mlpractical/notebooks/02_Single_layer_models.ipynb

{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "$\\newcommand{\\vct}[1]{\\boldsymbol{#1}}\n",
    "\\newcommand{\\mtx}[1]{\\mathbf{#1}}\n",
    "\\newcommand{\\tr}{^\\mathrm{T}}\n",
    "\\newcommand{\\reals}{\\mathbb{R}}\n",
    "\\newcommand{\\lpa}{\\left(}\n",
    "\\newcommand{\\rpa}{\\right)}\n",
    "\\newcommand{\\lsb}{\\left[}\n",
    "\\newcommand{\\rsb}{\\right]}\n",
    "\\newcommand{\\lbr}{\\left\\lbrace}\n",
    "\\newcommand{\\rbr}{\\right\\rbrace}\n",
    "\\newcommand{\\fset}[1]{\\lbr #1 \\rbr}\n",
    "\\newcommand{\\pd}[2]{\\frac{\\partial #1}{\\partial #2}}$\n",
    "\n",
    "# Single layer models\n",
    "\n",
    "In this lab we will implement a single-layer network model consisting of solely of an affine transformation of the inputs. The relevant material for this was covered in [the slides of the first lecture](http://www.inf.ed.ac.uk/teaching/courses/mlp/2016/mlp01-intro.pdf). \n",
    "\n",
    "We will first implement the forward propagation of inputs to the network to produce predicted outputs. We will then move on to considering how to use gradients of an error function evaluated on the outputs to compute the gradients with respect to the model parameters to allow us to perform an iterative gradient-descent training procedure. In the final exercise you will use an interactive visualisation to explore the role of some of the different hyperparameters of gradient-descent based training methods.\n",
    "\n",
    "#### A note on random number generators\n",
    "\n",
    "It is generally a good practice (for machine learning applications **not** for cryptography!) to seed a pseudo-random number generator once at the beginning of each experiment. This makes it easier to reproduce results as the same random draws will produced each time the experiment is run (e.g. the same random initialisations used for parameters). Therefore generally when we need to generate random values during this course, we will create a seeded random number generator object as we do in the cell below."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "import numpy as np\n",
    "seed = 27092016 \n",
    "rng = np.random.RandomState(seed)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Exercise 1: linear and affine transforms\n",
    "\n",
    "Any *linear transform* (also called a linear map) of a finite-dimensional vector space can be parametrised by a matrix. So for example if we consider $\\vct{x} \\in \\reals^{D}$ as the input space of a model with $D$ dimensional real-valued inputs, then a matrix $\\mtx{W} \\in \\reals^{K\\times D}$ can be used to define a prediction model consisting solely of a linear transform of the inputs\n",
    "\n",
    "\\begin{equation}\n",
    "    \\vct{y} = \\mtx{W} \\vct{x}\n",
    "    \\qquad\n",
    "    \\Leftrightarrow\n",
    "    \\qquad\n",
    "    y_k = \\sum_{d=1}^D \\lpa W_{kd} x_d \\rpa \\quad \\forall k \\in \\fset{1 \\dots K}\n",
    "\\end{equation}\n",
    "\n",
    "with here $\\vct{y} \\in \\reals^K$ the $K$-dimensional real-valued output of the model. Geometrically we can think of a linear transform doing some combination of rotation, scaling, reflection and shearing of the input.\n",
    "\n",
    "An *affine transform* consists of a linear transform plus an additional translation parameterised by a vector $\\vct{b} \\in \\reals^K$. A model consisting of an affine transformation of the inputs can then be defined as\n",
    "\n",
    "\\begin{equation}\n",
    "    \\vct{y} = \\mtx{W}\\vct{x} + \\vct{b}\n",
    "    \\qquad\n",
    "    \\Leftrightarrow\n",
    "    \\qquad\n",
    "    y_k = \\sum_{d=1}^D \\lpa W_{kd} x_d \\rpa + b_k \\quad \\forall k \\in \\fset{1 \\dots K}\n",
    "\\end{equation}\n",
    "\n",
    "In machine learning we will usually refer to the matrix $\\mtx{W}$ as a *weight matrix* and the vector $\\vct{b}$ as a *bias vector*.\n",
    "\n",
    "Generally rather than working with a single data vector $\\vct{x}$ we will work with batches of datapoints $\\fset{\\vct{x}^{(b)}}_{b=1}^B$. We could calculate the outputs for each input in the batch sequentially\n",
    "\n",
    "\\begin{align}\n",
    "    \\vct{y}^{(1)} &= \\mtx{W}\\vct{x}^{(1)} + \\vct{b}\\\\\n",
    "    \\vct{y}^{(2)} &= \\mtx{W}\\vct{x}^{(2)} + \\vct{b}\\\\\n",
    "    \\dots &\\\\\n",
    "    \\vct{y}^{(B)} &= \\mtx{W}\\vct{x}^{(B)} + \\vct{b}\\\\\n",
    "\\end{align}\n",
    "\n",
    "by looping over each input in the batch and calculating the output. However in general loops in Python are slow (particularly compared to compiled and typed languages such as C). This is due at least in part to the large overhead in dynamically inferring variable types. In general therefore wherever possible we want to avoid having loops in which such overhead will become the dominant computational cost.\n",
    "\n",
    "For array based numerical operations, one way of overcoming this bottleneck is to *vectorise* operations. NumPy `ndarrays` are typed arrays for which operations such as basic elementwise arithmetic and linear algebra operations such as computing matrix-matrix or matrix-vector products are implemented by calls to highly-optimised compiled libraries. Therefore if you can implement code directly using NumPy operations on arrays rather than by looping over array elements it is often possible to make very substantial performance gains.\n",
    "\n",
    "As a simple example we can consider adding up two arrays `a` and `b` and writing the result to a third array `c`. First lets initialise `a` and `b` with arbitrary values by running the cell below."
   ]
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  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {
    "collapsed": true
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   "outputs": [],
   "source": [
    "size = 1000\n",
    "a = np.arange(size)\n",
    "b = np.ones(size)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Now let's time how long it takes to add up each pair of values in the two array and write the results to a third array using a loop-based implementation. We will use the `%%timeit` magic briefly mentioned in the previous lab notebook specifying the number of times to loop the code as 100 and to give the best of 3 repeats. Run the cell below to get a print out of the average time taken."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "metadata": {
    "collapsed": false
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   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "100 loops, best of 3: 2.18 ms per loop\n"
     ]
    }
   ],
   "source": [
    "%%timeit -n 100 -r 3\n",
    "c = np.empty(size)\n",
    "for i in range(size):\n",
    "    c[i] = a[i] + b[i]"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "And now we will perform the corresponding summation with the overloaded addition operator of NumPy arrays. Again run the cell below to get a print out of the average time taken."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 4,
   "metadata": {
    "collapsed": false
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   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "The slowest run took 4.89 times longer than the fastest. This could mean that an intermediate result is being cached.\n",
      "100 loops, best of 3: 3.42 µs per loop\n"
     ]
    }
   ],
   "source": [
    "%%timeit -n 100 -r 3\n",
    "c = a + b"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "The first loop-based implementation should have taken on the order of milliseconds ($10^{-3}$s) while the vectorised implementation should have taken on the order of microseconds ($10^{-6}$s), i.e. a $\\sim1000\\times$ speedup. Hopefully this simple example should make it clear why we want to vectorise operations whenever possible!\n",
    "\n",
    "Getting back to our affine model, ideally rather than individually computing the output corresponding to each input we should compute the outputs for all inputs in a batch using a vectorised implementation. As you saw last week, data providers return batches of inputs as arrays of shape `(batch_size, input_dim)`. In the mathematical notation used earlier we can consider this as a matrix $\\mtx{X}$ of dimensionality $B \\times D$, and in particular\n",
    "\n",
    "\\begin{equation}\n",
    "    \\mtx{X} = \\lsb \\vct{x}^{(1)} ~ \\vct{x}^{(2)} ~ \\dots ~ \\vct{x}^{(B)} \\rsb\\tr\n",
    "\\end{equation}\n",
    "\n",
    "i.e. the $b^{\\textrm{th}}$ input vector $\\vct{x}^{(b)}$ corresponds to the $b^{\\textrm{th}}$ row of $\\mtx{X}$. If we define the $B \\times K$ matrix of outputs $\\mtx{Y}$ similarly as\n",
    "\n",
    "\\begin{equation}\n",
    "    \\mtx{Y} = \\lsb \\vct{y}^{(1)} ~ \\vct{y}^{(2)} ~ \\dots ~ \\vct{y}^{(B)} \\rsb\\tr\n",
    "\\end{equation}\n",
    "\n",
    "then we can express the relationship between $\\mtx{X}$ and $\\mtx{Y}$ using [matrix multiplication](https://en.wikipedia.org/wiki/Matrix_multiplication) and addition as\n",
    "\n",
    "\\begin{equation}\n",
    "    \\mtx{Y} = \\mtx{X} \\mtx{W}\\tr + \\mtx{B}\n",
    "\\end{equation}\n",
    "\n",
    "where $\\mtx{B} = \\lsb \\vct{b} ~ \\vct{b} ~ \\dots ~ \\vct{b} \\rsb\\tr$ i.e. a $B \\times K$ matrix with each row corresponding to the bias vector. The weight matrix needs to be transposed here as the inner dimensions of a matrix multiplication must match i.e. for $\\mtx{C} = \\mtx{A} \\mtx{B}$ then if $\\mtx{A}$ is of dimensionality $K \\times L$ and $\\mtx{B}$ is of dimensionality $M \\times N$ then it must be the case that $L = M$ and $\\mtx{C}$ will be of dimensionality $K \\times N$.\n",
    "\n",
    "The first exercise for this lab is to implement *forward propagation* for a single-layer model consisting of an affine transformation of the inputs in the `fprop` function given as skeleton code in the cell below. This should work for a batch of inputs of shape `(batch_size, input_dim)` producing a batch of outputs of shape `(batch_size, output_dim)`.\n",
    "  \n",
    "You will probably want to use the NumPy `dot` function and [broadcasting features](http://docs.scipy.org/doc/numpy/user/basics.broadcasting.html) to implement this efficiently. If you are not familiar with either / both of these you may wish to read the [hints](#Hints:-Using-the-dot-function-and-broadcasting) section below which gives some details on these before attempting the exercise."
   ]
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   "cell_type": "code",
   "execution_count": 5,
   "metadata": {
    "collapsed": true
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   "source": [
    "def fprop(inputs, weights, biases):\n",
    "    \"\"\"Forward propagates activations through the layer transformation.\n",
    "\n",
    "    For inputs `x`, outputs `y`, weights `W` and biases `b` the layer\n",
    "    corresponds to `y = W x + b`.\n",
    "\n",
    "    Args:\n",
    "        inputs: Array of layer inputs of shape (batch_size, input_dim).\n",
    "        weights: Array of weight parameters of shape \n",
    "            (output_dim, input_dim).\n",
    "        biases: Array of bias parameters of shape (output_dim, ).\n",
    "\n",
    "    Returns:\n",
    "        outputs: Array of layer outputs of shape (batch_size, output_dim).\n",
    "    \"\"\"\n",
    "    return inputs.dot(weights.T) + biases"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Once you have implemented `fprop` in the cell above you can test your implementation by running the cell below."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "metadata": {
    "collapsed": false
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "All outputs correct!\n"
     ]
    }
   ],
   "source": [
    "inputs = np.array([[0., -1., 2.], [-6., 3., 1.]])\n",
    "weights = np.array([[2., -3., -1.], [-5., 7., 2.]])\n",
    "biases = np.array([5., -3.])\n",
    "true_outputs = np.array([[6., -6.], [-17., 50.]])\n",
    "\n",
    "if not np.allclose(fprop(inputs, weights, biases), true_outputs):\n",
    "    print('Wrong outputs computed.')\n",
    "else:\n",
    "    print('All outputs correct!')"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Hints: Using the `dot` function and broadcasting\n",
    "\n",
    "For those new to NumPy below are some details on the `dot` function and broadcasting feature of NumPy that you may want to use for implementing the first exercise. If you are already familiar with these and have already completed the first exercise you can move on straight to [second exercise](#Exercise-2:-visualising-random-models).\n",
    "\n",
    "#### `numpy.dot` function\n",
    "\n",
    "Matrix-matrix, matrix-vector and vector-vector (dot) products can all be computed in NumPy using the [`dot`](http://docs.scipy.org/doc/numpy/reference/generated/numpy.dot.html) function. For example if `A` and `B` are both two dimensional arrays, then `C = np.dot(A, B)` or equivalently `C = A.dot(B)` will both compute the matrix product of `A` and `B` assuming `A` and `B` have compatible dimensions. Similarly if `a` and `b` are one dimensional arrays then `c = np.dot(a, b)` / `c = a.dot(b)` will compute the [scalar / dot product](https://en.wikipedia.org/wiki/Dot_product) of the two arrays. If `A` is a two-dimensional array and `b` a one-dimensional array `np.dot(A, b)` / `A.dot(b)` will compute the matrix-vector product of `A` and `b`. Examples of all three of these product types are shown in the cell below:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "metadata": {
    "collapsed": false
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "[[  6.   6.   6.]\n",
      " [ 24.  24.  24.]\n",
      " [ 42.  42.  42.]]\n",
      "[[ 18.  24.  30.]\n",
      " [ 18.  24.  30.]\n",
      " [ 18.  24.  30.]]\n",
      "[ 0.8  2.6  4.4]\n",
      "[ 2.4  3.   3.6]\n",
      "0.2\n"
     ]
    }
   ],
   "source": [
    "# Initiliase arrays with arbitrary values\n",
    "A = np.arange(9).reshape((3, 3))\n",
    "B = np.ones((3, 3)) * 2\n",
    "a = np.array([-1., 0., 1.])\n",
    "b = np.array([0.1, 0.2, 0.3])\n",
    "print(A.dot(B))  # Matrix-matrix product\n",
    "print(B.dot(A))  # Reversed product of above A.dot(B) != B.dot(A) in general\n",
    "print(A.dot(b))  # Matrix-vector product\n",
    "print(b.dot(A))  # Again A.dot(b) != b.dot(A) unless A is symmetric i.e. A == A.T\n",
    "print(a.dot(b))  # Vector-vector scalar product"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "#### Broadcasting\n",
    "\n",
    "Another NumPy feature it will be helpful to get familiar with is [broadcasting](http://docs.scipy.org/doc/numpy/user/basics.broadcasting.html). Broadcasting allows you to apply operations to arrays of different shapes, for example to add a one-dimensional array to a two-dimensional array or multiply a multidimensional array by a scalar. The complete set of rules for broadcasting as explained in the official documentation page just linked to can sound a bit complex: you might find the [visual explanation on this page](http://www.scipy-lectures.org/intro/numpy/operations.html#broadcasting) more intuitive. The cell below gives a few examples:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 8,
   "metadata": {
    "collapsed": false
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "[[ 0.1  1.2]\n",
      " [ 2.1  3.2]\n",
      " [ 4.1  5.2]]\n",
      "[[-1.  0.]\n",
      " [ 2.  3.]\n",
      " [ 5.  6.]]\n",
      "[[ 0.   0.2]\n",
      " [ 0.2  0.6]\n",
      " [ 0.4  1. ]]\n"
     ]
    }
   ],
   "source": [
    "# Initiliase arrays with arbitrary values\n",
    "A = np.arange(6).reshape((3, 2))\n",
    "b = np.array([0.1, 0.2])\n",
    "c = np.array([-1., 0., 1.])\n",
    "print(A + b)  # Add b elementwise to all rows of A\n",
    "print((A.T + c).T)  # Add b elementwise to all columns of A\n",
    "print(A * b)  # Multiply each row of A elementise by b "
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Exercise 2: visualising random models"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "In this exercise you will use your `fprop` implementation to visualise the outputs of a single-layer affine transform model with two-dimensional inputs and a one-dimensional output. In this simple case we can visualise the joint input-output space on a 3D axis.\n",
    "\n",
    "For this task and the learning experiments later in the notebook we will use a regression dataset from the [UCI machine learning repository](http://archive.ics.uci.edu/ml/index.html). In particular we will use a version of the [Combined Cycle Power Plant dataset](http://archive.ics.uci.edu/ml/datasets/Combined+Cycle+Power+Plant), where the task is to predict the energy output of a power plant given observations of the local ambient conditions (e.g. temperature, pressure and humidity).\n",
    "\n",
    "The original dataset has four input dimensions and a single target output dimension. We have preprocessed the dataset by [whitening](https://en.wikipedia.org/wiki/Whitening_transformation) it, a common preprocessing step. We will only use the first two dimensions of the whitened inputs (corresponding to the first two principal components of the inputs) so we can easily visualise the joint input-output space.\n",
    "\n",
    "The dataset has been wrapped in the `CCPPDataProvider` class in the `mlp.data_providers` module and the data included as a compressed file in the data directory as `ccpp_data.npz`. Running the cell below will initialise an instance of this class, get a single batch of inputs and outputs and import the necessary `matplotlib` objects."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 9,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "import matplotlib.pyplot as plt\n",
    "from mpl_toolkits.mplot3d import Axes3D\n",
    "from mlp.data_providers import CCPPDataProvider\n",
    "%matplotlib notebook\n",
    "\n",
    "data_provider = CCPPDataProvider(\n",
    "    which_set='train',\n",
    "    input_dims=[0, 1],\n",
    "    batch_size=5000, \n",
    "    max_num_batches=1, \n",
    "    shuffle_order=False\n",
    ")\n",
    "\n",
    "input_dim, output_dim = 2, 1\n",
    "\n",
    "inputs, targets = data_provider.next()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Here we used the `%matplotlib notebook` magic command rather than the `%matplotlib inline` we used in the previous lab as this allows us to produce interactive 3D plots which you can rotate and zoom in/out by dragging with the mouse and scrolling the mouse-wheel respectively. Once you have finished interacting with a plot you can close it to produce a static inline plot using the <i class=\"fa fa-power-off\"></i> button in the top-right corner.\n",
    "\n",
    "Now run the cell below to plot the predicted outputs of a randomly initialised model across the two dimensional input space as well as the true target outputs. This sort of visualisation can be a useful method (in low dimensions) to assess how well the model is likely to be able to fit the data and to judge appropriate initialisation scales for the parameters. Each time you re-run the cell a new set of random parameters will be sampled\n",
    "\n",
    "Some questions to consider:\n",
    "\n",
    "  * How do the weights and bias initialisation scale affect the sort of predicted input-output relationships?\n",
    "    * Magnitude of weights initialisation scale determines how steep along the two input directions the plane predictions lie on is. The magnitude of the bias initialisation scale determines the typical offset of the plane from the `output = 0.` plane.\n",
    "  * Does the linear form of the model seem appropriate for the data here?\n",
    "    * While it appears a linear-model will not be able to fully capture the input-output relationship evident in the data with there some degree of non-linearity seeming to be present, as a first approximation a linear model seems a reasonable choice as a simple model for the data."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 10,
   "metadata": {
    "collapsed": false
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   "outputs": [
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       "    var titlebar = $(\n",
       "        '<div class=\"ui-dialog-titlebar ui-widget-header ui-corner-all ' +\n",
       "        'ui-helper-clearfix\"/>');\n",
       "    var titletext = $(\n",
       "        '<div class=\"ui-dialog-title\" style=\"width: 100%; ' +\n",
       "        'text-align: center; padding: 3px;\"/>');\n",
       "    titlebar.append(titletext)\n",
       "    this.root.append(titlebar);\n",
       "    this.header = titletext[0];\n",
       "}\n",
       "\n",
       "\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = $('<div/>');\n",
       "\n",
       "    canvas_div.attr('style', 'position: relative; clear: both; outline: 0');\n",
       "\n",
       "    function canvas_keyboard_event(event) {\n",
       "        return fig.key_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    canvas_div.keydown('key_press', canvas_keyboard_event);\n",
       "    canvas_div.keyup('key_release', canvas_keyboard_event);\n",
       "    this.canvas_div = canvas_div\n",
       "    this._canvas_extra_style(canvas_div)\n",
       "    this.root.append(canvas_div);\n",
       "\n",
       "    var canvas = $('<canvas/>');\n",
       "    canvas.addClass('mpl-canvas');\n",
       "    canvas.attr('style', \"left: 0; top: 0; z-index: 0; outline: 0\")\n",
       "\n",
       "    this.canvas = canvas[0];\n",
       "    this.context = canvas[0].getContext(\"2d\");\n",
       "\n",
       "    var rubberband = $('<canvas/>');\n",
       "    rubberband.attr('style', \"position: absolute; left: 0; top: 0; z-index: 1;\")\n",
       "\n",
       "    var pass_mouse_events = true;\n",
       "\n",
       "    canvas_div.resizable({\n",
       "        start: function(event, ui) {\n",
       "            pass_mouse_events = false;\n",
       "        },\n",
       "        resize: function(event, ui) {\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "        stop: function(event, ui) {\n",
       "            pass_mouse_events = true;\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "    });\n",
       "\n",
       "    function mouse_event_fn(event) {\n",
       "        if (pass_mouse_events)\n",
       "            return fig.mouse_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    rubberband.mousedown('button_press', mouse_event_fn);\n",
       "    rubberband.mouseup('button_release', mouse_event_fn);\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband.mousemove('motion_notify', mouse_event_fn);\n",
       "\n",
       "    rubberband.mouseenter('figure_enter', mouse_event_fn);\n",
       "    rubberband.mouseleave('figure_leave', mouse_event_fn);\n",
       "\n",
       "    canvas_div.on(\"wheel\", function (event) {\n",
       "        event = event.originalEvent;\n",
       "        event['data'] = 'scroll'\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        mouse_event_fn(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.append(canvas);\n",
       "    canvas_div.append(rubberband);\n",
       "\n",
       "    this.rubberband = rubberband;\n",
       "    this.rubberband_canvas = rubberband[0];\n",
       "    this.rubberband_context = rubberband[0].getContext(\"2d\");\n",
       "    this.rubberband_context.strokeStyle = \"#000000\";\n",
       "\n",
       "    this._resize_canvas = function(width, height) {\n",
       "        // Keep the size of the canvas, canvas container, and rubber band\n",
       "        // canvas in synch.\n",
       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width);\n",
       "        canvas.attr('height', height);\n",
       "\n",
       "        rubberband.attr('width', width);\n",
       "        rubberband.attr('height', height);\n",
       "    }\n",
       "\n",
       "    // Set the figure to an initial 600x600px, this will subsequently be updated\n",
       "    // upon first draw.\n",
       "    this._resize_canvas(600, 600);\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    $(this.rubberband_canvas).bind(\"contextmenu\",function(e){\n",
       "        return false;\n",
       "    });\n",
       "\n",
       "    function set_focus () {\n",
       "        canvas.focus();\n",
       "        canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    window.setTimeout(set_focus, 100);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items) {\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) {\n",
       "            // put a spacer in here.\n",
       "            continue;\n",
       "        }\n",
       "        var button = $('<button/>');\n",
       "        button.addClass('ui-button ui-widget ui-state-default ui-corner-all ' +\n",
       "                        'ui-button-icon-only');\n",
       "        button.attr('role', 'button');\n",
       "        button.attr('aria-disabled', 'false');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "\n",
       "        var icon_img = $('<span/>');\n",
       "        icon_img.addClass('ui-button-icon-primary ui-icon');\n",
       "        icon_img.addClass(image);\n",
       "        icon_img.addClass('ui-corner-all');\n",
       "\n",
       "        var tooltip_span = $('<span/>');\n",
       "        tooltip_span.addClass('ui-button-text');\n",
       "        tooltip_span.html(tooltip);\n",
       "\n",
       "        button.append(icon_img);\n",
       "        button.append(tooltip_span);\n",
       "\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    var fmt_picker_span = $('<span/>');\n",
       "\n",
       "    var fmt_picker = $('<select/>');\n",
       "    fmt_picker.addClass('mpl-toolbar-option ui-widget ui-widget-content');\n",
       "    fmt_picker_span.append(fmt_picker);\n",
       "    nav_element.append(fmt_picker_span);\n",
       "    this.format_dropdown = fmt_picker[0];\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = $(\n",
       "            '<option/>', {selected: fmt === mpl.default_extension}).html(fmt);\n",
       "        fmt_picker.append(option)\n",
       "    }\n",
       "\n",
       "    // Add hover states to the ui-buttons\n",
       "    $( \".ui-button\" ).hover(\n",
       "        function() { $(this).addClass(\"ui-state-hover\");},\n",
       "        function() { $(this).removeClass(\"ui-state-hover\");}\n",
       "    );\n",
       "\n",
       "    var status_bar = $('<span class=\"mpl-message\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.request_resize = function(x_pixels, y_pixels) {\n",
       "    // Request matplotlib to resize the figure. Matplotlib will then trigger a resize in the client,\n",
       "    // which will in turn request a refresh of the image.\n",
       "    this.send_message('resize', {'width': x_pixels, 'height': y_pixels});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_message = function(type, properties) {\n",
       "    properties['type'] = type;\n",
       "    properties['figure_id'] = this.id;\n",
       "    this.ws.send(JSON.stringify(properties));\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_draw_message = function() {\n",
       "    if (!this.waiting) {\n",
       "        this.waiting = true;\n",
       "        this.ws.send(JSON.stringify({type: \"draw\", figure_id: this.id}));\n",
       "    }\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    var format_dropdown = fig.format_dropdown;\n",
       "    var format = format_dropdown.options[format_dropdown.selectedIndex].value;\n",
       "    fig.ondownload(fig, format);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_resize = function(fig, msg) {\n",
       "    var size = msg['size'];\n",
       "    if (size[0] != fig.canvas.width || size[1] != fig.canvas.height) {\n",
       "        fig._resize_canvas(size[0], size[1]);\n",
       "        fig.send_message(\"refresh\", {});\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function(fig, msg) {\n",
       "    var x0 = msg['x0'];\n",
       "    var y0 = fig.canvas.height - msg['y0'];\n",
       "    var x1 = msg['x1'];\n",
       "    var y1 = fig.canvas.height - msg['y1'];\n",
       "    x0 = Math.floor(x0) + 0.5;\n",
       "    y0 = Math.floor(y0) + 0.5;\n",
       "    x1 = Math.floor(x1) + 0.5;\n",
       "    y1 = Math.floor(y1) + 0.5;\n",
       "    var min_x = Math.min(x0, x1);\n",
       "    var min_y = Math.min(y0, y1);\n",
       "    var width = Math.abs(x1 - x0);\n",
       "    var height = Math.abs(y1 - y0);\n",
       "\n",
       "    fig.rubberband_context.clearRect(\n",
       "        0, 0, fig.canvas.width, fig.canvas.height);\n",
       "\n",
       "    fig.rubberband_context.strokeRect(min_x, min_y, width, height);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_figure_label = function(fig, msg) {\n",
       "    // Updates the figure title.\n",
       "    fig.header.textContent = msg['label'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_cursor = function(fig, msg) {\n",
       "    var cursor = msg['cursor'];\n",
       "    switch(cursor)\n",
       "    {\n",
       "    case 0:\n",
       "        cursor = 'pointer';\n",
       "        break;\n",
       "    case 1:\n",
       "        cursor = 'default';\n",
       "        break;\n",
       "    case 2:\n",
       "        cursor = 'crosshair';\n",
       "        break;\n",
       "    case 3:\n",
       "        cursor = 'move';\n",
       "        break;\n",
       "    }\n",
       "    fig.rubberband_canvas.style.cursor = cursor;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_message = function(fig, msg) {\n",
       "    fig.message.textContent = msg['message'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_draw = function(fig, msg) {\n",
       "    // Request the server to send over a new figure.\n",
       "    fig.send_draw_message();\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_image_mode = function(fig, msg) {\n",
       "    fig.image_mode = msg['mode'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Called whenever the canvas gets updated.\n",
       "    this.send_message(\"ack\", {});\n",
       "}\n",
       "\n",
       "// A function to construct a web socket function for onmessage handling.\n",
       "// Called in the figure constructor.\n",
       "mpl.figure.prototype._make_on_message_function = function(fig) {\n",
       "    return function socket_on_message(evt) {\n",
       "        if (evt.data instanceof Blob) {\n",
       "            /* FIXME: We get \"Resource interpreted as Image but\n",
       "             * transferred with MIME type text/plain:\" errors on\n",
       "             * Chrome.  But how to set the MIME type?  It doesn't seem\n",
       "             * to be part of the websocket stream */\n",
       "            evt.data.type = \"image/png\";\n",
       "\n",
       "            /* Free the memory for the previous frames */\n",
       "            if (fig.imageObj.src) {\n",
       "                (window.URL || window.webkitURL).revokeObjectURL(\n",
       "                    fig.imageObj.src);\n",
       "            }\n",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                evt.data);\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "        else if (typeof evt.data === 'string' && evt.data.slice(0, 21) == \"data:image/png;base64\") {\n",
       "            fig.imageObj.src = evt.data;\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        var msg = JSON.parse(evt.data);\n",
       "        var msg_type = msg['type'];\n",
       "\n",
       "        // Call the  \"handle_{type}\" callback, which takes\n",
       "        // the figure and JSON message as its only arguments.\n",
       "        try {\n",
       "            var callback = fig[\"handle_\" + msg_type];\n",
       "        } catch (e) {\n",
       "            console.log(\"No handler for the '\" + msg_type + \"' message type: \", msg);\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        if (callback) {\n",
       "            try {\n",
       "                // console.log(\"Handling '\" + msg_type + \"' message: \", msg);\n",
       "                callback(fig, msg);\n",
       "            } catch (e) {\n",
       "                console.log(\"Exception inside the 'handler_\" + msg_type + \"' callback:\", e, e.stack, msg);\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "}\n",
       "\n",
       "// from http://stackoverflow.com/questions/1114465/getting-mouse-location-in-canvas\n",
       "mpl.findpos = function(e) {\n",
       "    //this section is from http://www.quirksmode.org/js/events_properties.html\n",
       "    var targ;\n",
       "    if (!e)\n",
       "        e = window.event;\n",
       "    if (e.target)\n",
       "        targ = e.target;\n",
       "    else if (e.srcElement)\n",
       "        targ = e.srcElement;\n",
       "    if (targ.nodeType == 3) // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "\n",
       "    // jQuery normalizes the pageX and pageY\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    // offset() returns the position of the element relative to the document\n",
       "    var x = e.pageX - $(targ).offset().left;\n",
       "    var y = e.pageY - $(targ).offset().top;\n",
       "\n",
       "    return {\"x\": x, \"y\": y};\n",
       "};\n",
       "\n",
       "/*\n",
       " * return a copy of an object with only non-object keys\n",
       " * we need this to avoid circular references\n",
       " * http://stackoverflow.com/a/24161582/3208463\n",
       " */\n",
       "function simpleKeys (original) {\n",
       "  return Object.keys(original).reduce(function (obj, key) {\n",
       "    if (typeof original[key] !== 'object')\n",
       "        obj[key] = original[key]\n",
       "    return obj;\n",
       "  }, {});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.mouse_event = function(event, name) {\n",
       "    var canvas_pos = mpl.findpos(event)\n",
       "\n",
       "    if (name === 'button_press')\n",
       "    {\n",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x;\n",
       "    var y = canvas_pos.y;\n",
       "\n",
       "    this.send_message(name, {x: x, y: y, button: event.button,\n",
       "                             step: event.step,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "\n",
       "    /* This prevents the web browser from automatically changing to\n",
       "     * the text insertion cursor when the button is pressed.  We want\n",
       "     * to control all of the cursor setting manually through the\n",
       "     * 'cursor' event from matplotlib */\n",
       "    event.preventDefault();\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    // Handle any extra behaviour associated with a key event\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.key_event = function(event, name) {\n",
       "\n",
       "    // Prevent repeat events\n",
       "    if (name == 'key_press')\n",
       "    {\n",
       "        if (event.which === this._key)\n",
       "            return;\n",
       "        else\n",
       "            this._key = event.which;\n",
       "    }\n",
       "    if (name == 'key_release')\n",
       "        this._key = null;\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.which != 17)\n",
       "        value += \"ctrl+\";\n",
       "    if (event.altKey && event.which != 18)\n",
       "        value += \"alt+\";\n",
       "    if (event.shiftKey && event.which != 16)\n",
       "        value += \"shift+\";\n",
       "\n",
       "    value += 'k';\n",
       "    value += event.which.toString();\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, {key: value,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onclick = function(name) {\n",
       "    if (name == 'download') {\n",
       "        this.handle_save(this, null);\n",
       "    } else {\n",
       "        this.send_message(\"toolbar_button\", {name: name});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onmouseover = function(tooltip) {\n",
       "    this.message.textContent = tooltip;\n",
       "};\n",
       "mpl.toolbar_items = [[\"Home\", \"Reset original view\", \"fa fa-home icon-home\", \"home\"], [\"Back\", \"Back to  previous view\", \"fa fa-arrow-left icon-arrow-left\", \"back\"], [\"Forward\", \"Forward to next view\", \"fa fa-arrow-right icon-arrow-right\", \"forward\"], [\"\", \"\", \"\", \"\"], [\"Pan\", \"Pan axes with left mouse, zoom with right\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the overriden (by mpl) onmessage function.\n",
       "        ws.onmessage(msg['content']['data'])\n",
       "    });\n",
       "    return ws;\n",
       "}\n",
       "\n",
       "mpl.mpl_figure_comm = function(comm, msg) {\n",
       "    // This is the function which gets called when the mpl process\n",
       "    // starts-up an IPython Comm through the \"matplotlib\" channel.\n",
       "\n",
       "    var id = msg.content.data.id;\n",
       "    // Get hold of the div created by the display call when the Comm\n",
       "    // socket was opened in Python.\n",
       "    var element = $(\"#\" + id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm)\n",
       "\n",
       "    function ondownload(figure, format) {\n",
       "        window.open(figure.imageObj.src);\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy,\n",
       "                           ondownload,\n",
       "                           element.get(0));\n",
       "\n",
       "    // Call onopen now - mpl needs it, as it is assuming we've passed it a real\n",
       "    // web socket which is closed, not our websocket->open comm proxy.\n",
       "    ws_proxy.onopen();\n",
       "\n",
       "    fig.parent_element = element.get(0);\n",
       "    fig.cell_info = mpl.find_output_cell(\"<div id='\" + id + \"'></div>\");\n",
       "    if (!fig.cell_info) {\n",
       "        console.error(\"Failed to find cell for figure\", id, fig);\n",
       "        return;\n",
       "    }\n",
       "\n",
       "    var output_index = fig.cell_info[2]\n",
       "    var cell = fig.cell_info[0];\n",
       "\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function(fig, msg) {\n",
       "    fig.root.unbind('remove')\n",
       "\n",
       "    // Update the output cell to use the data from the current canvas.\n",
       "    fig.push_to_output();\n",
       "    var dataURL = fig.canvas.toDataURL();\n",
       "    // Re-enable the keyboard manager in IPython - without this line, in FF,\n",
       "    // the notebook keyboard shortcuts fail.\n",
       "    IPython.keyboard_manager.enable()\n",
       "    $(fig.parent_element).html('<img src=\"' + dataURL + '\">');\n",
       "    fig.close_ws(fig, msg);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.close_ws = function(fig, msg){\n",
       "    fig.send_message('closing', msg);\n",
       "    // fig.ws.close()\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.push_to_output = function(remove_interactive) {\n",
       "    // Turn the data on the canvas into data in the output cell.\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\">';\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Tell IPython that the notebook contents must change.\n",
       "    IPython.notebook.set_dirty(true);\n",
       "    this.send_message(\"ack\", {});\n",
       "    var fig = this;\n",
       "    // Wait a second, then push the new image to the DOM so\n",
       "    // that it is saved nicely (might be nice to debounce this).\n",
       "    setTimeout(function () { fig.push_to_output() }, 1000);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items){\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) { continue; };\n",
       "\n",
       "        var button = $('<button class=\"btn btn-default\" href=\"#\" title=\"' + name + '\"><i class=\"fa ' + image + ' fa-lg\"></i></button>');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = $('<span class=\"mpl-message\" style=\"text-align:right; float: right;\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = $('<div class=\"btn-group inline pull-right\"></div>');\n",
       "    var button = $('<button class=\"btn btn-mini btn-primary\" href=\"#\" title=\"Stop Interaction\"><i class=\"fa fa-power-off icon-remove icon-large\"></i></button>');\n",
       "    button.click(function (evt) { fig.handle_close(fig, {}); } );\n",
       "    button.mouseover('Stop Interaction', toolbar_mouse_event);\n",
       "    buttongrp.append(button);\n",
       "    var titlebar = this.root.find($('.ui-dialog-titlebar'));\n",
       "    titlebar.prepend(buttongrp);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(el){\n",
       "    var fig = this\n",
       "    el.on(\"remove\", function(){\n",
       "\tfig.close_ws(fig, {});\n",
       "    });\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(el){\n",
       "    // this is important to make the div 'focusable\n",
       "    el.attr('tabindex', 0)\n",
       "    // reach out to IPython and tell the keyboard manager to turn it's self\n",
       "    // off when our div gets focus\n",
       "\n",
       "    // location in version 3\n",
       "    if (IPython.notebook.keyboard_manager) {\n",
       "        IPython.notebook.keyboard_manager.register_events(el);\n",
       "    }\n",
       "    else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    var manager = IPython.notebook.keyboard_manager;\n",
       "    if (!manager)\n",
       "        manager = IPython.keyboard_manager;\n",
       "\n",
       "    // Check for shift+enter\n",
       "    if (event.shiftKey && event.which == 13) {\n",
       "        this.canvas_div.blur();\n",
       "        // select the cell after this one\n",
       "        var index = IPython.notebook.find_cell_index(this.cell_info[0]);\n",
       "        IPython.notebook.select(index + 1);\n",
       "    }\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    fig.ondownload(fig, null);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.find_output_cell = function(html_output) {\n",
       "    // Return the cell and output element which can be found *uniquely* in the notebook.\n",
       "    // Note - this is a bit hacky, but it is done because the \"notebook_saving.Notebook\"\n",
       "    // IPython event is triggered only after the cells have been serialised, which for\n",
       "    // our purposes (turning an active figure into a static one), is too late.\n",
       "    var cells = IPython.notebook.get_cells();\n",
       "    var ncells = cells.length;\n",
       "    for (var i=0; i<ncells; i++) {\n",
       "        var cell = cells[i];\n",
       "        if (cell.cell_type === 'code'){\n",
       "            for (var j=0; j<cell.output_area.outputs.length; j++) {\n",
       "                var data = cell.output_area.outputs[j];\n",
       "                if (data.data) {\n",
       "                    // IPython >= 3 moved mimebundle to data attribute of output\n",
       "                    data = data.data;\n",
       "                }\n",
       "                if (data['text/html'] == html_output) {\n",
       "                    return [cell, data, j];\n",
       "                }\n",
       "            }\n",
       "        }\n",
       "    }\n",
       "}\n",
       "\n",
       "// Register the function which deals with the matplotlib target/channel.\n",
       "// The kernel may be null if the page has been refreshed.\n",
       "if (IPython.notebook.kernel != null) {\n",
       "    IPython.notebook.kernel.comm_manager.register_target('matplotlib', mpl.mpl_figure_comm);\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
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\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "weights_init_range = 0.5\n",
    "biases_init_range = 0.1\n",
    "\n",
    "# Randomly initialise weights matrix\n",
    "weights = rng.uniform(\n",
    "    low=-weights_init_range, \n",
    "    high=weights_init_range, \n",
    "    size=(output_dim, input_dim)\n",
    ")\n",
    "\n",
    "#  Randomly initialise biases vector\n",
    "biases = rng.uniform(\n",
    "    low=-biases_init_range, \n",
    "    high=biases_init_range, \n",
    "    size=output_dim\n",
    ")\n",
    "# Calculate predicted model outputs\n",
    "outputs = fprop(inputs, weights, biases)\n",
    "\n",
    "# Plot target and predicted outputs against inputs on same axis\n",
    "fig = plt.figure(figsize=(8, 8))\n",
    "ax = fig.add_subplot(111, projection='3d')\n",
    "ax.plot(inputs[:, 0], inputs[:, 1], targets[:, 0], 'r.', ms=2)\n",
    "ax.plot(inputs[:, 0], inputs[:, 1], outputs[:, 0], 'b.', ms=2)\n",
    "ax.set_xlabel('Input dim 1')\n",
    "ax.set_ylabel('Input dim 2')\n",
    "ax.set_zlabel('Output')\n",
    "ax.legend(['Targets', 'Predictions'], frameon=False)\n",
    "fig.tight_layout()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Exercise 3: computing the error function and its gradient\n",
    "\n",
    "Here we will consider the task of regression as covered in the first lecture slides. The aim in a regression problem is given inputs $\\fset{\\vct{x}^{(n)}}_{n=1}^N$ to produce outputs $\\fset{\\vct{y}^{(n)}}_{n=1}^N$ that are as 'close' as possible to a set of target outputs $\\fset{\\vct{t}^{(n)}}_{n=1}^N$. The measure of 'closeness' or distance between target and predicted outputs is a design choice. \n",
    "\n",
    "A very common choice is the squared Euclidean distance between the predicted and target outputs. This can be computed as the sum of the squared differences between each element in the target and predicted outputs. A common convention is to multiply this value by $\\frac{1}{2}$ as this gives a slightly nicer expression for the error gradient. The error for the $n^{\\textrm{th}}$ training example is then\n",
    "\n",
    "\\begin{equation}\n",
    "    E^{(n)} = \\frac{1}{2} \\sum_{k=1}^K \\lbr \\lpa y^{(n)}_k - t^{(n)}_k \\rpa^2 \\rbr.\n",
    "\\end{equation}\n",
    "\n",
    "The overall error is then the *average* of this value across all training examples\n",
    "\n",
    "\\begin{equation}\n",
    "    \\bar{E} = \\frac{1}{N} \\sum_{n=1}^N \\lbr E^{(n)} \\rbr. \n",
    "\\end{equation}\n",
    "\n",
    "*Note here we are using a slightly different convention from the lectures. There the overall error was considered to be the sum of the individual error terms rather than the mean. To differentiate between the two we will use $\\bar{E}$ to represent the average error here as opposed to sum of errors $E$ as used in the slides with $\\bar{E} = \\frac{E}{N}$. Normalising by the number of training examples is helpful to do in practice as this means we can more easily compare errors across data sets / batches of different sizes, and more importantly it means the size of our gradient updates will be independent of the number of training examples summed over.*\n",
    "\n",
    "The regression problem is then to find parameters of the model which minimise $\\bar{E}$. For our simple single-layer affine model here that corresponds to finding weights $\\mtx{W}$ and biases $\\vct{b}$ which minimise $\\bar{E}$. \n",
    "\n",
    "As mentioned in the lecture, for this simple case there is actually a closed form solution for the optimal weights and bias parameters. This is the linear least-squares solution those doing MLPR will have come across.\n",
    "\n",
    "However in general we will be interested in models where closed form solutions do not exist. We will therefore generally use iterative, gradient descent based training methods to find parameters which (locally) minimise the error function. A basic requirement of being able to do gradient-descent based training is (unsuprisingly) the ability to evaluate gradients of the error function.\n",
    "\n",
    "In the next exercise we will consider how to calculate gradients of the error function with respect to the model parameters $\\mtx{W}$ and $\\vct{b}$, but as a first step here we will consider the gradient of the error function with respect to the model outputs $\\fset{\\vct{y}^{(n)}}_{n=1}^N$. This can be written\n",
    "\n",
    "\\begin{equation}\n",
    "    \\pd{\\bar{E}}{\\vct{y}^{(n)}} = \\frac{1}{N} \\lpa \\vct{y}^{(n)} - \\vct{t}^{(n)} \\rpa\n",
    "    \\qquad \\Leftrightarrow \\qquad\n",
    "    \\pd{\\bar{E}}{y^{(n)}_k} = \\frac{1}{N} \\lpa y^{(n)}_k - t^{(n)}_k \\rpa \\quad \\forall k \\in \\fset{1 \\dots K}\n",
    "\\end{equation}\n",
    "\n",
    "i.e. the gradient of the error function with respect to the $n^{\\textrm{th}}$ model output is just the difference between the $n^{\\textrm{th}}$ model and target outputs, corresponding to the $\\vct{\\delta}^{(n)}$ terms mentioned in the lecture slides.\n",
    "\n",
    "The third exercise is, using the equations given above, to implement functions computing the mean sum of squared differences error and its gradient with respect to the model outputs. You should implement the functions using the provided skeleton definitions in the cell below."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 11,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "def error(outputs, targets):\n",
    "    \"\"\"Calculates error function given a batch of outputs and targets.\n",
    "\n",
    "    Args:\n",
    "        outputs: Array of model outputs of shape (batch_size, output_dim).\n",
    "        targets: Array of target outputs of shape (batch_size, output_dim).\n",
    "\n",
    "    Returns:\n",
    "        Scalar error function value.\n",
    "    \"\"\"\n",
    "    return 0.5 * ((outputs - targets)**2).sum() / outputs.shape[0]\n",
    "    \n",
    "def error_grad(outputs, targets):\n",
    "    \"\"\"Calculates gradient of error function with respect to model outputs.\n",
    "\n",
    "    Args:\n",
    "        outputs: Array of model outputs of shape (batch_size, output_dim).\n",
    "        targets: Array of target outputs of shape (batch_size, output_dim).\n",
    "\n",
    "    Returns:\n",
    "        Gradient of error function with respect to outputs.\n",
    "        This will be an array of shape (batch_size, output_dim).\n",
    "    \"\"\"\n",
    "    return (outputs - targets) / outputs.shape[0]"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Check your implementation by running the test cell below."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 12,
   "metadata": {
    "collapsed": false
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Error function and gradient computed correctly!\n"
     ]
    }
   ],
   "source": [
    "outputs = np.array([[1., 2.], [-1., 0.], [6., -5.], [-1., 1.]])\n",
    "targets = np.array([[0., 1.], [3., -2.], [7., -3.], [1., -2.]])\n",
    "true_error = 5.\n",
    "true_error_grad = np.array([[0.25, 0.25], [-1., 0.5], [-0.25, -0.5], [-0.5, 0.75]])\n",
    "\n",
    "if not error(outputs, targets) == true_error:\n",
    "    print('Error calculated incorrectly.')\n",
    "elif not np.allclose(error_grad(outputs, targets), true_error_grad):\n",
    "    print('Error gradient calculated incorrectly.')\n",
    "else:\n",
    "    print('Error function and gradient computed correctly!')"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Exercise 4: computing gradients with respect to the parameters\n",
    "\n",
    "In the previous exercise you implemented a function computing the gradient of the error function with respect to the model outputs. For gradient-descent based training, we need to be able to evaluate the gradient of the error function with respect to the model parameters.\n",
    "\n",
    "Using the [chain rule for derivatives](https://en.wikipedia.org/wiki/Chain_rule#Higher_dimensions) we can write the partial deriviative of the error function with respect to single elements of the weight matrix and bias vector as\n",
    "\n",
    "\\begin{equation}\n",
    "    \\pd{\\bar{E}}{W_{kj}} = \\sum_{n=1}^N \\lbr \\pd{\\bar{E}}{y^{(n)}_k} \\pd{y^{(n)}_k}{W_{kj}} \\rbr\n",
    "    \\quad \\textrm{and} \\quad\n",
    "    \\pd{\\bar{E}}{b_k} = \\sum_{n=1}^N \\lbr \\pd{\\bar{E}}{y^{(n)}_k} \\pd{y^{(n)}_k}{b_k} \\rbr.\n",
    "\\end{equation}\n",
    "\n",
    "From the definition of our model at the beginning we have \n",
    "\n",
    "\\begin{equation}\n",
    "    y^{(n)}_k = \\sum_{d=1}^D \\lbr W_{kd} x^{(n)}_d \\rbr + b_k\n",
    "    \\quad \\Rightarrow \\quad\n",
    "    \\pd{y^{(n)}_k}{W_{kj}} = x^{(n)}_j\n",
    "    \\quad \\textrm{and} \\quad\n",
    "    \\pd{y^{(n)}_k}{b_k} = 1.\n",
    "\\end{equation}\n",
    "\n",
    "Putting this together we get that\n",
    "\n",
    "\\begin{equation}\n",
    "    \\pd{\\bar{E}}{W_{kj}} = \n",
    "    \\sum_{n=1}^N \\lbr \\pd{\\bar{E}}{y^{(n)}_k} x^{(n)}_j \\rbr\n",
    "    \\quad \\textrm{and} \\quad\n",
    "    \\pd{\\bar{E}}{b_{k}} = \n",
    "    \\sum_{n=1}^N \\lbr \\pd{\\bar{E}}{y^{(n)}_k} \\rbr.\n",
    "\\end{equation}\n",
    "\n",
    "Although this may seem a bit of a roundabout way to get to these results, this method of decomposing the error gradient with respect to the parameters in terms of the gradient of the error function with respect to the model outputs and the derivatives of the model outputs with respect to the model parameters, will be key when calculating the parameter gradients of more complex models later in the course.\n",
    "\n",
    "Your task in this exercise is to implement a function calculating the gradient of the error function with respect to the weight and bias parameters of the model given the already computed gradient of the error function with respect to the model outputs. You should implement this in the `grads_wrt_params` function in the cell below."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 13,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "def grads_wrt_params(inputs, grads_wrt_outputs):\n",
    "    \"\"\"Calculates gradients with respect to model parameters.\n",
    "\n",
    "    Args:\n",
    "        inputs: array of inputs to model of shape (batch_size, input_dim)\n",
    "        grads_wrt_to_outputs: array of gradients of with respect to the model\n",
    "            outputs of shape (batch_size, output_dim).\n",
    "\n",
    "    Returns:\n",
    "        list of arrays of gradients with respect to the model parameters\n",
    "        `[grads_wrt_weights, grads_wrt_biases]`.\n",
    "    \"\"\"\n",
    "    grads_wrt_weights = grads_wrt_outputs.T.dot(inputs)\n",
    "    grads_wrt_biases = grads_wrt_outputs.sum(0)\n",
    "    return [grads_wrt_weights, grads_wrt_biases]"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Check your implementation by running the test cell below."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 14,
   "metadata": {
    "collapsed": false
   },
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "All parameter gradients calculated correctly!\n"
     ]
    }
   ],
   "source": [
    "inputs = np.array([[1., 2., 3.], [-1., 4., -9.]])\n",
    "grads_wrt_outputs = np.array([[-1., 1.], [2., -3.]])\n",
    "true_grads_wrt_weights = np.array([[-3., 6., -21.], [4., -10., 30.]])\n",
    "true_grads_wrt_biases = np.array([1., -2.])\n",
    "\n",
    "grads_wrt_weights, grads_wrt_biases = grads_wrt_params(\n",
    "    inputs, grads_wrt_outputs)\n",
    "\n",
    "if not np.allclose(true_grads_wrt_weights, grads_wrt_weights):\n",
    "    print('Gradients with respect to weights incorrect.')\n",
    "elif not np.allclose(true_grads_wrt_biases, grads_wrt_biases):\n",
    "    print('Gradients with respect to biases incorrect.')\n",
    "else:\n",
    "    print('All parameter gradients calculated correctly!')"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Exercise 5: wrapping the functions into reusable components\n",
    "\n",
    "In exercises 1, 3 and 4 you implemented methods to compute the predicted outputs of our model, evaluate the error function and its gradient on the outputs and finally to calculate the gradients of the error with respect to the model parameters. Together they constitute all the basic ingredients we need to implement a gradient-descent based iterative learning procedure for the model.\n",
    "\n",
    "Although you could implement training code which directly uses the functions you defined, this would only be usable for this particular model architecture. In subsequent labs we will want to use the affine transform functions as the basis for more interesting multi-layer models. We will therefore wrap the implementations you just wrote in to reusable components that we can build more complex models with later in the course.\n",
    "\n",
    "  * In the [`mlp.layers`](/edit/mlp/layers.py) module, use your implementations of `fprop` and `grad_wrt_params` above to implement the corresponding methods in the skeleton `AffineLayer` class provided.\n",
    "  * In the [`mlp.errors`](/edit/mlp/errors.py) module use your implementation of `error` and `error_grad` to implement the `__call__` and `grad` methods respectively of the skeleton `SumOfSquaredDiffsError` class provided. Note `__call__` is a special Python method that allows an object to be used with a function call syntax.\n",
    "\n",
    "Run the cell below to use your completed `AffineLayer` and `SumOfSquaredDiffsError` implementations to train a single-layer model using batch gradient descent on the CCCP dataset."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 15,
   "metadata": {
    "collapsed": false
   },
   "outputs": [
    {
     "name": "stderr",
     "output_type": "stream",
     "text": [
      "Epoch 1: 0.00s to complete\n",
      "    error(train)=1.67e-01, cost(param)=0.00e+00\n",
      "Epoch 2: 0.00s to complete\n",
      "    error(train)=9.30e-02, cost(param)=0.00e+00\n",
      "Epoch 3: 0.00s to complete\n",
      "    error(train)=7.95e-02, cost(param)=0.00e+00\n",
      "Epoch 4: 0.00s to complete\n",
      "    error(train)=7.71e-02, cost(param)=0.00e+00\n",
      "Epoch 5: 0.00s to complete\n",
      "    error(train)=7.66e-02, cost(param)=0.00e+00\n",
      "Epoch 6: 0.00s to complete\n",
      "    error(train)=7.65e-02, cost(param)=0.00e+00\n",
      "Epoch 7: 0.00s to complete\n",
      "    error(train)=7.65e-02, cost(param)=0.00e+00\n",
      "Epoch 8: 0.00s to complete\n",
      "    error(train)=7.65e-02, cost(param)=0.00e+00\n",
      "Epoch 9: 0.00s to complete\n",
      "    error(train)=7.63e-02, cost(param)=0.00e+00\n",
      "Epoch 10: 0.00s to complete\n",
      "    error(train)=7.64e-02, cost(param)=0.00e+00\n"
     ]
    },
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\n",
       "mpl.get_websocket_type = function() {\n",
       "    if (typeof(WebSocket) !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof(MozWebSocket) !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert('Your browser does not have WebSocket support.' +\n",
       "              'Please try Chrome, Safari or Firefox ≥ 6. ' +\n",
       "              'Firefox 4 and 5 are also supported but you ' +\n",
       "              'have to enable WebSockets in about:config.');\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure = function(figure_id, websocket, ondownload, parent_element) {\n",
       "    this.id = figure_id;\n",
       "\n",
       "    this.ws = websocket;\n",
       "\n",
       "    this.supports_binary = (this.ws.binaryType != undefined);\n",
       "\n",
       "    if (!this.supports_binary) {\n",
       "        var warnings = document.getElementById(\"mpl-warnings\");\n",
       "        if (warnings) {\n",
       "            warnings.style.display = 'block';\n",
       "            warnings.textContent = (\n",
       "                \"This browser does not support binary websocket messages. \" +\n",
       "                    \"Performance may be slow.\");\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.imageObj = new Image();\n",
       "\n",
       "    this.context = undefined;\n",
       "    this.message = undefined;\n",
       "    this.canvas = undefined;\n",
       "    this.rubberband_canvas = undefined;\n",
       "    this.rubberband_context = undefined;\n",
       "    this.format_dropdown = undefined;\n",
       "\n",
       "    this.image_mode = 'full';\n",
       "\n",
       "    this.root = $('<div/>');\n",
       "    this._root_extra_style(this.root)\n",
       "    this.root.attr('style', 'display: inline-block');\n",
       "\n",
       "    $(parent_element).append(this.root);\n",
       "\n",
       "    this._init_header(this);\n",
       "    this._init_canvas(this);\n",
       "    this._init_toolbar(this);\n",
       "\n",
       "    var fig = this;\n",
       "\n",
       "    this.waiting = false;\n",
       "\n",
       "    this.ws.onopen =  function () {\n",
       "            fig.send_message(\"supports_binary\", {value: fig.supports_binary});\n",
       "            fig.send_message(\"send_image_mode\", {});\n",
       "            fig.send_message(\"refresh\", {});\n",
       "        }\n",
       "\n",
       "    this.imageObj.onload = function() {\n",
       "            if (fig.image_mode == 'full') {\n",
       "                // Full images could contain transparency (where diff images\n",
       "                // almost always do), so we need to clear the canvas so that\n",
       "                // there is no ghosting.\n",
       "                fig.context.clearRect(0, 0, fig.canvas.width, fig.canvas.height);\n",
       "            }\n",
       "            fig.context.drawImage(fig.imageObj, 0, 0);\n",
       "        };\n",
       "\n",
       "    this.imageObj.onunload = function() {\n",
       "        this.ws.close();\n",
       "    }\n",
       "\n",
       "    this.ws.onmessage = this._make_on_message_function(this);\n",
       "\n",
       "    this.ondownload = ondownload;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_header = function() {\n",
       "    var titlebar = $(\n",
       "        '<div class=\"ui-dialog-titlebar ui-widget-header ui-corner-all ' +\n",
       "        'ui-helper-clearfix\"/>');\n",
       "    var titletext = $(\n",
       "        '<div class=\"ui-dialog-title\" style=\"width: 100%; ' +\n",
       "        'text-align: center; padding: 3px;\"/>');\n",
       "    titlebar.append(titletext)\n",
       "    this.root.append(titlebar);\n",
       "    this.header = titletext[0];\n",
       "}\n",
       "\n",
       "\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = $('<div/>');\n",
       "\n",
       "    canvas_div.attr('style', 'position: relative; clear: both; outline: 0');\n",
       "\n",
       "    function canvas_keyboard_event(event) {\n",
       "        return fig.key_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    canvas_div.keydown('key_press', canvas_keyboard_event);\n",
       "    canvas_div.keyup('key_release', canvas_keyboard_event);\n",
       "    this.canvas_div = canvas_div\n",
       "    this._canvas_extra_style(canvas_div)\n",
       "    this.root.append(canvas_div);\n",
       "\n",
       "    var canvas = $('<canvas/>');\n",
       "    canvas.addClass('mpl-canvas');\n",
       "    canvas.attr('style', \"left: 0; top: 0; z-index: 0; outline: 0\")\n",
       "\n",
       "    this.canvas = canvas[0];\n",
       "    this.context = canvas[0].getContext(\"2d\");\n",
       "\n",
       "    var rubberband = $('<canvas/>');\n",
       "    rubberband.attr('style', \"position: absolute; left: 0; top: 0; z-index: 1;\")\n",
       "\n",
       "    var pass_mouse_events = true;\n",
       "\n",
       "    canvas_div.resizable({\n",
       "        start: function(event, ui) {\n",
       "            pass_mouse_events = false;\n",
       "        },\n",
       "        resize: function(event, ui) {\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "        stop: function(event, ui) {\n",
       "            pass_mouse_events = true;\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "    });\n",
       "\n",
       "    function mouse_event_fn(event) {\n",
       "        if (pass_mouse_events)\n",
       "            return fig.mouse_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    rubberband.mousedown('button_press', mouse_event_fn);\n",
       "    rubberband.mouseup('button_release', mouse_event_fn);\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband.mousemove('motion_notify', mouse_event_fn);\n",
       "\n",
       "    rubberband.mouseenter('figure_enter', mouse_event_fn);\n",
       "    rubberband.mouseleave('figure_leave', mouse_event_fn);\n",
       "\n",
       "    canvas_div.on(\"wheel\", function (event) {\n",
       "        event = event.originalEvent;\n",
       "        event['data'] = 'scroll'\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        mouse_event_fn(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.append(canvas);\n",
       "    canvas_div.append(rubberband);\n",
       "\n",
       "    this.rubberband = rubberband;\n",
       "    this.rubberband_canvas = rubberband[0];\n",
       "    this.rubberband_context = rubberband[0].getContext(\"2d\");\n",
       "    this.rubberband_context.strokeStyle = \"#000000\";\n",
       "\n",
       "    this._resize_canvas = function(width, height) {\n",
       "        // Keep the size of the canvas, canvas container, and rubber band\n",
       "        // canvas in synch.\n",
       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width);\n",
       "        canvas.attr('height', height);\n",
       "\n",
       "        rubberband.attr('width', width);\n",
       "        rubberband.attr('height', height);\n",
       "    }\n",
       "\n",
       "    // Set the figure to an initial 600x600px, this will subsequently be updated\n",
       "    // upon first draw.\n",
       "    this._resize_canvas(600, 600);\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    $(this.rubberband_canvas).bind(\"contextmenu\",function(e){\n",
       "        return false;\n",
       "    });\n",
       "\n",
       "    function set_focus () {\n",
       "        canvas.focus();\n",
       "        canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    window.setTimeout(set_focus, 100);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items) {\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) {\n",
       "            // put a spacer in here.\n",
       "            continue;\n",
       "        }\n",
       "        var button = $('<button/>');\n",
       "        button.addClass('ui-button ui-widget ui-state-default ui-corner-all ' +\n",
       "                        'ui-button-icon-only');\n",
       "        button.attr('role', 'button');\n",
       "        button.attr('aria-disabled', 'false');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "\n",
       "        var icon_img = $('<span/>');\n",
       "        icon_img.addClass('ui-button-icon-primary ui-icon');\n",
       "        icon_img.addClass(image);\n",
       "        icon_img.addClass('ui-corner-all');\n",
       "\n",
       "        var tooltip_span = $('<span/>');\n",
       "        tooltip_span.addClass('ui-button-text');\n",
       "        tooltip_span.html(tooltip);\n",
       "\n",
       "        button.append(icon_img);\n",
       "        button.append(tooltip_span);\n",
       "\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    var fmt_picker_span = $('<span/>');\n",
       "\n",
       "    var fmt_picker = $('<select/>');\n",
       "    fmt_picker.addClass('mpl-toolbar-option ui-widget ui-widget-content');\n",
       "    fmt_picker_span.append(fmt_picker);\n",
       "    nav_element.append(fmt_picker_span);\n",
       "    this.format_dropdown = fmt_picker[0];\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = $(\n",
       "            '<option/>', {selected: fmt === mpl.default_extension}).html(fmt);\n",
       "        fmt_picker.append(option)\n",
       "    }\n",
       "\n",
       "    // Add hover states to the ui-buttons\n",
       "    $( \".ui-button\" ).hover(\n",
       "        function() { $(this).addClass(\"ui-state-hover\");},\n",
       "        function() { $(this).removeClass(\"ui-state-hover\");}\n",
       "    );\n",
       "\n",
       "    var status_bar = $('<span class=\"mpl-message\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.request_resize = function(x_pixels, y_pixels) {\n",
       "    // Request matplotlib to resize the figure. Matplotlib will then trigger a resize in the client,\n",
       "    // which will in turn request a refresh of the image.\n",
       "    this.send_message('resize', {'width': x_pixels, 'height': y_pixels});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_message = function(type, properties) {\n",
       "    properties['type'] = type;\n",
       "    properties['figure_id'] = this.id;\n",
       "    this.ws.send(JSON.stringify(properties));\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_draw_message = function() {\n",
       "    if (!this.waiting) {\n",
       "        this.waiting = true;\n",
       "        this.ws.send(JSON.stringify({type: \"draw\", figure_id: this.id}));\n",
       "    }\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    var format_dropdown = fig.format_dropdown;\n",
       "    var format = format_dropdown.options[format_dropdown.selectedIndex].value;\n",
       "    fig.ondownload(fig, format);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_resize = function(fig, msg) {\n",
       "    var size = msg['size'];\n",
       "    if (size[0] != fig.canvas.width || size[1] != fig.canvas.height) {\n",
       "        fig._resize_canvas(size[0], size[1]);\n",
       "        fig.send_message(\"refresh\", {});\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function(fig, msg) {\n",
       "    var x0 = msg['x0'];\n",
       "    var y0 = fig.canvas.height - msg['y0'];\n",
       "    var x1 = msg['x1'];\n",
       "    var y1 = fig.canvas.height - msg['y1'];\n",
       "    x0 = Math.floor(x0) + 0.5;\n",
       "    y0 = Math.floor(y0) + 0.5;\n",
       "    x1 = Math.floor(x1) + 0.5;\n",
       "    y1 = Math.floor(y1) + 0.5;\n",
       "    var min_x = Math.min(x0, x1);\n",
       "    var min_y = Math.min(y0, y1);\n",
       "    var width = Math.abs(x1 - x0);\n",
       "    var height = Math.abs(y1 - y0);\n",
       "\n",
       "    fig.rubberband_context.clearRect(\n",
       "        0, 0, fig.canvas.width, fig.canvas.height);\n",
       "\n",
       "    fig.rubberband_context.strokeRect(min_x, min_y, width, height);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_figure_label = function(fig, msg) {\n",
       "    // Updates the figure title.\n",
       "    fig.header.textContent = msg['label'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_cursor = function(fig, msg) {\n",
       "    var cursor = msg['cursor'];\n",
       "    switch(cursor)\n",
       "    {\n",
       "    case 0:\n",
       "        cursor = 'pointer';\n",
       "        break;\n",
       "    case 1:\n",
       "        cursor = 'default';\n",
       "        break;\n",
       "    case 2:\n",
       "        cursor = 'crosshair';\n",
       "        break;\n",
       "    case 3:\n",
       "        cursor = 'move';\n",
       "        break;\n",
       "    }\n",
       "    fig.rubberband_canvas.style.cursor = cursor;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_message = function(fig, msg) {\n",
       "    fig.message.textContent = msg['message'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_draw = function(fig, msg) {\n",
       "    // Request the server to send over a new figure.\n",
       "    fig.send_draw_message();\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_image_mode = function(fig, msg) {\n",
       "    fig.image_mode = msg['mode'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Called whenever the canvas gets updated.\n",
       "    this.send_message(\"ack\", {});\n",
       "}\n",
       "\n",
       "// A function to construct a web socket function for onmessage handling.\n",
       "// Called in the figure constructor.\n",
       "mpl.figure.prototype._make_on_message_function = function(fig) {\n",
       "    return function socket_on_message(evt) {\n",
       "        if (evt.data instanceof Blob) {\n",
       "            /* FIXME: We get \"Resource interpreted as Image but\n",
       "             * transferred with MIME type text/plain:\" errors on\n",
       "             * Chrome.  But how to set the MIME type?  It doesn't seem\n",
       "             * to be part of the websocket stream */\n",
       "            evt.data.type = \"image/png\";\n",
       "\n",
       "            /* Free the memory for the previous frames */\n",
       "            if (fig.imageObj.src) {\n",
       "                (window.URL || window.webkitURL).revokeObjectURL(\n",
       "                    fig.imageObj.src);\n",
       "            }\n",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                evt.data);\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "        else if (typeof evt.data === 'string' && evt.data.slice(0, 21) == \"data:image/png;base64\") {\n",
       "            fig.imageObj.src = evt.data;\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        var msg = JSON.parse(evt.data);\n",
       "        var msg_type = msg['type'];\n",
       "\n",
       "        // Call the  \"handle_{type}\" callback, which takes\n",
       "        // the figure and JSON message as its only arguments.\n",
       "        try {\n",
       "            var callback = fig[\"handle_\" + msg_type];\n",
       "        } catch (e) {\n",
       "            console.log(\"No handler for the '\" + msg_type + \"' message type: \", msg);\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        if (callback) {\n",
       "            try {\n",
       "                // console.log(\"Handling '\" + msg_type + \"' message: \", msg);\n",
       "                callback(fig, msg);\n",
       "            } catch (e) {\n",
       "                console.log(\"Exception inside the 'handler_\" + msg_type + \"' callback:\", e, e.stack, msg);\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "}\n",
       "\n",
       "// from http://stackoverflow.com/questions/1114465/getting-mouse-location-in-canvas\n",
       "mpl.findpos = function(e) {\n",
       "    //this section is from http://www.quirksmode.org/js/events_properties.html\n",
       "    var targ;\n",
       "    if (!e)\n",
       "        e = window.event;\n",
       "    if (e.target)\n",
       "        targ = e.target;\n",
       "    else if (e.srcElement)\n",
       "        targ = e.srcElement;\n",
       "    if (targ.nodeType == 3) // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "\n",
       "    // jQuery normalizes the pageX and pageY\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    // offset() returns the position of the element relative to the document\n",
       "    var x = e.pageX - $(targ).offset().left;\n",
       "    var y = e.pageY - $(targ).offset().top;\n",
       "\n",
       "    return {\"x\": x, \"y\": y};\n",
       "};\n",
       "\n",
       "/*\n",
       " * return a copy of an object with only non-object keys\n",
       " * we need this to avoid circular references\n",
       " * http://stackoverflow.com/a/24161582/3208463\n",
       " */\n",
       "function simpleKeys (original) {\n",
       "  return Object.keys(original).reduce(function (obj, key) {\n",
       "    if (typeof original[key] !== 'object')\n",
       "        obj[key] = original[key]\n",
       "    return obj;\n",
       "  }, {});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.mouse_event = function(event, name) {\n",
       "    var canvas_pos = mpl.findpos(event)\n",
       "\n",
       "    if (name === 'button_press')\n",
       "    {\n",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x;\n",
       "    var y = canvas_pos.y;\n",
       "\n",
       "    this.send_message(name, {x: x, y: y, button: event.button,\n",
       "                             step: event.step,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "\n",
       "    /* This prevents the web browser from automatically changing to\n",
       "     * the text insertion cursor when the button is pressed.  We want\n",
       "     * to control all of the cursor setting manually through the\n",
       "     * 'cursor' event from matplotlib */\n",
       "    event.preventDefault();\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    // Handle any extra behaviour associated with a key event\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.key_event = function(event, name) {\n",
       "\n",
       "    // Prevent repeat events\n",
       "    if (name == 'key_press')\n",
       "    {\n",
       "        if (event.which === this._key)\n",
       "            return;\n",
       "        else\n",
       "            this._key = event.which;\n",
       "    }\n",
       "    if (name == 'key_release')\n",
       "        this._key = null;\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.which != 17)\n",
       "        value += \"ctrl+\";\n",
       "    if (event.altKey && event.which != 18)\n",
       "        value += \"alt+\";\n",
       "    if (event.shiftKey && event.which != 16)\n",
       "        value += \"shift+\";\n",
       "\n",
       "    value += 'k';\n",
       "    value += event.which.toString();\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, {key: value,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onclick = function(name) {\n",
       "    if (name == 'download') {\n",
       "        this.handle_save(this, null);\n",
       "    } else {\n",
       "        this.send_message(\"toolbar_button\", {name: name});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onmouseover = function(tooltip) {\n",
       "    this.message.textContent = tooltip;\n",
       "};\n",
       "mpl.toolbar_items = [[\"Home\", \"Reset original view\", \"fa fa-home icon-home\", \"home\"], [\"Back\", \"Back to  previous view\", \"fa fa-arrow-left icon-arrow-left\", \"back\"], [\"Forward\", \"Forward to next view\", \"fa fa-arrow-right icon-arrow-right\", \"forward\"], [\"\", \"\", \"\", \"\"], [\"Pan\", \"Pan axes with left mouse, zoom with right\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the overriden (by mpl) onmessage function.\n",
       "        ws.onmessage(msg['content']['data'])\n",
       "    });\n",
       "    return ws;\n",
       "}\n",
       "\n",
       "mpl.mpl_figure_comm = function(comm, msg) {\n",
       "    // This is the function which gets called when the mpl process\n",
       "    // starts-up an IPython Comm through the \"matplotlib\" channel.\n",
       "\n",
       "    var id = msg.content.data.id;\n",
       "    // Get hold of the div created by the display call when the Comm\n",
       "    // socket was opened in Python.\n",
       "    var element = $(\"#\" + id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm)\n",
       "\n",
       "    function ondownload(figure, format) {\n",
       "        window.open(figure.imageObj.src);\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy,\n",
       "                           ondownload,\n",
       "                           element.get(0));\n",
       "\n",
       "    // Call onopen now - mpl needs it, as it is assuming we've passed it a real\n",
       "    // web socket which is closed, not our websocket->open comm proxy.\n",
       "    ws_proxy.onopen();\n",
       "\n",
       "    fig.parent_element = element.get(0);\n",
       "    fig.cell_info = mpl.find_output_cell(\"<div id='\" + id + \"'></div>\");\n",
       "    if (!fig.cell_info) {\n",
       "        console.error(\"Failed to find cell for figure\", id, fig);\n",
       "        return;\n",
       "    }\n",
       "\n",
       "    var output_index = fig.cell_info[2]\n",
       "    var cell = fig.cell_info[0];\n",
       "\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function(fig, msg) {\n",
       "    fig.root.unbind('remove')\n",
       "\n",
       "    // Update the output cell to use the data from the current canvas.\n",
       "    fig.push_to_output();\n",
       "    var dataURL = fig.canvas.toDataURL();\n",
       "    // Re-enable the keyboard manager in IPython - without this line, in FF,\n",
       "    // the notebook keyboard shortcuts fail.\n",
       "    IPython.keyboard_manager.enable()\n",
       "    $(fig.parent_element).html('<img src=\"' + dataURL + '\">');\n",
       "    fig.close_ws(fig, msg);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.close_ws = function(fig, msg){\n",
       "    fig.send_message('closing', msg);\n",
       "    // fig.ws.close()\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.push_to_output = function(remove_interactive) {\n",
       "    // Turn the data on the canvas into data in the output cell.\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\">';\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Tell IPython that the notebook contents must change.\n",
       "    IPython.notebook.set_dirty(true);\n",
       "    this.send_message(\"ack\", {});\n",
       "    var fig = this;\n",
       "    // Wait a second, then push the new image to the DOM so\n",
       "    // that it is saved nicely (might be nice to debounce this).\n",
       "    setTimeout(function () { fig.push_to_output() }, 1000);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items){\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) { continue; };\n",
       "\n",
       "        var button = $('<button class=\"btn btn-default\" href=\"#\" title=\"' + name + '\"><i class=\"fa ' + image + ' fa-lg\"></i></button>');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = $('<span class=\"mpl-message\" style=\"text-align:right; float: right;\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = $('<div class=\"btn-group inline pull-right\"></div>');\n",
       "    var button = $('<button class=\"btn btn-mini btn-primary\" href=\"#\" title=\"Stop Interaction\"><i class=\"fa fa-power-off icon-remove icon-large\"></i></button>');\n",
       "    button.click(function (evt) { fig.handle_close(fig, {}); } );\n",
       "    button.mouseover('Stop Interaction', toolbar_mouse_event);\n",
       "    buttongrp.append(button);\n",
       "    var titlebar = this.root.find($('.ui-dialog-titlebar'));\n",
       "    titlebar.prepend(buttongrp);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(el){\n",
       "    var fig = this\n",
       "    el.on(\"remove\", function(){\n",
       "\tfig.close_ws(fig, {});\n",
       "    });\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(el){\n",
       "    // this is important to make the div 'focusable\n",
       "    el.attr('tabindex', 0)\n",
       "    // reach out to IPython and tell the keyboard manager to turn it's self\n",
       "    // off when our div gets focus\n",
       "\n",
       "    // location in version 3\n",
       "    if (IPython.notebook.keyboard_manager) {\n",
       "        IPython.notebook.keyboard_manager.register_events(el);\n",
       "    }\n",
       "    else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    var manager = IPython.notebook.keyboard_manager;\n",
       "    if (!manager)\n",
       "        manager = IPython.keyboard_manager;\n",
       "\n",
       "    // Check for shift+enter\n",
       "    if (event.shiftKey && event.which == 13) {\n",
       "        this.canvas_div.blur();\n",
       "        // select the cell after this one\n",
       "        var index = IPython.notebook.find_cell_index(this.cell_info[0]);\n",
       "        IPython.notebook.select(index + 1);\n",
       "    }\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    fig.ondownload(fig, null);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.find_output_cell = function(html_output) {\n",
       "    // Return the cell and output element which can be found *uniquely* in the notebook.\n",
       "    // Note - this is a bit hacky, but it is done because the \"notebook_saving.Notebook\"\n",
       "    // IPython event is triggered only after the cells have been serialised, which for\n",
       "    // our purposes (turning an active figure into a static one), is too late.\n",
       "    var cells = IPython.notebook.get_cells();\n",
       "    var ncells = cells.length;\n",
       "    for (var i=0; i<ncells; i++) {\n",
       "        var cell = cells[i];\n",
       "        if (cell.cell_type === 'code'){\n",
       "            for (var j=0; j<cell.output_area.outputs.length; j++) {\n",
       "                var data = cell.output_area.outputs[j];\n",
       "                if (data.data) {\n",
       "                    // IPython >= 3 moved mimebundle to data attribute of output\n",
       "                    data = data.data;\n",
       "                }\n",
       "                if (data['text/html'] == html_output) {\n",
       "                    return [cell, data, j];\n",
       "                }\n",
       "            }\n",
       "        }\n",
       "    }\n",
       "}\n",
       "\n",
       "// Register the function which deals with the matplotlib target/channel.\n",
       "// The kernel may be null if the page has been refreshed.\n",
       "if (IPython.notebook.kernel != null) {\n",
       "    IPython.notebook.kernel.comm_manager.register_target('matplotlib', mpl.mpl_figure_comm);\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
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\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "<matplotlib.text.Text at 0x7fd88df72350>"
      ]
     },
     "execution_count": 15,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "from mlp.layers import AffineLayer\n",
    "from mlp.errors import SumOfSquaredDiffsError\n",
    "from mlp.models import SingleLayerModel\n",
    "from mlp.initialisers import UniformInit, ConstantInit\n",
    "from mlp.learning_rules import GradientDescentLearningRule\n",
    "from mlp.optimisers import Optimiser\n",
    "import logging\n",
    "\n",
    "# Seed a random number generator\n",
    "seed = 27092016 \n",
    "rng = np.random.RandomState(seed)\n",
    "\n",
    "# Set up a logger object to print info about the training run to stdout\n",
    "logger = logging.getLogger()\n",
    "logger.setLevel(logging.INFO)\n",
    "logger.handlers = [logging.StreamHandler()]\n",
    "\n",
    "# Create data provider objects for the CCPP training set\n",
    "train_data = CCPPDataProvider('train', [0, 1], batch_size=100, rng=rng)\n",
    "input_dim, output_dim = 2, 1\n",
    "\n",
    "# Create a parameter initialiser which will sample random uniform values\n",
    "# from [-0.1, 0.1]\n",
    "param_init = UniformInit(-0.1, 0.1, rng=rng)\n",
    "\n",
    "# Create our single layer model\n",
    "layer = AffineLayer(input_dim, output_dim, param_init, param_init)\n",
    "model = SingleLayerModel(layer)\n",
    "\n",
    "# Initialise the error object\n",
    "error = SumOfSquaredDiffsError()\n",
    "\n",
    "# Use a basic gradient descent learning rule with a small learning rate\n",
    "learning_rule = GradientDescentLearningRule(learning_rate=1e-2)\n",
    "\n",
    "# Use the created objects to initialise a new Optimiser instance.\n",
    "optimiser = Optimiser(model, error, learning_rule, train_data)\n",
    "\n",
    "# Run the optimiser for 5 epochs (full passes through the training set)\n",
    "# printing statistics every epoch.\n",
    "stats, keys, run_time = optimiser.train(num_epochs=10, stats_interval=1)\n",
    "\n",
    "# Plot the change in the error over training.\n",
    "fig = plt.figure(figsize=(8, 4))\n",
    "ax = fig.add_subplot(111)\n",
    "ax.plot(np.arange(1, stats.shape[0] + 1), stats[:, keys['error(train)']])\n",
    "ax.set_xlabel('Epoch number')\n",
    "ax.set_ylabel('Error')"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Using similar code to previously we can now visualise the joint input-output space for the trained model. If you implemented the required methods correctly you should now see a much improved fit between predicted and target outputs when running the cell below."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 16,
   "metadata": {
    "collapsed": false
   },
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\n",
       "mpl.get_websocket_type = function() {\n",
       "    if (typeof(WebSocket) !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof(MozWebSocket) !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert('Your browser does not have WebSocket support.' +\n",
       "              'Please try Chrome, Safari or Firefox ≥ 6. ' +\n",
       "              'Firefox 4 and 5 are also supported but you ' +\n",
       "              'have to enable WebSockets in about:config.');\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure = function(figure_id, websocket, ondownload, parent_element) {\n",
       "    this.id = figure_id;\n",
       "\n",
       "    this.ws = websocket;\n",
       "\n",
       "    this.supports_binary = (this.ws.binaryType != undefined);\n",
       "\n",
       "    if (!this.supports_binary) {\n",
       "        var warnings = document.getElementById(\"mpl-warnings\");\n",
       "        if (warnings) {\n",
       "            warnings.style.display = 'block';\n",
       "            warnings.textContent = (\n",
       "                \"This browser does not support binary websocket messages. \" +\n",
       "                    \"Performance may be slow.\");\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.imageObj = new Image();\n",
       "\n",
       "    this.context = undefined;\n",
       "    this.message = undefined;\n",
       "    this.canvas = undefined;\n",
       "    this.rubberband_canvas = undefined;\n",
       "    this.rubberband_context = undefined;\n",
       "    this.format_dropdown = undefined;\n",
       "\n",
       "    this.image_mode = 'full';\n",
       "\n",
       "    this.root = $('<div/>');\n",
       "    this._root_extra_style(this.root)\n",
       "    this.root.attr('style', 'display: inline-block');\n",
       "\n",
       "    $(parent_element).append(this.root);\n",
       "\n",
       "    this._init_header(this);\n",
       "    this._init_canvas(this);\n",
       "    this._init_toolbar(this);\n",
       "\n",
       "    var fig = this;\n",
       "\n",
       "    this.waiting = false;\n",
       "\n",
       "    this.ws.onopen =  function () {\n",
       "            fig.send_message(\"supports_binary\", {value: fig.supports_binary});\n",
       "            fig.send_message(\"send_image_mode\", {});\n",
       "            fig.send_message(\"refresh\", {});\n",
       "        }\n",
       "\n",
       "    this.imageObj.onload = function() {\n",
       "            if (fig.image_mode == 'full') {\n",
       "                // Full images could contain transparency (where diff images\n",
       "                // almost always do), so we need to clear the canvas so that\n",
       "                // there is no ghosting.\n",
       "                fig.context.clearRect(0, 0, fig.canvas.width, fig.canvas.height);\n",
       "            }\n",
       "            fig.context.drawImage(fig.imageObj, 0, 0);\n",
       "        };\n",
       "\n",
       "    this.imageObj.onunload = function() {\n",
       "        this.ws.close();\n",
       "    }\n",
       "\n",
       "    this.ws.onmessage = this._make_on_message_function(this);\n",
       "\n",
       "    this.ondownload = ondownload;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_header = function() {\n",
       "    var titlebar = $(\n",
       "        '<div class=\"ui-dialog-titlebar ui-widget-header ui-corner-all ' +\n",
       "        'ui-helper-clearfix\"/>');\n",
       "    var titletext = $(\n",
       "        '<div class=\"ui-dialog-title\" style=\"width: 100%; ' +\n",
       "        'text-align: center; padding: 3px;\"/>');\n",
       "    titlebar.append(titletext)\n",
       "    this.root.append(titlebar);\n",
       "    this.header = titletext[0];\n",
       "}\n",
       "\n",
       "\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = $('<div/>');\n",
       "\n",
       "    canvas_div.attr('style', 'position: relative; clear: both; outline: 0');\n",
       "\n",
       "    function canvas_keyboard_event(event) {\n",
       "        return fig.key_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    canvas_div.keydown('key_press', canvas_keyboard_event);\n",
       "    canvas_div.keyup('key_release', canvas_keyboard_event);\n",
       "    this.canvas_div = canvas_div\n",
       "    this._canvas_extra_style(canvas_div)\n",
       "    this.root.append(canvas_div);\n",
       "\n",
       "    var canvas = $('<canvas/>');\n",
       "    canvas.addClass('mpl-canvas');\n",
       "    canvas.attr('style', \"left: 0; top: 0; z-index: 0; outline: 0\")\n",
       "\n",
       "    this.canvas = canvas[0];\n",
       "    this.context = canvas[0].getContext(\"2d\");\n",
       "\n",
       "    var rubberband = $('<canvas/>');\n",
       "    rubberband.attr('style', \"position: absolute; left: 0; top: 0; z-index: 1;\")\n",
       "\n",
       "    var pass_mouse_events = true;\n",
       "\n",
       "    canvas_div.resizable({\n",
       "        start: function(event, ui) {\n",
       "            pass_mouse_events = false;\n",
       "        },\n",
       "        resize: function(event, ui) {\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "        stop: function(event, ui) {\n",
       "            pass_mouse_events = true;\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "    });\n",
       "\n",
       "    function mouse_event_fn(event) {\n",
       "        if (pass_mouse_events)\n",
       "            return fig.mouse_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    rubberband.mousedown('button_press', mouse_event_fn);\n",
       "    rubberband.mouseup('button_release', mouse_event_fn);\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband.mousemove('motion_notify', mouse_event_fn);\n",
       "\n",
       "    rubberband.mouseenter('figure_enter', mouse_event_fn);\n",
       "    rubberband.mouseleave('figure_leave', mouse_event_fn);\n",
       "\n",
       "    canvas_div.on(\"wheel\", function (event) {\n",
       "        event = event.originalEvent;\n",
       "        event['data'] = 'scroll'\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        mouse_event_fn(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.append(canvas);\n",
       "    canvas_div.append(rubberband);\n",
       "\n",
       "    this.rubberband = rubberband;\n",
       "    this.rubberband_canvas = rubberband[0];\n",
       "    this.rubberband_context = rubberband[0].getContext(\"2d\");\n",
       "    this.rubberband_context.strokeStyle = \"#000000\";\n",
       "\n",
       "    this._resize_canvas = function(width, height) {\n",
       "        // Keep the size of the canvas, canvas container, and rubber band\n",
       "        // canvas in synch.\n",
       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width);\n",
       "        canvas.attr('height', height);\n",
       "\n",
       "        rubberband.attr('width', width);\n",
       "        rubberband.attr('height', height);\n",
       "    }\n",
       "\n",
       "    // Set the figure to an initial 600x600px, this will subsequently be updated\n",
       "    // upon first draw.\n",
       "    this._resize_canvas(600, 600);\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    $(this.rubberband_canvas).bind(\"contextmenu\",function(e){\n",
       "        return false;\n",
       "    });\n",
       "\n",
       "    function set_focus () {\n",
       "        canvas.focus();\n",
       "        canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    window.setTimeout(set_focus, 100);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items) {\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) {\n",
       "            // put a spacer in here.\n",
       "            continue;\n",
       "        }\n",
       "        var button = $('<button/>');\n",
       "        button.addClass('ui-button ui-widget ui-state-default ui-corner-all ' +\n",
       "                        'ui-button-icon-only');\n",
       "        button.attr('role', 'button');\n",
       "        button.attr('aria-disabled', 'false');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "\n",
       "        var icon_img = $('<span/>');\n",
       "        icon_img.addClass('ui-button-icon-primary ui-icon');\n",
       "        icon_img.addClass(image);\n",
       "        icon_img.addClass('ui-corner-all');\n",
       "\n",
       "        var tooltip_span = $('<span/>');\n",
       "        tooltip_span.addClass('ui-button-text');\n",
       "        tooltip_span.html(tooltip);\n",
       "\n",
       "        button.append(icon_img);\n",
       "        button.append(tooltip_span);\n",
       "\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    var fmt_picker_span = $('<span/>');\n",
       "\n",
       "    var fmt_picker = $('<select/>');\n",
       "    fmt_picker.addClass('mpl-toolbar-option ui-widget ui-widget-content');\n",
       "    fmt_picker_span.append(fmt_picker);\n",
       "    nav_element.append(fmt_picker_span);\n",
       "    this.format_dropdown = fmt_picker[0];\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = $(\n",
       "            '<option/>', {selected: fmt === mpl.default_extension}).html(fmt);\n",
       "        fmt_picker.append(option)\n",
       "    }\n",
       "\n",
       "    // Add hover states to the ui-buttons\n",
       "    $( \".ui-button\" ).hover(\n",
       "        function() { $(this).addClass(\"ui-state-hover\");},\n",
       "        function() { $(this).removeClass(\"ui-state-hover\");}\n",
       "    );\n",
       "\n",
       "    var status_bar = $('<span class=\"mpl-message\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.request_resize = function(x_pixels, y_pixels) {\n",
       "    // Request matplotlib to resize the figure. Matplotlib will then trigger a resize in the client,\n",
       "    // which will in turn request a refresh of the image.\n",
       "    this.send_message('resize', {'width': x_pixels, 'height': y_pixels});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_message = function(type, properties) {\n",
       "    properties['type'] = type;\n",
       "    properties['figure_id'] = this.id;\n",
       "    this.ws.send(JSON.stringify(properties));\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_draw_message = function() {\n",
       "    if (!this.waiting) {\n",
       "        this.waiting = true;\n",
       "        this.ws.send(JSON.stringify({type: \"draw\", figure_id: this.id}));\n",
       "    }\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    var format_dropdown = fig.format_dropdown;\n",
       "    var format = format_dropdown.options[format_dropdown.selectedIndex].value;\n",
       "    fig.ondownload(fig, format);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_resize = function(fig, msg) {\n",
       "    var size = msg['size'];\n",
       "    if (size[0] != fig.canvas.width || size[1] != fig.canvas.height) {\n",
       "        fig._resize_canvas(size[0], size[1]);\n",
       "        fig.send_message(\"refresh\", {});\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function(fig, msg) {\n",
       "    var x0 = msg['x0'];\n",
       "    var y0 = fig.canvas.height - msg['y0'];\n",
       "    var x1 = msg['x1'];\n",
       "    var y1 = fig.canvas.height - msg['y1'];\n",
       "    x0 = Math.floor(x0) + 0.5;\n",
       "    y0 = Math.floor(y0) + 0.5;\n",
       "    x1 = Math.floor(x1) + 0.5;\n",
       "    y1 = Math.floor(y1) + 0.5;\n",
       "    var min_x = Math.min(x0, x1);\n",
       "    var min_y = Math.min(y0, y1);\n",
       "    var width = Math.abs(x1 - x0);\n",
       "    var height = Math.abs(y1 - y0);\n",
       "\n",
       "    fig.rubberband_context.clearRect(\n",
       "        0, 0, fig.canvas.width, fig.canvas.height);\n",
       "\n",
       "    fig.rubberband_context.strokeRect(min_x, min_y, width, height);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_figure_label = function(fig, msg) {\n",
       "    // Updates the figure title.\n",
       "    fig.header.textContent = msg['label'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_cursor = function(fig, msg) {\n",
       "    var cursor = msg['cursor'];\n",
       "    switch(cursor)\n",
       "    {\n",
       "    case 0:\n",
       "        cursor = 'pointer';\n",
       "        break;\n",
       "    case 1:\n",
       "        cursor = 'default';\n",
       "        break;\n",
       "    case 2:\n",
       "        cursor = 'crosshair';\n",
       "        break;\n",
       "    case 3:\n",
       "        cursor = 'move';\n",
       "        break;\n",
       "    }\n",
       "    fig.rubberband_canvas.style.cursor = cursor;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_message = function(fig, msg) {\n",
       "    fig.message.textContent = msg['message'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_draw = function(fig, msg) {\n",
       "    // Request the server to send over a new figure.\n",
       "    fig.send_draw_message();\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_image_mode = function(fig, msg) {\n",
       "    fig.image_mode = msg['mode'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Called whenever the canvas gets updated.\n",
       "    this.send_message(\"ack\", {});\n",
       "}\n",
       "\n",
       "// A function to construct a web socket function for onmessage handling.\n",
       "// Called in the figure constructor.\n",
       "mpl.figure.prototype._make_on_message_function = function(fig) {\n",
       "    return function socket_on_message(evt) {\n",
       "        if (evt.data instanceof Blob) {\n",
       "            /* FIXME: We get \"Resource interpreted as Image but\n",
       "             * transferred with MIME type text/plain:\" errors on\n",
       "             * Chrome.  But how to set the MIME type?  It doesn't seem\n",
       "             * to be part of the websocket stream */\n",
       "            evt.data.type = \"image/png\";\n",
       "\n",
       "            /* Free the memory for the previous frames */\n",
       "            if (fig.imageObj.src) {\n",
       "                (window.URL || window.webkitURL).revokeObjectURL(\n",
       "                    fig.imageObj.src);\n",
       "            }\n",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                evt.data);\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "        else if (typeof evt.data === 'string' && evt.data.slice(0, 21) == \"data:image/png;base64\") {\n",
       "            fig.imageObj.src = evt.data;\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        var msg = JSON.parse(evt.data);\n",
       "        var msg_type = msg['type'];\n",
       "\n",
       "        // Call the  \"handle_{type}\" callback, which takes\n",
       "        // the figure and JSON message as its only arguments.\n",
       "        try {\n",
       "            var callback = fig[\"handle_\" + msg_type];\n",
       "        } catch (e) {\n",
       "            console.log(\"No handler for the '\" + msg_type + \"' message type: \", msg);\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        if (callback) {\n",
       "            try {\n",
       "                // console.log(\"Handling '\" + msg_type + \"' message: \", msg);\n",
       "                callback(fig, msg);\n",
       "            } catch (e) {\n",
       "                console.log(\"Exception inside the 'handler_\" + msg_type + \"' callback:\", e, e.stack, msg);\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "}\n",
       "\n",
       "// from http://stackoverflow.com/questions/1114465/getting-mouse-location-in-canvas\n",
       "mpl.findpos = function(e) {\n",
       "    //this section is from http://www.quirksmode.org/js/events_properties.html\n",
       "    var targ;\n",
       "    if (!e)\n",
       "        e = window.event;\n",
       "    if (e.target)\n",
       "        targ = e.target;\n",
       "    else if (e.srcElement)\n",
       "        targ = e.srcElement;\n",
       "    if (targ.nodeType == 3) // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "\n",
       "    // jQuery normalizes the pageX and pageY\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    // offset() returns the position of the element relative to the document\n",
       "    var x = e.pageX - $(targ).offset().left;\n",
       "    var y = e.pageY - $(targ).offset().top;\n",
       "\n",
       "    return {\"x\": x, \"y\": y};\n",
       "};\n",
       "\n",
       "/*\n",
       " * return a copy of an object with only non-object keys\n",
       " * we need this to avoid circular references\n",
       " * http://stackoverflow.com/a/24161582/3208463\n",
       " */\n",
       "function simpleKeys (original) {\n",
       "  return Object.keys(original).reduce(function (obj, key) {\n",
       "    if (typeof original[key] !== 'object')\n",
       "        obj[key] = original[key]\n",
       "    return obj;\n",
       "  }, {});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.mouse_event = function(event, name) {\n",
       "    var canvas_pos = mpl.findpos(event)\n",
       "\n",
       "    if (name === 'button_press')\n",
       "    {\n",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x;\n",
       "    var y = canvas_pos.y;\n",
       "\n",
       "    this.send_message(name, {x: x, y: y, button: event.button,\n",
       "                             step: event.step,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "\n",
       "    /* This prevents the web browser from automatically changing to\n",
       "     * the text insertion cursor when the button is pressed.  We want\n",
       "     * to control all of the cursor setting manually through the\n",
       "     * 'cursor' event from matplotlib */\n",
       "    event.preventDefault();\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    // Handle any extra behaviour associated with a key event\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.key_event = function(event, name) {\n",
       "\n",
       "    // Prevent repeat events\n",
       "    if (name == 'key_press')\n",
       "    {\n",
       "        if (event.which === this._key)\n",
       "            return;\n",
       "        else\n",
       "            this._key = event.which;\n",
       "    }\n",
       "    if (name == 'key_release')\n",
       "        this._key = null;\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.which != 17)\n",
       "        value += \"ctrl+\";\n",
       "    if (event.altKey && event.which != 18)\n",
       "        value += \"alt+\";\n",
       "    if (event.shiftKey && event.which != 16)\n",
       "        value += \"shift+\";\n",
       "\n",
       "    value += 'k';\n",
       "    value += event.which.toString();\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, {key: value,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onclick = function(name) {\n",
       "    if (name == 'download') {\n",
       "        this.handle_save(this, null);\n",
       "    } else {\n",
       "        this.send_message(\"toolbar_button\", {name: name});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onmouseover = function(tooltip) {\n",
       "    this.message.textContent = tooltip;\n",
       "};\n",
       "mpl.toolbar_items = [[\"Home\", \"Reset original view\", \"fa fa-home icon-home\", \"home\"], [\"Back\", \"Back to  previous view\", \"fa fa-arrow-left icon-arrow-left\", \"back\"], [\"Forward\", \"Forward to next view\", \"fa fa-arrow-right icon-arrow-right\", \"forward\"], [\"\", \"\", \"\", \"\"], [\"Pan\", \"Pan axes with left mouse, zoom with right\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the overriden (by mpl) onmessage function.\n",
       "        ws.onmessage(msg['content']['data'])\n",
       "    });\n",
       "    return ws;\n",
       "}\n",
       "\n",
       "mpl.mpl_figure_comm = function(comm, msg) {\n",
       "    // This is the function which gets called when the mpl process\n",
       "    // starts-up an IPython Comm through the \"matplotlib\" channel.\n",
       "\n",
       "    var id = msg.content.data.id;\n",
       "    // Get hold of the div created by the display call when the Comm\n",
       "    // socket was opened in Python.\n",
       "    var element = $(\"#\" + id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm)\n",
       "\n",
       "    function ondownload(figure, format) {\n",
       "        window.open(figure.imageObj.src);\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy,\n",
       "                           ondownload,\n",
       "                           element.get(0));\n",
       "\n",
       "    // Call onopen now - mpl needs it, as it is assuming we've passed it a real\n",
       "    // web socket which is closed, not our websocket->open comm proxy.\n",
       "    ws_proxy.onopen();\n",
       "\n",
       "    fig.parent_element = element.get(0);\n",
       "    fig.cell_info = mpl.find_output_cell(\"<div id='\" + id + \"'></div>\");\n",
       "    if (!fig.cell_info) {\n",
       "        console.error(\"Failed to find cell for figure\", id, fig);\n",
       "        return;\n",
       "    }\n",
       "\n",
       "    var output_index = fig.cell_info[2]\n",
       "    var cell = fig.cell_info[0];\n",
       "\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function(fig, msg) {\n",
       "    fig.root.unbind('remove')\n",
       "\n",
       "    // Update the output cell to use the data from the current canvas.\n",
       "    fig.push_to_output();\n",
       "    var dataURL = fig.canvas.toDataURL();\n",
       "    // Re-enable the keyboard manager in IPython - without this line, in FF,\n",
       "    // the notebook keyboard shortcuts fail.\n",
       "    IPython.keyboard_manager.enable()\n",
       "    $(fig.parent_element).html('<img src=\"' + dataURL + '\">');\n",
       "    fig.close_ws(fig, msg);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.close_ws = function(fig, msg){\n",
       "    fig.send_message('closing', msg);\n",
       "    // fig.ws.close()\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.push_to_output = function(remove_interactive) {\n",
       "    // Turn the data on the canvas into data in the output cell.\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\">';\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Tell IPython that the notebook contents must change.\n",
       "    IPython.notebook.set_dirty(true);\n",
       "    this.send_message(\"ack\", {});\n",
       "    var fig = this;\n",
       "    // Wait a second, then push the new image to the DOM so\n",
       "    // that it is saved nicely (might be nice to debounce this).\n",
       "    setTimeout(function () { fig.push_to_output() }, 1000);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items){\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) { continue; };\n",
       "\n",
       "        var button = $('<button class=\"btn btn-default\" href=\"#\" title=\"' + name + '\"><i class=\"fa ' + image + ' fa-lg\"></i></button>');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = $('<span class=\"mpl-message\" style=\"text-align:right; float: right;\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = $('<div class=\"btn-group inline pull-right\"></div>');\n",
       "    var button = $('<button class=\"btn btn-mini btn-primary\" href=\"#\" title=\"Stop Interaction\"><i class=\"fa fa-power-off icon-remove icon-large\"></i></button>');\n",
       "    button.click(function (evt) { fig.handle_close(fig, {}); } );\n",
       "    button.mouseover('Stop Interaction', toolbar_mouse_event);\n",
       "    buttongrp.append(button);\n",
       "    var titlebar = this.root.find($('.ui-dialog-titlebar'));\n",
       "    titlebar.prepend(buttongrp);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(el){\n",
       "    var fig = this\n",
       "    el.on(\"remove\", function(){\n",
       "\tfig.close_ws(fig, {});\n",
       "    });\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(el){\n",
       "    // this is important to make the div 'focusable\n",
       "    el.attr('tabindex', 0)\n",
       "    // reach out to IPython and tell the keyboard manager to turn it's self\n",
       "    // off when our div gets focus\n",
       "\n",
       "    // location in version 3\n",
       "    if (IPython.notebook.keyboard_manager) {\n",
       "        IPython.notebook.keyboard_manager.register_events(el);\n",
       "    }\n",
       "    else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    var manager = IPython.notebook.keyboard_manager;\n",
       "    if (!manager)\n",
       "        manager = IPython.keyboard_manager;\n",
       "\n",
       "    // Check for shift+enter\n",
       "    if (event.shiftKey && event.which == 13) {\n",
       "        this.canvas_div.blur();\n",
       "        // select the cell after this one\n",
       "        var index = IPython.notebook.find_cell_index(this.cell_info[0]);\n",
       "        IPython.notebook.select(index + 1);\n",
       "    }\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    fig.ondownload(fig, null);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.find_output_cell = function(html_output) {\n",
       "    // Return the cell and output element which can be found *uniquely* in the notebook.\n",
       "    // Note - this is a bit hacky, but it is done because the \"notebook_saving.Notebook\"\n",
       "    // IPython event is triggered only after the cells have been serialised, which for\n",
       "    // our purposes (turning an active figure into a static one), is too late.\n",
       "    var cells = IPython.notebook.get_cells();\n",
       "    var ncells = cells.length;\n",
       "    for (var i=0; i<ncells; i++) {\n",
       "        var cell = cells[i];\n",
       "        if (cell.cell_type === 'code'){\n",
       "            for (var j=0; j<cell.output_area.outputs.length; j++) {\n",
       "                var data = cell.output_area.outputs[j];\n",
       "                if (data.data) {\n",
       "                    // IPython >= 3 moved mimebundle to data attribute of output\n",
       "                    data = data.data;\n",
       "                }\n",
       "                if (data['text/html'] == html_output) {\n",
       "                    return [cell, data, j];\n",
       "                }\n",
       "            }\n",
       "        }\n",
       "    }\n",
       "}\n",
       "\n",
       "// Register the function which deals with the matplotlib target/channel.\n",
       "// The kernel may be null if the page has been refreshed.\n",
       "if (IPython.notebook.kernel != null) {\n",
       "    IPython.notebook.kernel.comm_manager.register_target('matplotlib', mpl.mpl_figure_comm);\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
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\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "data_provider = CCPPDataProvider(\n",
    "    which_set='train',\n",
    "    input_dims=[0, 1],\n",
    "    batch_size=5000, \n",
    "    max_num_batches=1, \n",
    "    shuffle_order=False\n",
    ")\n",
    "\n",
    "inputs, targets = data_provider.next()\n",
    "\n",
    "# Calculate predicted model outputs\n",
    "outputs = model.fprop(inputs)[-1]\n",
    "\n",
    "# Plot target and predicted outputs against inputs on same axis\n",
    "fig = plt.figure(figsize=(8, 8))\n",
    "ax = fig.add_subplot(111, projection='3d')\n",
    "ax.plot(inputs[:, 0], inputs[:, 1], targets[:, 0], 'r.', ms=2)\n",
    "ax.plot(inputs[:, 0], inputs[:, 1], outputs[:, 0], 'b.', ms=2)\n",
    "ax.set_xlabel('Input dim 1')\n",
    "ax.set_ylabel('Input dim 2')\n",
    "ax.set_zlabel('Output')\n",
    "ax.legend(['Targets', 'Predictions'], frameon=False)\n",
    "fig.tight_layout()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Exercise 6: visualising training trajectories in parameter space"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Running the cell below will display an interactive widget which plots the trajectories of gradient-based training of the single-layer affine model on the CCPP dataset in the three dimensional parameter space (two weights plus bias) from random initialisations. Also shown on the right is a plot of the evolution of the error function (evaluated on the current batch) over training. By moving the sliders you can alter the training hyperparameters to investigate the effect they have on how training procedes.\n",
    "\n",
    "Some questions to explore:\n",
    "\n",
    "  * Are there multiple local minima in parameter space here? Why?\n",
    "    * In this case there is a single unique global minima, as suggested by the fact random parameter initialisations consistently converge to the same point in parameter space. As mentioned previously there is a closed form solution for the optimal weights and biases for this simple single-layer affine model <a href='https://en.wikipedia.org/wiki/Linear_least_squares_(mathematics)'>linear least squares</a>) and the error function is [convex](https://en.wikipedia.org/wiki/Convex_function).\n",
    "  * What happens to learning for very small learning rates? And very large learning rates?\n",
    "    * For very small learning rates, the training proceeds very slowly and the parameters do not tend to converge to the global optimum unless a lot of training epochs are used. For very large learning rates, the gradient descent dynamic becomes increasingly instable, leading to large oscillations or at extreme values divergence in the parameter space.\n",
    "  * How does the batch size affect learning?\n",
    "    * Smaller batch sizes generally lead to quicker initial learning as the parameters are updated more frequently (more batches in an epoch) however as the batch becomes smaller the error estimate calculated from the batch and its gradients become increasingly noisy estimates for the true error function / gradients. This can be observed by the less smooth trajectories in parameter space for lower batch sizes and greater noise in the batch error curves.\n",
    "  \n",
    "**Note:** You don't need to understand how the code below works. The idea of this exercise is to help you understand the role of the various hyperparameters involved in gradient-descent based training methods."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 17,
   "metadata": {
    "collapsed": false,
    "scrolled": false
   },
   "outputs": [
    {
     "data": {
      "image/png": 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aOneepD0lfWyCi8gvlbRcwZDsv5LqJE1WknXFmijeVRATTR8PN2HcJOnpOPtE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\nSUVORK5CYII=\n",
      "text/plain": [
       "<matplotlib.figure.Figure at 0x7fd88c090b10>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "from ipywidgets import interact\n",
    "%matplotlib inline\n",
    "\n",
    "def setup_figure():\n",
    "    # create figure and axes\n",
    "    fig = plt.figure(figsize=(12, 6))\n",
    "    ax1 = fig.add_axes([0., 0., 0.5, 1.], projection='3d')\n",
    "    ax2 = fig.add_axes([0.6, 0.1, 0.4, 0.8])\n",
    "    # set axes properties\n",
    "    ax2.spines['right'].set_visible(False)\n",
    "    ax2.spines['top'].set_visible(False)\n",
    "    ax2.yaxis.set_ticks_position('left')\n",
    "    ax2.xaxis.set_ticks_position('bottom')\n",
    "    ax2.set_yscale('log')\n",
    "    ax1.set_xlim((-2, 2))\n",
    "    ax1.set_ylim((-2, 2))\n",
    "    ax1.set_zlim((-2, 2))\n",
    "    #set axes labels and title\n",
    "    ax1.set_title('Parameter trajectories over training')\n",
    "    ax1.set_xlabel('Weight 1')\n",
    "    ax1.set_ylabel('Weight 2')\n",
    "    ax1.set_zlabel('Bias')\n",
    "    ax2.set_title('Batch errors over training')\n",
    "    ax2.set_xlabel('Batch update number')\n",
    "    ax2.set_ylabel('Batch error')\n",
    "    return fig, ax1, ax2\n",
    "\n",
    "def visualise_training(n_epochs=1, batch_size=200, log_lr=-1., n_inits=5,\n",
    "                       w_scale=1., b_scale=1., elev=30., azim=0.):\n",
    "    fig, ax1, ax2 = setup_figure()\n",
    "    # create seeded random number generator\n",
    "    rng = np.random.RandomState(1234)\n",
    "    # create data provider\n",
    "    data_provider = CCPPDataProvider(\n",
    "        input_dims=[0, 1],\n",
    "        batch_size=batch_size, \n",
    "        shuffle_order=False,\n",
    "    )\n",
    "    learning_rate = 10 ** log_lr\n",
    "    n_batches = data_provider.num_batches\n",
    "    weights_traj = np.empty((n_inits, n_epochs * n_batches + 1, 1, 2))\n",
    "    biases_traj = np.empty((n_inits, n_epochs * n_batches + 1, 1))\n",
    "    errors_traj = np.empty((n_inits, n_epochs * n_batches))\n",
    "    # randomly initialise parameters\n",
    "    weights = rng.uniform(-w_scale, w_scale, (n_inits, 1, 2))\n",
    "    biases = rng.uniform(-b_scale, b_scale, (n_inits, 1))\n",
    "    # store initial parameters\n",
    "    weights_traj[:, 0] = weights\n",
    "    biases_traj[:, 0] = biases\n",
    "    # iterate across different initialisations\n",
    "    for i in range(n_inits):\n",
    "        # iterate across epochs\n",
    "        for e in range(n_epochs):\n",
    "            # iterate across batches\n",
    "            for b, (inputs, targets) in enumerate(data_provider):\n",
    "                outputs = fprop(inputs, weights[i], biases[i])\n",
    "                errors_traj[i, e * n_batches + b] = error(outputs, targets)\n",
    "                grad_wrt_outputs = error_grad(outputs, targets)\n",
    "                weights_grad, biases_grad = grads_wrt_params(inputs, grad_wrt_outputs)\n",
    "                weights[i] -= learning_rate * weights_grad\n",
    "                biases[i] -= learning_rate * biases_grad\n",
    "                weights_traj[i, e * n_batches + b + 1] = weights[i]\n",
    "                biases_traj[i, e * n_batches + b + 1] = biases[i]\n",
    "    # choose a different color for each trajectory\n",
    "    colors = plt.cm.jet(np.linspace(0, 1, n_inits))\n",
    "    # plot all trajectories\n",
    "    for i in range(n_inits):\n",
    "        lines_1 = ax1.plot(\n",
    "            weights_traj[i, :, 0, 0], \n",
    "            weights_traj[i, :, 0, 1], \n",
    "            biases_traj[i, :, 0], \n",
    "            '-', c=colors[i], lw=2)\n",
    "        lines_2 = ax2.plot(\n",
    "            np.arange(n_batches * n_epochs),\n",
    "            errors_traj[i],\n",
    "            c=colors[i]\n",
    "        )\n",
    "    ax1.view_init(elev, azim)\n",
    "    plt.show()\n",
    "\n",
    "w = interact(\n",
    "    visualise_training,\n",
    "    elev=(-90, 90, 2),\n",
    "    azim=(-180, 180, 2), \n",
    "    n_epochs=(1, 5), \n",
    "    batch_size=(100, 1000, 100),\n",
    "    log_lr=(-3., 1.),\n",
    "    w_scale=(0., 2.),\n",
    "    b_scale=(0., 2.),\n",
    "    n_inits=(1, 10)\n",
    ")\n",
    "\n",
    "for child in w.widget.children:\n",
    "    child.layout.width = '100%'"
   ]
  }
 ],
 "metadata": {
  "anaconda-cloud": {},
  "kernelspec": {
   "display_name": "Python [conda env:mlp]",
   "language": "python",
   "name": "conda-env-mlp-py"
  },
  "language_info": {
   "codemirror_mode": {
    "name": "ipython",
    "version": 2
   },
   "file_extension": ".py",
   "mimetype": "text/x-python",
   "name": "python",
   "nbconvert_exporter": "python",
   "pygments_lexer": "ipython2",
   "version": "2.7.12"
  }
 },
 "nbformat": 4,
 "nbformat_minor": 0
}