'black';\n });\n \n // 更新車體的四個點座標\n var offset = [30, 150, -150, -30];\n for (var i=0; i\u003c4; i++) {\n this.direction += offset[i];\n this.stepForward(width);\n this.corner[i].x = this.x;\n this.corner[i].y = this.y;\n this.stepForward(-width);\n this.direction -= offset[i];\n }\n \n // 更新感測器的線\n var offset = [-45, -22.5, 0, 22.5, 45];\n var offset = [-60, 0, 60];\n for (var i=0; i\u003cthis.offset.length; i++) {\n center.direction += this.offset[i];\n center.stepForward(sensorLength);\n center.censorPoints[i].x = center.x;\n center.censorPoints[i].y = center.y;\n center.stepForward(-sensorLength);\n center.direction -= this.offset[i];\n }\n \n this.updateLines();\n };\n \n center.turn = function (direction) {\n if (isNaN(direction) || this.status == 'broken') return;\n if (direction \u003e this.speed) direction = this.speed;\n if (direction \u003c -this.speed) direction = -this.speed;\n this.direction += direction;\n }\n \n center.speedUp = function (speed) {\n if (isNaN(speed) || this.status == 'broken') return;\n this.speed += speed;\n if (this.speed \u003c 0) this.speed = 0;\n }\n \n center.reset = function (x, y, direction) {\n this.x = x;\n this.y = y;\n this.direction = direction;\n this.update();\n this.status = 'running';\n }\n \n center.addSensor = function (direction) {\n let point = new Point();\n let line = new Line(this, point, 0, '#00000000');\n this.censorPoints.push(point);\n this.sensors.push(line);\n this.offset.push(direction);\n }\n \n forever(function () {\n if (center.status == 'running') {\n center.stepForward(center.speed);\n }\n center.update();\n });\n \n center.update(); // 初始化更新\n \n cars.push(center);\n return center;\n}\n\n\nforever(function(){\n \n // 檢查車子是否碰到賽道邊界,碰到則將車子狀態改成 broken\n cars.forEach(function (car) {\n for (var x=0; x\u003ccar.border.length; x++) {\n for (var y=0; y\u003cwalls.length; y++) {\n if (car.border[x].touched(walls[y])) {\n car.status = 'broken';\n return;\n }\n }\n }\n });\n \n // 更新車子感測器的數值\n cars.forEach(function (car) {\n if (car.status == 'broken') return;\n for (var x=0; x\u003ccar.sensors.length; x++) {\n \n var shortest = Infinity;\n var target = {};\n \n for (var y=0; y\u003cwalls.length; y++) {\n let pos = car.sensors[x].touched(walls[y]);\n if (pos) {\n let length = Math.sqrt((pos.x - car.x)**2 + (pos.y - car.y)**2);\n if (length \u003c shortest) {\n shortest = Math.round(length);\n target = pos;\n }\n }\n }\n \n car.sensorsData[x] = shortest;\n pen.color = '#aaa';\n pen.size = 1;\n pen.drawLine(car.x, car.y, target.x, target.y);\n pen.fillColor = 'red';\n pen.drawCircle(target.x, target.y, 3);\n }\n });\n});\n\n// 初始化賽道牆壁\nfunction initalMaps (map) {\n walls.forEach(function (line) { line.destroy() });\n walls = [];\n map.forEach(function (points) {\n for (var i=1; i\u003cpoints.length; i++) {\n let p1 = new Point(points[i - 1].x, points[i - 1].y);\n let p2 = new Point(points[i].x, points[i].y);\n let l =new Line(p1, p2, 3);\n walls.push(l)\n }\n });\n}\n\nlet maps = [[{\"x\":7,\"y\":91},{\"x\":10,\"y\":65},{\"x\":24,\"y\":40},{\"x\":45,\"y\":22},{\"x\":70,\"y\":10},{\"x\":93,\"y\":6},{\"x\":532,\"y\":4},{\"x\":563,\"y\":7},{\"x\":593,\"y\":15},{\"x\":614,\"y\":33},{\"x\":628,\"y\":58},{\"x\":632,\"y\":84},{\"x\":632,\"y\":112},{\"x\":629,\"y\":389},{\"x\":626,\"y\":416},{\"x\":613,\"y\":441},{\"x\":594,\"y\":459},{\"x\":563,\"y\":469},{\"x\":523,\"y\":471},{\"x\":432,\"y\":471},{\"x\":327,\"y\":470},{\"x\":308,\"y\":462},{\"x\":293,\"y\":440},{\"x\":292,\"y\":409},{\"x\":292,\"y\":381},{\"x\":369,\"y\":189},{\"x\":369,\"y\":174},{\"x\":360,\"y\":160},{\"x\":324,\"y\":160},{\"x\":284,\"y\":160},{\"x\":248,\"y\":162},{\"x\":238,\"y\":180},{\"x\":234,\"y\":205},{\"x\":235,\"y\":378},{\"x\":235,\"y\":412},{\"x\":229,\"y\":440},{\"x\":204,\"y\":461},{\"x\":164,\"y\":470},{\"x\":121,\"y\":474},{\"x\":76,\"y\":472},{\"x\":45,\"y\":464},{\"x\":26,\"y\":446},{\"x\":12,\"y\":422},{\"x\":7,\"y\":389},{\"x\":8,\"y\":92}],[{\"x\":100,\"y\":106},{\"x\":102,\"y\":89},{\"x\":114,\"y\":82},{\"x\":492,\"y\":81},{\"x\":510,\"y\":86},{\"x\":519,\"y\":100},{\"x\":521,\"y\":367},{\"x\":514,\"y\":382},{\"x\":495,\"y\":388},{\"x\":421,\"y\":388},{\"x\":406,\"y\":374},{\"x\":478,\"y\":188},{\"x\":486,\"y\":163},{\"x\":489,\"y\":136},{\"x\":477,\"y\":112},{\"x\":456,\"y\":97},{\"x\":425,\"y\":90},{\"x\":171,\"y\":91},{\"x\":147,\"y\":98},{\"x\":135,\"y\":118},{\"x\":131,\"y\":141},{\"x\":131,\"y\":362},{\"x\":131,\"y\":379},{\"x\":118,\"y\":390},{\"x\":105,\"y\":379},{\"x\":102,\"y\":361},{\"x\":100,\"y\":105}]]\ninitalMaps(maps);\n","description":null,"note":null,"status":"public","like_student_ids":[],"is_featured":false,"views":234,"hashid":"rdvsejrd","is_content_changed":false,"review_status":"unsubmitted","submitted_at":null,"reviewed_at":null,"advise":null,"is_deleted":false}
[{"id":3242082,"file_name":"dot.jpg","project_id":190327,"asset_id":113887,"created_at":"2020-09-12T09:39:44.713+08:00","updated_at":"2020-09-12T09:39:44.713+08:00"}]
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