{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# EasyVVUQ fusion tutorial\n",
    "\n",
    "Run an EasyVVUQ campaign to analyze the sensitivity of the temperature\n",
    "profile predicted by a simplified model of heat conduction in a\n",
    "tokamak plasma.\n",
    "\n",
    "This is done with PCE."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {},
   "outputs": [],
   "source": [
    "# import packages that we will use\n",
    "\n",
    "import os\n",
    "import easyvvuq as uq\n",
    "import chaospy as cp\n",
    "import pickle\n",
    "import time\n",
    "import numpy as np \n",
    "import matplotlib.pylab as plt"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Set up a fresh campaign called \"fusion_pce.\"\n",
    "\n",
    "my_campaign = uq.Campaign(name='fusion_pce.')"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Define parameter space\n",
    "\n",
    "params = {\n",
    "    \"Qe_tot\":   {\"type\": \"float\",   \"min\": 1.0e6, \"max\": 50.0e6, \"default\": 2e6}, \n",
    "    \"H0\":       {\"type\": \"float\",   \"min\": 0.00,  \"max\": 1.0,    \"default\": 0}, \n",
    "    \"Hw\":       {\"type\": \"float\",   \"min\": 0.01,  \"max\": 100.0,  \"default\": 0.1}, \n",
    "    \"Te_bc\":    {\"type\": \"float\",   \"min\": 10.0,  \"max\": 1000.0, \"default\": 100}, \n",
    "    \"chi\":      {\"type\": \"float\",   \"min\": 0.01,  \"max\": 100.0,  \"default\": 1}, \n",
    "    \"a0\":       {\"type\": \"float\",   \"min\": 0.2,   \"max\": 10.0,   \"default\": 1}, \n",
    "    \"R0\":       {\"type\": \"float\",   \"min\": 0.5,   \"max\": 20.0,   \"default\": 3}, \n",
    "    \"E0\":       {\"type\": \"float\",   \"min\": 1.0,   \"max\": 10.0,   \"default\": 1.5}, \n",
    "    \"b_pos\":    {\"type\": \"float\",   \"min\": 0.95,  \"max\": 0.99,   \"default\": 0.98}, \n",
    "    \"b_height\": {\"type\": \"float\",   \"min\": 3e19,  \"max\": 10e19,  \"default\": 6e19}, \n",
    "    \"b_sol\":    {\"type\": \"float\",   \"min\": 2e18,  \"max\": 3e19,   \"default\": 2e19}, \n",
    "    \"b_width\":  {\"type\": \"float\",   \"min\": 0.005, \"max\": 0.025,  \"default\": 0.01}, \n",
    "    \"b_slope\":  {\"type\": \"float\",   \"min\": 0.0,   \"max\": 0.05,   \"default\": 0.01}, \n",
    "    \"nr\":       {\"type\": \"integer\", \"min\": 10,    \"max\": 1000,   \"default\": 100}, \n",
    "    \"dt\":       {\"type\": \"float\",   \"min\": 1e-3,  \"max\": 1e3,    \"default\": 100},\n",
    "    \"out_file\": {\"type\": \"string\",  \"default\": \"output.csv\"}\n",
    "}"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 4,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Create an encoder, decoder and collater for PCE test app\n",
    "\n",
    "encoder = uq.encoders.GenericEncoder(template_fname='fusion.template',\n",
    "                                     delimiter='$',\n",
    "                                     target_filename='fusion_in.json')\n",
    "\n",
    "\n",
    "decoder = uq.decoders.SimpleCSV(target_filename=\"output.csv\",\n",
    "                                output_columns=[\"te\", \"ne\", \"rho\", \"rho_norm\"],\n",
    "                                header=0)\n",
    "\n",
    "collater = uq.collate.AggregateSamples(average=False)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 5,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Add the app (automatically set as current app)\n",
    "\n",
    "my_campaign.add_app(name=\"fusion\",\n",
    "                    params=params,\n",
    "                    encoder=encoder,\n",
    "                    decoder=decoder,\n",
    "                    collater=collater)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Create the sampler (here simplified to two uncertain quantities)\n",
    "\n",
    "vary = {\n",
    "    \"Qe_tot\":   cp.Uniform(1.8e6, 2.2e6),\n",
    "    \"Te_bc\":    cp.Uniform(80.0,  120.0)\n",
    "}"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "\"\"\" other possible quantities to vary\n",
    "    \"H0\":       cp.Uniform(0.0,   0.2),\n",
    "    \"Hw\":       cp.Uniform(0.1,   0.5),\n",
    "    \"chi\":      cp.Uniform(0.8,   1.2), \n",
    "\n",
    "    \"a0\":       cp.Uniform(0.9,   1.1), \n",
    "    \"R0\":       cp.Uniform(2.7,   3.3), \n",
    "    \"E0\":       cp.Uniform(1.4,   1.6), \n",
    "    \"b_pos\":    cp.Uniform(0.95,  0.99), \n",
    "    \"b_height\": cp.Uniform(5e19,  7e19), \n",
    "    \"b_sol\":    cp.Uniform(1e19,  3e19), \n",
    "    \"b_width\":  cp.Uniform(0.015, 0.025), \n",
    "    \"b_slope\":  cp.Uniform(0.005, 0.020)\n",
    "\"\"\""
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Associate a sampler with the campaign\n",
    "\n",
    "my_campaign.set_sampler(uq.sampling.PCESampler(vary=vary, polynomial_order=3))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 8,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Number of samples = 25\n"
     ]
    }
   ],
   "source": [
    "# Will draw all (of the finite set of samples)\n",
    "\n",
    "my_campaign.draw_samples()\n",
    "print('Number of samples = %s' % my_campaign.get_active_sampler().count)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 9,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Create and populate the run directories\n",
    "\n",
    "my_campaign.populate_runs_dir()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 10,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Run the cases\n",
    "\n",
    "cwd = os.getcwd().replace(' ', '\\ ')      # deal with ' ' in the path\n",
    "cmd = f\"{cwd}/fusion_model.py fusion_in.json\"\n",
    "my_campaign.apply_for_each_run_dir(uq.actions.ExecuteLocal(cmd, interpret='python3'))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 11,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Collate the results\n",
    "\n",
    "my_campaign.collate()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 12,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Post-processing analysis\n",
    "\n",
    "my_campaign.apply_analysis(uq.analysis.PCEAnalysis(sampler=my_campaign.get_active_sampler(), \n",
    "                                                   qoi_cols=[\"te\", \"ne\", \"rho\", \"rho_norm\"]))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 13,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Get Descriptive Statistics\n",
    "\n",
    "results = my_campaign.get_last_analysis()\n",
    "stats = results['statistical_moments']['te']\n",
    "per = results['percentiles']['te']\n",
    "sobols = results['sobols_first']['te']\n",
    "rho = results['statistical_moments']['rho']['mean']\n",
    "rho_norm = results['statistical_moments']['rho_norm']['mean']"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 18,
   "metadata": {},
   "outputs": [
    {
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       "\n",
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       "    } 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",
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       "        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",
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       "    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",
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       "    this._init_toolbar(this);\n",
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       "    var fig = this;\n",
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       "            fig.send_message(\"supports_binary\", {value: fig.supports_binary});\n",
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       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
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       "            fig.send_message(\"refresh\", {});\n",
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       "\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",
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       "\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",
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       "    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 backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\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",
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       "        event['data'] = 'scroll'\n",
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       "    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",
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       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\n",
       "\n",
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       "\n",
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       "\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",
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       "\n",
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       "        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'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\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 / mpl.ratio, fig.canvas.height / mpl.ratio);\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 * mpl.ratio;\n",
       "    var y = canvas_pos.y * mpl.ratio;\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\", \"jpeg\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\", \"tif\"];\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 overridden (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",
       "    var width = fig.canvas.width/mpl.ratio\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 + '\" width=\"' + width + '\">');\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 width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\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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\" width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "Text(0.5, 1.0, '/Users/dpc/GIT.local/EasyVVUQ/docs/tutorial_files/fusion_pce.me3s759t')"
      ]
     },
     "execution_count": 18,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "# plot the calculated Te: mean, with std deviation, 10 and 90% and range\n",
    "\n",
    "%matplotlib notebook\n",
    "plt.figure() \n",
    "plt.plot(rho, stats['mean'], 'b-', label='Mean')\n",
    "plt.plot(rho, stats['mean']-stats['std'], 'b--', label='+1 std deviation')\n",
    "plt.plot(rho, stats['mean']+stats['std'], 'b--')\n",
    "plt.fill_between(rho, stats['mean']-stats['std'], stats['mean']+stats['std'], color='b', alpha=0.2)\n",
    "plt.plot(rho, per['p10'].ravel(), 'b:', label='10 and 90 percentiles')\n",
    "plt.plot(rho, per['p90'].ravel(), 'b:')\n",
    "plt.fill_between(rho, per['p10'].ravel(), per['p90'].ravel(), color='b', alpha=0.1)\n",
    "plt.fill_between(rho, [r.lower[0] for r in results['output_distributions']['te']], [r.upper[0] for r in results['output_distributions']['te']], color='b', alpha=0.05)\n",
    "plt.legend(loc=0)\n",
    "plt.xlabel('rho [m]')\n",
    "plt.ylabel('Te [eV]')\n",
    "plt.title(my_campaign.campaign_dir)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 19,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\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",
       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
       "            }\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",
       "        fig.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 backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\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 * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\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'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\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 / mpl.ratio, fig.canvas.height / mpl.ratio);\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 * mpl.ratio;\n",
       "    var y = canvas_pos.y * mpl.ratio;\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\", \"jpeg\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\", \"tif\"];\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 overridden (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",
       "    var width = fig.canvas.width/mpl.ratio\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 + '\" width=\"' + width + '\">');\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 width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\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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\" width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "Text(0.5, 1.0, '/Users/dpc/GIT.local/EasyVVUQ/docs/tutorial_files/fusion_pce.me3s759t')"
      ]
     },
     "execution_count": 19,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "# plot the first Sobol results\n",
    "\n",
    "%matplotlib notebook\n",
    "plt.figure() \n",
    "for k in sobols.keys(): plt.plot(rho, sobols[k][0], label=k)\n",
    "plt.legend(loc=0)\n",
    "plt.xlabel('rho [m]')\n",
    "plt.ylabel('sobols_first')\n",
    "plt.title(my_campaign.campaign_dir)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 20,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\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",
       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
       "            }\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",
       "        fig.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 backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\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 * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\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'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\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 / mpl.ratio, fig.canvas.height / mpl.ratio);\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 * mpl.ratio;\n",
       "    var y = canvas_pos.y * mpl.ratio;\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\", \"jpeg\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\", \"tif\"];\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 overridden (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",
       "    var width = fig.canvas.width/mpl.ratio\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 + '\" width=\"' + width + '\">');\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 width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\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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\" width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "Text(0.5, 1.0, '/Users/dpc/GIT.local/EasyVVUQ/docs/tutorial_files/fusion_pce.me3s759t')"
      ]
     },
     "execution_count": 20,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "# plot the total Sobol results\n",
    "\n",
    "%matplotlib notebook\n",
    "plt.figure() \n",
    "for k in results['sobols_total']['te'].keys(): plt.plot(rho, results['sobols_total']['te'][k][0], label=k)\n",
    "plt.legend(loc=0)    \n",
    "plt.xlabel('rho [m]')\n",
    "plt.ylabel('sobols_total')\n",
    "plt.title(my_campaign.campaign_dir)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 17,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\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",
       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
       "            }\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",
       "        fig.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 backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\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 * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\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'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\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 / mpl.ratio, fig.canvas.height / mpl.ratio);\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 * mpl.ratio;\n",
       "    var y = canvas_pos.y * mpl.ratio;\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\", \"jpeg\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\", \"tif\"];\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 overridden (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",
       "    var width = fig.canvas.width/mpl.ratio\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 + '\" width=\"' + width + '\">');\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 width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\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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\" width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "Text(0, 0.5, 'distribution function')"
      ]
     },
     "execution_count": 17,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "# plot the distributions\n",
    "\n",
    "%matplotlib notebook\n",
    "\n",
    "for i, D in enumerate(results['output_distributions']['te']):\n",
    "    _Te = np.linspace(D.lower[0], D.upper[0], 101)\n",
    "    _DF = D.pdf(_Te)\n",
    "    plt.loglog(_Te, _DF, 'b-')\n",
    "    plt.loglog(stats['mean'][i], np.interp(stats['mean'][i], _Te, _DF), 'bo')\n",
    "    plt.loglog(stats['mean'][i]-stats['std'][i], np.interp(stats['mean'][i]-stats['std'][i], _Te, _DF), 'b*')\n",
    "    plt.loglog(stats['mean'][i]+stats['std'][i], np.interp(stats['mean'][i]+stats['std'][i], _Te, _DF), 'b*')\n",
    "    plt.loglog(per['p10'].ravel()[i],  np.interp(per['p10'].ravel()[i], _Te, _DF), 'b+')\n",
    "    plt.loglog(per['p90'].ravel()[i],  np.interp(per['p90'].ravel()[i], _Te, _DF), 'b+')\n",
    "plt.xlabel('Te')\n",
    "plt.ylabel('distribution function')"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [],
   "source": []
  }
 ],
 "metadata": {
  "kernelspec": {
   "display_name": "Python 3",
   "language": "python",
   "name": "python3"
  },
  "language_info": {
   "codemirror_mode": {
    "name": "ipython",
    "version": 3
   },
   "file_extension": ".py",
   "mimetype": "text/x-python",
   "name": "python",
   "nbconvert_exporter": "python",
   "pygments_lexer": "ipython3",
   "version": "3.6.9"
  }
 },
 "nbformat": 4,
 "nbformat_minor": 4
}