{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# Non-regular Optimal Points\n",
    "\n",
    "In this tutorial we explore strategies for dealing with non-regular optimal points, i.e., points where the first-order derivatives of the equality constraints and (active) inequality constraints are linearly dependent or when the number of active constraints exceeds the dimensionality of the output. In the former, the KKT conditions may still be satisfied but there are degrees of freedom in the Lagrange multipliers. In the latter, the system is overdetermined.\n",
    "\n",
    "Our examples are based on finding the nearest point to $x$ to some convex set defined by quadratic and affine inequality constraints, which has general form\n",
    "\n",
    "$$\n",
    "\\begin{array}{lll}\n",
    "    \\text{minimize}_u & \\frac{1}{2} \\|u - x\\|^2 \\\\\n",
    "    \\text{subject to} & u^T P_i u + q_i^Tu + r_i \\leq 0, & i = 1, \\ldots, p\n",
    "\\end{array}\n",
    "$$\n",
    "\n",
    "where $P_i$ may be zero (to give an affine constraint).\n",
    "\n",
    "These problems fall under the banner of so-called quadratically constrained quadratic programs (QCQPs). They do not have closed-form solutions but are convex and can be solved efficiently. Here we use `scipy.optimize.minimize`, which is not necessarily the best QCQP solver but available in most Python installations. Try [cvxpy](https://www.cvxpy.org/) for better convex program optimizers.\n",
    "\n",
    "To keep things simple we restrict the problems to $\\mathbb{R}^2$ and hold the first input dimension fixed at $x_1 = 2$ while sweeping over the second input dimension in the range $-4 \\leq x_2 \\leq 4$. Visualizations show the individual constraint functions for each problem as overlapping shaded regions; the darkest region defining the constraint set."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {},
   "outputs": [],
   "source": [
    "%matplotlib notebook"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {},
   "outputs": [],
   "source": [
    "import numpy as np\n",
    "import scipy.optimize as opt\n",
    "\n",
    "from matplotlib.patches import Circle, Ellipse, Rectangle, Polygon\n",
    "from matplotlib.collections import PatchCollection\n",
    "import matplotlib.pyplot as plt\n",
    "\n",
    "from matplotlib import animation, rc\n",
    "from IPython.display import HTML\n",
    "\n",
    "import warnings\n",
    "warnings.filterwarnings('ignore')\n",
    "\n",
    "eps = 1.0e-6 # precision for determining active constraints"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Example 1: Overdetermined\n",
    "\n",
    "The first example constrains the solution to a circle with two segments removed. We formulate this as the intersection of a (solid) circle constraint with two half-spaces,\n",
    "\n",
    "$$\n",
    "\\begin{array}{lll}\n",
    "    y \\in & \\text{argmin}_u & \\frac{1}{2} \\|u - x\\|^2 \\\\\n",
    "    & \\text{subject to} & u_1^2 + u_2^2 - 1 \\leq 0 \\\\\n",
    "    & & u_1 - u_2 - 1 \\leq 0 \\\\\n",
    "    & & u_1 + u_2 - 1 \\leq 0\n",
    "\\end{array}\n",
    "$$\n",
    "\n",
    "Below we visualize the constraint set. We also show the solution $y \\in \\mathbb{R}^2$ as a function of $x = (2, x_2)$ where $x_2$ is swept from -4 to 4. When $x_2$ is in the range $[-1, 1]$ all three constraints are active. This results in an overdetermined system of equations for computing $\\text{D} y(x)$ as we show below."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "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\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the 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"
    }
   ],
   "source": [
    "# visualize constraints\n",
    "u1 = np.linspace(-1.5, 2.5)\n",
    "t = np.linspace(0.0, 2.0 * np.pi)\n",
    "\n",
    "patches = []\n",
    "patches.append(Circle((0, 0), 1.0)) # h1\n",
    "patches.append(Polygon([(-1.5, 2.5), (2.5, -1.5), (2.5, -4.0), (-1.5, -4.0)], True)) # h2\n",
    "patches.append(Polygon([(-1.5, -2.5), (2.5, 1.5), (2.5, 4.0), (-1.5, 4.0)], True)) # h3\n",
    "\n",
    "plt.figure()\n",
    "plt.subplot(1, 2, 1)\n",
    "p = PatchCollection(patches, alpha=0.2)\n",
    "p.set_facecolor('b')\n",
    "plt.gca().add_collection(p)\n",
    "plt.plot(np.cos(t), np.sin(t), 'b-', linewidth=1)\n",
    "plt.plot(u1, 1.0 - u1, 'b-', linewidth=1)\n",
    "plt.plot(u1, -1.0 + u1, 'b-', linewidth=1)\n",
    "\n",
    "# define inequality constraints as h_i >= 0 to use scipy.optimize.minimize function\n",
    "h1 = lambda u: -1.0 * (u[0]**2 + u[1]**2 - 1.0)\n",
    "h2 = lambda u: -u[0] + u[1] + 1.0\n",
    "h3 = lambda u: -u[0] - u[1] + 1.0\n",
    "\n",
    "# solve a bunch of problems varying x_2\n",
    "x1 = 2.0\n",
    "x2 = np.linspace(-4.0, 4.0, 101)\n",
    "y = []\n",
    "for xi in x2:\n",
    "    # minimize the square distance to (2, xi) subject to constraints\n",
    "    result = opt.minimize(lambda u: (u[0] - x1)**2 + (u[1] - xi)**2, (0.0, 0.0), options={'maxiter': 100, 'disp': False},\n",
    "        constraints=({'type': 'ineq', 'fun': h1}, {'type': 'ineq', 'fun': h2}, {'type': 'ineq', 'fun': h3}))\n",
    "    y.append(result.x)\n",
    "\n",
    "# visualize optimal solution\n",
    "plt.subplot(1, 2, 2)\n",
    "plt.plot(x2, [yi[0] for yi in y])\n",
    "plt.plot(x2, [yi[1] for yi in y])\n",
    "plt.grid()\n",
    "plt.legend([r\"$y_1$\", r\"$y_2$\"])\n",
    "plt.show()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "We now animate moving the input $x$ and show the corresponding output $y(x)$. Note that the axes are not square (which is why the output may not appear visually to be the closest point in the feasible set). You can remove the comment `#` in front of the statement `ax.axis('square')` to force square axes."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 4,
   "metadata": {},
   "outputs": [],
   "source": [
    "%%capture\n",
    "\n",
    "def animate(fnum, x, y):\n",
    "\n",
    "    # draw constraints\n",
    "    ax.clear()\n",
    "    p = PatchCollection(patches, alpha=0.2)\n",
    "    p.set_facecolor('b')\n",
    "    ax.add_collection(p)\n",
    "    ax.plot(np.cos(t), np.sin(t), 'b-', linewidth=1)\n",
    "    ax.plot(u1, 1.0 - u1, 'b-', linewidth=1)\n",
    "    ax.plot(u1, -1.0 + u1, 'b-', linewidth=1)\n",
    "    \n",
    "    # draw x and y\n",
    "    ax.plot(x1, x[fnum], 'ko')\n",
    "    ax.plot(y[fnum][0], y[fnum][1], 'bo')\n",
    "    ax.plot([x1, y[fnum][0]], [x[fnum], y[fnum][1]], 'b--')\n",
    "    \n",
    "    # count active constraints\n",
    "    num_active = 0\n",
    "    if h1(y[fnum]) < eps: num_active += 1\n",
    "    if h2(y[fnum]) < eps: num_active += 1\n",
    "    if h3(y[fnum]) < eps: num_active += 1\n",
    "    ax.text(-0.95, 3.5, \"{} active constraint(s)\".format(num_active))\n",
    "    \n",
    "    #ax.axis('square')\n",
    "    ax.set_xlim(-1.0, 2.5); ax.set_ylim(x[0], x[-1])\n",
    "    return (ax,)\n",
    "\n",
    "# animate\n",
    "fig = plt.figure()\n",
    "ax = plt.subplot(1, 1, 1)\n",
    "ani = animation.FuncAnimation(fig, animate, init_func=None, fargs=(x2, y),\n",
    "                              interval=100, frames=len(x2), blit=False, repeat=False)\n",
    "plt.close(fig)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 5,
   "metadata": {},
   "outputs": [
    {
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       "\">\n",
       "  Your browser does not support the video tag.\n",
       "</video>"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "execution_count": 5,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "#HTML(ani.to_jshtml())\n",
    "HTML(ani.to_html5_video())"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Gradient Calculations\n",
    "\n",
    "The gradient calculation involves implicit differentiation of the KKT optimality conditions as discussed in [\"Deep Declarative Networks: A New Hope\"](https://arxiv.org/abs/1909.04866). Here we are required to solve\n",
    "\n",
    "$$\n",
    "\\begin{bmatrix} H & -A^T \\\\ A & 0 \\end{bmatrix}\n",
    "\\begin{bmatrix} \\text{D}y \\\\ \\text{D}\\lambda \\end{bmatrix}\n",
    "+\n",
    "\\begin{bmatrix} B \\\\ C \\end{bmatrix}\n",
    "= 0\n",
    "$$\n",
    "\n",
    "with the following quantities\n",
    "\n",
    "$$\n",
    "\\begin{array}{llll}\n",
    "    A &= \\text{D}_{Y} h(y) &= \\begin{bmatrix}\n",
    "         2 y_1 & 2 y_2 \\\\ 1 & -1 \\\\ 1 & 1\n",
    "         \\end{bmatrix} & \\text{for active $h_i$} \\\\\n",
    "    B &= \\text{D}^2_{XY} f(x, y) - \\sum_{i=1}^{3} \\lambda_i \\text{D}^2_{XY} h_i(y) &= -I \\\\\n",
    "    C &= \\text{D}_{X} h(y) &= 0 \\\\\n",
    "    H &= \\text{D}^2_{YY} f(x, y) - \\sum_{i=1}^{3} \\lambda_i \\text{D}^2_{YY} h_i(y) &= (1 - 2 \\lambda_1) I \n",
    "\\end{array}\n",
    "$$\n",
    "\n",
    "where inactive constraints, and corresponding Lagrange multipliers, are first removed (i.e., $A$ may have between zero and three rows). The equations can be solved to give\n",
    "\n",
    "$$\n",
    "\\text{D} y(x) = \\begin{cases}\n",
    "        I & \\text{if all constraints are inactive} \\\\\n",
    "        0 & \\text{if all constraints are active (since $C = 0$)} \\\\\n",
    "        I - A^T (AA^T)^{-1} A & \\text{if $h_1$ is inactive} \\\\\n",
    "        \\frac{1}{1 - 2 \\lambda_1} \\left(I - A^T (AA^T)^{-1} A\\right) & \\text{otherwise}\n",
    "    \\end{cases}\n",
    "$$"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "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\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the 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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       "<img 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\" width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "def gradient(x, y):\n",
    "    # compute D_Y f(x, y)\n",
    "    g = (y - x).T\n",
    "    \n",
    "    # compute A, B, C and H; only add to A if h_i are active\n",
    "    A = []\n",
    "    if h1(y) < eps: A.append(2.0 * y.T)\n",
    "    if h2(y) < eps: A.append([1, -1])\n",
    "    if h3(y) < eps: A.append([1, 1])\n",
    "    A = np.array(A)\n",
    "    \n",
    "    # check for all constraints inactive\n",
    "    if (A.shape[0] == 0):\n",
    "        return np.identity(2)\n",
    "    \n",
    "    # check for overdetermined\n",
    "    if (A.shape[0] == 3):\n",
    "        return np.zeros((2, 2)) # equivalent to np.linalg.lstsq(A, np.zeros((3, 2)))[0]\n",
    "    \n",
    "    # check if lambda_1 is needed\n",
    "    lmda1 = 0.0\n",
    "    if h1(y) < eps:\n",
    "        nu = np.linalg.solve(A.T, g)\n",
    "        lmda1 = nu[0]\n",
    "\n",
    "    Dy = np.identity(2) - np.dot(np.dot(A.T, np.linalg.inv(np.dot(A, A.T))), A)\n",
    "    return 1.0 / (1.0 - 2.0 * lmda1) * Dy\n",
    "\n",
    "dydx = []\n",
    "for xi, yi in zip(x2, y):\n",
    "    Dy = gradient((x1, xi), yi)\n",
    "    dydx.append(Dy[1, :])\n",
    "    \n",
    "# plot y and Dy\n",
    "plt.figure()\n",
    "plt.subplot(1, 2, 1)\n",
    "plt.plot(x2, [yi[0] for yi in y])\n",
    "plt.plot(x2, [yi[1] for yi in y])\n",
    "plt.legend([r\"$y_1$\", r\"$y_2$\"])\n",
    "\n",
    "plt.subplot(1, 2, 2)\n",
    "plt.plot(x2, [di[0] for di in dydx])\n",
    "plt.plot(x2, [di[1] for di in dydx])\n",
    "plt.legend([r\"$D y_{1,2}$\", r\"$D y_{2,2}$\"])\n",
    "plt.show()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Example 2: Rank Deficient\n",
    "\n",
    "In this second example the constraint set is defined as the intersection between a circle and an ellipse,\n",
    "\n",
    "$$\n",
    "\\begin{array}{llll}\n",
    "    y \\in & \\text{argmin}_u & \\frac{1}{2} \\|u - x\\|^2 \\\\\n",
    "    & \\text{subject to} & u_1^2 + u_2^2 - 1 \\leq 0 & (h_1) \\\\\n",
    "    & & \\frac{1}{4}(u_1 + 1)^2 + 4 u_2^2 - 1 \\leq 0 & (h_2)\n",
    "\\end{array}\n",
    "$$\n",
    "\n",
    "Again we visualize the constraint set and show the solution $y \\in \\mathbb{R}^2$ as a function of $x = (2, x_2)$ where $x_2$ is swept from -4 to 4. At $x_2 = 0$ both constraints are active. This results in $A$ being rank deficient."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "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\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the 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"
    },
    {
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\" width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "# visualize constraints\n",
    "u1 = np.linspace(-1.0, 2.0)\n",
    "t = np.linspace(0.0, 2.0 * np.pi)\n",
    "\n",
    "patches = []\n",
    "patches.append(Circle((0, 0), 1.0)) # h1\n",
    "patches.append(Ellipse((-1, 0), 4.0, 1.0)) # h2\n",
    "\n",
    "plt.figure()\n",
    "plt.subplot(1, 2, 1)\n",
    "p = PatchCollection(patches, alpha=0.2)\n",
    "p.set_facecolor('r')\n",
    "plt.gca().add_collection(p)\n",
    "plt.plot(np.cos(t), np.sin(t), 'r-', linewidth=1)\n",
    "plt.plot(2.0 * np.cos(t) - 1.0, 0.5 * np.sin(t), 'r-', linewidth=1)\n",
    "\n",
    "# define inequality constraints as h_i >= 0 to use scipy.optimize.minimize function\n",
    "h1 = lambda u: -1.0 * (u[0]**2 + u[1]**2 - 1.0)\n",
    "h2 = lambda u: -1.0 * (0.25 * (u[0] + 1.0)**2 + 4.0 * u[1]**2 - 1.0)\n",
    "\n",
    "# solve a bunch of problems varying x_2\n",
    "x1 = 2.0\n",
    "x2 = np.linspace(-4.0, 4.0, 101)\n",
    "y = []\n",
    "for xi in x2:\n",
    "    # minimize the square distance to (2, xi) subject to constraints\n",
    "    result = opt.minimize(lambda u: (u[0] - x1)**2 + (u[1] - xi)**2, (0.0, 0.0), options={'maxiter': 100, 'disp': False},\n",
    "        constraints=({'type': 'ineq', 'fun': h1}, {'type': 'ineq', 'fun': h2}))\n",
    "    y.append(result.x)\n",
    "\n",
    "# visualize optimal solution\n",
    "plt.subplot(1, 2, 2)\n",
    "plt.plot(x2, [yi[0] for yi in y])\n",
    "plt.plot(x2, [yi[1] for yi in y])\n",
    "plt.grid()\n",
    "plt.legend([r\"$y_1$\", r\"$y_2$\"])\n",
    "plt.show()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 8,
   "metadata": {},
   "outputs": [],
   "source": [
    "%%capture\n",
    "\n",
    "def animate(fnum, x, y):\n",
    "\n",
    "    # draw constraints\n",
    "    ax.clear()\n",
    "    p = PatchCollection(patches, alpha=0.2)\n",
    "    p.set_facecolor('r')\n",
    "    ax.add_collection(p)\n",
    "    ax.plot(np.cos(t), np.sin(t), 'r-', linewidth=1)\n",
    "    ax.plot(2.0 * np.cos(t) - 1.0, 0.5 * np.sin(t), 'r-', linewidth=1)\n",
    "    \n",
    "    # draw x and y\n",
    "    ax.plot(x1, x[fnum], 'ko')\n",
    "    ax.plot(y[fnum][0], y[fnum][1], 'ro')\n",
    "    ax.plot([x1, y[fnum][0]], [x[fnum], y[fnum][1]], 'r--')\n",
    "\n",
    "    # count active constraints\n",
    "    num_active = 0\n",
    "    if h1(y[fnum]) < eps: num_active += 1\n",
    "    if h2(y[fnum]) < eps: num_active += 1\n",
    "    ax.text(-2.95, 3.5, \"{} active constraint(s)\".format(num_active))    \n",
    "    \n",
    "    #ax.axis('square')\n",
    "    ax.set_xlim(-3.0, 2.5); ax.set_ylim(x[0], x[-1])\n",
    "    return (ax,)\n",
    "\n",
    "# animate\n",
    "fig = plt.figure()\n",
    "ax = plt.subplot(1, 1, 1)\n",
    "ani = animation.FuncAnimation(fig, animate, init_func=None, fargs=(x2, y),\n",
    "                              interval=100, frames=len(x2), blit=False, repeat=False)\n",
    "plt.close(fig)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 9,
   "metadata": {},
   "outputs": [
    {
     "data": {
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       "AAQAAAAAAQAADAAAAAABAAAEAAAAAAEAAAwAAAAAAQAABAAAAAABAAAQAAAAAAIAAAQAAAAAAQAA\n",
       "DAAAAAABAAAEAAAAAAEAAAgAAAAAAQAAEAAAAAACAAAEAAAAAAEAAAwAAAAAAQAABAAAAAABAAAI\n",
       "AAAAAAEAABAAAAAAAgAABAAAAAABAAAQAAAAAAIAAAQAAAAAAQAAFAAAAAABAAAIAAAAAAEAAAAA\n",
       "AAAAAQAABAAAAAABAAAQAAAAAAIAAAQAAAAAAQAAEAAAAAACAAAEAAAAAAEAABQAAAAAAQAACAAA\n",
       "AAABAAAAAAAAAAEAAAQAAAAAAQAAFAAAAAABAAAIAAAAAAEAAAAAAAAAAQAABAAAAAABAAAMAAAA\n",
       "AAEAAAQAAAAAAQAAFAAAAAABAAAIAAAAAAEAAAAAAAAAAQAABAAAAAABAAAUAAAAAAEAAAgAAAAA\n",
       "AQAAAAAAAAABAAAEAAAAAAEAABQAAAAAAQAACAAAAAABAAAAAAAAAAEAAAQAAAAAAQAAFAAAAAAB\n",
       "AAAIAAAAAAEAAAAAAAAAAQAABAAAAAABAAAQAAAAAAIAAAQAAAAAHHN0c2MAAAAAAAAAAQAAAAEA\n",
       "AABlAAAAAQAAAahzdHN6AAAAAAAAAAAAAABlAAAoAgAAAyIAAAEtAAACagAAAOYAAAIYAAAA/QAA\n",
       "AjUAAAEdAAACigAAASwAAAD8AAACQQAAAREAAADlAAABBAAAAhIAAAEWAAAA0wAAANIAAAILAAAA\n",
       "vQAAAgMAAADyAAAA1QAAAgAAAADxAAAA3QAAAa0AAACnAAABxwAAALUAAADEAAAB3gAAANQAAACX\n",
       "AAAB6wAAAN4AAACwAAAAqgAAAYEAAACaAAABZQAAAI0AAAFsAAAAswAAAGEAAAFOAAAAfAAAAPMA\n",
       "AAGOAAABVAAAAIMAAAF5AAAAgwAAATgAAAGwAAAAzQAAAJQAAAHcAAAAxgAAAI0AAAIiAAAA8AAA\n",
       "ALgAAACgAAACEgAAAOAAAACZAAACOQAAAOcAAACZAAACfgAAAQcAAAC8AAAAvgAAAoMAAAEfAAAA\n",
       "4QAAAMcAAAInAAAArQAAAncAAAEqAAAA9wAAAPIAAAKlAAABVAAAAOEAAAD4AAACWwAAARAAAAEP\n",
       "AAABCgAAAkIAAAE9AAAA8wAAAQoAAAHDAAABkAAAAVsAAAAUc3RjbwAAAAAAAAABAAAALAAAAGJ1\n",
       "ZHRhAAAAWm1ldGEAAAAAAAAAIWhkbHIAAAAAAAAAAG1kaXJhcHBsAAAAAAAAAAAAAAAALWlsc3QA\n",
       "AAAlqXRvbwAAAB1kYXRhAAAAAQAAAABMYXZmNTguMjkuMTAw\n",
       "\">\n",
       "  Your browser does not support the video tag.\n",
       "</video>"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "execution_count": 9,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "#HTML(ani.to_jshtml())\n",
    "HTML(ani.to_html5_video())"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "### Gradient Calculations\n",
    "\n",
    "As for the previous example the quantities needed for determing $\\text{D}y(x)$ are\n",
    "\n",
    "$$\n",
    "\\begin{array}{lll}\n",
    "    A &= \\begin{bmatrix}\n",
    "         2y_1 & 2 y_2 \\\\ \\frac{1}{2} (y_1 + 1) & 8 y_2\n",
    "         \\end{bmatrix} & \\text{for active $h_i$} \\\\\n",
    "    B &= -I \\\\\n",
    "    C &= 0 \\\\\n",
    "    H &= \\begin{bmatrix}\n",
    "         1 - 2 \\lambda_1 - \\frac{1}{2} \\lambda_2 & 0 \\\\\n",
    "         0 & 1 - 2 \\lambda_1 - 8 \\lambda_2\n",
    "         \\end{bmatrix}\n",
    "\\end{array}\n",
    "$$\n",
    "\n",
    "At $y = (1, 0)$ the matrix $A$ is rank deficient, which occurs for any point $(x_1 \\geq 1, 0)$. Here we need to remove one of the rows of $A$ before solving for $\\text{D}y$. A good rule of thumb is to keep those constraints where the rate of change of the objective is steepest relative to the curvature induced by the constraint surface. That is, remove from $A$ rows that are linearly dependent on other rows and with the smaller $\\text{D}_{Y}f (\\text{D}_{YY}^2 h_i)^{-1} \\text{D}_{Y}f^T$."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 10,
   "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\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the 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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/wHe2WzTIikR2Pp/wMb/ASkPt8hW6qC8DfHwsk0mRzk1AbPHGT0Wx6UTkLFjx8rK5cnJyfj6669RtWpVtGnTRnJv1aoVKlWqhEcV00V9jxkzZjxek+PHjyM4OFjWA3n33Xflz0UldPHmQ1RCL1OmjNXrR4e2GpnTDLgeE4fvVhzBn/uuPNZZnOtoX6Mg+r9UUp7rcEQ7dDkaY9afxOrD1x5P7+GWCb1eLI73GpYy/5cVR0B38JxmjzNmsy8i+j52n7uN8PO3IT6vRyPupHlOzBK3Ep9tsZ2zZrGcaFwuUL7xdBf7Pc3SxNapvz8Cdk9VLHLzBFqPAyp30MbCCzuA+Z2A+7cUecXqA50WAF48S6cNYOeRYrY44wjyLp2AFC1aFOfPn0+T+/Tp09GjR490ExAx6MCBAxg8eDC2bdsmZdStWxc//PCDTFxsaXRoW6gZe4zYbrVo90V8//cxRN9/uBVAJLiV8+PjpmVQKKcx/nCJQ/AiQdp59uEfVgCFcmbGsNcqol5pHro0tpdZp53Z44yz2ydq+2w7dQObT1yX57fO3Lhn0QJn9XKHj6e7TCjETd3iDNh9USfoOU3UDGoTZJILKcSbj5WfAGETFYu9/YCOcwFxi5WWTdymNacNEPXwu0PxBkoS4umj5SyUZXACzh5njIDXpRMQIyxAah3o0EZbEXX6XLodi0+XHpTX6T5q4ozHt60roIoOW62s1V4kS+JQ/Ld/HZFbPB619tUL4osW5eDnk86BTWsnYn+HEjB7nHFG+8QNdmuPXMPKQ1ex5eR1PEhIdVtTKm/J5++D8vn98EJePxTPnVVuqyqQPQtyZPWEt8e/t1bFJybjavQDXLgVixPXYmRdIfEmJfXnW4gXRyIavhCIDxqXRrn8fg71T5smF8mHuOlKHBoXLUsA0P0vILC8TeIyHHQ3EpjVGog8onQt3QzoMDv9Q+0ZCmQHZyPgjHHGaIyZgBhoRejQBloMFaqIL/ILdl3Ed8uPPN4qkcXLHR81KSPPeRh9y4N4cvrT2hOYtu2sfJIqmvjiM6JdJbxYim9DVLiGIYaaPc44i30iOdhwPBK/77mM9ccjIf79bBNnscQteDWL50T1IjmR11/9U3YRn45fi8HqQ9fw+95LOJfqQgqRiLxepQA+bFrGYdtCbfqQbBsNrP1KGSqqmHdfDuSzbSeCxfPHXANmvArcPKUMEWdCXp/Ig+kWA3Tujs4SZ4xMmQmIgVaHDm2gxbBRlejYBHz62wH5JPNRe7FULgxvUxEFcxhju5Wlpu2/GIWPl+zHiWt3Hw/pW684PmxSxuorgS2dk/3sT8Dsccbo9h2/GoP5YRfw577LuB37ZFumWHlxRkMkG43LBqJh2UC7b9EUB9o3n7yOqVvPyu1ej5o4wP75q2XRKbiQPNBu6HZ0ObBQFP1NAbx8gW5/AgWr66Ny9CVgWjMg+oIy38tfKFf8spmegNHjjDMsABMQA60SHdpAi2GDKnsu3MageXsfb28Qbz2+aF7OOf6Ip2NvXGISfvnnJMZvPP34bUjlgv4Y+2aQ3b8c2bAEHGIBAbPHGSPaJ851rDgQgbk7z2PPMzV/xPf72sUD5LmwVyrkRfYsjrlVKfT0Tfxv1TGIBw+pH578X/sqml8JboGbWtZF1PmY9gqQEAtkcgM6LwZKNrJsrFa9rp8ApjYCHkQrEt+YAZR/XSvplGNQAkaMMwZFla5aTEAMtGJ0aAMthhWqiC0Ns3ecx3+XH0FCkrJnqUIBP4zpFGSa62x3nrmJ9xfuk5XWRcuexRM/d6iCl8rksYIUuxqBgNnjjJHsEzdYzQo9j4W7LsqrclO3Ermzol21Qni9agFNtlZp4Vsils0Lu4DvVxx9vH1UbL+c2LUaKhW0/xXhVtlw7wYwsR5w57IyTNT4qNnHKhGadT69AZjTVrmi1yMz8PYa+28B00x5CrKFgJHijC36G2EMExAjrMJDHejQBloMC1URTzY/++0gft/78I8ggLfqFMMnzcqkeSjUQrGG7BYVG4+PFh/AuqPKlb3iye37DUtj0Msl4WamqzwNSV87pcweZ4xg34FLUZi85Sz+PhiBpEcHqQC5dbFFxXzoVLMwqhfJYdjtTRdvxeKjxfsf34rn7eEmz4C1rlJAO0dUIyk5SfnCf2aDIqVGL6D5j2okqh+7exqw/D+KnBzFgL6blPMobKYkYIQ44+xgmYAYaAXp0AZaDAtUEU83+8wKx8HLyqt3cQ3miHaV0bzSk4KVFohxqi5iz/j4Tafx45rjj7dkNauQFz+2r4wsXh5OZYurKmv2OOMo+8RnQxwqn7T5zFPXWQs/K5gjM7rWKoL21QshR1bHbLGy1t8TkpIxbMVRzNh+7vHQ716rgC61ilgrSvv+oiDgxuGK3MK1lRuv3A1wS9+yd4E9MxW9yrYE2s/moXTtV98QEh0VZwxhvEZKMAHRCKQWYujQWlDUR8beC7fRZ3Y4RIFB0cSVmJO6VkfJPL76KODgWUSdgnfm7ZHVl+Xf2nx+mNK9unPdnONgho6a3uxxRm/7EpOSsfxAhDwnJW6XSt2Ci+bEW3WLyaJ/Rr/9Lj1/FHWMPv/tIBIfvsn5skU5vF23mKPcFxDbnWaLMxYpQJZcQL8tgF9+x+mTeuaE+8DUxsDVg8pPRfX1Wv2NoRu10JSA3nFGU+UNIowJiEEWQqhBhzbQYjxHlZUHI+R5iLiH12bWL50bY96s6nJ1Mi7cjEXvWbsff+nKnc0b07rXQMWC3HZgZE+2JM4kJSVh5MiRmDJlCi5evIhChQqhV69e+Pjjj+Hu/u96E6ntXbNmDZYsWYLw8HAcPHgQCQkJOHv2LETh17TaoUOHZEHXrVu3yl+Lgq4jRoxAhQoVbMJoiX02CX5mkLigYWn4ZUzYdFrW2XjUxG7EVyvmQ596xY13bsJGw9ccvoqB8/YiPkm5Knhoy3LoUccBSUjsLeDX2sBdcctgJqDr70CJBjZaZadhN08Dk14C4u4A7l5An432q0diJxMoNmMCesWZjDVx3h5MQAy0dnRoAy1GGqqIA5qTt5zB8JXHIOpeidarbjF89mpZp326qZb43bhEvL9gL9YdjZSiMnu645dOVeUTXzZjErAkzgwYMADjx49Hz549ERISgu3bt2P69OkQPx83btxzDevRowfmz5+PihUrIi4uDiLBSC8BOXnyJGrUqIGcOXNi0KBBUu4vv/yCqKgohIWFoVSpUlZDtMQ+q4WmGiDOfYlD5eKNx9U7yqUMoolzEmKLlUg8CuV0riu3LeGx8Xgk+s4Olw9exPmv8Z2D8EoFHbebiqC7uAdw5A9F3Rc/Ahp+aYnq+vc59BuwpKcyb2AFoPd6wMNbfz04o90I2DvO2E1xAwlmAmKgxaBDG2gxnlFFHCQVt1w92g8ttlN806q8MfZDOxibYPPdiiOYvk3ZKy6eAItq74bYK+5gNkacPqM4I95aVK5cWSYEo0ePfmzCe++9hzFjxmD//v0yuUivXb58Gbly5YK3tze++OILDBs2LN0EpF27dli1ahWOHj0q37KIJt64lC1bFs2aNcPixYutRpiRfVYLfDhAJB6ifodIPCIfbr0UvxJnv7rWLiq3JYm3gGZu649dQ6+Zu+X5L5FwzetdE9WK5NTH5AOLgN96K3PlqwL0WmeMcx/pWb+0N3BwkfLbOu8Djb/RhxNn0YWAveKMLsobZBImIAZZCKEGHdpAi5FKFfHF48NF+7HiYIT8qfjCMa5zEK+gfWa5Zmw7i2+XH3l8OP3dhqXwn0alDHvTjzG9zf5aZRRnhgwZgu+//x5nzpxBsWJPttmItxjFixfH559/LpMKS9rzEpC7d+8iICAAHTt2xMyZDw/uPhTavXt3LFy4EDdu3ICvr3XnqjKyzxK9U/cRW60WhF3EuA2nnko8/Hw80LNOMfSsU9RhtTustUWL/qKWyZDfD0lRObJ4Yvm7L9r/7Jco+PdrCBAXDXj4AH03A7nLaGGO/WTcjwLGhzy8JjgT0HMlUKS2/eajZF0JaB1ndFXeIJMxATHIQjABMdBCpFJFbDHqPXM3Qs/clD/N5euNGT1roEIBnnNIa8VWHbqKdxfsRfzD8zGdggtD3JzjrAdwjemV6rTK6A9n06ZN5VuOq1fFPvunW2BgIKpWrSrfWljSnpeAhIaGyu1dYqtXv379nhInfia2e4k+tWrVsmSqx30yss9SYeIWqMW7L2HM+pOP69+Isf6ZPeXWy+51irrcua9H7EasOoZfN56W/6xaODsW9qktrxi2SxNbr+a0AU6vV8Q708HuM5uAWa0UvcXVvP23AV5Z7YKJQvUloFWc0VdrY83GBMRA60GHNtBiALJwWI/pYThwSblmt1iurJjZMxiFA8y3v1tL8rvO3cLbM3bhzoNEKVZcS/xT+yr2+4KipfIuICujOCO2V3l5eclD5M+2oKAgeahcbNOypD0vAVm6dCnEFqxly5ahZcuWT4kTP2vdurU8zN62bdt0p4qIiID4L3UT27m6dOki9Rf6WtvElsI/913Gz+tOPnW4XLzx6P1icfSoUxTZfAxw5au1hmnYX1w5/NbMXdh4/LqUKhKyL1qU03CGVKJ2TweWv6/8oOiLQLdlgJudkh17WLDyE2DnBEVyjd5A81H2mIUydSaQURzVWR2nnI4JiIGWjQ5tnMW4Gv0AXabuxKnIu1IpUdlcJB8Bvube463VChy/GoOuU3c+3rJSr3RuTOxSDZm9nn+DklbzU076BDKKMyVKlIB40yEOnj/bxBuLyMhInDp1yiLEz0tAZs+ejW7dumH16tVo0qTJU/LETVriTYzoI5KJ9NrQoUPxzTdp7623NgERl0ysPnwVP645gZMPP/diXl9vD3mVrjjjId5+sCkExAOa5r9sefx2aHK36tpfPnH7vLKNKf4u4OUL9N8O5DBAHRJrnCD+HjChLnDrjDJKJFDF61sjgX0NSCCjOGpAlQ2nEhMQAy0JHdoYiyGqAL85ZQcu3rovFQoulhNTu1d3+aee1q6O4Nh5ys7HT5FFTYSpPcjRWo5a988ozrjaGxCReGw9dQMjVx9//LZTMPfxdEP3kKLoV6+E0xQP1NpXMpIXfv4WOkzcIWuE5PL1wtr/1NeOldh6Nas1cHaTokbL0UC1HhmpZMzfX9gBTHtFqV3iXxgYEAp4W3e2yZiGua5WGcVR1yVjueVMQCxnZfeedGi7I85wgtPX76LLlJ2Pn+o1KJMb47tUg48nn9xnCC+NDpF3HqDr1LDHtUIqF8qOmT1ruNShXVu42XNMRnHG1c6ApD7PILh7ubvhzZqFMaBBCeTJ5mPPpTCF7LHrT2LUmhPSlterFsBPHapoY9feucCfAxRZJRoCXZY6d1XxNV8A28co9tR6B3jle204UYpDCGQURx2ilJNNygTEQAtGh3bsYpy8FoNOk3fixl2luvmrFfPi5w5VeXZB5bLcvhePrtN24tDlO1JSuXx+mNurpnZPSlXq52rDM4oz4par4cOHO/wWrAULFuDmzZt2vwXr0OVotBizVV4f3SaoIN5vVAoFc/Ccl6WfC3FY/7Vx23D4ivL5Fm+LG5ZVWQfo7nVgXA3g/m3AMyvwzg4ge2FLVTJmv/hYYHxt4PY5IJMb0OsfoID1Z5SMaZzraZVRHHU9ItZbzATEemZ2G0GHthvaDAWLMwtvTt6Bm/fiZd82VQtgRLtK8HB3osOOGVrpuA7R9xPQc3oY9lyIkkq8kDebTEJ4pkb/NckozogbsMRNV+nVAdm3bx8qVaokD6OfPn0a/v7+yJcv7YJ0GdUBEQfMxRmQY8eOoWDBghLGozog4k2MOKhubcvIvrTkTdlyBvVL50apwGzWTsf+AA5fiUbrsdvkVqxAP2+s/aC+uhvClrwNHFqisG06HKj98E2Is9M+vQGY/ZpiRd6KQO8Nxq5l4uy87ai/LXHGjuo4pWgmIAZaNjq0YxbjaMQdeVZBHKoUrUP1QhjepiLcxCNRNs0IiCuN35q+C2HnbkmZpZNpPkAAACAASURBVAN9Ma93LXm1MZt+BCyJM+Ja3IkTJ8pK6HXq1MG2bdtkJfS+fftiwgTlRp9z587JOiGiZseMGTMeG3DgwAF5s5Vo69atw6ZNm/Dhhx8ie/bs8r+BAwc+7nv8+HEEBwfLeiDvvvuu/LmohC7efIhK6GXKWF/rwRL79KPtOjP9uOY4xqxXLicQ1eA/f7WsbcafXAfMfXjzWf6qypsCNxNtgf29H7B/vsKm8bdAnfds48RRDiXAOKMePxMQ9Qw1k0CH1gylxYJE8iHefNyOTZBjxN7v71pXYPJhMUHrOsbGJ+KtGbuw4wyTEOvIadfbkjiTmJiIESNGYMqUKbh06ZJ8O9GrVy8MHjwYHh4ez01ARDIiEpe0WpEiRWTikrqJhEXIFUmOaHXr1sUPP/wg37LY0iyxzxa5HPN8AqJgY+P/2ywvnfB0z4Q1/6kvry63qiXcB36t9XCbkjvQZyOQzzY/sGpePTvfu6lsL4u9CXhmAd4JA7IX0lMDzqUBAcYZ9RCZgKhnqJkEOrRmKC0SdOyqSD6evPnoUqsw/tu6Ait3W0TP9k7345Pw9sxd2H5aKe5YJjAb5vXmdizbiVo30uxxxuz2Wbfa+vYWhUj7zVHqxzQuFwhxNa9Vbf13wOaRypDaA4Gmw6wa7jSd980D/uivqFumOdBpntOoTkUVAowz6j2BCYh6hppJoENrhjJDQeLAecdJT858MPnIEJmmHZ5NQsSZkPm9a/FguqaU0xZm9jhjdvt0cBGbpxBXGouHOqFnlIcL4pxXnZK5LJN3/YRS8yM5AfArALyzE/A26ZkcccXwjObAeeWtHzrOB1541TJO7GUIAowz6peBCYh6hppJoENrhvK5gsRVu+Lu+ke3XXHblT7cn51FJCFiO9ajLyvl8/thXq9a8M/CYm/2XBGzxxmz22dP39BCttjWKgoUJqcAZfP5YcWguhlvaZU1P1oBZzcrKrSfDZRrpYU6xpUReQyYUAdITgT8CykJl5eVW9aMa53pNWOcUb/ETEDUM9RMAh1aM5TpCjp/8x7aTwzFtTvKVbs8cG5/5s+bQZwJ6THtycH0ygX9MbtXTXU36DjWJMPPbvY4Y3b7DO9gAD5degALdl2Uqo7vHIRmFdO+Je2xLQeXAEvfVv5Zqgnw5iLnrvlh6SKtGwps/Unp/eKHQMOvLB3Jfg4mwDijfgGYgKhnqJkEOrRmKNMUdDnqPtpPCIX4X9HaBBXAqHaVM346Z1+1XF66uB2r29Sdj6/orV4kB2a9HYwsXsphZzZtCZg9zpjdPm29wT7SRIx9aeQGJCSlyDNeK997Mf04GxcDjKkO3L0KuHsrbwJyFrOPYkaTGn8PGFcTiL4IuHkqFdJzlTKaltQnDQKMM+rdggmIeoaaSaBDa4byX4Ku3Xkg33ycvxkrf9eycn783KEK3HnVrv2gWyH5zoMEdJ2yE/svRctRISUCMK1HDVagt4KhpV3NHmfMbp+l6+zofl/8cRBzdlyQaox9sypaVMqftkqrhwChY5XfvfQZ8NKnjlZd3/mP/gUs7KLMWbwB0PV313j7oy9lzWdjnFGPlAmIeoaaSaBDa4byKUE378bJA+cnI+/KnzcpF4hxnYPgySKD9gFuo9So2Hi5TseuxkgJDcrkxsSu1VmJ3kae6Q0ze5wxu30au4PdxEVE30f9ERsRn5SMUnl8ser9ev9+4HPtCDChLpCSBOQoCgzYCXj62E0nQwoW51/mvgGcWquo98YMoPzrhlSVSj0hwDij3huYgKhnqJkEOrRmKB8LEk/WO03agcNX7sifiWrHk7pVg7eHiQpbaY/NYRLFxQAdJobi9PV7UofmFfNhdMcqrEiv4YqYPc6Y3T4NXcHuor7+8xBmhp6X8/zrLYi8CaoFcH6rooc491G6qd11MuQEN08r9U+S4pUbwAbu4oF0Qy4UExAtl4UJiJY0VcriH06VAJ8ZLg44d5saht3nb8vf1CyWEzPfCua2Hm0xay5NbJd7Y0KoLGgmWrtqBTGibSWe1dGItNnjjNnt08gNdBFzNfoB6o3YIN+CiAsm/ninzpM6S6kPnpd5Fej0sDq4LpoZcJLUNVB4IN2AC/S0Sowz6peICYh6hppJoENrhhKiKm+vmbux5eQNKbRyoezyTnpfbx5s1o6y/SRdvBWLdhO2P76trEdIUXzdshyLRGqA3Oxxxuz2aeACuor4aPF+LAm/JOdc3K82ahTNCcTdBcZWB2IilIPnA8OULViu3OJjgXHByoF0dy9gwA4goIQrEzG07Ywz6peHCYh6hppJoENrgzIxKRmD5u/FykNXpUBR5G5Bn1rInsVLmwkoRRcCpyJj0H7iDty6Fy/ne69hKfyncWld5jbzJGaPM2a3z9l8U9QFaTZ6i1RbnL+bJKqjr/0K2DZaMaX+p0CDz5zNLPvoe2QZsKirIrtkI6DzEh5Itw9p1VIZZ1QjBBMQ9Qw1k0CHVo8yOTkFnyw9gMUPn7gVDciCRf1qI082FzvYqB6lISQcuhwtz/DExCVKfb5oXha9XixuCN2cVQmzxxmz2+eMftd16k75NjpTJmDLWwVRcH5DpeJ59sLAO2GAZ2ZnNEt7ncW5mNmvA2c2KLJZIV17xhpJZJxRD5IJiHqGmkmgQ6tDmZKSgmErjmLK1rNSUF4/H/nKv1DOLOoEc7RDCYSdvQXxBSYuMVnqMeqNyvJcCJttBMweZ8xun22r7thRm05cR/dpYQBSsDb3aJSKEf9fVIKdC5Rt4VjljDb79RPA+NpKhfTsRR4maHyAZrRlYpxRvyJMQNQz1EwCHVodynEbTmHk6uNSSI4snjL5KJknmzqhHG0IAhuOR6L3zN1ITE6RV3mK6spNyuc1hG7OpoTZ44zZ7XM2fxP6iodDr/y8BUWur8ckr4eVv0s0BLos5RajtBZ0zZfA9l+U3zQYAtQf7IzLbmqdGWfULy8TEPUMNZNAh7Yd5Zwd5/HFH4ekgKxe7pjfpxYqFcxuu0CONByBZfuv4L0FeyF2KXh5uGFmz2DULhFgOD2NrpDZ44zZ7TO6f6Wn38LtJxCy6lUUcruOpEwecH9nB6t+pwcrdXV4j8zKIX2xXY3NMAQYZ9QvBRMQ9Qw1k0CHtg3l8gNX5KHzR19MZ/SsgZASuWwTxlGGJpA60RQ3monLBSoU8De0zkZTzuxxxuz2Gc2fLNUn7p/h8N7yP9l9kXdbvPHpVN5q9zx4+xcCv/dRepRtBXSYbSlq9tOBAOOMeshMQNQz1EwCHdp6lJtPXMfbM3chISkFbpmA8V2qoSm35lgP0olGjF1/EqPWnJAaB2T1klvtiuf2dSILHKuq2eOM2e1zrPfYOPvt88oVs4kPcC0lO16O+xFzBjRE1cI5bBToAsPEE7VprwAXdyjGdv0DKNHABQx3DhMZZ9SvExMQ9Qw1k0CHtg7l3gu38ebknbifkCQHjmhXCe2rF7JOCHs7HQGxn/y/y49i2jblsoEC2TNjaf8Q5PXnQU1LFtPsccbs9lmyxobrs7ALcPQvqda78e9gWXIdvFGtIEa+UdlwqhpKoYgDwKT6QEoykKsM0H8b4O5pKBVdVRnGGfUrzwREPUPNJNChLUcpakS0mxCKqNgEOeizZi+gb30WbbKcoHP3FNctf7h4P37fe1kaUjrQF4v61matFwuW1exxxuz2WbDExupyer1ytaxohUPQ6t7nOHD5Dnw83RA2pBH8fPiF+rkLtuJDYNcUpUuTYUDIQGOtr4tqwzijfuGZgKhnqJkEOrRlKK9E3Ufb8dsREf1ADuhbrzg+e7WsZYPZyzQEEpKS0Xd2ONYfi5Q2BRUW1e5rIbOXu2lstIchZo8zZrfPHj5hN5mJ8cCEOsCNE0AmN6DvZiy44I9Pfzsop/xv6/LoWtvFK6BnBD/2FjCmGnD/FuCVDRi0G8jGGwAzwmbv3zPOqCfMBEQ9Q80k0KEzRnn7XjzemBiKU5F3ZWfxGl9svcokKlyxuRyB+/FJ6DJ1J8LP35a2NyiTW1Za9nR3czkWlhps9jhjdvssXWdD9BPVzkXVc9GC+wCvjsS9uEQED1uHe/FJqFo4O34fUMcQqhpaid3TgeXvKypW6gC0mWRodV1BOcYZ9avMBEQ9Q80k0KGfjzI2PlGe+dh3MUp2bFQ2EBO6BMGDXzY180FnFBQdm4D2E0Nx/FqMVL9N1QKyWKGbuJWA7V8EzB5nzG6f07j0nSvA2BpA/F0gSwAwKBzIrBw6/2DRPvy2R9k+ufGjl1A0V1anMcshiiYnAVMaAlf2KtP3XAkUCXGIKpxUIcA4o94TmICoZ6iZBDp0+ijFdpteM3dDVNQVLbhoTsx6Oxg+ntxuo5kDOrGgq9EP5La8y1H3pRW96hbDkOZl+WYsjTU1e5wxu31O8zFd8jZwaImibqsxQFC3x6pvOXkdXacq1dDfa1gK/2lc2mnMcpiil3YrSYhogRWAPpsAdw+HqePqEzPOqPcAJiDqGWomgQ6dNspnDxy/kDcbFvatDf/MPLyomfOZQNDp63fxxoRQ3LoXL635tNkL6MeLCf61smaPM2a3zyk+que2AjOaK6oWqA68vRZwe7ItMik5BbWH/4PImDgUCcgi34JwG60FK/vnO8DeOUrHZiOBmg/rhFgwlF20JcA4o54nExD1DDWTQIf+N0px5eqwFUcxZeuTK1d/GxCCQD9euaqZ45lI0P6LUeg0eQdi45WrmcVWrHbVCprIQvWmmD3OmN0+9R5gZwlJCcDEekDkEQCZgN7rgQJB/5p02IojmLxFiesipgexJkjGC3PvBjAmCHgQDXj7KwfSffNkPI49NCfAOKMeKRMQ9Qw1k0CH/jfKiZtOY/jKY/IXObN6YQmLzmnmb2YVJLZ3vDVDKU7p7pYJk7tVw8svBJrVXKvtMnucMbt9Vi+43gO2jwXWDFFmrdYDaDk6TQ0OX4lG81+2yt91q10E37auoLemzjlf2GTg748U3Su/Cbw+3jntcHKtGWfULyATEPUMNZNAh34a5ZLwS/ho8X75wyxe7pjfuxYqF8quGW8KMi+BP/ddxnsL9kkDRb2Beb1r8Qnrw+U2e5wxu32G/tSmPnieOady8DxLzjRVFm+3m/68GSeu3UWOLJ6yJghvr7NgdcWB9EkvAVcPKJ17rgKK1LZgILtoSYBxRj1NJiDqGWomgQ79BOX6Y9fQe1Y4xF5hT/dMmNq9BuqVzq0ZawoyP4FpW8/i2+ViGwiQPYunfHtWMk828xuegYVmjzNmt8/QDrzkLeDQUkXFZw6ep6X3uA2nMHL1cfmrWW8FM8ZburgXdwFTGym985SX9VV4IN1SeNr0Y5xRz5EJiHqGmkmgQyso91y4jTcn78CDhGT579Edq6B1lQKacaYg1yHww6pjGL/xtDQ4v78Plg4IQT7/zK4DIA1LzR5nzG6fYZ33zEZgVmtFvYI1gLfWPHXwPC29z924h5dGbZS/6hRcGMPbVDSseYZT7M+BwN7ZilpNvwdqv2M4Fc2sEOOM+tVlAqKeoWYS6NDAqcgYtJsQiqjYBMn1yxbl8HbdYpoxpiDXIiC2eQxecgCLwy9Jw0sH+mJx3xD4Z3HdG9TMHmfMbp8hP8GJccD4EODmKaXiee8NQP4qFqn6ys+bcexqDAKyesltWOLcFpsFBO7dBMaKCum3AS9fYOAuwC+/BQPZRQsCjDPqKTIBUc9QMwmu7tAR0ffR9tftuBL9QDLtW784PmtWVjO+FOSaBBKTktF3djj+ORYpAVQvkgNzetV02RoyZo8zZrfPkJ/iTSOBDd8pqgX3BV4dYbGav/xzEv+39oTsL8751S4RYPFYl+8YPgP46z0FQ7nXgPYzXR6JXgAYZ9STdtkEJCkpCSNHjsSUKVNw8eJFFCpUCL169cLHH38Md/eMi9vNnTsXY8aMwfHjxyGespYsWRJ9+vSRMtxS3XduzRK5skM/W826bVBBjHqjEu+Gt8aB2DddAvfjk9B5yg7suRAl+zQqG4gJXYLg4f6kNoGr4DN7nDG7fYbz01tngV9rAYkPAN9A5Um8j7/Fap68FoPGP22W/bvXLoJveBuWxeyQnAxMawJc2qWM6bIUKPnwbIjlUtjTBgKMMzZAe2aIyyYgAwYMwPjx49GzZ0+EhIRg+/btmD59OsTPx40b91yyw4YNwxdffIGmTZuiVatWMgFZunQpNmzYgA8//BCjRo2yaWVc1aEfJCSh69Sd2HXutuTWoExuTOpWnTei2ORFHJQegajYeLm971TkXdmlY41Ccs+5qxVAM3ucMbt9hvqEp6QAc98ATq1V1Go7FajYzmoVG/3fJvm5zJPNGzs+awg3bsOynGHEAWBSfSAlGchRDBgQCni69jk3y+HZ3pNxxnZ2j0a6ZAJy8OBBVK5cGYMGDcLo0U/uKH/vvffkW439+/ejYsX0D8PlyZMHRYoUQVhY2OMvL8nJyQgKCsK5c+cQFaU8ZbW2uaJDi+0xA+buwZoj1ySuqoWzY26vmsji5WEtPvYngQwJXIm6j7bjtyPi4Ta/QS+XxIdNymQ4zkwdzB5nzG6foXzx8O/A4h6KSsXqA93+BDJZf4bjxzXHMWb9KSlmaf/aqFYk7at7DWW7kZRZ9Rmw41dFo3ofAy9/YSTtTKkL44z6ZXXJBGTIkCH4/vvvcebMGRQr9uSA89mzZ1G8eHF8/vnnEG850muZM2dGw4YNsXz58qe6iDciIrm5cuWKTSvjag4t3hx9/vshzA+7IHmVyJ0VS/qFIEdWL5v4cRAJWELgxLUYtBu/HXceJMru37Yuj261i1oy1BR9zB5nzG6fYZxQVOMeWwO4ew1w9wb6bwdylbRJvSNX7uDVX7bIseLSEXH5CJsVBOJigLHBQMwVwM0T6LcVyPOCFQLY1VoCjDPWEvt3f5dMQESiIN5yXL169V9EAgMDUbVqVaxatSpdui1atMDKlSvlVqvWrVvLLViLFy+GSGzGjh2L/v3727QyrubQ4uChOIAoWl4/5YrUAtn56tgm5+EgqwjsPncLnafsRFxisnxgO7ZTEJpXymeVDGftbPY4Y3b7DON3Kz4Edk1R1GkwBKg/2GbVxN/Q+iM34sKtWBTLlRUbPnrJZlkuO/DocmBhZ8X8wrWBHn9neA2yy7LSwHDGGfUQXTIBEdurvLy8EB4e/i+CYhtVQkKCfJORXhOJS9euXbFu3brHXXx8fDB58mR06dLFolWJiIiA+C91O3r0qBwv9BJ6mLnN3nEeX/5xSJro5+OBxf1CUCYvi8SZec2NZtvaI9fQd/ZuJKcAXu5umPFWDYSUyGU0NTXXx+x/OM1un+YOYYtAWQivMYAUIKAU0H8b4OFti6THY4YuO4wZ28/Jf6//sD6K5/ZVJc8lB89/Ezi+QjG95S9Ate4uiUEPoxln1FN2yQSkRIkSEG86xMHzZ5s4kB4ZGYlTp5T9qGm127dv45NPPkF8fDxeffVVmbDMmjUL69evx/z589GuXcaH8IYOHYpvvvkmTflmT0D+PhiBd+btgTi/6O3hJq9ErVGUe37Vf5wpwVoCC3ddwCdLlYcNvt4eWNCnFioUsPwGH2vnM0J/s//hNLt9DvehxHjl0HPkEUWVHiuAonVVq7Xl5HV0nRom5XzRvCx6vVhctUyXExB9CRhXE4i/q9xE9s4uIFugy2HQw2DGGfWUXTIBUfMGRFzfGxwcDJHELFq06PEKiFfIdevWldfyimt9xTmR5zVXfQOy/fQN9Ji2C/FJyRAXnUzsWh2NyzFAqv8oU4KtBMauP4lRa5Q6BLl8vfFb/xAUDshiqzjDjzP7H06z2+dwB9s8Elj/sOZH1a5A67GaqBSXmISgb9fiXnwSahcPwPw+tTSR63JCdowHVn2qmF3+deCNGS6HQA+DGWfUU3bJBETNGRBx1e7LL7+MhQsXon379k+twI8//oiPPvoIu3btQvXq1a1eHbM79KHL0eg4aQfuximHf//XpiI6Bhe2mhMHkICWBMTDA7H9Y2boeSm2SEAWeRlC7mzqtpRoqaOWssweZ8xun5a+YLWsGyeB8XWApDggax5gYBiQOYfVYtIb0G92OFYdvgoPt0zY81Vj+Pl4aibbZQQlJynb4y4/3GLeaQFQppnLmK+XoYwz6km7ZAIibrkaPny4TbdgiS1Wb775JubNm4dOnTo9tQI//PADPv30U4SGhqJWLeuf3pjZoS/cjEWb8dtx426cZPZRk9IY+HIp9R5MCSSgAYGk5BS8u2AvVhxQzmVVKOAnqzJnM+EXIDPHGbF2ZrdPA3e3TYQoejezBXB+mzK+3XSgQhvbZKUzatGuixi89ID87bg3XediCE0hCmHXDgMT6wHJiYBfAWDADsDHT/NpXFkg44z61XfJBETcgCVuukqvDsi+fftQqVIlebbj9OnT8Pf3R758yg05e/fulQfEX3nlFXkT1qOWmJgo33qILVjXr1+Hr6/1B+jM6tDXY+LQbsJ2nL8ZK3GJardDW5V3uQJw6j+ulGBPAmILSM/pu7D99E05TZ2SAZjWowa8PdztOa3uss0aZx6BNLt9ujvMowl3TQVWfKD8q/QrgHiybkPNj+fpHxnzAMHD/pFd2gQVwP+1r+Iwc51+4n++Bbb8qJhR/W2gxf85vUlGMoBxRv1quGQCIrD169cPEydOlJXQ69Spg23btslK6H379sWECRMkWVFUUNQJ6d69O2bMeLKPUlzDu2LFCtSvXx9t2rSBSD7mzJkjk5Ovv/4a4oC5Lc2MDi22W3WcFIpDl+9IJOKq0186VoU7K93a4iIcY2cCMQ8S0GnyDlP7qxnjTGq3MLt9dv4IpC0+6iLway3lcLO3n/JE3b+AXVRpPXYr9l+KRs6sXtg1pBH/VthKOeEBMKEucFO56h7dlwPFXrRVGsc9Q4BxRr1LuGwCIpKGESNGYMqUKbh06RIKFiyIXr16YfDgwfDwUKpwp5eAxMXF4ddff5U3X4lihuI2rHLlysn6H0KGrc1sDu0qT5RtXW+OMyaBZ9/YdatdBN+Y6I2d2eLMs15kdvt0/9SI6wrntgNOPbx2vsXPQPWedlNj9LqT+GmdcinEbwNCEFRYuzMmdlPaqIIv7ACmvaJcl5yjmFIs0su8F2zouQyMM+ppu2wCoh6d9hLM5NByT/38vVhxUNlTXz6/n7zi1Ix76rX3BEp0NIFnzyx90Lg03m1ojjNLZoozafmJ2e3T/bOxbx7wx8PiusXqAd2Wab71KrVN+y5G4bVxyjkTM33udF+3RxOu/ATYqezqQO2BQNNhDlPFTBMzzqhfTSYg6hlqJsEsDi1uFfrqz8MQxQZFM/utQpo5AAUZisDhK9HoOHEHYh7e2jbs9QroXLOIoXS0RRmzxJn0bDe7fbasuc1j7lwBxtUC4qIBj8zAgFAgZzGbxVkyUDy8CvrvWkTfT0CNojlkkVo2FQTi7gLjawNRFwBkAt5aDRSuqUIghwoCjDPq/YAJiHqGmkkwi0P/vO4Efl6n7DsVV5ku7WfuugqaOQAFGY5A6Omb6D49DPGJSt0acTNPs4rKhRTO2swSZ5iA2NkD5darN4BTa5WJmo0Aava186SK+AFzw/H3QeU63r1fNeabc7XUz2wCZrVSpOQsAfTbyq1YKpmaPY6qxGPRcCYgFmHSp5MZHFq89fjyj0MSWDZRWbpvLZTPb+7K0vp4B2dxFIFVhyIwYO4eJKcAXu5umPFWDYSUyOUodVTPa4Y48zwIZrdPtQNYKmDPbGDZQKV3kbpA978ANzdLR6vqNz/sAj777aCUMbkbi9Wqgvlo8IqPgF2TlX/VGgC8MlwTsa4qhHFG/cozAVHPUDMJzu7QoobCwPl7IB6ceXm4YfZbwahZPEAzPhREAo4iMG/nBXz+u/KFyFck1n1qoUIB50ysnT3OZOQDZrcvI/s1+b249Wp8CBB3B/DMCvTfZvetV6n1vngrFi+O2CB/JK5t/6Z1BU3McmkhYivWhDrA7XPKVqwey4GidV0aiRrjGWfU0FPGMgFRz1AzCc7s0FtOXsdbM3YhISlFblUZ36UampbPqxkbCiIBRxMY889J/LhWuZ0nIKsXFverjeK5ra/342g7nDnOWMLO7PZZwkBVH1FwUGzXObdFEfPqKCC4tyqRtgxuMGojzt64h+K5smL9Ry/ZIoJjniVwbhswo7lyK5Z/YSWxZIFCm/yEccYmbE8NYgKinqFmEpzVofdeuI3OU3YiNj5JsvihbUV0qFFYMy4URAJGICAuV/jmryOYsV08QQQKZM+Mpf1DkNffxwjqWayDs8YZSw00u32WcrC5X+ivwOrPlOHFGwBdftNt61VqncVW3kcXmWz9pAEK5uD1sTavaeqBq4cAoWOVn1TtArQep4lYVxPCOKN+xZmAqGeomQRndOhTkTFoNyEUUbEJksNnzV5A3/olNGNCQSRgJALJySn4YNE+/LHvilSrdKAvFvWtjexZvIyk5nN1ccY4Yw1cs9tnDQur+0YeAybWA5LiAB9/peCgX36rxWgxYM3hq+gzO1yK+l+biugYzIdaWnCFKFA4qT5w/ZgiruM84AXxVoTNGgKMM9bQSrsvExD1DDWT4GwOfTnqPtqN346I6AeSQd/6xfFZs7Ka8aAgEjAigYSkZPSdHY71xyKlekGFs2NOr5rI4qUUMDV6c7Y4Yy1Ps9tnLQ+L+yfGAVMaAleVs05oOxWo2M7i4Vp3vPMgAVW/XQtxLW/zivkwrnOQ1lO4rryI/cDkl4HkRCBLLqVAYbZA1+Vhg+WMMzZAe2YIExD1DDWT4EwOfetePN6YsB2nr9+T9r9RrSBGtKuETJkyacaDgkjAqATuxyehy9SdCD9/W6r4Upnc8rYeT3d9bglSw8WZ4owtdprdPluYWDRmzZfA9l+UruXbAG9Mt2iYPTu1Hb9dfsZyZvXC7iGN4CYOGLJpQ2DzKGD9fxVZJRsBnZfYtcCkWX5h7gAAIABJREFUNkobRwrjjPq1YAKinqFmEpzFoe/GJaLz5B3Yfyla2t64XCDGdw6ChxN8+dJssSjI5QlExyag/cRQHL8WI1m0rpIfP7WvYvgvSc4SZ2x1MLPbZyuX5447sxGY1Vrp4lcQ6L8VyJzDLlNZI3TU6uMYu+GUHLLq/RfxQl4/a4az7/MIJCcpB9IvhCq9dKzzYoaFYZxRv4pMQNQz1EyCMzh0XGKSvO1q26mb0u7gYjkx661g+Hi6a8aBgkjAWQhcu/MA4intpdv3pcriytChrcob+k2gM8QZNetvdvvUsElzbOwtYHwdIEacazLW9azbTt2QF5yI9nXLcuhZx75V2DVna3SBojq6WHtx3bK7N9BnAxBY3uhaG0I/xhn1y8AERD1DzSQY3aHFXtyB8/Zg5aGr0uZy+fxkoUE/H0/NGFAQCTgbAXFVqNiOeONuvFT9/Ual8H6j0oY1w+hxRi04s9unls9T40XRpvmdgBMrlR/X/Q/QaKimU6gR9iAhCZWGrkF8UrJ80y62ObJpTODgEmDp24rQXGWAPhtZJd0CxIwzFkDKoAsTEPUMNZNgZIcWV5B+uvQgFu6+KO0tGpAFi/uFIHc2b83spyAScFYChy5Ho9OkHYiJS5QmDG1ZDj0M+rTWyHFGi/U3u31aMHosY+dEYOVg5Z8FqgE9VwEexrrRrcPEUOw8ewt+Ph7Y+1UTuPMciKYuIIX93h/YP0+RG9QdaPXwLJD2M5lGIuOM+qVkAqKeoWYSjOrQIvkYvvIYJm0+I20N9PPGkn4hKJST97JrtvgU5PQEws7eQtepOxGXmCxt+alDZbxetaDh7DJqnNEKlNnt04oTxE1IUxoBSfGAtx/Qd7Ou1c4ttePndSfw87qTsvvyQXVRoYC/pUPZz1ICokq6uJr3pnLeBu2mARXaWjraJfsxzqhfdiYg6hlqJsGoDv3rxlMYseq4tDN7Fk8s7lsbpQKzaWY3BZGAWQisP3YNfWaFIzE5RT6pndilGhqVM9b1lkaNM1r5gNnt04TTgzvApJeAW6cN/4Vz55mb6DBph9RzyKtl0btecU0QUMgzBJ5NSMVWrADW9ErPTxhn1H+CmICoZ6iZBCM69Jwd5/HFH4ekjVm93DG3dy1UKZRdM5spiATMRuDPfZfx/sJ9ENvrvTzcMLNnMGqXCDCMmUaMM1rCMbt9qlkJx1zSEzj8uyIqqBvQaoxqsfYSIC4+EedAxJvFl1/Ig2k9athrKspNvSUvb0Xg7XWApw+5pEGAcUa9WzABUc9QMwlGc+invki5u2F6zxqoUzKXZvZSEAmYlcDs0HP48s/DjxP3eb1robJBEnejxRmtfcDs9qnmFTYZ+PsjRUxgBaCX+JKZWbVYewroPGWHvHnR19sD+75qzCvf7QVbJKeLugFHlykzVOsJtPzZXrM5tVzGGfXLxwREPUPNJBjJoTcci0TvWbsfbyX5tXMQmpbPq5mtFEQCZicwdv1JjFpzQpqZI4snFvatjdIG2LpopDhjDx8wu32qmF3eA0xrqpz78PIF+mwCcpVUJVKPwak/S78PCEHVwo6vUaKH3Q6Z40E0MLE+cPusMv3rk4DKHRyiipEnZZxRvzpMQNQz1EyCURx6x5mb6D4t7PFh2h/fqIy21Yx3mFYz8BREAnYgIC5v+P7vo5i8RflDniebcnlD4QDHXt5glDhjB+RSpNnts5nbvZvKQeNo5SZDZzpoHH7+FtqOVwrmff7qC+hTj2cTbPYDSwbK8yCNgaQ4wCOz8pYsbwVLRrpMH8YZ9UvNBEQ9Q80kGMGhD1yKwpuTd0JUOxfNyNeJagaegkjATgSevb66cE5xfXVtBPo5bl+1EeKMnXAzAUkPrKh6PacNICqeixbcB3h1pD2XQVPZ4hxIxa+VeiBNywdiYlfWA9EUcFrCwmcCf72r/CZncaD3BiAzz38+QmX2OGp3/xJlT1PEX0g2QxBwtEOfuBYDcef67dgEyePDxqUxqGEpQ7ChEiTgrAREAc935+/FioMR0oRSeXzldqycWR1Tb8HRccbe62h2+2zit+4bYOv/KUML1QS6LzdcvY+M7Go7fjvCz99GLl8v7BrSCJkyZcpoCH+vlsCfA4G9sxUppZsBHecBbm5qpZpiPOOM+mVkAqKeoWYSHOnQ52+Kas6hiIyJk/b0qlsMQ5qXZZDXbHUpyJUJxCcmyzNVm05clxgqFvDHvN41kc3HU3csjowzehhrdvusZnj4D2Bxd2VY1jxKvQ+/fFaLcfSA4X8fxcSHtag2ffwSigRkdbRK5p8/4YFyZihin2Jr/U+BBp+Z324LLGScsQBSBl2YgKhnqJkERzl0RPR9tBsfistR96UtHWsUwvA2FZl8aLayFEQCwP34JHm2KuzcLYkjuGhOzHwrGJm93HXF46g4o5eRZrfPKo5XDwFTGwMJsYCbB9BtGVC0jlUijNJ59eGr6Ds7XKrDc4k6rkrUBaVmTOxNZdL2s4FyrXRUwJhTMc6oXxcmIOoZaibBEQ59424c2k8MxZnr96QdLSvnx88dqsgiamwkQALaEoh5kIDOU3biwKVoKbhe6dyY3K0avD30S0IcEWe0pfh8aWa3z2KWsbeUL45R55UhzX8EavSyeLjROoq/VdW/WyfVerNmYXz/ekWjqWhefc5uAWa1BlKSAM+sQK+1QGB589prgWWMMxZAyqALExD1DDWToLdDR8cmoOPkHTgacUfa0PCFPJjQtRo83bnHU7NFpSASeIbA7Xvx6DApFCeu3ZW/EYdqx70ZpFttA73jjN4OYHb7LOKZGA/Mfh04v1XpHtQdaDkacPJzEw1GbcTZG/fwQt5sWPV+PYtQsJNGBHZOAlZ+rAjLXlg5lJ7VdeuCMc6o9ysmIOoZaiZBT4cWt1x1mbIT+y5GSf1DSgTICrM+nvo9idUMHAWRgJMRiLzzQL55PHczVmr+etUCcluJmw5vHvWMM45YFrPblyFTca/MskFPDg/LQ+d/AR7eGQ41eocPF+3H0j2XZB6176sm8M+s/xkqozOym37P+lXh2kC3P03hV7Ywc/k4Ywu0Z8YwAdEAolYi9HJosRe9x/Qw7Dyr7EUPKpwds9+uiazeHlqZQjkkQAIZELh0OxbtJ4TiSvQD2VNsKxn2WgW7n73SK844ygHMbl+GXLePBdYMUbqJJ9W91gO+uTMc5gwd5oddwGe/HZSqivNT9Uubwy5nYC91lG/WXgPOb1NUrtIZaD3O6d+s2cLf5eOMLdCYgGhAzU4i9HBocZ9671nh2PzwNp7y+f0wr3ctPkmy05pSLAk8j4DYTiJunxP720V7u24xfGHn2+f0iDOOXHWz2/dctsdWAAs6A0hRKp2/Lfbql3Pkcmg6t7gqvslPm6XMd18uiQ+alNFUPoVZQEAUtJzc4MnZooZfAS9+aMFAc3Vx6Tij0VLyDYhGILUQY2+HTkhKxjtz92DNkWtSXUfXI9CCGWWQgLMTOH41Rp4JiXpYf2dgg5L4qKn9vljZO844ej3Mbl+6fC+HA9ObA4n3gUxuQKcFQOmmjl4OTedPTk5BlW/X4M6DRNQpGYC5vWppKp/CLCQQeQyY2gSIUy7TQNupQMV2Fg42RzeXjTMaLh8TEA1hqhVlT4cWxdDeX7gPf+2/ItUsEpAFi/vWRh4HVmRWy4vjScAsBA5eisabk3cgJi5RmvRx0zJ4p0FJu5hnzzhjF4WtFGp2+9LEcfs8MKUhcE+pM4NXRwHBva0k5xzdxfbhjcevI6uXOw4MbcobGx21bGc2AnPaAsmJgLuXch6kSIijtNF9XpeMMxpTZgKiMVA14uzl0OKp0SdLD2Bx+CWpXoHsmbGoX235v2wkQALGIBB+/ha6Tg1DbHySVOjLFuXkliytm73ijNZ62irP7Pb9i4u4blc8jb55UvlV7YFA02G24jP8uNHrTuKndSeknqvefxEv5PUzvM6mVXDvXODPAYp5Pv7AW2uAPC+Y1tzUhrlcnLHDqjIBsQNUW0Xaw6FTUlLw5Z+HMGfHBalWnmzeWNyvNqvI2rpIHEcCdiSw/fQN9Jy+C3GJyXKW/75WAV1rFdF0RnvEGU0VVCnM7PY9hSc+FpjVCri0S/lx2ZbAG7MAN/NepS7OL3abFibNFQVzOwUXVukxHK6KwIbvgU0/KCL8CgJvrwH8C6gS6QyDXSrO2GlBmIDYCawtYrV2aJF8/Hf5UUzbdlaqE5DVCwv71kLJPNlsUY9jSIAEdCCw8Xgk+swKR3ySkoSMaFsJ7WsU0mxmreOMZoppJMjs9j3GlJQILOwMnFil/KhwCND1d8DTRyOSxhQTfT8Blb9ZI5XrUL0QfmhXyZiKuopWz17Pm6cc0PNvIHMOUxNwmThjx1VkAmJHuNaK1tKhRfIxYvVxjN94WqqRPYsn5veuhbL5+Lra2nVhfxLQm8Caw1cxYO4eJCanyJoHP7WvgteqavNUUcs4ozcXS+Yzu32SQXKysvVl/3wFSe6ywFsrTf+l79H6N/xxI05fv4fSgb5Y85/6lrgF+9iTwLPJsKg9I5Jhr6z2nNWhsl0iztiZMBMQOwO2RryWDv3T2hMY/Y+yJzibjwfm9aqFigX9rVGHfUmABBxIYMWBCAyavwfJKYCoTzimUxCaV8qnWiMt44xqZewgwOz2QTxxXvUpsHOCQk9ue1kN+Be0A01jivxo8X4sCVcKEh74ugmy+bAgocNXSm4HbA1cUrbHoURD5SY2Dy+Hq2YPBUwfZ+wB7RmZTEB0gGzpFFo59LgNpzBy9XE5ra+3B2a9HYygwuZ+HWopY/YjAWci8PveS/hg0X75ndPDLRPGdQ5C0/J5VZmgVZxRpYQdB5vdPmz8H7BxuEIwSy7grVVArlJ2JGo80XN2nMcXfxySis3tVRN1SuYynpKuqNH928pV0JGHFevLvaZc0etuviLHpo8zOvgvExAdIFs6hRYOPWnzaXz/9zHlb5OXu6wWW6NoTktVYD8SIAGDEVi06yIGLz0gtfJ0z4QJXaqhYdlAm7XUIs7YPLkOA01t37bRwNqvFIpe2YAey4H8VXSgaqwpDl+JRvNftkql7HlltbGsdhJtYq4C05oCt88pClfuBLT+1XQXI5g6zujkakxAdAJtyTRqHXrq1rP47/IjcipvDzdM71kDISX4ZMgS9uxDAkYmMHfneQz5XXni6+XuhkndquGlMnlsUlltnLFpUh0Hmda+sMnA3x8pJD0yA12WAkXr6EjWOFMlJiWj4tA1uJ+QhEZl82BK9xrGUY6aKMnHtGZAjFJ3DNV6Ai1+gtwzZ5Jm2jij4/owAdERdkZTqXHoWaHn8NWfymtPLw83TOteA3VLMfnIiDl/TwLOQmDm9nP4etmTz/jU7tXxYqncVqtvSZxJSkrCyJEjMWXKFFy8eBGFChVCr1698PHHH8Pd3T3DOQ8dOoTBgwdj61blKXXdunUxYsQIVKhQ4amxPXr0wMyZM9OUJ+YtWND6cw2W2JehAUbrsHs6sPx9RSt3b+DNhUCJBkbTUld92k8MRdjZW8jl64VdQxohk4m+3OoK0l6T3TgFTG8G3ItUZgjuAzQbYZokxJRxxl6+kI5cJiA6A3/edLY69Owd5/Hlw/2wap+OGggHVSEBEniGwJQtZ/DdiqPyp+It57QeNaze/25JnBkwYADGjx+Pnj17IiQkBNu3b8f06dMhfj5u3LjnrsvJkydRo0YN5MyZE4MGDZJ9f/nlF0RFRSEsLAylSj05r/AoARFJiNsztSvatGmDLFmyWO0DlthntVBHDkidfLh5AB3mAmVecaRGhph7+MqjmLjpjNRly+AGKJTTel8xhCFmVuLaEWBGc+D+rYdJSF+g2Q+mSEJMF2cc4IdMQBwAPb0pbXHoeTsv4PPfD0qRWuwPNxAOqkICJJAGgYmbTmP4SuWcl4+nkoRYs9Uyozhz8OBBVK5cWSYPo0ePfqzBe++9hzFjxmD//v2oWLFiumvTrl07rFq1CkePHpVvTkQTbzPKli2LZs2aYfHixY/HPkpAEhIS4OGhzUHVjOxzKqcKnwH89Z6iskg+3pgJlG3hVCbYS9lVhyLQb84eKX50xypoXUWba6rtpa/Lyo04oBTLFAfURavZD3jlf06fhJgqzjjIOZmAOAh8WtNa69ALwi7g09+eJB+/dq6GxuVsP5xqIBRUhQRI4DkEft14CiNWKTfdZfZ0l+e9ahUPsIhZRnFmyJAh+P7773HmzBkUK1bsscyzZ8+iePHi+PzzzzFs2LA057p79y4CAgLQsWPHf22t6t69OxYuXIgbN27A19dXjn+UgMTHx+P+/fvy58++CbHIqFSdMrLPWnkO679zErDy41TJxwyl0jmbJHA1+gFqDf9H/v+36xbDly3KkYxRCUTsB2a2Ah5EKRpWfwt49UenPphumjjjQJ9hAuJA+M9ObY1Di0KDA+ftxYqDEZpdz2kgFFSFBEggAwJj15/EqDUnZK+PmpTGwJctu4o1ozjTtGlT+Zbj6tWr/9IgMDAQVatWlW840mqhoaFyy5bYvtWvX7+nuoifiS1cok+tWrXk7x4lINmyZUNMTAwyZ84s35KI8yIlSpSwyQcyss8moXoP2j4GWPPFw+TDE2g3DSjXSm8tDD9f8LB1iIyJQ3DRnFjUr7bh9XVpBUUSIuqEPHoTUrUL0PIXwC3jM2VG5GaKOONgsExAHLwAqae31qETkpLx8eL9si5As4rqC5QZCAVVIQESsIDA6HVKsdH3GlmWfIi+GcUZsb3Ky8sL4eHh/9IgKCgIYruU2KaVVlu6dCnEFqxly5ahZcunn9aLn7Vu3RpLlixB27Zt5fBPP/1UyqtWrRq8vb2xY8cOuc1LJCS7d+9GkSJFnkshIiIC4r/UTWz96tKli9Rf6OtUTRR82fTDkzof7l5A+9k885HOIvaauQvrjkbKK+cPDm0Kd1Gxk824BK4dVt6ExN5QdKzQFnhtglMWK8wojhp3EYyjGRMQ46xFhl8MDKQqVSEBEnBSAhn94RRvHsSbDnHw/Nkm3m5ERkbi1KlTaVo/e/ZsdOvWDatXr0aTJk2e6rNmzRqItyuij0gQ0mtr166VY8WWrRkzZjyX8tChQ/HNN9+k2cfpEpDkZGD1Z08qnHv4AB3nASUbOqmn2V9tkYD/tE55C7jmP/VQOjCb/SflDOoIXD+uJCF3H75hLdkYaD8L8HKuSwQyiqPqILnGaCYgBlpnOrSBFoOqkIBJCWQUZ/R8A5IeYvFGRLzZuHLlYR2BdDqa5g1IUgKwbBCwf75iqbcf0GmBy9b5sPSjt+F4JHpO3yW7j3qjMtpVs/7aZkvnYj8NCdw6A8x6DYg6rwgtXBvoNB/InEPDSewrKqM4at/ZzSGdCYiB1pEObaDFoCokYFICGcUZPc+ApIdYXMG7fPlyiMPp1raM7LNWnt37x98DFvcATq5RpsqSSyky6IIVzq1lfeNuHKp/t04O61a7CL5t/XSdGWvlsb+OBO5EALNfB64r14ojTzmgy2+An3NsJ3e6OKPj0lo6FRMQS0np0I8OrQNkTkECLk4gozgjbrkaPny4XW7BWrBgAW7evPn4Fqz0lqJSpUq4ffu2vL7X2paRfdbKs2v/2FvAvPbAJeUpPvwLAV1/B3JZfqbHrvo5gfA6/1uPy1H3UaVQdvzxjmtWhneCZUpbReH/c98ALu9+4v8iCcld2vAmOVWcMShNJiAGWhg6tIEWg6qQgEkJZBRnxA1Y4qar9OqA7Nu3DyJBEIfHT58+DX9/f+TL9+SppThgLs6AHDt27HEl80d1QMTbFXFQXbR79+7J2h/i8HnqJq7qFdf49u3bFxMmTLB6FTKyz2qB9hogtqHMaQfcOq3MIJ8ALwX88ttrRlPK7T8nHCsPXYWXhxsOf9MUnu5uprTTtEY9+wbQJ7uyHatIiKFNdpo4Y2CKTEAMtDh0aAMtBlUhAZMSsCTOiCt0J06cKCuh16lTB9u2bZOV0FMnBefOnZN1Qp49LH78+HEEBwfLeiDvvvuupCgqoYs3H6ISepkyZeTPRCLTvHlzvPbaa7I6urh5S1zRO2/ePFnAcOfOnfIwvLXNEvuslal5/4u7gPkdgNibimgn3AOvORMbBaauibN8UF1UKOBvoyQOcxgBeQbqXWD/PEUFcfvb6xOUW7IM2pwizhiU3SO1mIAYaIHo0AZaDKpCAiYlYEmcSUxMlLU4pkyZgkuXLsk3Gb169cLgwYMfVyxPLwER2A4cOCD7isRFtLp16+KHH36Qb04eNVFn5MMPP8SuXbvkYXPxRkUkHuL6XlEMMVeuXDatgCX22SRYq0GHfgP+6A8kPlAklm8DvDYe8PTRagaXkrP15A10mbpT2jy8TUV0Ci7sUvabxlhxBfWG74HNI56Y1OALoN5Hhqyabvg44wSOwQTEQItEhzbQYlAVEjApAbPHGcPaJ75gbR4JbEhVRT7kXaDRN05dEdrRH5Po2ARU/lY5wC+SD5GEsDkxgT2zgb/eA1KSFCMqtgdajTFcgm7YOONES++yCUhSUhJGjhwpn/CJ/cniyZt4wvfxxx/D3d2yypziQOXYsWPl0z5RmVzcn9+/f3+5TcGWRoe2hRrHkAAJWEPA7HHGkPbFxwLLBgKHlPMvcPMAmv8IVOthzdKxbzoEXhq5AeduxqJ8fj+sePdFcnJ2Aqc3AIu6A3HRiiUFawAd5gDZ8hrGMkPGGcPQsUwRl01ABgwYgPHjx8s9zqK4lii6JfY4i5+PGzcuQ3offPABRo8ejfbt26N+/foyATl58iR8fHzw/fffZzg+rQ50aJuwcRAJkIAVBMweZwxnX9RFYMGbwNUDyir5+CvVzYvXt2LV2PV5BAbN34u/9l+Bh1smHPqmKXw8LXuISKoGJnD9hHJD3O2zipLZ8gMd5wAFqhlCacPFGUNQsU4Jl0xADh48iMqVK6d7y4u4BUYU40qvrVixAi1atJCHJTt16mQd8ef0pkNrhpKCSIAE0iFg9jhjKPvOblFqfMTeUFYjV2mg43wgV0n6p4YEJm0+je//PiYlLhtYB5UKZtdQOkU5jIC4pld8fs5uUlRw9wZa/ARU7ewwlR5NbKg443AatingkgmIOOAo3lKcOXNG3uLyqJ09exbFixeHuAd/2LBU+3SfYVuvXj3ExsZi9+7d8s3H3bt3kS1bNttWINUoOrRqhP/P3nlASVF0bfjdwJKzgkj4iZKjgMASJawoiAgiCILgKkg0gQIGUAEFPxURAQGJikhQgrrkHGXJOQsrGSS7sOk/1S0sYUPPVM1MT/Xb53i+j92qt+o+986dvttdVRQgARJIhYDuecYW9on1HutGAos+SHyX/ZEngGfHAumyMEYVE1hz8BzajuNCdMVY7SEXFwsseh9Y/23ifCq/DDzxKRAc4rM52iLP+Mx6NQM7sgCROelXFBti33ux1kPs0iK2lxQHZmXPnh0vv/yyUdikSZPGLe8woN3Cxk4kQAIuENA9z/jcvujLwLyewK5fEr1SuzdQty8QyFeDXAhVy00vXr+JCh8tMtq3fawABjXnQnTL8Pyl4dYfgflvJO4el7cy8NxEIFt+n1jg8zzjE6vVDurIAkS8XiX2nI+MjLyPZqVKlYztIMVrWkldYu96cUiXKD7i4+Px/vvvG1tUTps2DbNnz0bbtm0xderUVL108uRJiP/uvPbs2YN27doZ8xLz4EUCJEACqgno/sXpU/tO7TAXz946XDBtFqD5GKDEk6rdSL17CNT8bCmi/uGJ6FoHxsltwPR2wMVjppnpswPNvwMeaeR1s32aZ7xurWcGdGQBInarEgdciYXn915iQfqZM2dw8ODBJImvXr0atWqZu2ysXLny9v8X/65fvz6WLl2KXbt2oVSpUil6bMCAARg4cGCSbViAeCbYqUoCJADo/sXpE/vEK1eRE4CIvol/oc1dBmg1GchZhGHnBQKdp2zCgl2nkfa/E9GDeSK6F6j7YAixLuSXzsABc+tl4wrtBTz+PhDk3tsn7ljhkzzjzkRt3MeRBYjMExBRHFSuXBkFCxaEWDNy5zVx4kRjV61vv/3WeEUrpYtPQGz8qeDUSEBjArp/cXrdvn8vmucW7P41MWoqtQcaDwXSpNc4kuxl2oglB/C/RfuNSS14vTaKPyS/LtNeFnI2twnExwNrvgSWfgIkxJs/Fq9ktRwPZC/oFVBezzNescq7gziyAJFZAyJO782TJw8ee+wxrF+//i5vRUREoHHjxsYCdrGQ3dWLAe0qMbYnARJwlYDuecar9v21Fpj9KnDpuOmGNBmBJl8A5Vu76ha2lySwbO8ZdJz4p6HyRavyeLZSPklFdrc9gaOrgVmvAFdOmFMVrzyK83XKtfL41L2aZzxujW8GcGQBIoqDIUOGuL0Llji0UFziAMM7L3Go4SuvvIKxY8cahxq6ejGgXSXG9iRAAq4S0D3PeMW+2JvAik+B1V8m/gX2oXJAywncYtfVgFTU/szlaFQdvMRQ6xRaCB80Tfk1aEXDUsbXBK6dB+Z0BfZHJM6k7HPAk58D6T23HbNX8oyv2Xp4fEcWIOKcD7GQvEePHsZhgreuXr16YcSIERALzcuVK2csRj906JCx65V46nHreueddzB06FDMmzfPOA9EXOJkdbF+RLyiJdaPiFe0XL0Y0K4SY3sSIAFXCeieZzxu35k95lOPWwcLCgdU7w7U/wAITuuqO9heIYEqgxbj7JUbeKxQDkzvXF2hMqVsTUCswdo4Flj4HhB3w5xqlrxAs5FAkXoembrH84xHZm0vUUcWIMIFXbp0wZgxY4w1G6GhoVizZo1xEnrnzp0xevRow0tHjx41zgnp0KEDxPqOW5fYdlesAxHrOETRkjdvXvz8889YtWoV3n33XePpijsXA9odauxDAiTgCgHd84zH7IuPM8/2EO+d37rJyfQQ0Hy0x25yXPEr2wIdJ2zEsn1nkTmkrR4sAAAgAElEQVRtMLZ92AiBgQHE4iQC4o8Ds8KB0zsTra76KtBgABCSUSkJj+UZpbO0t5hjC5DY2FjjKYZ4bSoqKsrYSle8NtWnTx8EBwenWICIX4rio2/fvvj9999x6dIlFC1aFN27d0918XlK4cCAtveHhbMjAR0I6J5nPGLf2f3max5R5hoD4yrTwnzNI0MOHcJCCxs+X7AP3ywzd7Bc/nZdFHxA7U2nFpB0NyL2BrBsMLD268TXI8XCdPE0pGBNZdZ7JM8om51/CDm2ALGjexjQdvQK50QCehHQPc8otS8uBlj3DbBsSOJTD3H2gCg8yrbUKzA0sCZi50l0mbrZsGTkC5XwVLnEV6c1MI8muELg2Hrgly7AP3fsVlolHKj/IZAuiytKSbZVmmekZ+OfAixAbOQ3BrSNnMGpkICmBHTPM8rsO7EFmNsDEIcL3rpKNAGe+gLInFvT6PBvs45fuI5aQ5cZRrxWtwjeeaKEfxvE2csRuHkdWPoxsH4UgARTS6wNETtlFW8spa0sz0jNwr87swCxkf8Y0DZyBqdCApoS0D3PSNt344r5CseG0YmvcGTIaZ7rIV67CuC6Art+NBISElB+4EJcjo5FnUcexKROVe06Vc7LmwT+WgfM7Q6cv+OA6ZJPA40/A7I87NZMpPOMW6Pq1YkFiI38yYC2kTM4FRLQlIDuecZt+8ROOnvmARHvApf/TvR++TZAo0FAxpyaRoReZj0/Zh02HLmAXJnTYmP/BnoZR2vcJxATDawcBqz5CoiPNXVCMgOP9weqvAIEmWt/rV5u5xmrAzigHQsQGzmZAW0jZ3AqJKApAd3zjFv2nTsI/NEHOGSeI2Fc2QuZhwoWeVzTSNDTrAFzd2Hi2qOGcX/2b4AHM3NrZD097aZVp3cB814HojYmCuQuY76WVaCaZVG38oxldWc0ZAFiIz8zoG3kDE6FBDQloHuecdm+DWP+Oz/gpunxoBAgtBdQ6y0gTXpNo0Bfs37edBx9Zm43DJzcqSpqP/KgvsbSMvcIxMcDmycBiwcA0RcTNcQidVGIWLhczjMWNJ3WhAWIjTzOgLaRMzgVEtCUgO55xmX79kUA0543vV2kPvDkMCBnEU29r79ZO/++hCYjVhuG9m1cAp3r0Jf6e91NC6+dM4uQLVNMAXGYqPjDg4XL5TxjQdNpTViA2MjjDGgbOYNTIQFNCeieZ9yyb/6bQOG6QMmmXGTu53F/IzYOpT9YgNj4BDSr8DCGt67o5xZx+h4ncHwjsP5boPl3QHCIpeHcyjOWlJ3TiAWIjXzNgLaRMzgVEtCUgO55Rnf7NA1LpWY98dVK7D11BY/kzoSFb9RRqk0xEhAEmGfk44AFiDxDZQoMaGUoKUQCJJAMAd3zjO72MbBTJ/DG9K34ZcvfCAoMwK6BYUiXJij1TmxBAi4QYJ5xAVYyTVmAyDNUpsCAVoaSQiRAAixAUKlSJcaBAwmMXXkYg37fY1g+r3tNlM2X1YEUaLInCfB+TZ4uCxB5hsoUGNDKUFKIBEiABQgLEId+ClYfOId24zcY1n/Woiyer1LAoSRotqcI8H5NniwLEHmGyhQY0MpQUogESIAFCAsQh34Kzl+9gUc/WWxY36H6/2FgszIOJUGzPUWA92vyZFmAyDNUpsCAVoaSQiRAAixAWIA4+FPw2ODFOH35BqoWzIGfu1R3MAma7gkCvF+Tp8oCRJ6hMgUGtDKUFCIBEmABwgLEwZ+CjhM2Ytm+s8icNhjbBzRCQECAg2nQdNUEeL8mT5QFiDxDZQoMaGUoKUQCJMAChAWIgz8FQyP24tvlhwwCq/rUQ/4cGRxMg6arJsD7NXmiLEDkGSpTYEArQ0khEiABFiAsQBz8KZi37QR6TNtiEPjuxUfRqPRDDqZB01UT4P2aPFEWIPIMlSkwoJWhpBAJkAALEBYgDv4UHDxzBQ2+WGkQeLPhI+hZv5iDadB01QR4vyZPlAWIPENlCgxoZSgpRAIkwAKEBYiDPwWxcfEo9eEC3IyNx1Nl82BkW54J4+BwUG4679fkkbIAkWeoTIEBrQwlhUiABFiAsABx+KegyYhV2Pn3ZRR+MCOWvlXX4TRovkoCvF+Tp8kCRJ6hMgUGtDKUFCIBEmABwgLE4Z+Ct37ehlmboxAYAOwa+ATShwQ5nAjNV0WA92vyJFmAyDNUpsCAVoaSQiRAAixAWIA4/FMwbtVhfPLbHoPC3O6hKJcvm8OJ0HxVBHi/Jk+SBYg8Q2UKDGhlKClEAiTAAoQFiMM/BasPnEO78RsMCkNblEOrKvkdToTmqyLA+zV5kixA5BkqU2BAK0NJIRIgARYgLEAc/ik4d/UGKn+y2KDQMbQgPmxa2uFEaL4qArxfkyfJAkSeoTIFBrQylBQiARJgAcIChJ8CowARhUiNIjnx4yvVSIQElBDg/Zo8RhYg8gyVKTCglaGkEAmQAAsQFiD8FKDduA1YffAcsmdIg83vN0RAQACpkIA0Ad6vSSMECxB5hsoUGNDKUFKIBEiABQgLEH4K8Mn83Ri3+ohBYmO/+siVJR2pkIA0Ad6vSSNkASKPUJ0CA1odSyqRAAkkTUD3PKO7fYxr1wjMjIzC2zO2GZ0mdaqKOo886JoAW5NAEgSYZ+TDgk9A5BkqU2BAK0NJIRIgAT4B4RMQfgqw8+9LaDJitUGib+MS6FynCKmQgDQB3q9JI+QTEHmE6hQY0OpYUokESIBPQCpVqsQwcDiB6Jg4lP5wAeLiE9C8Yl58+XwFhxOh+SoI8H5NniKfgMgzVKbAgFaGkkIkQAJ8AsInIPwUGAQafLECB89cRck8WfBHr1qkQgLSBHi/Jo2QT0DkEapTYECrY0klEiABPgHhExB+CgSBbj9uxm/bTyIkKBC7PwpDcFAgwZCAFAHer0nhMzrzCYg8Q2UKDGhlKClEAiTAJyB8AsJPgUHg6yUH8MWi/cb/X/xmbRTNlZlkSECKAO/XpPCxAJHHp1aBAa2WJ9VIgATuJ6B7ntHdPsa06wQW7DqFzlMijY7fvFARTco97LoIe5DAHQSYZ+TDgU9A5BkqU2BAK0NJIRIggWQI6J5ndLePge06gaPnrqHu58uNjj0fL4o3GxV3XYQ9SIAFiNIYYAGiFKecGL845fixNwmQQOoEdM8zutuXuofZ4l4C8fEJxk5Y/8bEoVGp3PiufWVCIgEpAswzUviMzixA5BkqU2BAK0NJIRIgAT4B4RoQfgpuE2j2zWpsi7qEgjkzYHnveiRDAlIEeL8mhY8FiDw+tQoMaLU8qUYCJHA/Ad3zjO72MabdI9B7xjbMiIxCQACwa2AYMoQEuyfEXiQAgHlGPgz4BESeoTIFBrQylBQiARLgExA+AeGn4DaBcasO45Pf9hj/ntMtFOXzZyMdEnCbAO/X3EZ3uyMLEHmGyhQY0MpQUogESIAFCAsQfgpuE1h94Bzajd9g/Htoy3JoVTk/6ZCA2wR4v+Y2OhYg8ujUKzCg1TOlIgmQwN0EdM8zutvHeHaPwJkr0ag6aInR+eWahfB+k1LuCbEXCfAVLCUxwCcgSjCqEeEXpxqOVCEBEkiegO55Rnf7GNvuEUhISMCjnyzGhWs3UavYA5jy8mPuCbEXCbAAURIDLECUYFQjwi9ONRypQgIkwAIkMjKSr2Dxg3AXgTbfrce6w+fxYOa0+LN/A9IhAbcJ8H7NbXS3O7IAkWeoTIEBrQwlhUiABJIhoHue0d0+Brb7BAbM3YWJa48aApvfb4gcGUPcF2NPRxNgnpF3PwsQeYbKFBjQylBSiARIgAUIn4DwU3AXgWkbj6Hv7B3Gz3585THUKPIACZGAWwR4v+YWtrs6sQCRZ6hMgQGtDCWFSIAEWICwAOGn4C4CkX/9gxaj1ho/G/h0aXSoUZCESMAtArxfcwsbCxB5bJ5RYEB7hitVSYAEEgnonmd0t4+x7D6BK9ExKDtgoSHwwmMFMLh5WffF2NPRBJhn5N3PJyDyDJUpMKCVoaQQCZAAn4DwCQg/BfcRCP10Kf6++C+qFMyOGV1qkBAJuEWA92tuYeMTEHlsnlFgQHuGK1VJgAT4BIQxQAKCQMcJG7Fs31lkSReMbR82QkBAAMGQgMsEeL/mMrL7OvAJiDxDZQoMaGUoKUQCJMAnIHwCwk/BfQSG/LEHY1YcNn6+vm99PJQ1HSmRgMsEeL/mMjIWIPLIPKfAgPYcWyqTAAmYBHTPM7rbxziWIzArMgpvzdhmiEzqVBV1HnlQTpC9HUmAeUbe7XwCIs9QmQIDWhlKCpEACSRDQPc8o7t9DGw5Ajv/voQmI1YbIv2fLIlXaheWE2RvRxJgnpF3u6MLkLi4OAwbNgzjxo3D8ePHkT9/foSHh6N3794ICgpyiW6dOnWwcuVKtG3bFlOnTnWp763GDGi3sLETCZCACwR0zzO62+eCq9k0CQLRMXEo+UEEEhKA5x7Nh2HPlScnEnCZAPOMy8ju6+DoAqRr164YNWoUOnbsiBo1amDt2rWYMGECxM9Hjhxpme7kyZONPteuXWMBYpkaG5IACfiCgO5fnLrb54uY0W3Mep8vx5Fz11A+X1bM6V5TN/NojxcIMM/IQ3ZsAbJjxw6UL18ePXr0wPDhw2+T7NWrF0aMGIFt27ahbNnU9wi/ePEiihcvjjfeeAN9+/ZlASIfk1QgARLwIAHdvzh1t8+DoeEY6c5TNmHBrtNInyYIuwaGITCQO2E5xvmKDGWekQfp2AKkf//+GDx4MA4fPoxChQrdJnnkyBEULlwY/fr1w6BBg1Il3K1bNyxatAg7d+5E2rRpWYCkSowNSIAEfElA9y9O3e3zZezoMvYXC/fh66UHDXNW9q6HAjkz6GIa7fASAeYZedCOLUDCwsKMpxynTp26j2Lu3LlRsWJFREREpEg4MjISVatWxfz589G4cWNjP3GuAZEPSiqQAAl4joDuX5y62+e5yHCO8rxtJ9Bj2hbD4LHtK6NhqdzOMZ6WKiHAPCOP0bEFiHi9KiQkBKKIuPeqVKkSYmJiIF7TSu6Kj49HtWrVkCdPHsyZM8do5koBcvLkSYj/7rz27NmDdu3aGXMSc+BFAiRAAqoJ6P7Fqbt9quPBiXr7T19Boy9XGqb3DiuObvWKOhEDbZYgwDwjAe+/ro4tQIoUKQLxpEMsPL/3EgvSz5w5g4MHzUe0SV2jR4821n3s3r379itcrhQgAwYMwMCBA5PUZgEiH9hUIAESSJqA7l+cutvHuJYncDM2HqU/jEBMXAKaVXgYw1tXlBelgqMIMM/Iu9uxBYjME5CzZ88aC8+7d++Ojz766LYXXClA+AREPnipQAIk4DoB3b84dbfPdY+zR1IEwr5ciX2nr6DEQ5kR8XptQiIBlwgwz7iEK8nGji1AZNaAiJ2zfvzxRyxfvhzp06e/DbZYsWJo1qwZPv/8czzwwAPIli2bSx5iQLuEi41JgATcIKB7ntHdPjdczi5JEOj+42bM334SIcGB2D0wDMFBgeREApYJMM9YRpVsQ8cWIGKXqyFDhri1C9Yzzzxze91HcmTFAYdvv/22Sx5iQLuEi41JgATcIKB7ntHdPjdczi5JEBi++AC+XLzf+M2yt+ui0AMZyYkELBNgnrGMigXIvQTEDlhip6vkzgHZunUrypUrZyxGP3ToELJmzWosOBfXunXr8Pfff98H9bnnnkOtWrXQs2dPo+8jjzzikocY0C7hYmMSIAE3COieZ3S3zw2Xs0sSBH7fcRJdf9hs/Oa7Fx9Fo9IPkRMJWCbAPGMZFQuQpAh06dIFY8aMMU5CDw0NxZo1a4yT0Dt37gyxyFxcR48eNRaZd+jQARMnTkyRuCtrQJISYkDLBzQVSIAEUiage57R3T7GtxoCB05fQUPuhKUGpgNVmGfkne7YV7AEutjYWAwdOhTjxo1DVFQU8uXLh/DwcPTp0wfBwcEsQOTjiwokQAI2I6D7F6fu9tksnPx2OmInrFIfRCA2PgHNK+bFl89X8FtbOHHvE2CekWfu6AJEHp9aBQa0Wp5UIwESuJ+A7nlGd/sY0+oINPhiBQ6euYoyebNgfo9a6oSppD0B5hl5F7MAkWeoTIEBrQwlhUiABJIhoHue0d0+BrY6Aq9NjcQfO08hXRqxE9YTCAwMUCdOJa0JMM/Iu5cFiDxDZQoMaGUoKUQCJMACBJUqVWIckECyBL5YuA9fLzUPHF7Zux4K5MxAWiRgiQDv1yxhSrERCxB5hsoUGNDKUFKIBEiABQgLEH4KUiQwd9sJ9Jy2xWgzvkNl1C+Zm8RIwBIB3q9ZwsQCRB6TdxQY0N7hzFFIwMkErOSZuLg4iLOMxAYdx48fR/78+Y0NOnr37o2goKBU8e3cudPYzGP16tVG25o1axobfpQpU+a+vq60TXVgAFbss6LDNvoT2HvqMp74apVh6LuNS6BLnSL6G00LlRBgnpHHyCcg8gyVKTCglaGkEAmQQDIErOSZrl27YtSoUcYW5TVq1MDatWuNLcrFz0eOHJki2wMHDqBKlSrIkSOHcc6SuL7++mtcvHgRGzduRLFixW73d6WtVYdasc+qFtvpTeBGbBxKvh+B+ASgRaV8+F+r8nobTOuUEWCekUfJAkSeoTIFBrQylBQiARJwswDZsWMHypcvn+whreIQ17JlyybLt2XLloiIiMCePXuMJyfiEk9RSpYsicaNG2PGjBm3+7rS1qpDmUetkmI7QeDxz5fj8LlrKJ8vK+Z0r0koJGCJAPOMJUwpNmIBIs9QmQIDWhlKCpEACbhZgPTv3x+DBw/G4cOHjUNYb11HjhxB4cKF0a9fPwwaNChJ9atXryJnzpxo3bo1Jk2adFcbcZjr9OnTce7cOWTKlAmutHXFmcyjrtBi21cnb8LC3aeRISQIuwaGQRwozIsEUiPAPJMaodR/zwIkdUZea8GA9hpqDkQCjiWQWp4JCwuDeMpx6tSp+xjlzp0bFStWNJ5wJHWtW7fOeGVLvL7VpUuXu5qIn4lXuESbatWqGf9rta0rzkrNPle02FZ/AsMW7MXIZYcMQ9e8+zjyZkuvv9G0UJoA84w0QrAAkWeoTIEBrQwlhUiABJIhkFqeEa9XhYSEIDIy8j4Fsa1tTEwMxGtaSV2zZs2CeK1q7ty5aNq06V1NxM+aNWuGmTNnokWLFnClbXLOPHnyJMR/d17i1a927doZ8+c2vPwYpEbg1y1/4/XpW41mEztWQd3iuVLrwt+TADe7UBADLEAUQFQlkdqNgapxqEMCJOBcAqnlmSJFikA86RALz++9xBOLM2fO4OBB8+yEe68pU6agffv2WLBgARo1anTXrxcuXAjxdEW0EQWCK22T89aAAQMwcODAJH/NAsS5Me6K5Tv/voQmI8zd2vo9WQKv1uZOWK7wc2rb1PKoU7m4YjcLEFdoebgtA9rDgClPAiSQ6l/u+ASEQeIkAtExcSj1gbkT1rOV8uKLVhWcZD5tdZMA79fcBHdHNxYg8gyVKTCglaGkEAmQQDIEUsszXAPC0HEagcf/txyHz15D6Yez4LeetZxmPu11g0BqedQNScd1YQFiI5czoG3kDE6FBDQlkFqeEbtcDRkyxCO7YP300084f/68pV2w7mzriitSs88VLbZ1BoGuP0Ti9x2nEBIciN0DwxAcFOgMw2ml2wSYZ9xGd7sjCxB5hsoUGNDKUFKIBEjAzScgYgcssdOVOERw+PDht1V69eqFESNGYOvWrShXrpyxGP3QoUPImjUr8uTJc7udWGAu1oDs3bsX+fLlM35+6xwQ8XRFLD6/dbnS1qpDmUetkmK7WwSGLz6ALxfvN/655K06KPJgJsIhgRQJMM/IBwgLEHmGyhQY0MpQUogESMDNAkR0E1vojhkzxjgJPTQ0FGvWrDFOQu/cuTNGjx5tKB89etQ4J0Sc7zFx4sTbo+3btw9Vq1Y1zgPp2bOn8XNxErp48iFOQi9evLhbba06lHnUKim2u0UgYucpdJlq7vr2bdtKeLJsYkFNSiSQFAHmGfm4YAEiz1CZAgNaGUoKkQAJSBQgsbGxGDp0KMaNG4eoqCjjSUZ4eDj69OmD4ODgFAsQ8cvt27cbbUXhIq6aNWvis88+M56c3Hu50taKU5lHrVBimzsJHD13DXU/X278qGf9Yniz4SMERAIpEmCekQ8QFiDyDJUpMKCVoaQQCZCARAHiz/CYR/3Ze76Ze1x8Akp/GIHomHiElc6NMS9W9s1EOKrfEGCekXcVCxB5hsoUGNDKUFKIBEiABQgPIuSnwDKBp79Zje1Rl1AwZwYs713Pcj82dCYB3q/J+50FiDxDZQoMaGUoKUQCJMAChAUIPwWWCfSesQ0zIqMQEADsGhiGDCHmq4a8SCApArxfk48LFiDyDJUpMKCVoaQQCZAACxAWIPwUWCYwbtVhfPLbHqP93O6hKJcvm+W+bOg8Arxfk/c5CxB5hsoUGNDKUFKIBEiABQgLEH4KLBNYfeAc2o3fYLQf2rIcWlXOb7kvGzqPAO/X5H3OAkSeoTIFBrQylBQiARJgAcIChJ8CywTOXIlG1UFLjPYv1yyE95uUstyXDZ1HgPdr8j5nASLPUJkCA1oZSgqRAAmwAGEBwk+BZQIJCQl49JPFuHDtJmoWfQBTwx+z3JcNnUeA92vyPmcBIs9QmQIDWhlKCpEACbAAYQHCT4FLBNp8tx7rDp/HA5nSYtN7DVzqy8bOIsD7NXl/swCRZ6hMgQGtDCWFSIAEWICwAOGnwCUCA+buwsS1R40+m99viBwZQ1zqz8bOIcD7NXlfswCRZ6hMgQGtDCWFSIAEWICwAOGnwCUC0zYeQ9/ZO4w+P71aDdUK53SpPxs7hwDv1+R9zQJEnqEyBQa0MpQUIgESYAHCAoSfApcIRP51AS1GrTP6fNSsNNpXL+hSfzZ2DgHer8n7mgWIPENlCgxoZSgpRAIkwAKEBQg/BS4RuBwdg3IDFhp92j5WAIOal3WpPxs7hwDv1+R9zQJEnqEyBQa0MpQUIgHnEIiPAwKDLNure57R3T7LjmZDtwjUGLIEJy5Fo2rBHPi5S3W3NNhJfwLMM/I+ZgEiz1CZAgNaGUoKkYDeBBISgGPrgW0/AgcWAz02ASEZLdmse57R3T5LTmYjtwm8NGEjlu87i6zp02DrBw0REBDgthY76kuAeUbetyxA5BkqU2BAK0NJIRLQk8DF48C2acDWH4B/zN16jKv5GKB8a0s2655ndLfPkpPZyG0CQ37fgzErDxv9N/Srj9xZ0rmtxY76EmCekfctCxB5hsoUGNDKUFKIBPQhEBMN7J0PbJkCHF4BIOFu2x4qB9R5ByjZxJLNuucZ3e2z5GQ2cpvArMgovDVjm9F/cqeqqP3Ig25rsaO+BJhn5H3LAkSeoTIFBrQylBQiAf8ncHo3sHkSsO0nIPri3fZkzAWUawVUeAHIXdolW3XPM7rb55Kz2dhlAjuiLqHpN6uNfu89VRLhtQq7rMEO+hNgnpH3MQsQeYbKFBjQylBSiAT8k0DMv8CuX4HICcDxDXfbEBgMPPIEULEdULQBEJTGLRt1zzO62+eW09nJMoF/b8ah1IcREMusWlXOh6Ety1vuy4bOIcA8I+9rFiDyDJUpMKCVoaQQCfgXgfOHgD/Hm2s77n3akbMYUKk9UL4NkEn+dRDd84zu9vlXYPvnbOsOW4aj56+jfP5smNMt1D+N4Kw9SoB5Rh4vCxB5hsoUGNDKUFKIBOxPQGyfe2AhsPE74NDSu+cblBYo1Qyo3BEoUB1QuBOP7nlGd/vsH9j+P8NXJ2/Cwt2nkSEkCDsHhCEwkDth+b9X1VrAPCPPkwWIPENlCgxoZSgpRAL2JfDvRXNB+caxwMW/7p5njiJA5U7m2o4MOTxig+55Rnf7PBIUFL2LwP8W7sOIpQeNn63qUw/5c2QgIRK4iwDzjHxAsACRZ6hMgQGtDCWFSMB+BM4dBDaMArZOA2KuJc4vIBAo/iRQJRwoVAcIDPTo3HXPM7rb59HgoLhBYN62E+gxbYvx/8d3qIz6JXOTDAmwAFEcAyxAFAOVkeMXpww99iUBGxIQK1n/WgOs/QbYH3H3FrrpswOVOgBVXgayFfDa5HXPM7rb57VAcfBA+05dQdhXKw0CvcOKo1u9og6mQdOTIsA8Ix8XLEDkGSpTYEArQ0khEvAtgbhYYM9cYO3XwAnzL6m3r1ylgMe6mNvopknv9Xnqnmd0t8/rAePAAW/GxqP0hxGIiUtAswoPY3jrig6kQJNTIsA8Ix8fLEDkGSpTYEArQ0khEvANAXFooNjJShQed55ULmZTtCFQvRtQuK7SReWuGqp7ntHdPlf9zfbuEQj7ciX2nb6CEg9lRsTrtd0TYS9tCTDPyLuWBYg8Q2UKDGhlKClEAt4lcOMKsOl781Wra2cSxw5MA5R7HqjRHchV0rtzSmY03fOM7vbZIogcMIme07Zg7rYTSBMUgN0fPYE0QZ5dm+UApFqZyDwj704WIPIMlSkwoJWhpBAJeIfAv/8AG8YA60fdfX5HSGagSifgsdeALHm8MxeLo+ieZ3S3z6Kb2UySwMhlBzFswT5DZeEbtfFI7sySiuyuEwHmGXlvsgCRZ6hMgQGtDCWFSMCzBK5fANZ/axYfNy4njpXhAaB6V6Dyy0D6bJ6dg5vquucZ3e1z0+3s5iKBxbtPI3zyJqPXiDYV0bT8wy4qsLnOBJhn5L3LAkSeoTIFBrQylBQiAc8QEE881o0E1o8Gbl5JHCPzw0BoL/PE8hB7nxmge57R3T7PBDZV7yVw/MJ11Bq6zPhx93pF8XZYcUIigdsEmGfkg4EFiDxDZQoMaGUoKUQCagmINR7iNau1I+5+4pElH1DrDaDii0BwWrVjekhN9zyju30eCgvK3kMgPj4BZQcswLWbcWhQMjfGdahMRiTAAkRhDLAAUQhTVopfnLIE2Z8EFBMQu1r9OQ5Y/QVw/XyiuIiLrGQAACAASURBVCg8ar8FVGjrN4XHrcnrnmd0t09xhFMuBQLNv12DLccuokCODFjZpx5ZkQALEIUxwAJEIUxZKX5xyhJkfxJQRCA+Dtg2DVg2BLgclSiaOQ9Q6y3zVSs/eeJxLxHd84zu9imKcMpYIPDurO346c/jRstdA8OQMW2whV5s4gQCzDPyXmYBIs9QmQIDWhlKCpGAewTEyeUHFgKLPgTO7knUSJ8DqPUmUCXcJ4cHumdM0r10zzO626cyFqiVMoEJa45g4LzdRqNfu4WiQn57bixBP3qfAPOMPHMWIPIMlSkwoJWhpBAJuE7g5DZgQX/g6KrEvmkymmd4VO8OpMviuqYNe+ieZ3S3z4Yhpe2U1h48hxfGbTDs+6xFWTxfpYC2ttIw1wgwz7jGK6nWLEDkGSpTYEArQ0khErBO4PJJYOnHwNYfASSY/QKCgEdfAuq+C2TKZV3LD1rqnmd0t88PQkybKZ6/egOPfrLYsKdjaEF82LS0NrbREDkCzDNy/Iyv2YQE8c4BLzsQYEDbwQucg2MIiAXm674BVn0BxFxLNLv4U0DDgcADxbREoXue0d0+LYPSxkZV/mQxzl29gdCiOfFDeDUbz5RT8yYB5hl52o4tQOLi4jBs2DCMGzcOx48fR/78+REeHo7evXsjKCgoWbLXr1/H5MmTMXfuXOzYsQPnz59HwYIF0aRJE/Tr1w/Zsrn/jigDWj6gqUACqRIQf3PZ9zsQ0Re4+Fdi8zzlgbDBQMGaqUr4cwPd84zu9vlz7Pnj3NuOW481B8/jgUwh2PReQ380gXP2AAHmGXmoji1AunbtilGjRqFjx46oUaMG1q5diwkTJkD8fOTIkcmS3blzJ8qVK4datWohLCwMuXLlQmRkpFHIiEJE/P8sWdx7V5wBLR/QVCCBFAmcOwj80Qc4tCSxWabcQP0PgPIvAIGB2gPUPc/obp/2AWozAz+atxvfrzlizGrTew3wQCb/OO/HZhi1mw7zjLxLHVmAiCcX5cuXR48ePTB8+PDbFHv16oURI0Zg27ZtKFu2bJJ0z507hxMnThhFyJ3X999/j5dffhn/+9//8Oabb7rlGQa0W9jYiQRSJ3DzOrDqf8Dar4G4m2b7wDRA9a5A7d5A2sypa2jSQvc8o7t9moSh35jx85/H0WfWdmO+P4Q/htCiD/jN3DlRzxFgnpFn68gCpH///hg8eDAOHz6MQoUK3aZ45MgRFC5c2HiVatCgQS7RvXz5MrJmzYpOnTph/PjxLvW91ZgB7RY2diKBlAnsXwj8/hZw8VhiuyL1gcafabvOIyUguucZ3e3jx927BLZHXcTT36wxBn3vqZIIr1XYuxPgaLYkwDwj7xZHFiDi1SnxlOPUqVP3EcydOzcqVqyIiIgIl+ju27cPJUqUwLvvvoshQ4a41JcFiFu42IkEUiZw5RTwxzvA7l8T24kTzJ8YApRsCgQEOJKg7l+cutvnyKD1odH/3oxD6Q8jEJ8AtHw0Hz5/rrwPZ8Oh7UKAeUbeE44sQMTrVSEhIcZ6jXuvSpUqISYmxlhg7srVvn17TJ06FVu2bDFe70rtOnnyJMR/d1579uxBu3btjHmJefAiARJwg4BYZL55MrDwfeDGJVNAbKtbvZu5rW5IRjdE9emi+xen7vbpE4n+Y8nj/1uOw2evoUzeLJjfo5b/TJwz9RgB5hl5tI4sQIoUKQLxpEMsPL/3EgvSz5w5g4MHD1qm+91336Fz587G2g+xBsTKNWDAAAwcODDJpixArBBkGxJIgsD5Q8C8XncfJpivCtDkK+ChMkQGQPcvTt3tYxB7n0C3Hzbjtx0nERIciN0DwxAcpP9mFd6n7F8jMs/I+8uRBYjKJyC//vorWrZsiSeffBKzZ89GcHCwJa/wCYglTGxEAtYIxMcBG0YDSz4GYv81+4RkAhoMACq/7IjdrayBYgFilRPbkcAtAiOWHMD/Fu03/rn4zdoomss5m1YwCpImwAJEPjIcWYCoWgOycOFCPP3008Y2vr///jvSpUsn5REGtBQ+dnYqAfHU49fXgOMbEgkUawQ0+RLIms+pVJK1W/c8o7t9DGjvE1i46xRenWK+sj2iTUU0Lf+w9yfBEW1FgHlG3h2OLEDELldiobjMLlgrVqxA48aNje16lyxZgkyZMkl7gwEtjZACTiIQHw/8ORZY9GHiU4902czdrco979hF5qmFgO55Rnf7UvMvf6+ewPEL11Fr6DJDuFu9IugdVkL9IFT0KwLMM/LucmQBInbAEjtdJXcOyNatW41zPsRi9EOHDhnb6+bJk+c27Q0bNqBBgwbGFr6iEMmePbu8JxzwbrYSSBQhAUHg0t/AnK7A4eWJPIo/aa71yJybjFIgoPsXp+72Mbi9TyA+PgHlBi7E1RuxaFAyF8Z1qOL9SXBEWxFgnpF3hyMLEIGtS5cuGDNmjHESemhoKNasWWOchC4Wk48ePdoge/ToUaPI6NChAyZOnGj87K+//jKKlytXruDTTz81FrPfeYl/N2zY0C3PMKDdwsZOTiOwczYw/3Ug+r8drtJmNZ96lG/Npx4WYkH3PKO7fRZczCYeINBi1FpE/vUP8mZLjzXvPu6BESjpTwSYZ+S95dgCJDY2FkOHDsW4ceMQFRWFfPnyITw8HH369Lm9kDypAmT58uWoV69esuTr1KkD0cadiwHtDjX2cQyBG1eA33sD26YlmlyoNvDMKK71cCEIdM8zutvngqvZVCGB/r/swA8bzMNMtw9ohCzp0ihUp5S/EWCekfeYYwsQeXTqFRjQ6plSURMCf0cCMzsB/xw1DQoKMXe4euw17nDloot1zzO62+eiu9lcEYEp647i/Tm7DLUZXaqjSsEcipQp448EmGfkvcYCRJ6hMgUGtDKUFNKFgFhovu4bYMlAID7WtOrBEkCL8TzXw00f655ndLfPTbezmySBP49ewHOj1xkqHzcrjRerF5RUZHd/JsA8I+89FiDyDJUpMKCVoaSQDgSunQd+6QwcXJRoTZVwoNEnQJr0OljoExt0zzO62+eToOGguBwdg3IDFhok2lQtgCHPliUVBxNgnpF3PgsQeYbKFBjQylBSyN8JHFtvvnJ1+W/TknRZgWYjgZJN/d0yn89f9zyju30+DyAHTyD006X4++K/qFggG37pGupgEjSdeUY+BliAyDNUpsCAVoaSQv5KICEBWDcSWPQBkBBnWpGvKtByPJCtgL9aZat5655ndLfPVsHksMm8MnkTFu0+jfRpgrBzYBiCAgMcRoDm3iLAPCMfCyxA5BkqU2BAK0NJIX8kIHa5mtMN2D0ncfbVu5uLzYO444wql+qeZ3S3T1UcUMd1Al8s2o+vlxwwOi59qw4KPyh/ALHrs2APOxBgnpH3AgsQeYbKFBjQylBSyN8InDsA/PQCcG6/OfO0WcztdUs28TdLbD9f3fOM7vbZPsA0nmDEzlPoMjXSsPCbFyqiSbmHNbaWpqVEgHlGPj5YgMgzVKbAgFaGkkL+RGDv78DsV4GbV8xZ5y4DtJoM5CziT1b4zVx1zzO62+c3gabhRI+dv47aw5YZlnWrVwS9w0poaCVNskKAecYKpZTbsACRZ6hMgQGtDCWF/IGAWO+xchiwbFDibMs+BzT9GgjJ4A8W+OUcdc8zutvnl0GnyaTj4xNQfuBCXLkRi3rFH8SEjlU1sYxmuEqAecZVYve3ZwEiz1CZAgNaGUoK2Z3AzWvAr68lrvcICAIafQxU6woEcGGnJ92ne57R3T5Pxga1Uyfw3Oi1+PPoP3goSzqs71c/9Q5soSUB5hl5t7IAkWeoTIEBrQwlhexM4FIUMK01cGqHOcv02YHnJgKF69p51trMTfc8o7t92gSinxry4ZydmLTuL2P2m99viBwZQ/zUEk5bhgDzjAw9sy8LEHmGyhQY0MpQUsiuBKIigZ/aAFdPmzN8sCTQZhqQo5BdZ6zdvHTPM7rbp11A+plBP208hndnm388+SH8MYQWfcDPLOB0VRBgnpGnyAJEnqEyBQa0MpQUsiOBXb8Av3QBYqPN2T3yBNBiHJA2sx1nq+2cdM8zutunbWD6iWHboy7i6W/WGLN976mSCK9V2E9mzmmqJMA8I0+TBYg8Q2UKDGhlKClkJwJisfma4cDiDxNnJc73aPgREBhkp5k6Yi665xnd7XNEkNrYyOiYOJT6IALxCcCzFfPii+cr2Hi2nJqnCDDPyJNlASLPUJkCA1oZSgrZhUBcLPD720DkBHNGYrF5ky+AR1+yywwdNw/d84zu9jkuYG1ocMMvVuDAmaso8VBmRLxe24Yz5JQ8TYB5Rp4wCxB5hsoUGNDKUFLIDgTETlczOgIHFpizCckMtJoEFOXOMb50j+55Rnf7fBk7HNsk0HPaFszddgLBgQHY9VEY0gbzSa7TYoN5Rt7jLEDkGSpTYEArQ0khXxO4ehb4sRVwYrM5kyx5gbYzgNylfT0zx4+ve57R3T7HB7ANAIxecQif/rHXmMn8HjVRJm9WG8yKU/AmAeYZedosQOQZKlNgQCtDSSFfEvjnKDClOXDhsDmLXKXN4iNrXl/OimP/R0D3PKO7fQxk3xNYdeAsXhy/0ZjI0Bbl0KpKft9PijPwKgHmGXncLEDkGSpTYEArQ0khXxEQZ3tMbZG4zW7BWkDrH4B0/Auhr1xy77i65xnd7bNLHDl5Hheu3USljxcZCNpX/z981KyMk3E40nbmGXm3swCRZ6hMgQGtDCWFfEHgr7XAj62BG5fM0Us1A54dCwSn9cVsOGYyBHTPM7rbx8C2B4EaQ5bgxKVoPPp/2THrtRr2mBRn4TUCzDPyqFmAyDNUpsCAVoaSQt4mcGARML1d4hkfVcKBxkO5za63/WBhPN3zjO72WXAxm3iBwCuTN2HR7tNInyYIOweGISgwwAujcgi7EGCekfcECxB5hsoUGNDKUFLImwR2zgZmvwLEx5qj1nkHqNsXCOAXsjfdYHUs3fOM7vZZ9TPbeZbAV4v346vFB4xBFr9ZG0Vz8UBVzxK3lzrzjLw/WIDIM1SmwIBWhpJC3iKweQowtweABHPEJz4Fqr3mrdE5jhsEdM8zutvnhsvZxQMEFu8+jfDJmwzl4a0roFkFbrLhAcy2lWSekXcNCxB5hsoUGNDKUFLIGwQ2fAf80dscKSAQePoboGJbb4zMMSQI6J5ndLdPwvXsqpDAqUvRqDZkiaH4Sq1C6P9UKYXqlLI7AeYZeQ+xAJFnqEyBAa0MJYU8TWDN18Ci981RAoOBFuOA0s09PSr1FRDQPc/obp+CEKCEAgIJCQmo/MlinL92E9UL58S0V6spUKWEvxBgnpH3FAsQeYbKFBjQylBSyJMEVn4OLP3YHCEoLdBqMlD8CU+OSG2FBHTPM7rbpzAUKCVJoP33G7Fy/1lkSReMbR82QgDXvUkS9Z/uzDPyvmIBIs9QmQIDWhlKCnmKwPLPgOWDTfXgdECbaUCRxz01GnU9QED3PKO7fR4ICUq6SWBoxF58u/yQ0XtVn3rInyODm0rs5m8EmGfkPcYCRJ6hMgUGtDKUFPIEgWVDgBWfmsppMgAvTAcK1fbESNT0IAHd84zu9nkwNCjtIoHfd5xE1x82G71Gt6uEJ8rkcVGBzf2VAPOMvOdYgMgzVKbAgFaGkkKqCdxVfGQE2s4ACoaqHoV6XiCge57R3T4vhAiHsEjgr/PXUGfYcqN193pF8XZYcYs92czfCTDPyHuQBYg8Q2UKDGhlKCmkksDyT4HlQ0zFNBmBdjOB/+PJvyoRe1NL9zyju33ejBWOlTIBsRC93MCFuBIdi7rFH8TEjlWJzCEEmGfkHc0CRJ6hMgUGtDKUFFJF4M41Hyw+VFH1qY7ueUZ3+3waPBz8PgJtvluPdYfPI2fGEGx6rwEXojskRphn5B3NAkSeoTIFBrQylBRSQWDFMGDZJ4lPPvjalQqqPtfQPc/obp/PA4gTuIvAkN/3YMzKw8bP1rz7OPJmS09CDiDAPCPvZBYg8gyVKTCglaGkkCyBO8/5EAvO287kmg9Zpjbpr3ue0d0+m4QRp/EfgfnbT6D7j1uMf3EhunPCgnlG3tcsQOQZKlNgQCtDSSEZApsmAPNfNxWC05trPgrWlFFkXxsR0D3P6G6fjUKJUwFw7Px11B62zGDxWt0ieOeJEuTiAALMM/JOZgEiz1CZAgNaGUoKuUtgx0xgVjiABCAoBGjzE1C0vrtq7GdDAlbyzM6dO9GnTx+sXr3asKBmzZoYOnQoypQpY8miuLg4DBs2DOPGjcPx48eRP39+hIeHo3fv3ggKCrqtcfToURQqVChJzZdfftno7+plxT5XNdmeBJIjIBaiV/x4ES5ej0HNog9gavhjhOUAAswz8k5mASLPUJkCA1oZSgq5Q2DfH8D0dkB8LBAQBLSaBJRs6o4S+9iYQGp55sCBA6hSpQpy5MiBHj16GJZ8/fXXuHjxIjZu3IhixYqlal3Xrl0xatQodOzYETVq1MDatWsxYcIEiJ+PHDnyvgKkWbNmaNmy5V26RYsWRbVq1VId694GqdnnsiA7kEAqBF4cvwGrDpzjiegOihTmGXlnswCRZ6hMgQGtDCWFXCVweAXww3NA3A2z5zOjgQptXFVhez8gkFqeEYVAREQE9uzZYzy5EJd4ilGyZEk0btwYM2bMSNHKHTt2oHz58kbxMnz48Ntte/XqhREjRmDbtm0oW7as8fNbT0D69++PTz75b8MDSYap2Scpz+4kcB+BYQv2YuQy80T05W/XRcEHMpKS5gSYZ+QdzAJEnqEyBQa0MpQUcoVAVCQwqSkQc83s9eTnQNVXXFFgWz8ikFKeuXr1KnLmzInWrVtj0qRJd1nVoUMHTJ8+HefOnUOmTJmStVgUE4MHD8bhw4fver3qyJEjKFy4MPr164dBgwbdV4CIfuJKn15uFyHmUT8KRk2mumDXKXSeEmlY83Wbini6/MOaWEYzkiPAPCMfGyxA5BkqU2BAK0NJIasEzuwBJjQG/v3H7FH/A6DWW1Z7s50fEkgpz6xbt854ZUq8PtWlS5e7rBM/E69QiTYpvRoVFhZmPOU4derUfXRy586NihUrGk9YxHXrCYgoaETxIy7x6tXrr7+Obt26uUWXedQtbOwkQeDkpX9RfchSQyG8ZiG816SUhBq7+gMB5hl5L7EAkWeoTIEBrQwlhawQ+Ocv4Psw4MpJs3VoL6DhR1Z6so0fE0gpz8yaNctYizF37lw0bXr3+h/xM7FWY+bMmWjRokWyBMTrVSEhIYiMNP8ifOdVqVIlxMTEQLymJa5jx46hU6dOeOaZZ/B///d/OHHihLHwfNOmTXj77beNhewpXSdPnoT4785LvDrWrl07Y3wxHi8S8DQBsRC9yqAlOHf1BqoWyoGfO1f39JDU9zEB3q/JO4AFiDxDZQoMaGUoKZQagatnzeLjgvneMiq1B5p+DQQEpNaTv/cTAuJG/9Ch//x7x5x37dplFBmikChdurTxmwwZMqBAgQKYMmUK2rdvjwULFqBRo0Z3Wbpw4UKIpxuijbjBT+4qUqQIxJMOsfD83ks8XTlz5gwOHjyYbH+xg9bjjz9u7MC1f/9+CL3krgEDBmDgwIFJ/poFiJ8EqibT7DTxTyzdewYZQoKwY0AYggKZSzVxbZJm8H5N3rssQOQZKlNgQCtDSaGUCERfBiY1AU5uM1uVfBp4biIQmLg9KgH6P4GUtri917o6depg+fLl8PYTkOQoz5s3D08//TTGjBmDV199NVln8AmI/8epLhZ8tXg/vlp8wDBn0Ru1USx3Zl1Mox1JEOD9mnxYsACRZ6hMgQGtDCWFkiMQEw380BI4uspsUai2ecp5cFoy04zAv//+ixUrVtxnlXj6IHaoEjtSifUW4hJb7latWtVY3+HNNSDJId++fbuxk5ZYrC4WrbtyMY+6QottVRFYuvc0Ok3cZMgNa1kOz1U2d5DjpScB5hl5v7IAkWeoTIEBrQwlhZIiEB8HzOwI7J5j/jZPBeCl+UBa/qXOSQEjswvWTz/9hPPnz6e4C5YoGIYMGWJpF6zkuM+ePdtYZyLWg4gDCV25mEddocW2qgicv3oDj36y2JBr+1gBDGpubjXNS08CzDPyfmUBIs9QmQIDWhlKCt1LICEB+L038OdY8zc5igCdFgCZHiQrhxFILc+IG3+xBmTv3r3Ily+fQefWOSBiDYh4TevWJV6BunTpkrFOI02aNMaPxQ5YYqer5M4B2bp1K8qVK2e0vXDhgvH05c5LPLkJDQ2FOI1drGG5dRaJVTelZp9VHbYjAVcJ1B66DMcuXEepPFnwe69arnZnez8iwDwj7ywWIPIMlSkwoJWhpNC9BFYOA5b+d9BbptzAywuB7AXJyYEEUssz+/btM17HEueB9OzZ0yAkTkIXTz7ESejFixe/Te2ll14yzgsRZ3wULJgYT2ILX7F+Q5yELoqJNWvWGCehd+7cGaNHj77d/9lnn8X169eNbX1FsSN2wRJ64gwR8RTl3XffddlDqdnnsiA7kIBFAr1+2oI5W08YC9B3DGiEDCHBFnuymb8RYJ6R9xgLEHmGyhQY0MpQUuhOApunAHO7mz9JmwV46Tcgj/kXaF7OI2Alz4g1GH369DEKB3HVrFkTn3322e0nF7eoJVeAxMbGYujQocYrVFFRUUZxER4ebmgGByfelI0fP94oOETRI56GiPNAxNa54tR0sQjdncuKfe7osg8JpEZg4pojGDBvt9Fs+qvV8FjhnKl14e/9lADzjLzjWIDIM1SmwIBWhpJCtwjsXwBMawMkxAFBIUC7WebCc16OJaB7ntHdPscGrh8YvvX4RTwz0iza+zYugc51kt9C2g/M4RRTIMA8Ix8eLEDkGSpTYEArQ0khQSAq0txuN+Y6gACg5fdAmWfJxuEEdM8zutvn8PC1tfk3Y+NRZsACiP99ovRDGP3io7aeLyfnPgHmGffZ3erJAkSeoTIFBrQylBQ6fwgY3xC4ft5k8cSnQLXXyIUEoHue0d0+hrC9CTT/dg22HLuIh7Kkw/p+9e09Wc7ObQLMM26ju92RBYg8Q2UKDGhlKJ0tJE45F8XHP0dMDjV6AI3+W4DubDK0HmABwiggAQ8S+Gjebny/xsy96/o+jjxZ03twNEr7igDv1+TJswCRZ6hMgQGtDKVzhW5eAyY2AU5sNhmUaQk8OxYIDHQuE1p+FwHd84zu9jGc7U1g7rYT6DltizHJUW0roXHZPPaeMGfnFgHmGbew3dXJsQVIXFwchg0bZuzSIva4F3vNi11aevfujaCgoFTJij3qxY4uq1evNtqKXWLEri9lypRJtW9yDRjQbqNjR0EgLhb46QXgwAKTR8Fa5qJznnLO+LiDgO55Rnf7GMz2JnD8wnXUGrrMmOSrtQuj35Ml7T1hzs4tAswzbmFjASIIdO3aFaNGjTL2qa9RowbWrl1r7FMvfj5y5MgUyR44cABVqlQxDtASh22JS+yTf/HiRWOf/GLFirnlGQa0W9jYSRAQBw3O6wVsnmTyyFUK6BQBpMtKPiRwFwHd84zu9jGc7U0gISEBVQYtwbmrN1ClYHbM6FLD3hPm7NwiwDzjFjYWIDt27ED58uWTPalXnORbtmzZZOm2bNkSERER2LNnz+1Tem+dFNy4cWPMmDHDLc8woN3Cxk6CwIphwLL/1nlkfhgIXwxkzUs2JHAfAd3zjO72MaTtT+CVyZuwaPdppA0OxI4BYQgJ5iuw9veaazNknnGNV1KtHfkKVv/+/TF48GDjtN1ChQrd5iJO8y1cuDD69euHQYMGJUn36tWrxgnBrVu3Ng7QuvPq0KEDpk+fjnPnzhkHarl6MaBdJcb2BoHIiebTD3GJgwbFk4/cpQmHBJIkoHue0d0+hrX9CYxecQif/rHXmOiv3UJRIX82+0+aM3SJAPOMS7iSbOzIAiQsLAziKcepU6fug5I7d25UrFjReMKR1LVu3TrjlS3x+laXLl3uaiJ+Jl7hEm2qVavmsncY0C4jY4c984Cf2wMJ8TxokNFgiYDueUZ3+yw5mY18SuDPoxfw3Oh1xhzee6okwmsV9ul8OLh6Aswz8kwdWYCI16tCQkIQGRl5H8FKlSohJiYG4jWtpK5Zs2ZBvII1d+5cNG3a9K4m4mfNmjXDzJkz0aJFixS9c/LkSYj/7rzEK13t2rUz5iXmwYsEUiRwbD0w6Wkg7oZ50OBzE4HSzxAaCaRIQPcvTt3tY3jbn0B0TBzKDliAmLgEPFn2IXzblgcS2t9rrs2QecY1Xkm1dmQBUqRIEYgnHWLh+b2XeLpx5swZHDx4MEm6U6ZMQfv27bFgwQI0atTorjYLFy6EeLoi2ohCIqVrwIABGDhwYJJNWIDIB7b2ChcOA+MaJB40+NQXQJWXtTebBsoT0P2LU3f75COACt4gcOtAwlyZ02JDv/oICAjwxrAcw0sEmGfkQTuyAOETEPnAoYIPCfz7DzCuIXD+gDmJWm8B9T/w4YQ4tD8R0P2LU3f7/CnWnDzXQb/txthV5oGEq/rUQ/4cGZyMQzvbmWfkXerIAoRrQOQDhwo+IhB7A5jaAji6ypxA6eZAi+950KCP3OGPw+r+xam7ff4Yc06cc8TOk+gy1TwQ9qvnK+CZityVUKc4YJ6R96YjCxCxy9WQIUM8sgvWTz/9hPPnz3MXLPnYpMK9BOLjgdmvADtnmr/JVwXoMA9Ik56sSMAyAd2/OHW3z7Kj2dCnBM5ciUbVQUuMObxY7f/w8TPuH1LsU0M4eJIEmGfkA8ORBYjYAUvsdCUOERw+fPhtir169cKIESOwdetWlCtXzliMfujQIWTNmhV58uS53U4sMBdrQPbu3Yt8+fIZP791Doh4uiIWqrtzMaDdoeagPos+ANb8F6/ZCwIvLwYyPeggADRVBQHd84zu9qmIAWp4h0Dtoctw7MJ1lMyTBX/0quWdQTmKP1xdbwAAIABJREFUVwgwz8hjdmQBIrCJLXTHjBljnIQeGhqKNWvWGCehd+7cGaNHjzbIHj161DgnRJzvMXHixNu09+3bh6pVqxrngfTs2dP4uTgJXTz5ECehFy9e3C3PMKDdwuaMThu+A/7obdqaISfw8iIgZxFn2E4rlRLQPc/obp/SYKCYRwm8OX0rZm/5G4EBwLYPGyFzujQeHY/i3iPAPCPP2rEFSGxsLIYOHYpx48YhKirKeJIRHh6OPn36IDg4OMUCRPxy+/btRltRuIirZs2a+Oyzz4wnJ+5eDGh3yWneb/dc86wPJADB6c3XrvJX0dxomucpArrnGd3t81RcUFc9ganr/8J7v+40hKe8XBW1ivGJtXrKvlFknpHn7tgCRB6degUGtHqmfq8ozvqY3AyIjQYCAoHnfwBKPOn3ZtEA3xHQPc/obp/vIocju0pg76nLeOIrc8OQno8XxZuN3Hs7wtVx2d7zBJhn5BmzAJFnqEyBAa0MpR5CZ/cB4xsB0RdNe5p8CVTupIdttMJnBHTPM7rb57PA4cAuE4iPT8CjnyzCP9djUKVgdszoUsNlDXawJwHmGXm/sACRZ6hMgQGtDKX/C10+CYxvCFw6btpS622g/vv+bxct8DkB3fOM7vb5PIA4AZcIdJkSiYhdp5AmKADbPwxD+pAgl/qzsT0JMM/I+4UFiDxDZQoMaGUo/Vso+hIw4UngtPnuMCq0A5p9A/AkXf/2q01mr3ue0d0+m4QRp2GRwOR1R/HBnF1Ga64DsQjND5oxz8g7iQWIPENlCgxoZSj9VygmGvihZeJBg0UbAm2mAUHcPcV/nWqvmeueZ3S3z17RxNmkRuDA6Sto+OVKo1nXukXQ54kSqXXh7/2AAPOMvJNYgMgzVKbAgFaG0j+F4uOAmR2B3XPM+T9cEegwH0ibyT/t4axtSUD3PKO7fbYMKk4qWQIJCQmoMmgJzl29gYoFsuGXrqGkpQEB5hl5J7IAkWeoTIEBrQyl/wklJAC/9wb+HGvOPUcR4OWFQMYH/M8WztjWBHTPM7rbZ+vg4uSSJND9x82Yv/0kggIDjPNAMqU1t/rn5b8EmGfkfccCRJ6hMgUGtDKU/ie0YiiwbJA570y5zeJDnHbOiwQUE9A9z+hun+JwoJwXCPyw4S/0/8Vc0zfhpSqoVyKXF0blEJ4kwDwjT5cFiDxDZQoMaGUo/Uvoz/HAb2+ac06bBXjpNyCP+wda+pfxnK23CeieZ3S3z9vxwvHkCRw5dw31Pl9uCL1auzD6PVlSXpQKPiXAPCOPnwWIPENlCgxoZSj9R2jXr8CMl8xTzoPSAu1mAYVq+c/8OVO/I6B7ntHdPr8LOE4YYh1I9SFLcepyNMrmzYp5PWqSip8TYJ6RdyALEHmGyhQY0MpQ+ofQoaXAD62A+BjzlPNWk4GSTf1j7pyl3xLQPc/obp/fBp7DJ/7G9K34Zcvfxm7qW95viGwZQhxOxL/NZ56R9x8LEHmGyhQY0MpQ2l/o+J/A5GZAzDVzrk2/Bh7tYP95c4Z+T0D3PKO7fX4fgA41YGZkFN6esc2w/tu2lfBk2TwOJaGH2cwz8n5kASLPUJkCA1oZSnsLnd4NTGgMRF8059nwIyC0l73nzNlpQ0D3PKO7fdoEosMMOX05Go8NXmJY3aZqAQx5tqzDCOhlLvOMvD9ZgMgzVKbAgFaG0r5C5w+ZxcfV0+YcQ18HGg6073w5M+0I6J5ndLdPu4B0kEGNvlyB/aevIm+29Fj9Tj0EiPexePklAeYZebexAJFnqEyBAa0MpT2FLkUB3zcGLh0z5/foS0CTr2C8FMyLBLxEQPc8o7t9XgoTDuMBAh/P343xq48YysverotCD2T0wCiU9AYB5hl5yixA5BkqU2BAK0NpP6GrZ80nH+cPmHMr+xzQfAwQGGS/uXJGWhPQPc/obp/Wwam5ccv2nUHHCX8aVn7crDRerM6znvzV5cwz8p5jASLPUJkCA1oZSnsJ/XsRmNQEOLXDnNcjTwDPTwWC0thrnpyNIwjonmd0t88RQaqpkddvxqLCwEW4GRePhqVyY2z7yppaqr9ZzDPyPmYBIs9QmQIDWhlK+wjdvAZMaQ4c32DOqWAtoO1MIE06+8yRM3EUAd3zjO72OSpYNTS2zXfrse7weWROG4zNHzREmqBADa3U3yTmGXkfswCRZ6hMgQGtDKU9hETxIc75+Gu1OZ+8lYH2vwJpM9tjfpyFIwnonmd0t8+RQauR0SOXHcSwBfsMi2Z2qY7KBXNoZJ1zTGGekfc1CxB5hsoUGNDKUPpe6OZ14MdWwNFV5lxylwE6zAMy8MvG985x9gx0zzO62+fs6PV/63dEXULTb8w/SvWsXwxvNnzE/41yoAXMM/JOZwEiz1CZAgNaGUrfConiY9rzwJGV5jxylTaLj4w5fTsvjk4CAHTPM7rbxyD2bwLx8QmoMmgxzl+7ibJ5s2Jej5r+bZBDZ888I+94FiDyDJUpMKCVofSdUJLFx1wg4wO+mxNHJoE7COieZ3S3j8Hs/wTe/HkrZm/+2zBkY7/6yJWFawL9zavMM/IeYwEiz1CZAgNaGUrfCBnFR2vgyIr/nnyUAtrPBTI96Jv5cFQSSIKA7nlGd/sY1P5P4LftJ9Htx82GIZ+1KIvnqxTwf6McZgHzjLzDWYDIM1SmwIBWhtL7QmLB+Y/PJ675eLCk+doViw/v+4IjpkhA9zyju30Mb/8ncDk6BpU+WoTY+AQ0KpUb33E7Xr9zKvOMvMtYgMgzVKbAgFaG0rtCN66Yu10dW2uOy+LDu/w5mksEdM8zutvnkrPZ2LYEXhi7HmsPnUeGkCBsfr8h0qXhobS2dVYSE2OekfcWCxB5hsoUGNDKUHpPKPoS8MNzied8iN2u2s/hmg/veYAjuUhA9zyju30uupvNbUpg3KrD+OS3PcbsJnWqijqP8FVdm7oqyWkxz8h7iwWIPENlCgxoZSi9I3TtPDC1OXBymzneQ+XM4oNb7XqHP0dxi4DueUZ3+9xyOjvZjsCRc9dQ7/PlxrxeqlEQA54ubbs5ckLJE2CekY8OFiDyDJUpMKCVofS80JXTwORmwFnzL1jI+6h5wjmLD8+z5whSBHTPM7rbJ+V8drYVAVGAiEIkf470WNm7HgICAmw1P06GBYgnY4AFiCfpuqjNL04Xgfmq+T9/AVOeAS4cNmdQoAbwwnQgXRZfzYjjkoBlArrnGd3ts+xoNrQ9gY/n78b41UeMeUa8XgslHuJ3iO2d9t8EmWfkPcUCRJ6hMgUGtDKUnhM6uw+Y/Axw5YQ5RuF6QOsfgZAMnhuTyiSgkIDueUZ3+xSGAqV8TGDD4fN4/rv1xix61S+GN3gquo89Yn145hnrrJJryQJEnqEyBQa0MpSeEfo7EpjaEvj3gqlfsinQYjwQnNYz41GVBDxAQPc8o7t9HggJSvqIQFx8Ah4bvBjnrt5E8dyZseCN2j6aCYd1lQDzjKvE7m/PAkSeoTIFBrQylOqFDi0FfmoHxFwztSu0A5oOB4KC1Y9FRRLwIAHd84zu9nkwNCjtAwL9f9mBHzYcM0Ze8lYdFHkwkw9mwSFdJcA84yoxFiDyxDyowID2IFwZ6Z2zgNmdgfgYU6V6d6Dhx0BgoIwq+5KATwjonmd0t88nQcNBPUZg9YFzaDd+g6HfO6w4utUr6rGxKKyOAPOMPEs+AZFnqEyBAa0MpTqhtd8AC/sn6jX8CAjtpU6fSiTgZQK65xnd7fNyuHA4DxOIiYtH1UGL8c/1GJR+OAt+61nLwyNSXgUB5hl5iixA5BkqU2BAK0MpLxQfDyx8D1g/0tQKCAKeHgFUbCuvTQUS8CEB3fOMVfvi4uJw+vRpREdHI1583nnZjkBgYCDSpUuH3LlzIyhI35PC+8zchp83RRn8xXa8BXJyUxPbBeM9E7KaZ+xuhy/nxwLEl/QZ0Daif8dUbl4HfnkV2DPP/GGajECrSUCxhvacryazSkhIwKVLl3D58mXExsbyptAFv7pyo6b7F6cV+0TxcezYMaP4EOx0vrl1IYxs11T4SRSHoggpUKCAtn5atvcMOk780+Df78kSeLV2Edv5ghO6m4CVPENmKRNgAWKjCGFA28AZV88A09oAf28yJ5PxQeCFn4G8lWwwOX2nEBMTg6ioKOOGUFzihlDcGPKyRsCVGzXd84wV+06cOGEUu9myZcNDDz3EA+CshZnXW4k/Spw6dQoXL15E1qxZ8fDDD3t9Dt4Y8GZsPB79ZBGuRMeiTN4smN+Dr2F5g7vMGFbyjIy+E/qyALGRlxnQPnbGmT3Aj62Ai+aOJHigOND2ZyB7QR9PTP/hz5w5g/PnzyNLlizIlSsX0qRJo7/RCi105UZN9zxjxb7Dhw9DFL2PPPIIiw+FcegJKRHb+/fvN3JC4cKFPTGELTTvfA1r8Zu1UTRXZlvMi5NImoCVPEN2KRNgAWKjCGFA+9AZBxYDM14Cbl4xJ1GwFvD8FCB9dh9OyjlD84ZQ3tdWb9R0zzNW7Dt48KABvGhR7jgkH3meV3CCv9YeOocXxpq7YXWvVxRvhxX3PFiO4DYBK3nGbXGHdGQBYiNHM6B94IyEBGDDaGBBPyDhv4WoFdsBT30JBIf4YELOHNIJNxje8KwVjrrnGSv2WeHkDX9xDGsEnOCv+PgEhH62FCcvRSNf9vTGYvTAwABrgNjK6wSs5BmvT8rPBmQBYiOHMaC97IzYG8BvbwFbpvw3cAAgttmt0QMIYOL3pjeccIPhDZ5WOOqeZ6zYZ4WTN/zFMawRcIq/Pv1jL0avOGRA+blzdVQtlMMaILbyOgErecbrk/KzAVmA2MhhDGgvOuPKaeDn9sDx9eagIZmAZ8cCJZ704iQ41C0CTrnB8LTHrXDUPc9Ysc8KJ0/7ivrWCTjFX/tOXUHYVysNMG2qFsCQZ8tah8SWXiVgJc94dUJ+OBgLEBs5jQHtJWcc3whMfxG4esocMNv/AW1+AnKX8tIEOMy9BJxyg+Fpz1vhqHuesWKfFU6e9hX1rRNwkr8aD1+FPScvI0u6YPz5XgOkDdb3/BPrEWC/llbyjP1mba8ZsQCxkT8Y0B52hljvsel74I93gPgYc7BCdYCWE4CMOT08OOVTIuCkGwxPRoIVjrrnGSv2WeHkST95U3vPnj0oVSrxjysBAQHIlCmTsaNUgwYN0LNnT+OMDTtfTvLX2JWHMej3PYY7vnmhIpqU03PrYTvHm5W5WckzVnSc3IYFiI28z4D2oDPE4YK/vQlsm5Y4iFjrUX8AEBTswYEpbYWAk24wrPBwt40VjrrnGSv2WeHkrg/s1m/atGl44YUX8Prrr+PRRx+F2C3tn3/+waZNmzBz5kwEBwfj119/xeOPP263qd+ej5P8deZKNGoMWYpYsSi9aE78EF7Ntn5x8sSs5Bkn87FiOwsQK5S81IYB7SHQ5w8BP3cATu8wB0iTAXh6BFC2pYcGpKyrBJx0g+EqG1faW+Goe56xYp8VTq5wt3PbPn36YNiwYdi9ezdKlix511TF05HQ0FDjjA2xFXbGjBltaYqT/CUc8NrUSPyx03xFePnbdVHwAXv6xZbB4qVJWckzXpqK3w7DAsRGrmNAe8AZO2cDc3smnu+Rs5h5vkeuu7+IPTAyJV0g4LQbDBfQuNTUCkfd84wV+6xwcgm8jRs3atQIq1evxpUrVxAUdP96gvfeew+DBg3CjBkz0LJlS7Rt29b4/6J92rRp77Ls888/hyhoxNOTSpUqec1qJ/lLQF114CxeHL/R4Nu5TmH0bczvK68Fm8WBrOQZi1KObcYCxEauZ0ArdEbMv8CC/sCm8YmipZ4xn3yky6JwIEqpIOCkGwxP3uBZ4ah7nrFinxVOKuLaDhq5cuVCwYIFsXGjeUN77zVnzhw888wz+PjjjyGKka+//hq9evUy2lepUuV28wsXLqBIkSJo2rQpJk+e7FXTnOQvAVacCVL38+U4duE6cmYMwbq+9RESHOhV5hwsZQJW8gwZpkyABYiNIoQBrcgZZ/cBMzoCZ3aZgkEhQNhgoEo4z/dQhFi1jJNuMDx5g2eFo+55xop9VjipjnFf6EVFRSF//vwIDw/H2LFjk5zC/PnzjaJi4MCB+OCDD7B+/XpUr14d3377LV577bXbfURRIjT27dtnaHrzcoq/7mT67fKDGBqxz/gRF6N7M9qsjWUlz1hTcm4rFiA28j0DWtIZYperyInmqeYx102x7IWAlt8Deb33uoCkFY7s7qQbDE/e4FnhqHuesWJfSpx6/bQFh85etdXnsMiDmTC8dUWX53SruPjmm2/QrVu3JPtPmDABnTp1wnfffYdXXnkFN27cQJYsWdCuXTuMH28+QRa8xE5avXv3Nl7X8vZlJa69PSdPj3fnYvRqhXPgp1ere3pI6rtAwEqecUHOkU1ZgNjI7QxoCWdcvwDM7QHsnZ8oUqYl0ORLvnIlgdVbXZ1yQyh4evIGz8qNmu55xop9KXFqMmIVdv592Vuhb2mcMnmzYH6PWpba3tlIvFYlnmqsWrUKNWvWTLJ/165dMWrUKOzYsQNlypQx2lStWtWI023bthn/fvbZZ7FmzRqjEMmcObPxM1HUiOJF9BO7bE2cODHV+QlNMd7ixYshXukqVKiQ8eSlefPmKfa1EtepDu6HDbr9sBm/7ThpzHx+j5ookzerH1qh55St5Bk9LVdnFQsQdSyllRjQbiI8sBiY0y3xYME0GYEnhwIV2vKVKzeRerubU24Ib3H11A2elRs13fOMFfucUvC2aNECv/zyCy5dunS7cLjzsx0dHW2cAZIjRw7s3bv39q+6d++OMWPGGAvRxYLzWrVq3fdK1uzZs41F7b/99htu3rxpqQC5du2asSPXSy+9ZIy7YMECY+G78Fnx4sWTTTtW4trbOcsb420+9g+e/XatMVTzinnx5fMVvDEsx7BAwEqesSDj6CYsQGzkfga0i864eQ1Y9AHw57jEjg9XAlqMA3IWcVGMzX1JwCk3hLcYe+oGz8qNmu55xop9Vjj58vOgamxx2KA4ePDQoUNJSt7aolcsKn/xxRdvt5kyZQrat2+PtWvXGueHXL582XjSIc4Mufd69913cerUKUsFSFKTELtpvfXWW8buW8ldTvFXUvY/++0abD52EcGBAVj1Tj3kyZpeVXhQR4KAlTwjIe+Iro4uQHbu3GlsKSi2KBSXeEQ9dOjQ24+hU4oA8VehqVOnYunSpThy5Iixf3rp0qXRt29f43RZdy4GtAvU/loHzOkKXDhsdgoIBGq9DdTpAwSlcUGITe1AwGk3GJ66wbPCUfc8Y8U+K5zs8LmQmYN46pEtWzbj9alZs2bdJSVehRKvPg0ZMsR4AiG23b3zEgvNS5QoYTz5EK9vzZs3D02aNElyOjIFyLlz54wnIaLQqVAh+b/uO8Ffyfn6jx0n8doPm41fc0temU+E2r5W8ozaEfVTc2wBcuDAAWOLQfHouUePHoZnxe40Fy9eNLYfLFasWIreFkl7xYoVEI+4xV9wrl69arwPK4qae3cPsRo2DGgLpMSJ5ssGAetGAkgwO+QoDDT/DsifuGWkBSU2sREBp91geOoGzwpH3fOMFfuscLLRx8OtqYjvp7p16xo7XLVq1crQEEWJOJBQnHx+8uRJdO7c2fjeEwcR3nmJ09Jz5sxpnJher1494w9tyV3uFiCxsbF46qmnkCdPnlSfnjjBX8nxjYtPQL3/tuTNnC7Y2JI3U9r7n0S5FSTs5DYBK3nGbXGHdHRsASIKiIiICIiTYG9tKXj8+HHjpNjGjRvf9xehe+NBLMirXLnyXQc1/fvvv8Zfcc6ePYszZ84k+bg6pbhiQKfyqTu6BpjbPfGph2he9VWgwQAghCfF+nPOctoNhqdu8Kxw1D3PWLHPCid//jyJuX/11Vd44403bpshiozs2bMbC7/F036x85XY2Sq5SzzJF4VHaocOulOAxMfHG698iScg4ulKSEhIirid4K+UAExccwQD5u02mvRtXAKd6/AVY19/Pq3kGV/P0e7jO7IAEU8rxF93WrdujUmTJt3low4dOmD69OlGYsyUKZPL/hPvsn7xxRc4duyYy3ulM6CTwR19GVg84O5DBbMVAJ7+Bihcx2UfsYP9CDjxBsMTN3hWOOqeZ6zYZ4WT/T4l3puReBNAHF749NNPp3rooKsFiCi+RfFz+PBh/PHHH8iQIUOqhjndX9dvxqLmZ8tw4dpN5MgYglV96iEjn4KkGjeebGAlz3hyfB20HVmArFu3DjVq1DC2HuzSpctdfhQ/E9sEijbVqlVz2cdt2rTBzJkzjVe5xLoQVy4GdBK09v4O/PYWcOVE4i+rdgbqfwCkdb1AdMUfbOs9Ak67wfDUDZ4VjrrnGSv2WeHkvei330ji0EFxBoh4VTBv3rxJTlC8QiX+e//9941F6OKQQrEr1q3XucROV+K6d3te8Z27detWLFq0KMmduZIajP7C/7d3JlBWFNf//zIMzDDIDFuAQcBhkU0UYQRBQEBQJBLAaPgrIJFFWcUV/wl4DJqoEVBBFAFRlCVC3BBQIyg7KCBhk12WYV8GYVgHZuF3br3MvlW/1/26X/e3zvGEQHVV3c+97766r6vuxdQVe/HqN75MZc/fWw9D2tVxnuF4aEU6fsZDOPwS1ZMBiFzIkyNY8+fPV+djszf5u27duqkgQu53GGlynEuOYMllvdyX/nKPI+dv5b/sTZ6X4k8bNmxQ90o83ZIOA9/+/5x1PSrcCHR9G7jhDk+jcaPwXttgmLHB83ej5vYvTh35vGZvOj5D6nJIWty1a9diwoQJqs5HQcULZbzRo0eri+zZm5wgyAg4OnTooE4ZSHHDjJaQkKDerEREROQ4ojxy5EjIfwU16guQtyB3jlmKxAtXUTaqhHoLUiaSCVd0bNuKPjp+xop53TRmyAcgKSkpBaYYzK0oedUrGTcyMtCIs73nnntydFu0aBE6deqk+kgwoNvkcl/Lli1VUCHFm2Sewlp+zjujv6cDkLRUYN0UYOmrwNX/VSMOCwdaP+3LclUiUlcl7BdCBLywwTB7g8cAJH8D19kYeMHejH785eixBAxVqlSBpIkeNWqU0SEy+0tdkMaNG2PLli15Lrj7Myj15aM2beU+/OPrHerPz91TF8PuKjxZjj+s+YweAR0/ozeSd3uFfABy4MABdalOp7Vt2xbLli1TbyfMfAMil88laFm/fr262C7zFNX4BiQfQpJaV45bndyW9Y81WvqqmVdqUBRS/nsIE/DCBsPMDV5Bqtbh6PYvTh35dDiF8MfJdUunvnwqTU5JQ5sxS3Hq/BVIRqzlI9qrOyFswSeg42eCv6rQmjHkAxDZ/Eu6QZ0mKXelArGZd0Dklx65qCfZQqQybEG50nXW51mDPn/cV1Bwy9wsTKXKAR1fApo8AoSF6eBjnxAmwA2GOcrT4eh2P6Mjnw4nczTCUcwgQH1lUZzx4wG8+JXvR7reLWrgH91vNgMxxzBIQMfPGBzSc91DPgDxR2NFZcGaM2cOTp8+XWQWLLmAJ29SJI3g7Nmz1evrQJrnDDr1CvDTe8CKsVnHrQRg0z5Ah9FA6QqB4OSzIUSAGwxzlKXD0e1+Rkc+HU7maISjmEGA+sqimJqWjs4TVmLPyQsIKwZ882Qb1K8SbQZmjmGAgI6fMTCcJ7t6MgARTcsFc7kDsnPnTlSrVk0pP6MOiBynyn6JXI5LyR2P2rVrZ55nlTzmPXv2VCl7p06dmuOinb+W5BmDvnYN2Pk1sOgF4Mz+LFxVmwCdx7KgoL8GFMLPcYNhjvJ0OLrdz+jIp8PJHI1wFDMIUF85Ka7YfQp9Plyn/rJVnQqY1f92FCtWzAzUHEOTgI6f0RzKs908G4BIekE5jiX1QIYPH64MQCrCypsPqYRer169TKOQdIJSL2T//v0qg4e0Z555Bm+99Za67zFgwIA8BnT33XejcuXKhgzLEwZ9dCPw3QtAwqosNlEVfWl1edzKkL24qTM3GOZoU4ejjp/55Zdf8Pzzz2PVKt/nVArXjRkzBo0aNSpyofKGedy4cSqbnxSxkxSt2bMj5R4gLS0NY8eOxbRp09SPQFIYVnzqiBEjVFpXo01HPh1ORudlf+sIUF952fb/aD1+2HlS/cPk3vG4t1EV6xTAkfMQ0PEzxFY4Ac8GIIJFMnTIl6xUNc/4kn399ddxyy235KCWXwDSrl27Qu+eLF26FNLHSHO1QZ89CCx5BdgyJwtJWAmgxSDgzhFAZIwRVOzrMgLcYJijUB2ORfmZPXv2oFmzZpA7c0888YRamPw4I7VL5MeZG28sPPNORmKQ2NhYxMfHY+HChYUGIFJ3Seov9e3bV9VnWrNmDaZPn67qMb377ruGwRQlnwyow8nwxHzAMgLUV160+05dQKfxK5CSdg2VykRg8TNtEVOKaXn9NcKUtHSUKK5/31THz/i7Fq885+kAxGlKdqVBX/oNWPUmsHYqkHYlC3n9LsDdLwMVajtNDVyPDQS4wTAHug7HovyM3GuTbH5Sl0jeRkjLOJ7auXNnfPrpp4Uu9sqVK0hMTFQF7OSenBSmK+gNyNatW1W6Vgl0pPZERpM6KRMnTlQpzW++2dgl26LkYwBijq0FcxQduw7mepwy11uLd2PCD3vUcnrcVg1jHmzslKWFzDqkvspHaw7g4zUHMH9Ya1SO1kv1r+NnQgaCTQtlAGIT+PymdZVBX73ou2C++m3gSlKWuFWbAvf8A4hr5SDyXIrdBLjBMEcDOhwL8zNFJeiQO28SXFx33XVaCy4qAJFaE6+++ir27duXI526HHetVauWKk73yiuvaM2V0UnHj+pwMjQpO1tKgPrKH+/V1HT8YeIq7DpxXnWY0a857qz7O0t14ZbBhd2c9QcxccmvKq2xNCNZxXT8jFtYWSUHAxCryPoxrisMOiUZ2PARsPIN4KLvfKoE5dJAAAAgAElEQVRq5Wr67nncdD/Ay3J+WIe7H+EGwxz96nAszM+YmaJcJCoqAJGEH/KWQ+6J5G5yh65JkybqbYyRpuNHdTgZmZN9rSVAfRXMd/Ohs7h/0mqkXwOuL1sKXw9vjbJRrA1SEDHJIvbFxiOY8P0eHDl7ObNbxesi8FTHG9G7xQ1axqzjZ7QG8nAnBiAOUn5IG3TqVWDTLGDFG8C5w1lUr6sMtH0eaNIHCKdTdJC5OWop3GCYow4djoX5GbOLtBYVgMjxqpIlS6oL67lb06ZNkZKSAjmmVVDzt6CrDidzNMJRzCBAfRVO8bVvd2DK8n2qU8cGlfF+n3hmxcqFLD39GhZuPYbx3+/GvlMXM/81OjIcA9vWRt9WcYgqGa5triG9X9OW0tqODECs5Wto9JA06IzAY+WbQNKhLHkjywKthgO3DwJKljbEgZ29R4AbDHN0np2jbN737t2bZ+Bt27ap+kWfffYZbrrpJvXvUVFRqFGjBmbOnIk+ffqoFOX33HNPjmcXLVoEeWMhfXr37q214KICEEltLm865OJ57iYX0k+ePJl5YTy/CUePHo2XXnop37VIUCNBTH6N9qalPsd0or4KV8WV1DT0mPwjNh/2HXce9fsGeOzOWo7Rn50LkcBj0fbjGP/9Huw87juqpnxeyeIq6Hi8TW3ERBm/vB+S+zU7FZHP3AxAHKSQkDJoKSK4cSaw8q2cbzxKlgFaDAZaDgVKlXUQXS7FyQS4wTBHO9k5ZmSj0hlZ0okvW7ZM1T+S4GT+/Pn4wx/+kONR+btu3bqpwEXqKOm0ogIQvgHRocg+9A9F28Ch3y7hvrdX4lxyKoqHFcOcx1ugWVz5oh90aY9r165h8fYTKvDYfuxcppQlw8PQ6/YaGNKuDn5XJsJv6UNqv+a3lNY+yADEWr6GRg8Jg5bL5T9PB9ZMBC5kO7etAo9BQIshQJR3nZ4hhbNzJgFuMMwxhuwcL1++nG+qcOkjWacky1SdOnXUxJJyV+oi8Q6IOXpw0iiSzaxhw4aZS5KCdZJEQC75d+zYUdXBkrdfTm70D3raWbTtOB6f6TvOWC6qBL4Y0go1K3rrBELGG48JP/yKHdkCjxLFi6HHbdUx7K46iI0ppQe0kF4hsV8LWEprB2AAYi1fQ6M72qAlne6694G1k4HLv2XJFRHtO2Ylbz0YeBjSNztnEeAGwxxr0OEYSBasOXPmqGKtZmXBkixXr732GrNgmaP+fEf55JNP0LNnTzz11FOqLov8MnzmzBlVJFLeZoWHh2PevHm46667LFxFYEPr2HVgM7jn6bHf7cS7S31HL2+oEIXPB98BuWDt9paWfg1fbz2GSUt/zXHUKjysGP50W3UMbV8b1cpFmYbB0fs106S0diAGINbyNTS6Iw1aCgj+OAn478dAyqUseUqVA24fDNz+OCB/ZiOBAAhwgxEAvGyP6nAsys/I8Sq5A7Jz505Uq1ZNjZ5RB0TugMgxrYwml8CTkpIgdzmk3kfuVtQRLMmAJZmuCqoDsmnTpjyFYYsiVZR88rwOp6LmCZV/l2K7Uml++/btaNCgQY5ly9uRVq1aKd1JKuTSpZ35a7mX9BWoXckbgKf/vQlfbTqqhmpcvSxm9m+O6Ejj9xwCXUswnpd0uvM2HsHk5XuxLzHrcrm88XgwvjqGtKuN6uXNCzwyZNLxM8GQP5TnYADiIO05yqCPbgTWvANs+xK4lpZFqUys735HfF8gQq8WgIMQcykOJeClDUavXr1UMb/z588jIiLnL5Pjxo2DbBjl1+mCLlAXpkIdjkX5mV27dqnjWBUqVFDHc6RJJXR58yGV0OvVq5e5hEcffRQff/wxpG5HXFxc5t+/8847qnJ6eno6/va3v6kg449//KP6965du+YIKgYNGoQpU6aoSuiyGV69erWqhD5w4EBMnjzZsMUWJZ/XAhBJJrBq1Splb8WLF8/D84UXXlC1VsQm5f6PlfZpWJn/e0DHrv0d243PyaX0P3+4Dj/t851WaFwtBh/3a+6q9Lznk1Mwd/0hTFu5H8fPJWeqsWTxMPRoVg2D2pr7xiO3nej4GTfalpkyMQAxk2aAY9lu0OlpwK5vgZ8mAQmrc0pT4Uag1ZPALT2AcPe/zg1QlXzcIAEvbTBkMy+VvmUz36xZs0xSv/32m3qTIJe/Z8yYYZCgr7sORx0/s2XLFhUISTAgrXXr1nj99dfzvI0oKACRYCQhISFfGSS4kOcymrwlGTNmDKZNm4bDhw+rty4DBgxQ88vxIKNNRz4dTkbndWr/SpUqqeBQ7C2/9tVXX6F79+74+9//DglGrLRPfxl5SV/+Msr9XNLlFDzywVps+V9mrAax0ZjVvzkqhPhxrGNJl1Xl8n+tPYjzyamZYktWq4eb18Djd9bSrmYeCGsdPxPI+F54lgGIg7Rsm0EnJwEbZwFrpwBnc20aarQE7hgO1L0XCAtzEC0uxU0EvLTB+Omnn9CyZUtMmjQJgwcPzlSjBCXvv/8+5A1E9erV/VKvDkfb/IxfEhl/SEc+HU7GZ3beExLQiS1JQCe2lV9buHChCnolnfGLL74IK+3TX0Je0Ze/fAp67lxyCvpOX48NCWdUl+rlS+H9PrehfpVos6eydDy5t7Tx0FlMX30A32w9BrnvkdHKRpXAo3fE4c8t41CudPBqjen4GUuhuGBwBiAOUmLQDfrkDmDdVGDzXCAl6+wkihUHbuoOtBgKVIt3ECEuxa0ECt1gfD4ASNztLNEr1gUemObXmq5cuYLo6GhVS+ODDz5QY4j8kqloxIgR6jiMv01noxZ0P+OvMH4+pyOfV+wtI7iQI3FDhw7Nl6i8kerXrx+mTp2Kxx57DFbap58q1Xqz5+/Ybn/u4pVU9P94feZxLHlT8GaPxri3UazjRb98NQ0LNh/FjJ8O4JcjWal0ZeE1ykdhQJuaeDC+mqECgmYJreNnzJrLreMwAHGQZoNi0GkpwM6FwLppQMKqnNJL8cD4R4HmjwExvsunbCQQDAKFbgin3Akc2xyMZejPEdsYGLhCv3+unnLHQjZ6cglbmtyPkONOwqFMmTLq34YMGYLvv/8ecjSrZs2a6hfq+++/v9A5GYAAOn7UK/Ymx6rkrcbKlSvVMbr8mtjZe++9pyrON2rUSHWxyj6ttGu/P4weeFDuhLw4bxvm/pxVLPihZtUx6r4GKOPAy+nbjiZhzrpDmLfpSI5jVqKq22uWR7/WNVXFd6l3YlfT8TN2rS1U5mUA4iBNWWrQks1qw8e+4oEXTuSUulJDoPnjvvsdrFruIIvwzlK88ot0hkaHDRumLl7LxWC5cN6mTZscR7IuXryoMhfJXQmp0SBZqeSCsPiI7JfAc1sIAxATAhAXvXGTjGZffvmlylQmgW3ulpycrOxL6sBI1jOr7dNKu/aOt/RPUjnGNPOnBLy8YDtS/3eEqWpMJF7q1ggdG1SC1Iexs504l6zedny24XCONLqypsgSYeh+6/Xo3eIGNLo+xs5lZs5t6X7NERJavwgGINYz1p7BdIOWtx1yqVxS6P76A4Csc5MICwcadAWa9QduaAXY7Hy0IbGjKwnobJzdJPjMmTPRp08frFmzRtVnOHfunPoFurBL15IV69lnn1VZigpqOhxN9zMOU4yOfDqcHCaWX8uRYoOysdy711cXInfLSNErSQ8eeeSRzH+2yj7zW4NZdu0XIA8+tPnQWTz36WbsOXkhU/pmceXwl871EX9DcIsIS9CxaPsJfL3lKNbu/w3Xsm1RZHH1KpfBQ82r449NqiEmyllphHX8jAfNy5DIDEAM4bK2s2kGfWq3703H5k+Ai6dyLjqmOhD/Z6DJI0CZKtYKxNFJQJOAVzaEGTjkonn9+vXVmw85HrNgwQJ06dKlQFqJiYnql2oJWG699VYGIIXYlY4f9YK9yVuPsmXLquN92Wu3CDo5CiVH+qQIpLxZkxS82ZtV9plbbWbataarYTcAySlpmPDDHry/Yl/m2xAB07RGWfz5jjjc26gKIsLzpmwOFF5qWjo2H07Cqj2JWLLzhPpz7hYdGY4ujavigabV1HrsfjNTkMw6fiZQXm5/ngGIgzQckEEnnwO2fQFsnA0czpVuUS6V1+3ku99RpyMQZr5jcRBGLiUECXhhQ5hdLXIcQupsSEXq9u3bY8mSJQVqTdLU3nfffYiNjcVHH31UqHZ1OAbkZ0LAtnTk0+EUAqIWusTly5ejXbt2KsNVjx49VF8JSqQgoVQ+lyKSUmtF0u7mLiJplX1mX7DZdh3q+rJj/QcSL2Lsol34esuxHNOXiQhHu/qVcHfDymgeVx5VYiL9Wt7pC1ew49h5bDp0Bj8nnMGGA2dw/kpW6tyMQSPCw9Sdji63xKJ9/UqILOH8PYqOn/ELmoceYgDiIGUbNmip27FvKbDpE9/F8tSsYjxKrHJxQJPewK29gOiqDpKUSyGBnAS8sCHMrfOOHTuqwKOwooNSyE+OxsgvxfKWpGTJwtNM6nA07GdCzFh15NPhFGJi51nu+PHj8fTTT2f+vQQZ5cqVUwkN5EK6ZL6SzGsFNSvsM2MuK+w61PVl5/p/OZKED1fvx8LNx3A1LT3PUmJjIlG/ShmVeer6cqUQU6qEurwul8BT067haloazl5KwZmLV3E0KRkHT1/CgdMXcfL8lQLFkvS5d9XzBTl31v0dSkcYr/ljJzMdP2Pn+kJhbgYgDtKSYYOe08sXeGRv4aWAhl19QUdcG9bucJB+uZSCCXhhQ5hdeqkSLsXhpCp4QUUH5Vdo2STu27cP3377LaKiooo0IR2Ohv1MkbM6q4OOfDqcnCVVcFdjlX2KFFbZdXAJuXO2xAtX8OV/j+C7bcex4eCZPHcyApG6dMniaFKjnMpiJQGHXCa3M4tVILLIszp+JtA53P48AxAHadiwQW/4CFjwpE8CKRjY+GFf/Y5IZ2SJcBBaLsXhBLy2IZSig1IDRM7aX3/99flqZ9CgQdi0aRMWL16cbwaj/B7S4WjYzzjcdnIvT0c+HU4hJrapyzXDPjOq3ec+NmiVXZsKgIPh5PlkVTtk48Ez2HToLOS41plLKUWSkcy4sTGl1NuSelXKoGFsNBpWjVZvUMKLu6eYsY6fKRKWxzswAHGQARg2aKlg/uMkoPH/A8rXcpAkXAoJGCPghQ2h1POQdLpr167FhAkTUFhxuISEBPWGJCIiIkdmrJEjR0L+K6jpcDTsZ4yp0vbeOvLpcLJdkCAvwGz77NChAx566CFV3DCjWWnXQcblyemksvrxpGRVm+PClVSkp19DWFgxlAgrprJUVSgdgfKlS6JkuHsCjYIUreNnPGkkBoRmAGIAltVdadBWE+b4TiXghQ3h3Llz1YasSpUqkDogo0aNMl0dOhzd7md05NPhZLpyHD6gmfZ59epVNG7cGFu2bMlzwd0fDNSXP9T4jJUEdPyMlfO7YWwGIA7SIg3aQcrgUoJKgBsMc3DrcHS7n9GRT4eTORrhKGYQoL7MoMgxzCSg42fMnM+NYzEAcZBWadAOUgaXElQC3GCYg1uHo9v9jI58OpzM0QhHMYMA9WUGRY5hJgEdP2PmfG4ciwGIg7RKg3aQMriUoBLgBsMc3Doc3e5ndOTT4WSORjiKGQSoLzMocgwzCej4GTPnc+NYDEAcpFUatIOUwaUElQA3GObg1uHodj+jI58OJ3M0wlHMIEB9mUGRY5hJQMfPmDmfG8diAOIgrdKgHaQMLiWoBLjBMAe3Dke3+xkd+XQ4maMRjmIGAerLDIocw0wCOn7GzPncOBYDEAdplQbtIGVwKUElwA2GObh1OLrdz+jIp8PJHI1wFDMIUF9mUOQYZhLQ8TNmzufGsRiAOEirNGgHKYNLCSoBqfadkpKCunXrolixYkGd2y2TSYXp3bt3q7SntWoVXBfI7X5GRz7aW+hYva5dh45EXKkbCOj4GTfIaaUMDECspGtwbBq0QWDs7hoCJ0+exOnTpxEdHY1KlSqZUjvANXA0BJFN2vHjx3H27FnExMSgatWqBT7ldj+jI9/Ro0eRlJSEsmXLqrosDHo1jMyGLkbs2oblcUoPE9DxMx7GoyU6AxAtTMHpRIMODmfO4jwC8vbj8OHDSE5OVosrXrw4wsLcX03XLE2kpaUhPT0dkZGRqFGjhuJXUHO7n9GRT3gdPHhQ2ZvYWWG8zNIRxzFOwIhdGx+dT5CA/wR0/Iz/o3vjSQYgDtIzDdpByuBSgk5Afu2UX6XPnTuH1NRUtaFm0yMgm2gJPipXrlzkZtrtfkZXPtncnjhxQgUhtDU9Owt2LyN2Hey1cT5vE9D1M96mVLj0DEAcZB00aAcpg0shAZcScLufcbt8LjVLikUCIUWAfiZwdTEACZyhaSPQoE1DyYFIgAQKIOB2P+N2+WjYJEAC9hOgnwlcBwxAAmdo2gg0aNNQciASIAEGIGjatCntgARIgARMJ8D9WuBIGYAEztC0EWjQpqHkQCRAAgxAGIDwU0ACJGAJAe7XAsfKACRwhqaNQIM2DSUHIgESYADCAISfAhIgAUsIcL8WOFYGIIEzNG0EGrRpKDkQCZAAAxAGIPwUkAAJWEKA+7XAsTIACZyhaSPQoE1DyYFIgAQYgDAA4aeABEjAEgLcrwWOlQFI4AxNG2H16tVo3bo1Zs2ahQYNGpg2LgciARIggQwCO3bsQO/evbFq1Sq0atXKdWDoR12nUgpEAo4j4HY/GgzgDECCQVlzjtmzZ6uNARsJkAAJWE1Afujo1auX1dMEfXz60aAj54Qk4FkCbvWjwVAoA5BgUNacIzExEd999x3i4uJQqlQpracyonCvvjWh/L5fs6l/b7419Mf+L1++jAMHDqBTp06oWLGilp8JpU70o8a15Y8dGZ/FuU9Qfn6PGP0edbsfDcanlQFIMChbOIfXzyFS/v8iPj4eGzZs8OR5d+rf2/o3y7XSjrxtR9Q/9e/l71Gz/KjRcRiAGCXmsP50nHScXnactH9v279Z7ph25G07ov6pfy9/j5rlR42OwwDEKDGH9afjpOP0suOk/Xvb/s1yx7Qjb9sR9U/9e/l71Cw/anQcBiBGiTmsPx0nHaeXHSft39v2b5Y7ph15246of+rfy9+jZvlRo+MwADFKzGH9jx07hilTpmDgwIGIjY112OqsXw7lp/5p/979/JvlYehH6EfoR7zrR7z++TfLjxodhwGIUWLsTwIkQAIkQAIkQAIkQAIk4DcBBiB+o+ODJEACJEACJEACJEACJEACRgkwADFKjP1JgARIgARIgARIgARIgAT8JsAAxG90fJAESIAESIAESIAESIAESMAoAQYgRomxPwmQAAmQAAmQAAmQAAmQgN8EGID4jY4PkgAJkAAJkAAJkAAJkAAJGCXAAMQosRDr37ZtW6xYsQK9evXCrFmzQmz1xpZ76dIlzJgxA/Pnz8fWrVtx+vRpxMXFoUuXLhg5ciTKli1rbEAH905LS8PYsWMxbdo0HDp0CNWrV8eAAQMwYsQIFC9e3MErD3xpP//8s7LlJUuWYP/+/ShdujRuuukm/PWvf0XHjh0DnyDERhAOHTp0UKves2cP6tSpE2ISOH+59KP0o863UmMrpB/Ny4u+1JgNBdqbAUigBB38vGzGhwwZgosXL3oiAPnll19wyy23oE2bNujUqRMqVaqEDRs2qE26BCLy5+joaAdrTH9potf33nsPffv2xR133IE1a9Zg+vTpSt/vvvuu/kAh2PPBBx/E8uXL8cADD6Bp06a4cOGCkl30P2nSJAwePDgEpfJvyVevXkXjxo1VECqfcwYg/nEs7Cn6UfpR863K/hHpR3PqgL40+DbJACT4zIMy49mzZ1GvXj08/fTT6pdhL7wBSUxMxNGjR1UQkr19+OGH6N+/P9544w0888wzQeFv5STydkc2nU888QQmTJiQOdWTTz6JiRMnYvPmzbj55putXIKtY69evRq33XYbIiIiMtdx+fJl3HrrrTh16hROnjyJ8PBwW9cYrMlfe+01jB8/Hj179lT/ywDEXPL0o1k86UfNtS27R6MfzakB+tLgWyQDkOAzD8qMQ4cOxeLFi9WvwrJR80IAUhDYc+fOISYmBv369cMHH3wQFP5WTjJq1Ci8+uqr2LdvH2rWrJk5lRxHqlWrljpu9sorr1i5BEeO/eyzz+LNN9/EwYMH1ZE0t7eEhAQ0bNgQ77zzDuTPL730EgMQk5VOP5oFlH7UZONy6HBe86OiBvpSe4yRAYg93C2dVY4aNW/eHAsXLkTnzp1RrFgxTwcgu3btQv369fGXv/wF8itHqDc5XiZvOY4fP55HlMqVK6NJkyb4z3/+E+piGl7/ww8/jM8++wzyq7XcC3F769atm3rbI8fvJPhgAGKuxulHc/KkHzXXvpw6mtf8qOiBvtQea2QAYg93y2ZNT09HixYtEBsbi6+++krN4/UApE+fPurS8saNG9XRpVBvcryqZMmS6k5L7iZ3IlJSUtQlfC+1HTt2qCNYknDg888/d73o8uOCfGmuW7cO8fHxGD16NAMQE7VOP5oXJv2oiQbm0KG85kdFDfSl9hkjAxD72Bc6s2wi9+7dq7W6qKgo1KhRQ/WdPHmyuvexffv2zOM5oRiA+Ct/bmBTp07FwIED1d0PuQPihla7dm3Imw755Tt3kwvp8qv4r7/+6gZRtWRISkpCy5YtcezYMfVmKOOzoPVwCHaS+y6S9evuu+/GlClTlAQMQPJXpL9+hH40J0/60RB0FAaX7DU/KnjoSw0aicndGYCYDNSs4Q4cOJDjfH9h40qKyGXLlqkLuHLxfNiwYXj55ZczHwnFAMQf+XMzmjdvHiTTx+9//3t88cUXrrmYzDcgWZqWLxA5krZ+/Xp17Ew+C25vL7zwgsr2tXv3blSsWJEBSCEK98eP0I/mBEo/6naP4tuIe82PilbpS+21bQYg9vIvcHZxCJJqVKeVL19e3fmQrEj/+te/VDBSqlSpzEdvvPFGdVxj3LhxasMSCvUw/JE/O6tFixaha9euKkXtN998g8jISB2UIdGHd0B8apK0iaJjyd0uAaYcv3J7kyxvkmjgqaeeUnVfMtrbb7+tMqD98MMPKuW09GHzbazoR419j9CPQr1h9spdOi/6UbFx+lL7vyEYgNivA9NW0L1798x7HwUNKsXrnnvuOdPmdOJAsuGQy/fypkA2ZNddd50Tl+n3miTLlVym93IWrNTUVPV2a8GCBZg9ezYeeughv3mG0oObNm1SG6PCmlzAl9oobP4RoB/1caMfdX82Qa/6UbFv+lL//KOZTzEAMZOmzWP9+OOPOHLkSJ5V/OlPf1LF+YYPH65qZNStW9fmlVo3/dq1a1U1bElPK1+g5cqVs24ym0aWew6yCS2oDog41ty1UGxaqiXTygVhqXsxd+5cyNn0xx57zJJ5nDionNOW9Nq527///W98+umn6i1ItWrVIJtoNv8I0I8C9KMT1QaVftS/z1AoPEVfar+WGIDYrwPLVxCKd0D8gSK5vGVjfv78efzzn/9Ur9GzN/n/cnHXDW3QoEHqArJUQm/VqhWkqJRUA5cL93KB1s1NEgq89dZb6r5H9mNIGTKLjnPr3s08RDZeQrdew/SjPsb0o9bbWjBmoB/NnzJ9aTCszzcHA5DgsbZtJq98ccrdl/bt2xfIOeOyvm2KMHFieXU+ZswYTJs2DYcPH1a/estm/Pnnn3fNZfuCcLVr167Qc/1Lly6F9PFS45em9dqmH/Uxph+13taCMQP9KAOQYNhZYXMwALFbA5yfBEiABEiABEiABEiABDxEgAGIh5RNUUmABEiABEiABEiABEjAbgIMQOzWAOcnARIgARIgARIgARIgAQ8RYADiIWVTVBIgARIgARIgARIgARKwmwADELs1wPlJgARIgARIgARIgARIwEMEGIB4SNkUlQRIgARIgARIgARIgATsJsAAxG4NcH4SIAESIAESIAESIAES8BABBiAeUjZFJQESIAESIAESIAESIAG7CTAAsVsDnJ8ESIAESIAESIAESIAEPESAAYiHlE1RSYAESIAESIAESIAESMBuAgxA7NYA5ycBEiABEiABEiABEiABDxFgAOIhZVNUEiABEiABEiABEiABErCbAAMQuzXA+UmABEiABEiABEiABEjAQwQYgHhI2RSVBEiABEiABEiABEiABOwmwADEbg1wfhIgARIgARIgARIgARLwEAEGIB5SNkUlARIgARIgARIgARIgAbsJMACxWwOcnwRIgARIgARIgARIgAQ8RIABiIeUTVFJgARIgARIgARIgARIwG4CDEDs1gDnJwESIAESIAESIAESIAEPEWAA4iFlU1QSIAESIAESIAESIAESsJsAAxC7NcD5SYAESIAESIAESIAESMBDBBiAeEjZFJUESIAESIAESIAESIAE7CbAAMRuDXB+EiABEiABEiABEiABEvAQAQYgHlI2RSUBEiABEiABEiABEiABuwkwALFbA5yfBEiABEiABEiABEiABDxEgAGIh5RNUUmABEiABEiABEiABEjAbgIMQOzWAOcnARIgARIgARIgARIgAQ8RYADiIWVTVBIgARIgARIgARIgARKwmwADELs1wPlJgARIgARIgARIgARIwEMEGIB4SNkUlQRIgARIgARIgARIgATsJsAAxG4NcH4SIAESIAESIAESIAES8BABBiAeUjZFJQESIAESIAESIAESIAG7CTAAsVsDnJ8ESIAESIAESIAESIAEPESAAYiHlE1RSYAESIAESIAESIAESMBuAgxA7NYA5ycBEiABEiABEiABEiABDxFgAOIhZVNUEiABEiABEiABEiABErCbAAMQuzXA+UmABEiABEiABEiABEjAQwQYgHhI2RSVBEiABEiABEiABEiABOwmwADEbg1wfhIgARIgARIgARIgARLwEAEGIB5SNkUlARIgARIgARIgARIgAa+7gocAAAAISURBVLsJ/B9mafDF1lWEZgAAAABJRU5ErkJggg==\" width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "def gradient(x, y):\n",
    "    # compute D_Y f(x, y)\n",
    "    g = (y - x).T\n",
    "    \n",
    "    def Dy_for_h1_active():\n",
    "        A = 2.0 * y.T\n",
    "        lmda1 = g[0] / A[0]\n",
    "        Dy = np.identity(2) - np.outer(A.T, A) / np.dot(A, A.T)\n",
    "        return 1.0 / (1.0 - 2.0 * lmda1) * Dy\n",
    "    \n",
    "    def Dy_for_h2_active():\n",
    "        A = np.array([0.5 * (y[0] + 1.0), 8.0 * y[1]])\n",
    "        lmda2 = g[0] / A[0]\n",
    "        invH = np.array([[1.0 / (1.0 - 0.5 * lmda2), 0.0], [0.0, 1.0 / (1.0 - 8.0 * lmda2)]])\n",
    "        Dy = -1.0 * np.outer(np.dot(invH, A), np.dot(A.T, invH)) / np.dot(A.T, np.dot(invH, A)) + invH\n",
    "        return Dy\n",
    "    \n",
    "    # compute gradient depending on which constraints are active\n",
    "    if h1(y) < eps and h2(y) < eps:\n",
    "        h1_YY = 2.0 * np.identity(2)\n",
    "        h2_YY = np.array([[0.5, 0.0], [0.0, 8.0]])\n",
    "        v1 = np.dot(np.linalg.solve(h1_YY, g), g)\n",
    "        v2 = np.dot(np.linalg.solve(h2_YY, g), g)\n",
    "        if v1 > v2:\n",
    "            return Dy_for_h1_active()\n",
    "        else:\n",
    "            return Dy_for_h2_active()\n",
    "    \n",
    "    if h1(y) < eps:\n",
    "        return Dy_for_h1_active()\n",
    "        \n",
    "    if h2(y) < eps:\n",
    "        return Dy_for_h2_active()\n",
    "    \n",
    "    # no active constraints\n",
    "    return np.identity(2)\n",
    "\n",
    "\n",
    "dydx = []\n",
    "for xi, yi in zip(x2, y):\n",
    "    Dy = gradient((x1, xi), yi)\n",
    "    dydx.append(Dy[1, :])\n",
    "    \n",
    "# plot y and Dy\n",
    "plt.figure()\n",
    "plt.subplot(1, 2, 1)\n",
    "plt.plot(x2, [yi[0] for yi in y])\n",
    "plt.plot(x2, [yi[1] for yi in y])\n",
    "plt.legend([r\"$y_1$\", r\"$y_2$\"])\n",
    "\n",
    "plt.subplot(1, 2, 2)\n",
    "# computed gradient\n",
    "plt.plot(x2, [di[0] for di in dydx])\n",
    "plt.plot(x2, [di[1] for di in dydx])\n",
    "# check against empirical gradient\n",
    "#plt.plot(x2, np.gradient([yi[0] for yi in y], (x2[-1] - x2[0]) / (len(x2) - 1)))\n",
    "#plt.plot(x2, np.gradient([yi[1] for yi in y], (x2[-1] - x2[0]) / (len(x2) - 1)))\n",
    "plt.legend([r\"$D y_{1,2}$\", r\"$D y_{2,2}$\", r\"$D^\\star y_{1,2}$\", r\"$D^\\star y_{2,2}$\"])\n",
    "plt.show()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Example 3: A Non-Convex Case\n",
    "\n",
    "Here is another example that results in rank deficiency. However now the constraint set is defined as the area in the circle that is not within the ellipse,\n",
    "\n",
    "$$\n",
    "\\begin{array}{llll}\n",
    "    y \\in & \\text{argmin}_u & \\frac{1}{2} \\|u - x\\|^2 \\\\\n",
    "    & \\text{subject to} & u_1^2 + u_2^2 - 1 \\leq 0 & (h_1) \\\\\n",
    "    & & \\frac{1}{4}(u_1 + 1)^2 + 4 u_2^2 - 1 \\geq 0 & (h_2)\n",
    "\\end{array}\n",
    "$$\n",
    "\n",
    "which is a non-convex optimization problem. (Note the change in sign for the second inequality constraint).\n",
    "\n",
    "Unlike the last examples we now fix $x_1 = 0.75$. The active constraints switch as $x_2$ is swept from -4 to 4. At $x = (0.75, 0)$ we get $y = (1, 0)$ and both constraints are active, resulting in $A$ being rank deficient."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 11,
   "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\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the 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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eilAzGBmXq8T+PtvOf9aFxKS6tQBHnwQyG9iacR//90UI//8A8hMSrp0wMsv63WlSuV1Csbt85AAMfNsNJPXOAxjpwkmtwek7/dbsee/C2aadDxvqbxZMKJjVdPtyIlm2bJl02buRXBIEt8rVKiA/v37491339V+Fso3oX+3/hAGzNqicXisRkG81yH0lj+r7IEwHYyBKBAVCVw5B1w+A1w5q38uy7/ngKvnr/8bjmvhJ3HqyAFka/AcMtd8zJClyuM1Q7WHRiYKkOv9nNLJVtOnT9emmY2cghU3r5kwUg5oChAzmJnXqwT27wdGjwYWLdItrFIF6NABKFbMmsXnzuli5PvvgfBwoHlzYNAgIEsWa/V6pbSHBIhfnqPJCZD7x6zGtn/Pe6V3NTvuKJwNP/dsoGRTrVq1IEJE3thKat++PVauXKkJkdj1/iNGjMDkyZPx999/47HHHjN8eW9CjkoGBrjQ+GV78N6v+gxI64p5MeqJWgG2yP3mfSNAIq8BF/8DLhwDLvyn/7d8Lp0CLp7U/439iNC4es4UzMt1+iJjy/8ZKqM8XjNUe2hkCkkBEhERAVm/lz179nhrgGWDuewB2bFjB4oUKaJFQOw9ILIHRJYMxCYzeY2GknJAU4AYRcx8XiRw5Qrw0UfATz/JbmCgbFng4YeBcuXstfb0aV3g7NwJFC4MDBsGlC9vbxuBqC1AAsTPz9FQmQGRcOzRowdkL4gsM9mwYYO2JGv06NF44YUXbkSr3HEl/blo0SJtNmTKlCmGIjkYBMjweTvw+eI9mr8NS+XE1GfrGvI9mDJ5QoBEXAbOHQbOHdL/PX8EOP+v/m/4MSD8qC4uHEgxYelwLVV6RNfujozNXzPUgvJ4zVDtoZEp6ATIqFGjtJvLZU3rm2++qW20kzc+ktq2bYtKlSoh9qbfhJcU7ty5E/K2SDYn9urVSysjN6HLzIfchF4uzoDITF6joaQc0BQgRhEzn9cIXL4M9OmjL7eSyz9FeMjJRU4tkYqKAn74AZg9W99X0revPsviVHtu8HZAgAT7czSUjuGN3ey/atUqvPTSSzh//jy2bt2qnQIWm2KXYL333ns4ceJESAmQ13/ciq/XHNRQVCmSFT/2aOjGt9ZTbbgmQGQp1Kk9wKndwOm9wOl9wJn9wNkDwIXj1pikTgNkyq1/MuYCMuUEMsb5ZMgBZMwByL8Zsun/ppd/s+HshctYunQpGjUyfgyz8njNmpdBVTroBEjx4sVxIHYDaoKukinmp556KkkBItm3bNmCAQMGaFPUkurXr49hw4ZpwiVhMpPXSNQoBzQFiBG8zOM1AhcvAr17A3/+CdSuDcj9O3EGRY6au3UrMGaMviRLNqf/73/+XZLlgAAJ9udoKAkQeVlWvnx5beZj+fLlmDNnDlq3bh3v6xXKAqTnt39gzuYjGo+SeTJiUb+mjj56vFi57QJE9lgc/ws48TdwYjtwYgdwcqe+XMpUSgVkzgtkKwhkLQhkyQ9kLaD/TP5b/s2cR/+IoFB8kaTiv/J4zZT/wZ056ASIn7tLOaApQPzc7aFpuwz8e/QA/voLqFcPePZZfUbCzXTmjL4ka8cOfUnW++8Dt9/upgX2tOWAALHHsMDUYuQ5GkoCJCYmRpvVl6N3mzRpoi2zSphCWYB0/mIdlv2jD4zzZkmL9a/HP4Y/MFHsbqsqA/AbFl45DxzZBBz5A/h3E3Bsiz6rYSTJrEWO24AcxYCcxfT/zi6fIkC2QrroSJPOSE2W8qj4b+Q5Y8moEChMAeKhTlYOaAoQD/UiTUmRgGwKf/FFfeDfsCHwzDP6cbmBSLIk68cf9f0nckrWhAlAhQqBsES9TQqQeOyMPEdDSYAInGbNmmnCQ/aAJHbJbSgLkHafr8TmQ2e1GEqfJjV2Dmml/l30aUlTA/DzR4EDK/XPoXX6TAdSuDtFhETeckCesvondykgV0kgWxEg7OZSwEDhM+X/dSONPGcC5Y9f2qUA8VBPKQc0BYiHepGmJEtAZh26dwd27dKXPj35ZODER1xD5Ts0YgSQJw8wdSqQN69/OpIChAIkmWiVwZUsqZM9kFMlthNJoSxAGg9fjP2nLt2gsuOde5AhrcuzsQF+2iQ7AL92Edi3DNizCNizGDi1K2lrw9ID+SsCBSsB+e/QP/nK63sxPJwoQALTORQggeGeaKsUIB7qDJpiP4GTJ3XxsXcv0KIF0KmT8ppd+40D8NtvwLRp+gzI+PFAhgyONGN7pRQgFCDJBFXv3r21O0BkL0hhWWqYSLpy5Yp2eMvw4cO1TegTJkxAWFgY0qZNm2y4BsMpWFXfno8zlyJu+Ln2tbuRP5tPvvs2PUxuGYBfOAHs+BnY8asuPqKuJt6SzGIUrQ0UqQkUqQHkvd2VJVM2uX2jGgoQu4kaq48CxBgnV3JRgLiCmY0EgsCJE4Ac+ykHRNx7L9Cxo7fEhzCRywrlsralS3WBJJe0KW5qdBUxBQgFSIKAO336tHak/Nq1ayF3fMipZi/Kssck0v/+9z+888478X6b8JTIxIr6XYDI/pjSg35DVPTNJUTz+zRE2fxZXf0KB7oxGYCvXPgrmuQ7h0x7ftGXV8VE32qWCI6SjYHiDYBidfUN4UGQKEAC04kUIIHhnmirFCAe6gyaYh+BCxeAJ56QS3WAdu28fRN5ZKS+GV3uCpHZmqefto+DUzVRgFCAJIitGTNmoGPHjihQoIB2D8gguXgzmRSqN6GHX4nAnYPnxyMzs1sd1Cyey6lvq7fqlXuX9i/DtdUTELZ7LsJiIuPbJ0uqSjYCyrYESjcDchb3lv02WUMBYhNIk9VQgJgE5mR2ChAn6bLugBF46y1gzhzgvvv0mQ+vp/PngTffBGTJ2PDhQJMm3raYAoQCxGKEhqoAOXzmEuoPWxyP3sTONdCsQn6LRD1e/OoF4M9vgLXjgNP6JYw3UpoMuuCocD9QpgWQPovHnbFuHgWIdYYqNVCAqFBzqAwFiENgWW3gCCxZAvTrB5QsCbzxhnv3fFj1WGZr3n5bX4Ily7LkdnavJgoQChCLsRmqAmTbv+fQeuSKePQ+fKgyOlQvYpGoR4tfPAWsHgVsmATIXR1x0sks5ZGpzjPIVL2jflFfCCUKkMB0NgVIYLgn2ioFiIc6g6ZYJ3D6NPDII4AswZL9FAULWq/TzRo2bQI+/RTInx/48ksgd243WzfeFgUIBYjxaEk0Z6gKkFW7T+KxiWvjMXmjdQU8U7+ERaIeK37pNLDqM2DteCDi4k3jMmQHqj6B82XaY/HWw6ZuAveYh5bMoQCxhE+5MAWIMjr7C1KA2M+UNQaIgGzolpkP2dAt+z9kU7cf088/AzNmAJUqAWPH6neFeC1RgFCAWIzJUBUgv209ihe+2RSPXq+7y+Dl5h6e8TTT15HXgPUTgKXD4s94yIV/d70IVO2kLbFSGYCbMcPreVX8Vx6veR2Gi/ZRgLgIO6WmlAOa94CkhJa/d5uA7PmQvR8VKwIDBnjjrg8VBiKkxo0DVq4EOnQABg5UqcXZMhQgFCAWIyxUBcj0dQcx8P+2xqP3VN3iGNy2okWiHigud3b88jJweu9NY+TG8Yb9gcodgbCbRyyrDMA94KFtJqj4rzxes81q/1dEAeKhPlQOaAoQD/UiTcHRo/rSK0nvvefdpUtGu+raNV1Myb6QKVN0UeWlRAFCAWIxHkNVgIxbugdDf9sRj94DVQvjk0eqWCQawOKyz2P+IGDztzeNkIsAG78G1OgST3jEZlAZgAfQQ9ubVvFfebxmu/X+rZACxEN9pxzQFCAe6sUQN0WOdezWDZD9E/JvvXrBAUSO5R0yBLjjDuCLL7w1o0MBQgFi8VsWqgJk2NwdGLNEPwUqdaoYRMekQpNyeTG5Sy2LRANUfPdC4McXgAvHdQNSpQZqPQ80fiXZ28hVBuAB8tCRZlX8Vx6vOeKBPyulAPFQvykHNAWIh3oxxE355hvgk0+AmjWBnj39cZGf0S4bPRpYvVqfDZEjhb2SKEAoQCzGYqgKkNd+2Ippaw9q9HKnj8Gpq6lQ7bYc+L/uPntxIns9Fr6ln3AVmwrcCbT5DChcLcXoUBmAp1ipjzKo+K88XvMRF6dNpQBxmrCJ+pUDmgLEBGVmdYzA3r1Ap05AxozA0KFA1iC7TVhO9ZL9LFmyAP/3f0DmzI6hNFUxBQgFiKmAuTVzqAqQF6dtwi9bjiJTutTIly4K+y+kQqm8mbGwb2OLRF0sfuEE8F1n4OBqvVGZ9ZB9HvKJs88jOYtUBuAueuh4Uyr+K4/XHPfGPw1QgHior5QDmgLEQ70YoqZERABdugA7dgB9+wJVfLyGOrkunD0bmDkT6NwZ6NXLG51NAUIBYjESQ1WAPDFpLZbvOokC2dIhV+or+PtsauTJkh4bXm9mkahLxY/8CUx/HDh/WG8we1Gg/QSgWB1TBqgMwE014PHMKv4rj9c8zsJN8yhA3KSdQlvKAU0B4qFeDFFTZHP2qFFA48bAM88ELwTZkP7qq4DMhsjxvMWKBd5XChAKEItRGKoCpO2oFdhy+BzK5s2ErDEXsPFkaqQLS42dQ+5BKrmE1MtpzyJdfERc0q0s3gB46Esgs/n7ilQG4F5GY9Y2Ff+Vx2tmjQvi/BQgHupc5YCmAPFQL4agKXLRYNu2gBxZ+9FH+hKsYE7yfZMLCuvX1/8NdKIAoQCxGIOhKkAaDV+MA6cuoXrRbMgUcRbLj6XWSG5/+x5kTBdmkaqDxf/6EZjVFYiO0Bup2RW4533DS64SWqYyAHfQO9erVvFfebzmunfebZACxEN9oxzQFCAe6sUQNGXiRP2Svo4dvbU526muEKE1fDiwdetNIeJUW0bqpQChADESJ8nkCVUBUvmt+Th3OQJNyuRCussnMe+wLkBWv9oUBbN79EXK5un6SVcx0XqPNn8bqNfbUgSoDMAtNeixwir+K4/XPOZ7IM2hAAkk/QRtKwc0BYiHejHETAkP12c/ZLmCzH5kyBAaAP79Fxg0CChUCPjuOyDtzUu9XAdAAUIBYjHoQlGAREfHoNSgX7WJ23Z35kPq8KP4Yb8+6zH3pQYoXyCbRaoOFN8+R99wLuJDNpu3/hSo/qTlhlQG4JYb9VAFKv4rj9c85HegTaEACXQPxGlfOaApQDzUiyFmyvjxgHwefRS4997Qcn7aNOC33/TN6LIpPVCJAoQCJInYe/zxxzFz5kyEh4cjffr08XJ9+OGHGDBgADZs2IBKlSrhwoULyJIlC9KkSWM4knfv3q3lLV26tOEyXskoMx8yAyKpc61CiDp1CN/s0QXIjOfuQu2S5vdSOOqb7PmY9ggQdU2OutI3m1d6yJYmVQbgtjTskUpU/Fcer3nEZy+YQQHihV64boNyQFOAeKgXQ8gUmf1o00a/lO/jj4EEA5ygJ3HpEtC/PyAngP3wA5AnT2BcpgChAEki8j777DP07t0b69atQ025m+d6On36NEqVKoU2bdpg6tSpCMUZkEOnL6HBB4s1Ii82vA1Xj+/DxJ26ABn/RHW0qFggMN/nxFo9ugX4ouXNDecy8yG3mtuUVAbgNjXtiWpU/Fcer3nCY28YQQHijX7QrFAOaAoQD/ViCJkybhwwYQLw2GNAq1Yh5HgcV5cuBWQPjFxMKBcUBiJRgFCAJBF3a9asQZ06dTB69Gi88MILN3KJKJkwYQJ27tyJokWLhqQA2fbvObQeuUJj8mqLkrj47z/47C999md4h0p4qEbRQHybb23zwn/AhCbAuUP672zY85GwEZUBuDfg2GOFiv/K4zV7TA6KWihAPNSNygFNAeKhXgwRU86f12c/ZLmG7P0ItdmP2G6OjgYGDwb27QO+/x4oXtz9AKAAsVeA/NQNOPmP+/2YXIt5ygIPTjRt09WrV5EtWzZ06tQJkyZN0srLsqkKFSqgf//+ePfdd7WfheIMyIpdJ9Fp0lrN/6Fty+Lcgb/x/mZdgLx+3+3o2qCkad62F5Abzqe2Aw6u0quu8QzQ+mPbm1EZgJ67F0EAACAASURBVNtuRAArVPFfebwWQD+91jQFiId6RDmgKUA81IshYoqceiVv/h9/HLjnnhBxOgk3N2wARowAHnoIeOUV91lQgNgrQCY1BY5udr8fk2uxYGXg+WVKNtWqVQsiRDZv1n1q3749Vq5cqQmRrFmzar/r1q0bFixYABmIlShRAm+99RYeeOCBFNvz8x4QuQFdbkKX9PnDFXBqzxb8b6MuQHo2LY2+Lcql6L/jGX7tD6wbrzdTrD7Q+Uflo3aTs1VlAO647y42oOK/8njNRb+83hQFiId6SDmgKUA81IshYMq5c/rsR7p0+uyH/BvKSWZB5PZ3uQ/l11+BbC6fnkMBYq8ACaIZEAHTo0cPjBs3TtuILhvOGzRoEG9J1sWLFzFs2DB06NAB5cuXx8KFC7X/lr9H5colPwj3swCZtvYgXvthqxY7X3WuhGM7NqH/Ol2AdK5TDG+3uyOwT7Wdc4FvH9FtyH4b8NxiILMz+8xUBuCBhWNv6yr+K4/X7DXd17VRgHio+5QDmgLEQ70YAqaMHg188QXQqRPQsmUIOGzARTkNS07F6t0beOIJAwVszEIBYq8AMXEKlI296FhVX331FTp37oxVq1bhpZdewvnz57F169Z4p10lXIJVrVo19O3bF3KKVnLJzwJkzJI9GDZ3h+beT89Vw/6t69B/XVpci4pBuyqFMKJjVcf6JMWKL5wARtcBLp0EUoUBz/wOFKmeYjHVDCoDcNW2vFhOxX/l8ZoXAQTIJgqQAIFPrFnlgKYA8VAvBrkpZ8/q935w9iN+R8uJWCI+cuQAfvxR3xvjVqIAoQBJJtZko7nMbMjMx/LlyzFnzhy0bt06Xom4AkQGY7fddpsmWKpUqRK0AuT933Zg7NI9mn+Le9XClvWrMGRrRvx3IQKNy+XFlC613PoGx29HLiaZ9jCwSz8iGE1eBxr1d9QWlQG4owa5XLmK/8rjNZd983JzFCAe6h3lgKYA8VAvBrkpn38OTJ6sv+Vv0SLInTXp3ldfAfPnA++/DzRrZrKwhewUIBQgyYRPTEwMcufOjTNnzqBJkyZYtGjRLbljBUiGDBnQrl07FCxYEFOmTEkxKP08A/Lq/23Bt+v0k6U2DKiLlcuXYcSurNh78jKqFM2BH1+sl6L/jmT44xvgp+561UXvArr8CqTWjwd2KqkMwJ2yJRD1qvivPF4LhIMebZMCxEMdoxzQFCAe6sUgNiV29kNOvPrwQ+79SNjVx4/r94JUqgRcP3HIlWigAKEASSHQmjVrpgkP2QMiy6sSJhEgsjTrxRdfhNwRIrMk6Qzs7fKzAOn+zUb8uvUYsqRPgxV9amPp0qWYfCgn/jwcjpJ5MmNRv8aufH3jNXLpNDCqBnDpFJA2M9B9FZDT+ZP1VAbg7sNxrkUV/5XHa8654buaKUA81GXKAU0B4qFeDGJTYk++klu/mzcPYkctuPbJJ3KhD/Dll0DFihYqMlGUAoQCJJlwkcFV8eLF0bZtW+3SwcRSREQEnnrqKRw6dAhz585FpkyZDAWgnwXI4xPXYOXuUyicIyN+6VZNEyCzTuTFsj1nkCtzOmx6IwDPuDm9gY3XZ56avwPU62WoH6xmUhmAW23TS+VV/Fcer3nJ8QDbQgES4A6I27xyQFOAeKgXg9SUqCj95Cs56WnkSM5+JNXNf/8NDB2qX8z4zjvuBAMFCAVIMpEmlw7KHSCyF6Rw4cKJ5nzuuefwxx9/YP78+ciZM6fhuPWrALkWGY0aQ37H+SuRqFk8JyZ0rKAJkJVXi+C7Tcc0/5f2b4xiuTMbZmE546H1wCQRPTFA3tuBbssdOXI3MTtVBuCW/fVQBSr+K4/XPOR3oE2hAAl0D8RpXzmgKUA81ItBasqqVUCvXvrehiefDFInbXBLNpAOGgQcOQL8/DOQN68NlaZQBQUIBUiCEJFlVPPmzcPatWsxYsQIjBo1SltelVg6cOCANkOSPn36eCdjvfbaa5BPcsmvAmTJzhN4avJ6zbVXW5XHI5VzawIkTdFKePG7v7WfD2xVHt0alXL++ystyFHectv50T/19rr8BhSr607bgHb/i/jfqFEj5JCDNEIsqfivPF4LMbbJuUsB4qFgUA5oChAP9WKQmjJwILBggf5WPxC3ffsJ67JlwIQJwNNPA92vbyZ10n4KEAqQBPE1Y8YMdOzYEQUKFNDuARkkojiZFGo3oQ+ctQXT1+sb0Jf1b4JsYde0AXjd+g3QdOR6hF+JROWiOfCTWxvR//oBmPmU3kOVOgLtxzn5xLilbpUBuKsGOtyYiv/K4zWHffFT9RQgHuot5YCmAPFQLwahKbL5XG47L1QIGDIESJUqCJ200aVr14CXXgJSpwZ++QXIkMHGyhOpigKEAsRihIWSAImMikbNdxfgzKUIVCyUDb/0ahBvBuDt+fvxf5v+1YiuHNhU2yPiaIqKBEbfBZzaBYSlA3puAnIUdbTJhJWrDMBdNdDhxlT8Vx6vOeyLn6qnAPFQbykHNAWIh3oxCE2ZPl0/9YoXDxrv3Fmz9PtAXn8duP9+4+VUclKAUICoxE2cMqEkQFbtPonHJq7VvO/Xoix6NC0TT4CsP3IVz07doP3+jdYV8Ez9EhbpplD8j6+Bn64vj6v9AtDqfWfbS6R2lQG460Y62KCK/8rjNQf98FvVFCAe6jHlgKYA8VAvBpkpsqfh0UeB/fuBzz4DsmYNMgcdckdmjWQWRJariYBzctaIAoQCxGIYh5IAef3Hrfh6zUGN2IKXG6F0vizxBEiGzFlR/Z3fcfFaFGoUy4nvX3BwL0bkVWBkdeDcIf3Y3d5/AlnyWexN88VVBuDmW/FuCRX/lcdr3sXgumUUIK4jT7pB5YCmAPFQLwaZKTt26DMfNWvqm9CZjBOQY4tXrgRGjwZqOXirMgUIBYjxqEw0Z6gIkKjoGNw1dCH+C7+KsvmzYH6fRhqPhAPQnt/+gTmbj2jvDda8ejfyZ3NoGeX6icAvffU+adAPuPsNiz2pVlxlAK7WkjdLqfivPF7zJoKAWEUBEhDsiTeqHNAUIB7qxSAzZdgwYOZMoF8/oHLlIHPOYXf27QP+9z+gYUPg44+da4wChALEYnSFigBZu/cUHhm/RqPV6+4yeLl52UQFyK9bj6L7N5u03w1uUwFP1XNgGVZ0lD77cWYfkD4b8NJWIGNgTqBSGYBbDDlPFVfxX3m85inPA2tMUAmQqKgoDB8+HBMnTtQuVCpatCi6du2K/v37IywsLEnS+/fvR4kSST9g0qRJA7moKTbJhU1fykVjiSRpt0iRIkq9qhzQFCBKvFkoBQJXr+qbz9OkAT79VN9UzWSOgAiQQ4eA3393bvkaBQgFiLmovCV3qAiQAd9vxncbDmv+z3upIcoV0JeUJhyAXroWiRpDFuDStShUKpIds3vUt0g4keLb5wAzOum/qNsTaDHE/jYM1qgyADdYtS+yqfivPF7zBRF3jAwqAdK9e3eMGTMGXbp0Qd26dbFq1SpMnjwZ8vPPP/88SaIXL17EDz/8cMvvRUzIOeht2rTB7Nmzb/w+VoCICEmdYFDWvn17w7fIJmxQOaApQNz5toRaK/PnA3IPQNu2wEMPhZr39vgrd4HMmAEMHgy0bm1PnQlrcUCA+PlljpHn6N69e7WXSmXLlkWqVKmgOgB3pkPdr1XF/+joaOzatQtp06ZFyZIl3TfaZIsiKmoOWaDt7bizcHbM6XlTVCQ2AO03czO+33irWDHZbNLZJ7UEDq0BUoUBL20Bsqu9uLTDHpUBuB3teqUOFf+NPGe84p9X7QgaAbJ161ZUrlwZPXv21C5eik1yC+zIkSOxefNm3Hnnnab6YciQIXjjjTcwa9YsiLCITbECRP6AyeyIXUk5oClA7OoC1hOXQI8ewJo1+glY+fOTjQqBEyeAvn2BevWAOM8llaqSLOOAAPHzyxwjz9EjR47g3Llz2qVrcleGCK4LFy4gS5Ystj7Tbe1nByszK0Dkb9+JEydw/vx55M6dG/nyub9x2iyOWRsPo+/MzVqxt9tVROc6xW9UkdgANO5yrWcblMCg+yqYbTLp/Ic3ABPv1n9/RwegwyT76laoSWUArtCMZ4uo+G/kOeNZhz1iWNAIELlo6b333oO82Yq7nGrfvn3a2xmZyXj33XdNYZe3Y3KjrPyxSpcu3S0C5Nq1a7h8+bL2RyvhTIiphq5nVg5oChAV3CyTHIFjx4A2bYCyZfWjZJnUCbz5JnDggL4MK1s29XqSKmmzAPH7yxwjz1ERHAcPHsSVK1e0Z7d8ZBAuL5RkRiTUUkxMjGH/ZeZD+EnKkCGDttTZzhdxTrHvOH411uw9jXRhqbFu0N3Ikenm3/TEBqDCpPGHS3Dg1CXkyZIOq1+9G2nDbFqGKpcOyuWDkp5bAhSq6pTbhupVGYAbqtgnmVT8N/Kc8Yn7ATMzaARIy5YttVmOYzJwSpDy58+PqlWrYu7cuYZBy/KtevXqabfIygxK3BQ7A5I1a1aEh4cjY8aMaNWqFT744AOUKlXKcBsJMyoHNAWIMnMWTILAxImAnOL03HNAgwbEZIWAXEYoR/HKfhBZzmZ3slmA+P1ljtHnqAyijx8/romQq1ev4tSpU9rbfFlSFGpJZjSM+i9iTQRHtmzZkD17dl8ItoOnLqHh8MVat95XqSA+f6xavC5OagA6cuEufPT7P1reCZ1roHkFG2aCzx8FPqkIxEQBxeoDXX4JeLipDMADbrSNBqj4b/Q5Y6OZQVdV0AgQWV4lsxQbExmMV6tWTVvvK2/2jKbnn38e48ePx/r161GjRo14xQYOHKjVV716daRPnx5r1qzRRIoIkg0bNqBYsWJGm4mXTzmgKUCUeLNQEgSio/XL806fBkR8O32Td7B3xMmTQJ8+QJ06Ok+7k80CxO8vc1SeoyoDELu7MZD1+cn/q5FRWLHrJC5cjTSETDaSL935H+b+pb+cnNKlJhqXi79kLCn//z17GfWHLYJch1SlaA50qF4EWdLLLFnKTctMS93SeZA9YwJBu+ITYMFgvYKHvgQqOnxRacqm3rIJ30CRoMqiEv8qz5mggmaDM0EjQGTmQWY6ZOYiYZIN6bJedffu3YaQydswWRdcuHBhbNu2zVCZ33//HS1atMCTTz6JKVOmpFjm6NGjkE/ctH37dnTq1EkTUSKaDCcKEMOomNEAgQ0bgG7dgEaNgK5dDRRglhQJyCZ0ucxx3jwgh81HbdosQPz0Mie55+iSJUu0fYFGksxky4BCnrvyIinUkp/8f3feHsz849aVDkb6LG+WdJjbvQbCUsdXEMn5//z0bVi7/5yR6m/JU7lwVkzpdOfNWaKYGGSd2hRhZ/YiOmMunO+6Fgi7uRRMqREbCvmp/21w95YqVPyXFTeNGzc2P15zwgGf1hk0AsTOP5rfffcdHnnkEW1JlRzhazTJjIj8QZQ9IymlwYMH46233ko0GwVISvT4e0cJvPEG8NtvgPwre0CYrBMQntOm6ftpZHbJzmSzAPHTy5zknqMfffSRpSWxdnYR67KHQHgE8ObGMETFGJiCSNBkKsSgQ4lo1C8QY8qYXedSYdz21IhQaFMa6l0xEiWvb/3KdWEnGuzS96LuztsSfxV53JQtzOwdAnv27EHfvn0pQCx0SdAIEDuXDdx3332YN2+edpdIwYIFDeOVk7J+/vlnyOb0lBJnQFIixN8HhMCVK8DddwM5cwIffABDaw0CYqjPGo1dhlW7NpDMkeBKXtksQPz0MoczIEoRc0shlTfA9rRsrpaJqw5h1LKDWqEXG96GKoVTnq3KkDYM2TKkQc5MabV/E0sp+X/5WhT+u3gN4VcitbtBUkonL0bg1dn63pF7bs+D99uV0/474/x+SP/3TO2/z3eaj+g8+s8DnVLyP9D2Od2+iv+cAbHeK0EjQOSUq6FDh1o+BUs2sctFgrKc6tdffzVFuFKlSjhz5owmXFSS8ppCLsFSwc0yiRFYsQJ46SXe/eFEdMiM5969gNyvYucyLJsFiN9e5iTsKpXnqMoacCdCJFB1+sH/yKhoNPhgMY6eu4I8WdJj1cCmSJfGnlOpnPD/4XGrsW7faaRJnUqzNV/6CODDckDERaBQNeA5fVO8F5IT/nvBL6M2qPiv8pwxak+o5AsaASJqVE66SuoekD///BMiEGTzuEydyekdic1uyLR9v379MGPGDDz88MO3xIFcWigngMjm87hJ8nfs2BGyeX2snB6kkJQDmgJEgTaLJEpg6FBg1iwuv3IiPOQUvm++AQYNAh54wL4WbBYgfn+Zo/IcVRmA2NeBga/JD/7P3XYU3b7epMHq1bQ0Xm5h3+yBE/7/suUoXpym29v77jLok3stMLuH3tn3fQzUfCbwHX/dAif894xzBgxR8V/lOWPAlJDKEjQCRHqtW7duGDdunHYTuhyhu3LlSu0m9LiiYP/+/do9IUltFheRIjMYMhOSUGRIGyJkZInW/fffjzJlymgnb61evRrTpk3TzkNfu3atthleJSkHNAWICm6WSUhAjnq57z7g0iV9mVBqe94uEvR1AnKqWO/eQK1awOjR9mGxWYD4/WWOynNUZQBiXwcGviY/+P/o+DVYvfeUNqOw4pWmKJA9g23gnPA/QmZshi3GsfNXkDdreqwtMhKp9y0B0mQA+v0DZMhum/1WK3LCf6s2uVlexX+V54ybPvmhraASIHKRlGwcnzhxIg4fPqwtperatSsGDBhw46Kk5ATIH3/8oZ2CIkJmzJgxifafCBPZeCTH88pmc5lREeHRpk0byPn5efLkUe535YCmAFFmzoJxCOzaBTz6qH5rt5yCxWQ/gXfeAeQ0PjkNS/bZ2JFsFiB+f5mj8hxVGYDY0XVeqcPr/u8+EY5mHy/TcCV2j4dVjk75H3uPSA6EY1PG7kgtd3+Ubw10/MaqybaWd8p/W410sDIV/1WeMw664Muqg0qA+LIH4hitHNAUIH7vem/Y/8UX+pv5F18E7rrLGzYFmxUiPL7+Gnj1VeDBB+3xzgEB4ueXOSrPUZUBiD2d541avO7/pwv+wacLdmmwpnWtrd2vYWdyyv8T4Vdw13sL8WDqJRiedrxucvsJQKVbl3fb6Y/Zupzy36wdgcqv4r/KcyZQ/nm1XQoQD/WMckBTgHioF31sytNPA3LvjYiQzJl97IiHTZdlWLLJX0SD4l6xW7xzQIB4mGCKpqk8R1UGICka4qMMXvf/nk+XYcexcOTJkg5rX2t2yz0eVlE76X/H8avx/KFX0CRsM2JSp0WqAXs8tfxK2Dnpv9W+caO8iv8qzxk3fPFTGxQgHuot5YCmAPFQL/rUlLNngebNgfLlgdde86kTPjF7yBBAlrvJ3SC5c1s3mgIkHkOV56jKAMR6x3mnBi/7v+/kRTT5cIkG69Fat2Fo+zttB+ek/98u3YIHFzVGulRROFGgEfJ1m227/VYrdNJ/q7a5UV7Ff5XnjBu++KkNChAP9ZZyQFOAeKgXfWrKL78Ab74JdOyob0Rnco7A778DU6cCAwcCHTpYb4cChALEYhSpDMAsNmm4+JglezBs7g4t/9Sna6Fh2byGyxrN6KT/Z1dPRY55PTVTphV4BY91894LHif9N9oHgcyn4r/yeC2QjnqsbQoQD3WIckBTgHioF31qiuxJkIHxsGFAoUI+dcInZstsU69e9i3DogChALEY+ioDMItNGi7ebtQKbD58TrtEcMPrzW27+yOuAY76/+2jwM5fEREThsaYgEVv3I/0acIM++9GRkf9d8MBi22o+K88XrNoazAVpwDxUG8qBzQFiId60YemREYCzZoBmTIBH37I28/d6EK5lHD/fmDxYiBjRmstUoBQgFiLIM/uAfj37GXUe3+R5l37aoXx8cNVLHqaeHGVAaghQ66GAx+UAqKuYlnUnegc8SomP1UTTcrnM1TcrUyO+e+WAxbbUfFfebxm0dZgKk4B4qHeVA5oChAP9aIPTZH4ef55oEUL4IknfOiAD02eOROYPRsYORKoU8eaAxQgFCDWIsizAuSLFfvw9s9/a95N6FwDzSuo3bGVEh6VAWhKdWq/370A+Fo/7e71iC74Oqo5HqlRFMM6VDJU3K1MjvnvlgMW21HxX3m8ZtHWYCpOAeKh3lQOaAoQD/WiD00ZMQL46itgwADgTvs3ePqQiPMm//UX8P77uuCTywmtJAoQChAr8ePhU5AeHrsa6/afRqZ0Ydj0RnNkSOvM0iWVAagh5IveBZZ9oGXtnm0Ufj2RCzkzpcX6Qc2QJsw7F7065r8hSIHPpOK/8ngt8O56xgIKEM90BaAc0BQgHupFH5oi91EcP64fv5s2rQ8d8KHJ167plz2WKqXfC2IlUYBQgFiJH48KkKPnLqPu+4sQEwO0rlQQox6rZtHLpIurDEANGfNlG2DfMu3Y3c9rLcDw+fpdJk5tpjdkUyKZHPNf1SCXy6n4rzxec9k3LzdHAeKh3lEOaAoQD/Wiz0w5fBi4/36gRg3rb+J95nrAzR06FNi+HViwAMieXd0cChAKEPXo0UqqDMAsNpli8YnL92LIL9u1fOOeqI6WFQukWEY1gyP+R0UC798GRFwESjfHgVZfotFw/Tjhh6oXwfCHKquaa3s5R/y33UrnKlTxX3m85pwbvquZAsRDXaYc0BQgHupFn5kyfbq+8bxrV6BRI58Z73NzZQ+I7AUZPhxo0kTdGQoQChD16PGsAGn3+UpsPnQWWdOnwfrXmzm2/MoxAXbkD2B8Y71nmr4ONOyP2BO9smonejXzzGlYKgNwiyHnqeIq/iuP1zzleWCNoQAJLH/Lfzi1CihAPNSLPjOlRw9gzRp9M3SOHD4z3ufm7t4NyGlYDz0EvPKKujMUIJafoyoDEPUO815Jr/l/6PQlNPhgsQbKydOvYnvCEf/XjAXmXv9eP/kzUKIBJizbi3d/1Wd1nNxUbzbCHPHfrBEBzK/iPwWI9Q6jALHO0LYalAOaAsS2Pgipii5e1I/fLVIEePvtkHLdE85GRen7QAoUAL7/Xt0kChAKEPXo0UqqDMAsNpls8dFLduODuTu1PJO71ESTcs4eW+uI/zOfAv76AUidBhh4CEiXCUfO6vtaJLWrUggjOlZ1EqPhuh3x33Drgc+o4r/yeC3w7nrGAgoQz3QFN6F7qCtCwxS5g6J/f+CBB4D27UPDZ695+dFHwJ9/Ar/9BuRVvOGZAoQCxGJcqwzALDaZbPFWI5Zj+9HzyHH9xKi0Dp8Y5Yj/H1cAzv8LFKoGPKfP5kh6aOwqrN9/RjvZa+PrzZExnTMne5npH0f8N2NAgPOq+E8BYr3TKECsM7StBuWA5gyIbX0QUhUNGQL8+KM++1GiREi57hlnRXhMmwa88w7QqpWaWRQgFCBqkXOjlMoAzGKTSRbf898F3P3RUu33j9YqiqHtnb8zw3b/zx4CPr1D9/Gu7sA9Q2/4++Wq/Xhz9l/a/496rCpaVyrkFErD9druv+GWvZFRxX/l8Zo3XPaEFRQgnugG3QjlgKYA8VAv+sgUmfU4dUo/fje1d86k9xFB66YePAgMGgS0aQO8+aZafRQgFCBqkeNJAfLx/J34bNFuzbZvutZGvdJ5LHqXcnGVAWiytW79Hpj1jJ7loS+BivffyP5f+FXUfm8BomOgXawoe0ECnWz3P9AOmWxfxX/l8ZpJ24I5OwWIh3pXOaApQDzUiz4x5exZff9H5cpAv34+MToIzYyOBuQggMyZgTlzgFSpzDtJAUIBYj5q4pVQGYBZbDLR4tHRMWg4fDEOn7mMAtkyYOXApghLrfCdMGmc7f7/0g9YP0G3ou9OIGv8I4Q7f7EOy/75D2lSp8K6Qc2QK3M6kxbbm912/+01z/HaVPxXHq857o1/GqAA8VBfKQc0BYiHetEnpixbBrz8sn4CU9u2PjE6SM0cNQpYu1ZfDicHAphNFCAUIGZjJkF+lQGYxSYTLb527yk8Mn6N9rtujUphYKvyTjRzS522+z+pBXBoLZC9KNBn2y3t/fTnv+g9/U/t52+3q4jOdYq74mdSjdjuf0C9Md+4iv/K4zXz5gVtCQoQD3WtckBTgHioF31iihy7++WXwGuvAbff7hOjg9TMRYuAyZP1pVhyIIDZRAFCAWI2ZjwqQF75fgtmbDikWTe/T0OUzZ/VomfGiqsMQJOteVgJ4PJpoHQzoNOsW7JevhaFGkN+x8VrUahcNAd+erGeMUMdymW7/w7Z6VS1Kv4rj9eccsKH9VKAeKjTlAOaAsRDvegTU559Fti8GRg3DsiQwSdGB6mZx4/ry+CaNwfkdnSziQKEAsRszHhQgFyJiELNIQsQfjUSdxbOjjk961v0ynhxlQFokrVfOg18cP1Qj9ovAK3eTzRrv5mb8f3Gw9rvFrzcCKXzZTFusM05bfXfZtvcqE7Ff+XxmhsO+aQNChAPdZRyQFOAeKgXfWBKRIR+63nhwrz/wwvdFRMD9OkDyH6Q+fPN7wOhAKEAsRjHKgMwi03eUnzO5iPo+e0f2s//17oCnq7v3sl8tvp/aB0wqbnu370fArWeTRTVqj0n8diEtdrvXmxSCv1burPcLDFjbPXf7sBwoT4V/5XHay7445cmKEA81FPKAU0B4qFe9IEp27YBTz0FtGgBPPGEDwwOARPHjweWLwemTwdKlzbnMAUIBYi5iLklt8oAzGKTtxTvMnkdFu/8T9t0vva1u5EnS3q7m0iyPlv9/+Mb4KfueludfwJKNk60XdlwX3/YIhw5dwWFsmfAileaIrULG+4pQG4loNL/yuM116La+w1RgHioj5QDmgLEQ73oA1O++Qb45BPgxReBu+7ygcEhYOKKFfpyuL59gUcfNecwBQgFiLmI8ZwAOXbuCuq+v1A7mrZp+Xz44qmaFj0yV1xlAJpkCwveAlZ8rP+6z99A9sJJZv1g7g6MXrJH+/3Xz9RG/TLOHzlMAUIBYu7b4VxuQd5o0AAAIABJREFUChDn2JqumQLENDIWUCHwyivAwoXAp58CuXOr1MAydhM4fRro3Rto2BD4+PrgxWgbFCAUIEZjJYl8tg7AFWwZuXAXPvr9H63k2E7Vcc8d8Y+tVajSVBFb/Z/RCdg+B0ibCXjtSLJLKvedvIgmHy7RbL2vUkF8/lg1U3bbldlW/+0yysV6VPxXHq+56JfXm6IA8VAPKQc0Z0A81IseN0X2G8iN27LfYMQIjxsbYuYNGACcP6+LwzRpjDtPAUIBYjxaEs2pMgCz2OSN4nHv/pBlV6tfbYq0Ye5ejGqr/5/fBfy3HShwJ9BtRYqYOo5fjTV7TyNtWCqsefVu5HZx6Vmscbb6n6LH3sug4r/yeM177gfMIgqQgKG/tWHlgKYA8VAvetyUo0f1W7dr19YvwGPyDgE5ileO5P36a6C8iQ2pFCAUIBajWGUAZrHJG8XlQj65mE+Sm3d/xLXfNv+jo4B3CwJRV4GK7YGHJqeIKe6dIIPuvR3PNiyZYhm7M9jmv92GuVSfiv/K4zWXfPJDMxQgHuol5YCmAPFQL3rclLlzgddfBzp1Alq29LixIWbe0qXAxInm7wOhAKEAsfhVURmAWWzyRvHu32zEr1uPaf+/pF9jFM+T2a6qDddjm/9n9gMjKuvtNnoFaPJaijbI8cO131uIc5cjUDJvZix8uRFSpXL+9ndHBFiK3nozg0r/K4/XvIkgIFZRgAQEe+KNKgc0BYiHetHjpgwbBsycCbz1FlDS/TdtHqcTWPMOHNDFYfv2+gWRRhMFCAWI0VhJIp/KAMxik1rxkxeuos7QhYiIikGdkrnx7XOBORTDNv93LQC+eVBH034CUOlhQ5gGz/4LU1bt1/J+93wd1CqRy1A5uzLZ5r9dBrlcj4r/yuM1l33zcnMUIB7qHeWApgDxUC963JTHHwf27dNPXDKzz8DjbgWFeZGRwHPPAWXKAFOnGneJAoQCxHi0JJpTZQBmsUmt+Nile/D+bzu0/x7RsQraVUn6xCg72kuqDtv8XzMGmDtQb+bZxUBhY5vKdx4LR8tPl2nFHqhaGJ88UsVJd2+p2zb/XbXavsZU/Fcer9lntu9rogDxUBcqBzQFiId60cOmXLoENG4MlC2rL/Nh8h6BN98EDh8Gli0zLhApQChALEayygDMYpOIio5Bo+GLcfjMZeTIlFbbgJ0hbZjVapXK2+b/L32B9RN1GwYeAjJkM2xP+9ErsengWaQLS41Vrzb17z0ohj32TkaV/lcer3nH7YBbQgES8C64aYByQFOAeKgXPWzKunVA9+5A27bAQw952NAQNm3KFP0ULLmrpVw5YyAoQChAjEVKkrlUBmAWm8Tvfx/Hs1M3aNUEavN5rA+2+f9lW2DfUiBLfqCffqyw0RR3M3q/FmXRo2kZo0Ut57PNf8uWBKYCFf+Vx2uBcdGTrVKAeKhblAOaAsRDvehhU2SD89ix+mV3Vdyd4vcwFW+ZtmQJMGmSvhfk/vuN2UYBQgFiLFI8JUCemLQWy3edhFz+vWxAExTJmcmiF+rFVQagibb2cQXg/L9AsfpAl19MGXQtMhp131+k7YspkE1uRm+CNC4dR2yb/6Y89k5mFf+Vx2vecTvgllCABLwLbhqgHNAUIB7qRQ+b0qsXsGoVMHo0kDWrhw0NYdP27wfeeAPo0AEYeH0teUo4KEAoQFKKkRR+rzIAs9Lk7hMX0OzjpVoVLSvmx7gnalipznJZW/y/dhF4r5BuS/WngDbm71n6+Pd/8NnCXVoVox+vhnvvLGjZNyMV2OK/kYY8mkfFf+XxmkcZBMIsCpBAUE+iTeWApgDxUC961BS5eLBpUyBbNkBOwmLyJgHZiP7ss/o9ILIcy0iiAKEAMRInyeRRGYBZafLNn7bhy9UHtCqmda2NuqXzWKnOcllb/D+6BRjXQLelxbtAXfP3LB0/fwX13l+EyOgY1C6RCzOer2PZNyMV2OK/kYY8mkfFf+XxmkcZBMIsCpBAUKcA8RD1EDFl926gY0egUSOga9cQcdqnbv7vf8C//xrfiE4BQgFiMdRVBmCqTZ6/EoE67y3ExWtRKJs/C+a91ND1ey8S2m6L/9tmAd8/rVf96Ayg3D1KiHpM24SftxzVyv7aqwEqFDK+kV2pQQC2+K/auAfKqfhPAWK94yhArDO0rQblgOYMiG19ELQV/d//Ae+9p4sPESFM3iUQeyP6t9/qR/KmlChAKEBSipEUfq8yAFNtMu7Ru+8+cAcer11MtSrbytni/5JhwJL3dJt6bgJyl1Kyb+OB03hwzGqtrFtH8triv5K33iik4r/yeM0bLnvCCgoQT3SDboRyQFOAeKgXPWrK228Ds2cD778PFA7MWfseJeM9sxYvBr74ApCZEDmxLKVEAUIBklKMeESAXI2MQsMPFuP4+avInTkdVg5sGrCjd+MiURmA3oJ01rPA1u+A1GmAQceBsDTKvRJ7JG+a1KmwdEATFM6RUbkuIwVt8d9IQx7No+K/8njNowwCYRYFSCCoJ9GmckBTgHioFz1qypNPAv/8A8hJWKlTe9RImqURkIsiRXzIUcmvvJIyFAoQCpCUoyTZHCoDMJUmv9twCAO+36IV7dOsLHo3MzDDp9KQyTK2+D++MXDkDyB3GaCnfrywapq77Ri6fb1RK/5M/RJ4o3UF1aoMlbPFf0MteTOTiv/K4zVvIgiIVRQgAcGeeKPKAU0B4qFe9KApsgFdll3lywcMGeJBA2lSPAIREfpG9AoVAFmOlVKiAKEASSlGUvi9ygDMbJPR0THabd+7TlxAxrRhWDWwKXJmTme2GkfyW/Y/JgYYWhS4Fg6Uuxd49FtLdsoljc0/Xoq9Jy8ic7owrHr1bmTPmNZSnckVtuy/Y5a5U7GK/8rjNXdc8kUrFCAe6iblgKYA8VAvetAU2dDcrh1Qrx7QrZsHDaRJtxCQo3iPHgWWLk35RnQKEAoQi18hlQGY2SYX7TiOp6foMwNP1imGt9rdYbYKx/Jb9j/8GPDR9YtD6/YCWrxj2dZpaw/itR+2avUMuKccujcubbnOpCqw7L9jlrlTsYr/yuM1d1zyRStBJUCioqIwfPhwTJw4EYcOHULRokXRtWtX9O/fH2FhYcl2yFNPPYUvv/wy0TxSV5EiReL9btu2bRgwYABWrFih/bx+/fr44IMPcMcd6g9V5YCmAPHFly1gRi5bBrz8MvDII0Dr1gEzgw2bICCXEcqlhNOnA6VTGHhQgFCAmAitxLKqDMDMNBkTE4MOY1dj44Ez2sWDS/s3QdFcgbt4MKHtlv3fvwKYcp9ebduRQLXOZvAkmvdKRBTqD5OLCa8hT5Z0WD6gKTKmS34co9qoZf9VG/ZIORX/lcdrHvHZC2YElQDp3r07xowZgy5duqBu3bpYtWoVJk+eDPn5559/bkiAiAhJnWCNfPv27ZEp082H5a5du1CzZk3kypULPXv21Or97LPPtKPs1q1bhzJGTq5JxBrlgKYA8cJ3ybs2yDIeiX/egO7dPkpo2aJF+vKrwYNTFo0OCBA/v8xReY6qDED8E0wpW+q0/yt2nUSnSWs1Q9pVKYQRHaumbJSLOSz7v2Ey8PNLusVdfgOK1bXF+tFLduODuTu1ul6/73Z0bVDSlnptF2COWOVepSr9r/Kccc8jf7QUNAJk69atqFy5siYIRoy4eQNp7969MXLkSGzevBl33nlnkr0SOwMSERGBNGmSP72iQ4cOmDt3LrZv367NskiSWZLbb78drVq1wsyZM5V6XzmgKUCUeIdModdfB+bOBT75BMgT2Au/Qoa5VUf37gXefFOfterfP/naHBAgfn6Zo/IcVRmAWO1iL5V30n+Z/Xh43Gqs338GqVIBv/dpiNL5snrJfev3YMwbBKwepfvUbzeQJa8t/l24GqnNgpy9FIG8WdNj+YAmjpwa5mT/2wLC4UpU/Fd5zjjshu+qDxoBMmjQILz33nvYu3cvSpQocaMj9u3bh5IlS+K1117Du+++m6IAuXbtGi5fvowsWbLcMhMihS9cuIDcuXOjY8eOtyzZevLJJzFjxgycPHlSK282KQc0BYhZ1KGVXy4gPHwYGD8e2giAyfsErl0DnnsOkCWdshwruWSzAPH7yxyV56jKAMT7QWTcQif9X7XnJB6boM9+tK5UEKMeq2bcMJdyWvZ/2iPAP3OBDNmBVw7Y+pz9fPFuDJ+nz4K82aYCutS7Ob6xC49l/+0yJED1qPiv8pwJkHuebTZoBEjLli21WY5jx47dAjt//vyoWrWqNmuRVIqdAcmaNSvCw8ORMWNGbTZD9nWUKnXzQqHVq1dry7tkqVe3BBt65Wfy5lDy3HXXXaY7XTmgKUBMsw6ZApGRQIMGQLFi+ht1Jv8QkJmr48f1jejJ7WGzWYD4/WWOynNUZQDin0BK2VIn/e84fjXW7D2tGTG/T0OUze+t2Q+xy7L/n1UDTu8BClcHnl2UMnATOcKvRKD+sMU4dzkC+bOl1/bPZEhr714Qy/6b8MeLWVX8V3nOeNH3QNoUNAJEllelS5cOGxMZjFerVg2ytEre7CWVBg4cqOWpXr060qdPjzVr1mhLt0SQbNiwAcVkAAdg1qxZkCVYs2fPRps2beJVJz9r164dvv/+ezz44IPJ9uvRo0chn7hJlnR16tRJ80FsNpwoQAyj8mTGqCjgv/8AOa1KYuLKFUDegMtxrPIx89+SN21aIEcO/SP7meQCwnLlgFatgKxZb35kXxPvBPFkSGhGyZ0tIj6++w4omczab5sFiN9f5qgMDFQGIN4NHPOWOeX/qt0n8dhEffbj3jsLYPTj1c0b50IJS/5HXgPeLQDERAGVOgLtx9lu8WcLd+Hj3//R6pU7QeRuEDuTJf/tNCRAdan4r/KcCZB7nm02aASIzFLITIdsPE+YZMbixIkT2L17t6mO+P3339GiRQvI0qopU6ZoZb/66it07twZ8+bN034XN82fPx/yx1vyiJBILg0ePBhvvfVWolkoQEx1kz8yX7gAHDmii4yEH/m5CA0rSYRE+vT6RwSMfFJKUiZWkGTOrP93tmxA9uyA7G267TYgb16KlJQ4OvX7BQsAOZlPnhP3XT9hJ7G2bBYgfnqZk9yLnCVLlmj7Ao0kmfWWAYW8+JGXTqGWnPBf9n50mroFfx29AFn4+d3TVVAmX2ZPorXif+rTu5Ft6t2aX5fr9sPVWvrBNHam8CuRaD12I85diUTOjGkwp1t1ZEmvftN6Qtus+G+nn4GqS8V/WXHTuHFj8y+MA+WkB9sNGgFi9Y9mUn0jMyLyR+6IDBI5A+LBEPaQSSIyduzQ91uIyJB/JW7kc+ZM4oYWKKC/3Y79FC+uC4F06W4KChEVKf1/wiU6ly4BJ0/qFw9OmAC8+iqQP78+0yI/j/3E/v+pU4DMxCRMGTPqYkRmAEWQyL+FC+v2MDlLYM8e/RSsRx/VTzBL+iFlyo6U3tz56WVOci9yPvroo3jLZ01BYmbLBP48lQqT/9GXCtXME41OZaIt1+nFCgqc24Taez/VTFtfvAeO5KzliJmLjqTCTwd0ni2LROPeosHJ0xF4DlS6Z88e9O3blwLEAtugESBWlw0kxVCO4P35558hm9MlcQ+IhWgLtqJnzwJ//gnIErg//gD++QeQW8fjpgwZ4guMhGJDZh6cTB06yLpBfS+B3ISeVBK7z53TBcqhQ8CWLbpv8vn7b0D2ksQmmTmRe3HkEytKRJiE4JtjJ7sOV68CXbsCsp9s1PUTdhJr0GMzIEkxceJlDmdA7IlAlTfAybUcGR2DDhP/wP7Tl5E2LBV+fLYaCufIYI+xDtRixf/0G8Yi44qhmlXnH5+L6Ly3O2AhcDUyGm3HbcTx8GvImDY1fulWHblsukneiv+OOOtypSr+cwbEeicFjQCRU66GDh2qfApWUigrVaqEM2fOaMfsSkrpFKzp06fj1KlTPAXLemx6rwaZNdi0Sf+I4JA31LFJhIYMFOW2cdlvESs0ZIYjkCdPlS8PnD4NnDihzlMGwiJCNm++KUpEmIhgiZty5dIFicziyJHXcoEe95ioc5eSvXsDEluyjyfpkb2pNlKaAfH7y5yU/EsMlsoacFPQPZ7Zbv+/XXcQr/6fvueyS73ieLNNRU8TsOT/Tz2AP74CZKHZoKNA2oyO+frd+kMYMGuLVv9TdYtjcFt7uFry3zFv3atYxX+V54x7HvmjpaARIKJG5aSrpO4B+fPPPyFiQjaay9RZ9uzZUbBgQa2XLl68qN39IZvP4yY5UleO233++ecxduzYG7+SDeayB2THjh03bkiPvQdE/njLRnWVpBzQ3ISugjvlMrJ0KlZsyL/XRahWUI5ZFrHRqBHQsCFQo4a+ZMpLSfaByAyL2CgX29mZYmKAAwfiCxIRJfKz2CT7SWQNftWquiCRgTSTOQJDhwLbtwMrVya97M3mGRC/v8xReY6qDEDMdaS3c9vpv5za1OTDpTh54aq2T2Fp/8bIncVjz8YE3WHJ/y9aAQdXAdlvA/okfdCNHREQGRWNe0Ysx+4TF5AmdSrM69MQpfKaP/I/oS2W/LfDsQDXoeK/ynMmwG56rvmgESBCVo7FHTdunHYTer169bBy5UrtJvS4AmL//v3aPSFxN5aLOLnvvvtw//33a7eYy2lastRq2rRp2kWDa9eu1Ta4x6adO3eiVq1a2n0gvXr10n4sN6HLzIfchF5O3oArJOWApgBRoJ1IEXmjv2QJsGGDPrCOe0pZzpz6cbYiNmRAX6UKkMKFlfYYZaEW8UEG/z17SoBaqMhEUdnrsno1MGeO/pG9MJLkZK4KFXRuYlPu3CYqDeGschu6iMfkTsKyWYD4/WWOynNUZQASTFFpp//v/7YDY5fqs8P9WpRFj6ZlPI/Kkv/DSwMX/wNKNgE6/+i4rwv+Po6uUzdo7TQplxeTu1jfc2LJf8c9dr4BFf9VnjPOe+KvFoJKgERGRmr3dkycOBGHDx/WZie6du2KAQMG3LjdPDEBIneHyGai9evXa5vNZZZEhIccsytn4udJ5PboLVu2aPWKyJFUv359DBs2TJtlUU3KAU0BoopcP+JW+vDXX4EVK26eRiWCU8RGrOCoWNF/y4m+/hp44glg3Dj9Uju3k8ySyFK1WDESN05lz4iIETluWpZscalW4r3z22/AtGnAhx8CjRsnnsdmASKN+PlljspzVGUA4vbXycn27PL/wKmLaP7xMlyLikaRnBmx4OVGtt9Z4QQHZf8vnwWG6Uf0o9ZzwL3DnTAvXp1yuljnL9Zh+a6T2s8nd6mJJuWS2d9nwCJl/w3U7YcsKv6rPGf8wMJNG4NKgLgJzom2lAOaAsRcd8jAWPYziOiQo07Pn9fLy4BYBuytWwNlygR274Y5jxLPPXAgMGyYLrDq1rWjRmt1yGzIzz/rgmThwptHBct9JbEzIyL0vLaUzZrX1krL0r9PPgFkprVzZ9cEiJ9f5qg8R1UGINY61lul7fL/uakbMP/v45pzox+vhnvv1Jc5ez0p+394AzBRP4IXrYYDtd150bPreLi2FCsqOgYl82bGvJcaIm1YamXMyv4rt+itgir+qzxnvOV14K2hAAl8H9ywQDmgKUCM9eLBg4C8UZaPHJErSU5yevxxQO5tueMOY/X4JZcIqV9+kWt+9bs9vJQuXtRFiGyuFlEip3RJkqVasp9G7tiRTeyhnmQZ4IABwP33A3IzemLJgRkQP2NXeY6qDED8zCih7Xb4v3zXf3hi0jqt6tolcmH6c3chVSAP4DDRQcr+b54O/PC83tITPwClmppo1VrWwbP/wpRV+7VKXru3PJ5rWEq5QmX/lVv0VkEV/1WeM97yOvDWUIAEvg9uWKAc0BQgSfeiDL5//10XHXK0rCTZQC7H08psh+znSHiHhodiwpIpsrRJjtcV4eXlJDbKvhuZGZEDHGTTtaRSpYBmzYDatXVhEopJjj9+5hl9hmj8+MQJUIDE46LyHFUZgARTOFr1/0pEFFp+ugwHTl1C6lTAnJ71UbGQx156JNNhyv4vfAdY/qFe80tbgRy3uRYWZy9dQ5MPl+DMpQhkTBuGBX0boXAOtRO4lP13zVtnG1LxX+U546wX/qudAsRDfaYc0BQg8XtRjo1dvlxfYrVqlX6HhYgMeasuoqNdOyBTJg/1vAOmyLIymfVo1Urn4Jcky+OWLdM3zf/4oy6gxI8mTYCmTQE5DCDUklxCKBzmzqUAMdD3Ks9RlQGIAVN8k8Wq/x/N34mRi3Zr/j5drwT+16aCb3wXQ5X9/64z8PdPQJqMwGtHXN/L9t2GQxjwvf5irdnt+THxyRpK3JX9V2rNe4VU/Fd5znjP88BaRAESWP7xWlcOaAoQnaPcRP7tt8D06TfvqJC3w7K8Sm6TjnOSmYe63RlT1qwB6tQB+vcHPvjAmTacrlWO9B0zRr/JXe4yERFZs+bN5Vk+Wd5hGdPw4frsnQizxIQzZ0AsP0dVBiCW+9VDFVjxf/eJcLQasRwRUTEomD0Dfn+5kXb8rp+Ssv9j6gHHtwH57wBe0A+kcTPJhvRHxq/Bun2ntWbHPVEdLSsWMG2Csv+mW/JmARX/lcdr3kQQEKsoQAKCPfFGlQM61AVIeLguPOQj/503r36DtAgPOfo1FNPEicCzzwJffpn05mW/cLl8WT8JauRI/fAASSVK6EIkFJZnffUVMH8+IKeaycWSCRMFCAWIxe+yygBMmoyOjkFHGQDvtzYAtmi+5eJK/sus5HuFgMjLQIV2wMNTLduhUkFcAVggWwbMf7khsmUwt2RVyX8VYz1aRsV/5fGaRxkEwiwKkEBQT6JN5YAOVQEiy4xiZzxEeOTLp7/xf+EF/QK+UE4vvQSMGAFIbMhRt8GQZHmWLK0TIfLDD0BUFCCXHcrxtHffDchN7MGYZA/T1KnAe+/poosCJNleVnmOqgxAginUVP2fvHIf3przt4bCyhKgQLNU8v/sQeDTO3XTG/QD7n4jYG7EXQL3SI2iGNbB3HUASv4HzFv7G1bxX+U5Y7/l/q6RAsRD/acc0KEmQOTCQHkjPmOGvuxKllbJSUHdugX/3g6j8dqmjX66lIi0rFmNlvJPPrmVXpZnycbsU6duLs+SwwWCband1q36MjqJb5nZowChALH5m6oyANt38iJajViGKxHRyJYhDeb3aYQC2TPYbJk71an4j90Lga/b6wY+MA6o3NEdYxNp5WpkFNqMXIF/jl/Qfmv2bhAl/wPmrf0Nq/ivPF6z33zf1kgB4qGuUw7oUBEgcqJVrPCQY1wLFABeeUW/ZC/YN5WbjdM77wSOHNEH58GcZHmW7PmRWRG59FBup5dZgmA6aOC//4CXXwbuvRd4+20KkBTiWeU5qjIACaavlVn/5f6JR8atxoYDZzQMHz1UGQ9WL+JbJGb91xxdOx74rb/uc9dFQJHqAfV/y+GzeGD0Ku1uEFmKNa9PQ2TPaGwplpL/AfXW3sZV/Fd5zthrtf9rowDxUB8qB3SwCxARHt98o894XLoEFCx4U3hkVDt20EPdbr8pslRJTo6SyxSDPTZi6YnPcmpWv37A3r360qwHH9SXZ/n9lnVZay4zH+XKAVOmUIBQgNj+zDA7ABu7dA/e/22HZkez2/NhQucavrnzIzF4Zv3X6vi1P7Du+tHYrxwAMuawvV/MVvjhvJ0YtVg/jez+KoXwaceqhqpQ8t9Qzf7IpOK/8njNH0hcsZICxBXMxhpRDuhgHWSK8JCNt999pwuPQoUAud1bBmMUHkkHlZwYlTs30L69fq9GKCU5gln2vgwZoh9IcNtt+kWTfj+MQOJe/Fm0iAKEAsT2b7SZAZi8aW8/ehUio2OQI1NazH+pIfJl8+fSq1iQZvy/AX/q/cDexUDmvEB/fdAf6CRLsdqNWokdx8I1Uz55pDIeqJryzJSS/4F21sb2VfxXHq/ZaLffq6IA8VAPKgd0sAkQeeMromP0aF14FC58U3hk8PcfOlfCbdMmQE5G6tMH+PhjV5r0XCNys7rcHD5pEiCzI8LDz0cxf/qpPpu1YAGQI8GbVp6CFS/8VJ6jKgMQz8W8BYOM+n/haiRaf7Yc+09d0lpTPfbVgqmOFDXqf7zGP7kTOHcQuK0u8PRvjtilUunOY+FoO2oFrkZGI3O6MPzauwGK5U7+UBYl/1WM82gZFf9VnjMedT9gZlGABAz9rQ0rB3QwCZD9+4F33tGPW82TBxg8WL8JmsLDeKTKCVEy+yEzAb16GS8XjDn//BOQE8GWLvX3/hDZ5/LLL8DkyYDs74mbKEAoQCx+d40OwPp+txmzNh3WWnu89m1494EEsWjRjkAVN+r/DfsiLgPvFgQQA1SVy21HBcr0RNv9avV+vPHTX9rvKhfNgZnP10G6NKmTtNG0/57y1roxKv4rj9esmxs0NVCAeKgrlQM6GASI3FYuy63kVKNr14COHfXbsOVODyZzBD75RN+0LHsiZDN2qCeZARFRJvtD9u3T98eIQPPT/pAlS/TZHBHkrVtTgCQT0yrPUZUBSDB9rYz4P2P9Qbwya6vmdpl8WTC7R31kTBcWFBiM+B/P0WPbgLH19B81fxuo19tTHOSCwmenbsSC7cc1u7rUK44321SkAEmCgOn+B6DynPFUkHjAGAoQD3RCrAnKAe13AbJrl366z/bt+gbzsWOBtm091DM+M6V3b128ydv/ypV9ZryD5l65os8Kvfuu//aH7Nih2y2zgXLPTdzEGZB4OFSeoyoDEAcj1fWqU/J/27/n0H7MKlyLjEaGtKnx44v1UL5ANtftdKrBlPy/pd2/fgBmPqX/uOO3QPl7nTJNud7TF69py+WOnLui1THy0apoU7lQovWZ9l/ZKm8WVPFf5TnjTe8DZxUFSODY39KyckD7VYDITMcXX+gn+8gMyNNPAx99dOsadw/1kS9Muf9+4KefgDNnyDKxDjt2TN8fIrEnsyNnF19GAAAgAElEQVT16gFPPuntgw3kQIaePYHmzYGhQylAkvkiqjxHVQYgvngWGDQyOf/PXYpA61HLcej0Za02oxubDTbtiWym+3/ZcGDREN32F9cDect6wo+ERvx56CweGrsKEVExyJQuDLN71EPpfLfeC2Xaf096q26Uiv8qzxl1C4OzJAWIh/pVOaD9KEC2bdP3euzZAxQrBkyYoA+umKwTqFIFkL00MmhlSpqA3BvSvTuwZo1+p0yPHnosejGJUJL7bsQ+OZI6buIMyP+zdx1QVhRL9JJzTpIzSA6SQaKCRBFQguQgYAAU4SOIggoKiAlBQJAokkEERUAEJAeRJDnnnJe0C//U613cXXb39fTOm+mZqT7H8/1uT3elqVd3uqsqgjhU/KhKAKKjmajSFB3/wSEP0WHyFvx18JJv6dYVcuCTxu7I+wgvK8P6n98V2DkTiBMPGHAOiJ9QVfQBf27axuMYuHC3b5886ZNhweuVkSppxP4ghvkPONXWbqDCv4qfsZYr/XdjAKKRjpQN2kkAhK7BjBsngiiqdkVBH33RTZ5cI004nJQ0aUSgSleweMQsgQcPgIEDgWHDgAQJRMnemjWBOHH0kxzRSdW91qyJSB8DEAYgsbTW6AKwQYv2YPL6Y77VKZl5dtcKSBTfHXkfsQIg39cETm8D0uYFevwdS+kH9nHKB6HiAfO3n/ZtVCVfekzuUBbx4/2XlK4SgAeWamtXV+FfOV6zljWtd2MAopF6lA3aKQCEysPSqcfJk6JJHiXVPvusRhpwASl06kEAhHJo6BoWDzkJLF0KtGkDXLoElC8vrgMmTSr3rFWzvv0W2LQJ+O23iMUZGIAwAImlDUYVgM3YdAL9F4ikc+qsTdd3nN7vIzoxGQpA6TRyWE7g7nWgwAtAq1mxlH7gH7/7IAQtxm8EXcmi0a5iTgx+sejjjQ3xH3hyLd9BhX/leM1y7vTdkAGIRrpRNmjdAQjlelAfA+rtQV2pqRoRVfPhZoLmWx+VL6YrWFR+lxKuechL4PRpoFUrccJAxRAo2Tt3bvnnAz1zzhxg0SJgwgSh47DBAIQBSCxtL3IAtvrARXSavMXXbJCSzud0rYRi2VLFchd9HzcUgN66CHyeTzBT8U2gzhB9GQtH2YWbd31NCs+GJqUPbFAYnaoI/2aIf0dwa4xIFf6V4zVjpLl6NgMQjdSrbNA6AxD6It+nD0D37YsWFYm/ZctqJHWXkUIBKpXepQaE1IiQhzEJUDEEqshGndTjxxfloCk3SYcrWdSEcMoU4LPPgOeeYwASjWZV/KhKAGLMsPSeHZ7/k7fioPn4DQi6H+IjenSr0qhfnHpeuHcY0v/x9cCkukIYDb4CynRwjGComtnLYzfgzoMQn0ujylgNimdhAHLtGlavXo1q1aohdeRGryb6GccYikWEMgCxSNAy26j8cPrW1RWAUCI0BcF05Yq6UBP44IaCMqagPofK71IZ3nnzRK8LHmoSoGC/dWuRc1GmDNC5M5As5m7CahsZeGrrVnGqRSeIBIzCBp+ARBCiih81FIAaUJlTpobxn7dEebSfvhuXbt3zkT6gXiF0qZrHKWwo02lI/9umAL+ENnhtvwTIVUV5XzseXLnvvK9HSMjDR0gYLy6mdiqHp9PGMxyA20F7oPY0pP9QIlT8TKDod+q6DEA00pyyQesIQDZvBvr1A27cENetPvhAj6/IGuk7IKRQA0JqREg2Ubp0QLbwzKJUrpdAyB9/iJwLqpiVL/TqhR1COHQIGDxYlAymkrwMQKLUgoofVQlA7DCBQO1J/C9avhrjDyfHqWuibwQ1r/ugQWHE0eH0L1CMh65rSP/LBgLrvxFP9j4ApMgUYOrMXz58U8nkieJjXIvCuHTgb0MnAOZTZd+KhvTPAMQ0RTEAMU2UsV9I5YfTt6tuAIS6TlNVoXjxgEmTxOkHD2sk0LQpMH++SKZOl86aPd28S0iIqNL24YcCQL/yCvDCCyKXyepx+TLQqxdQr564JsYAhAGISTZ45MxFtPx+E87fEdXf6MrVqBalEDeuhtXgTOI5/DKGAtCfWgL7fwUSpgDeO+nYD2vf/HEQXyw/4BNDqsTx0a3gXbSsK38FKQBqsG1JQ/pnAGKanhiAmCbK2C/keABCwdqoUcD06eKL8cKFQKVKsRcMryAvAbqOc+CAOHnywJdLecHEcubq1SJB/cwZcSWLTkOobK+Vg/JTOnQAypUDxoxhABKN7FX8qEoAYqXqA7nXtaD7aDFuPfadv+3bpkbBDBjXpgwSxrcBZAeS0RjWNqT/UWWAyweBLKWA11bZRHHst6XyvEOW7MWEtUd9i6VM8AhT25dGybxRd0uP/Y76rmBI/wxATFMkAxDTRBn7hVR+OH276nACEhQk+ilQoFakCLB4MZArV+yFwisYk0D69KKC0y5RPpOHiRK4eFGc5tGVrOLFRa5NQosbkL3xBpA2LTB3LgMQBiCxNu6rt++j9cRN2HPmhm+tMjlSYnqXSkicwH29PmISlnQAGvIAGPIU8DAYKPYK0PT7WOvAzgUIhFCp5Z82n/SRkT5ZAszsWgn5MnqrL5e0/sMpSzles1Phmu3NAEQjhSgbtN0AhBJ1Kfdg/35xPWXmTCCVe0s2amQyEUm5eRNImRKoX18AQB7mS+DePXENi6qNFS4siixYWVjh/fcBuoq1KtyXV05Cj6BnFT+qEoCYb1zWrnj51j28OmET9p276ds4d4pHmN65ArJmSm8tIRrsJq3/y4eBUaG5ddX7A9X/pwH1sSOBktF7/rgFi/dcFCAkeSL81KU88mdKEbuFHfS0tP4ZgJiqVQYgpoozdoup/HD6drQTgPz7L9C7N0Bfh6mrOSVAU/lSHtZLYPduoFgxgL6SU9M6HoGRAHVPp47p1JejYEEBvq1qWvj55wD1evnrr//66DAAYQBi0NLPXb+LNhM34eCFW74nS2VLiRZZrqBOTc4BiLEM6/6lwE/NhbSb/QAUbWpQ8npOv3zlKrpPWovNF8W1u7TJEvq6pRfPllpPgk2migGIyQKVXI4BiKSgrJjmOABCV1EoOZcaDVJ5UAIgPOyTwJIlQIMGwPDhovcKj8BJgPIxOnUCpk4F8uQRpXFTWPDFcOJEcfpBhR6yZxf8MQBhAGLA0o9cvIU2Ezfj9LU7vqfK506LL18qgC0b1nIVJH99INaPApa9L6Td9S8gc3EDktd3KgXgf65ajTV3smLBjvM+QpMljIfv25VBpbzuPxFjAGKPbTIAsUfuUe7qKABCd9CpIRoFXbNmAXVDGzNpJE/PkTJ6tACB1HH+5Zc9x77lDD98KJLRx40DcuQA+vYN/NVD6u9CxR2+/x4oVYoBSBRKV/GjKgGI5fZmwoY7T11Dx8lbcOnWfd9qNZ/O6Gs0eC/oJveBkGlE90tPYNtkoYn+Z4CENvcGMsEmaIkw+3+2alV8u/YsflgnEtOpEMHXzUuibjFuRBlZ1Cp+xiR1uWYZBiAaqVLZoK2+grV8OdC/P5ApE0D/Th3OedgvATr1oCs61IOFu81bo49Hj0QeCJ0AZs0K/O9/QJo0gdt75UpR2nroUKB2bQYgDECkbW35v+fR46ftvi7YNF4qlRXDmxVHgnhxuRO2bCfsSfWB42uBlFmBd/6Vlr3uE8MD8FSpUmH0n4fw+TJRopeKKVJDyk5Vcru2J4zKBwjleE13Y7CQPgYgFgrb31bKBm0lAKHgtkcP0RV6zRpRDYiHHhKg5GjKS6CiABkz6kGTF6ggEEKAnE4ECZRTA06qRhaI8fffIs+KQA/lodDgK1gRJK3iR1UCkECoNxBrUqWjKeuP4aPF/+LhI7FD5yq50b9eocd9PtzMv4xMpfn/vABw6zyQuxrQbpHM0o6YExX/MzadwMCfd/s6ptNoUyEnPmxYGPHjua88s7T+w2lTxc84whgsJJIBiIXC9reVskFbBUD27gW6dgWo38eyZUDVqv5Y4r9bKYFq1YB160ROjh2N8qzkVbe9CIR88gnwwQcCfBAIITBi9jh6VOzRpo0oA8wA5AkJq/hRlQDEbNUGYr37wQ/xwc+7MXOLKLNKfQU/bFgE7SpFLJHuVv5lZSrF/93rwGc5xJJlOwP1R8our/286Pj/c/8FvPnj37h9X5yaVc6XDt+2LI00ySwuPx5gCUrpPxINKn4mwGw4bnkGIBqpTNmgrQAgJ04AnTvTZVHRafvFFzWSHJPikwCVhb1yBTh3jgVilwToChxdhaNrWHQdi65lmTno/XvrLVHumgAPAxAGINHY14Wbd/HGj39jy7GrvhlJE8bD1y1K4fnCTwJjlQDMTLO2ey0p/k9tAybUFKS+MAyo0M1usk3bPyb+95y5js5TtuLs9bu+/XKkTYrv25ZBwacsKLphGocxLySlfwYgpmuDAYjpIlVfUFsAcumSqPhz+rRIfiUgwkM/CdC1K/qHyvHysE8CYcUAqCcLXc0yE4RQ4nv79kDp0iL5nQEIA5AoLH3z0St4c8bfuHDznu+v2dMm8QWNTz+VMsr3QiUAs+8FM39nKf53zAQWdBWbt54P5KtlPiE2reiPfwKz3aZtw98nrvkoTJIgHoY2KYqXSmWziWJzt/XHf1S7Kcdr5pLu6NUYgGikPmWDDuQJCDW3o2tXBw4AQ4aIgIqHfhKgwDRBAnEt7s8/9aPPaxT98IMA7U89BQwaJHKmzBp0AkLghk4iGYAwAAkngYcPH2HC2iMYtnT/47v7FfOkw+hXS/t6O0Q3VAIws8xZh3Wk+P/jI+Cv0GtXvXYDqUPLYOvAQCxpkOH/XnAIBi7cjdlbTz3e7dXyOTCwQWEkThAvlhTY+7gM/5EpVI7X7GVVq90ZgGikDmWDDhQAuXtXJJxT4iv971dfiZIYPPSTAHXHptyDZs1EIjoP+yVAuRoffwyUKCGaFZqVl0PrUqEBKgLBAIQBSKgELt68h3fn7MDqA6KjNY3u1fOi9/MF/CYOqwRg9r9g5lEgxf+sNsDeRUD8JKIEr1nvs3lsKK8kxT8AKmgwa8tJfLBoDyi/iMbTT6XAqJalHN05XZb/8AJWjteUteS+BxmAaKRTZYMOBAChRmuUSEtNz1q2BKZPd5XD1Ujt5pCybx9QqBDQvTswZow5a/IqsZMAnUo1bAj8+ivQuDHQ1KSuyV98AWzfDqxeLU5WuApWBD2p+FGVACR2xmHu06v2X8C7c3bi0i1x5Spl4vgY+UrJKPM9otrZ6fzHVppS/I+uAFzcCzxVDOi2NrZbavW8FP/hKN59+jpe//FvnLgS5PuviRPExfv1C4NOROI48COlUf6JZxU/o5XSNSCGAYgGSggjQdmgzQYgVNGHrltRwzPqNfDLL0BCd1W90Ejt5pCydi3w7LPAwIHARx+ZsyavEnsJXL0qerIcPgz06mUYLERJAPUBoX4g1Aw0Vy7Dayr7mdhLw5IVVPhTCUAsYcbPJrfvBWPIr3tBJVPDRtlcafBVi1LImjqJNIlO5V+aQT8T/fL/MAQY8hQQch8o0gR4eZJZW2uxjl/+o6Dy5t0HGLBgNxbtOPP4r9UKZPD1lsmUMrEWfMkSocK/ip+Rpccr8xiAaKRpZYM2G4DQF3S6w06BEwU6yZNrJCUmJUoJLFgANGkCfPONqJLEQx8JUFGAChUAOhEZPBjIHMuuwqRryv8YOxYoU4YBSCRNq/hRlQDEbgNbf/gS+s3b9fgrdLy4cfBGjXzoUTOf3ytXkWl3Iv9myt8v/1eOAN+UEltW6wfUeM/M7W1fyy//0VBIV7Lm/X0aH/68+3Gp3lRJEuCDBoXRpHRWx5yGqPCv4mdsV7RmBLgKgISEhGDEiBGYMGECTp48iezZs6Nz587o06cP4sWLPkkqKCgIU6dOxaJFi7Br1y5cvnwZuXLlQoMGDdC/f3+kTp06gtrat2+PKVOmRKlK2jdbNrXKEMoGbSYAWboUeP99oEABgL6qZ8igmckyOVFKgKqTvfYaMGOGuDLHQy8JzJ4NNG8uKmJ9+CGQRP7r9BOM0LXIiRNFfkndugxAPAZAbtx9gE9/3YefNv936pEnfTJ80bwkSmaP+Fsl+xKoBGCyazthnl/+DywDZrwsWGk6ESjWzAlsSdPol38/K528EoTec3aAqq+FjeoFM2DIS8UMncRJE2zyRBX+leM1k2l38nKuAiCvv/46vvvuO3To0AGVKlXC+vXrMWnSJNB/H02lMaMZu3fvRvHixfHss8+iTp06yJgxI7Zt2+YDMgRE6N9TUtWZ0BEGQAiExI2UiNakSRMkTZpUySaUDdosAEKJrRQk0R3Of/4B8uRR4oMfskECQ4cCAwaIBpHPP28DAbylXwn07QuMGCFOLeiUSjWJld7NkSNFYYi2bQMCQJz8MUfFj6oEIH71bfIE+tq8eOdZX0dzSjinQa66Q6Xc6FOnIJIkVK9E5AT+TRZnhOX88r/+W2DZAPFM1zVA5hKBJMfytf3yL0ERVWD7Yd1RfL5sP+4+EAnq1Hvm7ecKoH3lXEigcQd1Ff5V/IyEGD01xTUAhE4uSpQogbfeegtff/31YyX27NkTo0aNwo4dO1CsWLEolXvp0iWcOXPGB0LCjx9++AGdOnXCyJEj8Q5VsYkEQB48eID48eObZjDKBm0GAKG8jzffBDZtEtevOnQwjS9eyAIJkH1++aVITi5Z0oINeQvDEqDCDnRisWIF8PLLQKNGhpfwPXD8uDilbNVKVNcKQBK6kz/mqPhRlQBETXlqTx26cAuDf9mDvw5eerxAvozJMaxpcTyTM43aouGe0p3/WDPoZwG//P/SE9g2WaxCFbASmlhWO9DMSazvl3+JNcKmHL9823c1cMORy4+fokpZgxsVQfk86QysZN1UFf5V/Ix1HDljJ9cAkAEDBmDo0KE4cuQIcufO/Vj6R48eRZ48eXxXqYZQYrWBcePGDaRKlQodO3bERLryEDrCTkDu37+PO3fuIHny5E+chBjY5vFUZYM2A4BQ6dZhw0RQRMnnDqxkoSJz1zzTpo2oVHbyJKB4BdA1stCZESqXTIDhxAng3XeBSB89pEi/fl18LKCTrk8/NR2AOP1jjoofVQlApHQVy0l03WrUHwcxad0xBD985FstYfy4eLNGPnStlgeJ4qufeoQnTVf+Yyk+6cf98j+pHnB8HZAyG/DOHul1nTLRL/8GGaHTurnbTmHor3txNejB46cblsiC9+o+jSwGCiQY3Fppugr/Kn5GiTgXP+QaAEJXp+iU49y5c0+oK1OmTChVqhSWUn6DgbF//348/fTT6NevHz6lH/pIACRFihS4efMmkiRJgrp162L48OHImzevgR0iTlU26NgCEAqG6GsqJZtTwmymTMo88IM2SYC+rJN937kDJHZWBRKbJGbftnRKVakSQHlplJRu9H2jZPaOHQV4odwfk09AnP4xR8WPqgQggTSgByEPMXPzCXy14iAu377/eCuqMkRfknOlN/cLvG78B1K2Ua3tl/8R+YHbF4A8NYC2C60mL+D7+eVfkYKrt+9j2NJ9mLX1JOiSBQ0q2du5Sh50q54XyROZd4NEkUTfYyr8q/iZ2NDoxmddA0DoelXChAl9+RqRR+nSpUHXpejLnpHRtm1bTJ8+Hdu3b/dd7wobBEhovWeeeQaJEiXCxo0bfde8CJBs3boVOXPm9LvN2bNnQf+EH3v37kXr1q19PBDN0iM2AISuhXTpApBsqLLOSy9Jb8sTNZIA5RXs3w9Q53oe+ktg2jSRv5E9O0CNBY2CxjfeEI0nKbndZADi9I85KoGBSgASCCOjL8dLd5/DiGX7ceTi7cdb5EyX1FdZqObTGQNSWUgX/gMhU5k1Y+T/zjVgWOhvernXgHojZJZ01JxA63/HyWsY9MsebD9x7bFc0idPiB618qNF2Ry+Uz07hwr/Kn7GTh513Ns1AIROHuikgxLPIw9KSL9w4QIOHTokrYPx48eja9euvtwPygHxN5YvX47atWujXbt2mDw59K5oDA8NGjQIg+nrZxTDUgBC+R5UdpeCoWgqe/njnf+ugQSoHwQlNR85ogExTIKUBHr2FGWT6fSKTiCNDLq+RZ8UqcmhyQDESR9zYvqQs2rVqggfjmISL51kU0BBH37oQ5LVg4DHhmPXMHrNCew5e+vx9skTxUOXStnR8pnMAQ3S7ObfanlH3i8m/uOd3Y4Usxr7Hgmq8RHul2hnN7mm72+F/h8+eoTf/r2Ib1efwNkboogCjaypEqH7szlQt3AGUClpO4YK/3Tjpnr16sY/GNvBoKZ7ugaAmPmjuXDhQjRr1gz16tXD/PnzpRPN6USEfhApod3f0OIEhLpnt28v+hLs3AlEKjfsjwf+u0YSoI7YRYoAmzdrRBSTEqME7t0DihYFjh4FqIpZlizyAqNTE6pat2aN6QDESR9zYvqQQx+OYnMlVl4Z6jMJQx64Hge/nYqLozf/C77ixXmEypkeoU62h0ieQH19fjL2Esh++S+UPvG9b6H1efviYsqisV/UwyvcDwHWnIuDFafj4k7IfzafMbGw99LpH8EmHGJIK4cPH0bv3r0ZgBiSWsTJrgEgZl0bWLZsGRo1auQr4/vrr78isYGrEVSCd/HixaDkdJWhfKSncgWLgp927QA6FaKqPLVqqZDMz+gggaAggABIvXrAkiU6UMQ0yEqA9NWgAUAV+vr0kS/+QDlp//4rqtaVKye7m2+ePz/jpI85Tj0BoROPvw5fxYT1p7DzzH/XJinwql8kI7pVyY6sqa3L5VL5AmzI6DSfHC3/wfeQfG5zxD+33cfB9U4b8ShFLBuJaigLO/R/424wJm88hRlbz+JusCjbSyNHmsToWCEb6hfNYFnpXhX++QQk9obsGgBCVa4oUTw2VbBWr17tSyanH+A//vjDV93KyKAyvlevXvU1QVQZ/gKDaNdUASBUqpjuoVM/AroGwsO5EqAiApR3xNfonKnD+vXFVapeveRPM+j93boVWLkSqFHDEN/+/IzTP+b44y8qYancATck9NDJlFz+y44zGL/mCPad+w94UNHBRiWy4K2a+UHlda0eVvFvNV+y+0XJPx1P/dID+HuqWCZ/HeDV2bJLOmqenfq/cPMuxq46gh83Hce9cEAkS6rE6FglN1qUyxHwZHUV/lX8jKOMwgJiXQNACI1Spavo+oD8888/vj4flDxOR2dUXjczXT0KHZs2bcJzzz3nK+FLQCRNmqhrq9++fdt3JYuSz8OPWbNmoUWLFr68kbFjxyqpTtmgjQIQqsJDXbPz5xd9IxQbJyoxyQ+ZL4G//xaBa+/ewOefm78+rxhYCRw8KK7Pkc+hk42ECf3vR9Wv6PrVokVAw4b+54eb4c/POP1jjj/+7AAg14MeYOaWE5iy/hjOXL/7mAS68/5iiSx4vUZe5Mtofe5JGCEqAZgho9N8cpT8b5kILAnt/5UmF9DlTyBpWs05USNPB/1fuHEX3/91BNM3nsCdByGPGUmROD5alc+BthVzBayrugr/Kn5GTTvufco1AIRU1K1bN4wbN87XCb1y5cpYt26drxN6eFBw7NgxH8gInyx+/PhxH3ihY7jPPvvMl8weftD/fz60uzQBmfr166Nx48bInz+/r/LWhg0bMGPGDGTPnh0EZCI/L2s+ygZtBIDcvi0SXqlcMSXsG7y+IcsLz7NQAr//Drzwgghe+/WzcGPeyjQJkN6oD0/TpkBjkfAa46CeL6T3GTOAli39zY7wd39+xukfc/zxZyUAOXD+JqZuOIZ5205HCKoSxY+LZs9kQ9eqeZEjXVJD+gvEZJUALBB02LXmE/xf3A+MrQKE3AcSJAU6rwAyFbGLvIDvq5P+r9y+j8nrjmLqxuO4Fq6HCIH1F4o8hbYVc6Jc7rSmVoNT4V/FzwRckQ7bwFUAJDg42NeLY8KECTh16hSyZcuGzp07o2/fvo8TyaMCIFQtpUYM1xiqVasGmkOD+oxQ4tGWLVt8yeZ0okLAo2HDhqD6+empNKbiUDZoIwBk3DjRO4A6KX/8sSKl/JhWEvjxR6B1a2DCBKBTJ61IY2IkJUDlkwsWBK5cEUAknZ+OwVQye8ECYPx4UUbbwJDxM07+mCPDX2RxqQQg0Yn8XnAIlu05j+kbj2PT0SsRpqVNlhCtK+T0BVHpk0c8RTegQtOnmsm/6cRZsGAE/lOmBCbXB06EVtRsOhEo1swCKuzbQkf9B90PxpytpzBx7VGcuBIUQTgFM6VA6wo58GKprEiZOPZVGlT4V/Ez9mlYz51dBUD0FLE8VcoGLQtAKMihTud05Yoq7yRJIk8cz9RXAl99Bbz9tuhg/+KL+tLJlMUsgTAgWbEi8PrrMc/97Tdx+kElwt8JvSYiKV8ZP+Pkjzky/AUCgBy6cBOzt57ydYCmr7jhx9NPpUDHyrnRqGQWJE5gTvdySXVLTVMJwKQWdsikCPwfWQQsektQXrAe0GKGfHEIh/AbCPsPFOshDx9h5b4L+GHtUWw4cjnCNkkSxEPDEpnRvGx2lM6RRvlURMX+VfxMoGTk1HUZgGikOWWDlgUgdPJBJyAKQYtGYmJSIkuATrOGDAHWrgUqV2b5OFUClPT67LPAunVA//5AoULRc0L5H/Q+Uy8hKslrYCj7GQN72DlVhT+VAIR4pNyOJbvOYs62kxGarNHf4tOVkaJ0ZSQXyuZSD46skKUq/1bQZsUeYfxXL1sEqabWAu5eAxImB97YBKTKZgUJtu7hFP3TlcZpG45j/t+ncJvq+YYbeTIkw8vPZEfjUlmQOZWxj6sq/Kv4GVuVrOHmDEA0UoqyQcsAkFu3xOkHJc/T6QeVbeXhDgl07Squ4lAn9AIF3MGTV7mgohBUUCBbNnFFMl40X8u3bBHV66h07/DhhqSl7GcM7WLfZBX+jAQgdMVq9f6L+PmfM1i+9zzuh6vcQ1xT13Lq7kw5HhlS6HPNKiaNGOHfPs0Gbucw/uvEXYfE23FMnw0AACAASURBVMaJjV74DKjQPXCbarSy0/R/+14wFu04gxmbTmDX6esRJEkV5SrlTYfGJbOiTtGnpK5oqfCv4mc0UrkWpDAA0UINgghlg5YBIGEdzylYoaCFh3skQInLlBNw+TKQ1p1VWtyjLAlOunUTJ5VUVjm0+MUTT+3ZA3z2GdC9OzBmjMSi/01R9jOGdrFvsgp//gIQKp+74fBlLNl5Fr/tPgvqYRB+JE4QF/WKZsbLZbKjfO60iOuETmrhGPDHv33atGbnMP7rXZ+GBEeWA4lSAf87CsTV77pcICTiZP3/e+aG7wRy4fbTuBouaZ3klDB+XNQsmBENSmRGzaczImnC+FGKT4V/FT8TCN05eU0GIBppT9mg/QEQqnxFpx/x4wPHjgEG+5toJCImJSoJVKsmru1QA8y4cVlGTpfApUviJIv0OWIEkCKK8qxHjgAffgi0aQNMDe1TIMm3sp+RXN/uaSr8RRWA0EnH+kOXsXT3OSz799wTwQ19aSWw0bR0Nt9VqxQmJMPaJTuVAMwuWgOxbxj/9S+MQfzTGwEqu9tzRyC20nJNN+ifTiL/3H/Bdz3rz30XcT/kv+aGJHTKF6nxdAbUKfKUD4yEf19V+FfxM1oq30aiGIDYKPzIWysbtD8AMnky8O23wNChwHvvacQxk2KKBEqVEsDy6lVTluNFNJDA6NHAm2+K7vZRldmlMtp0kvnSS+L0y8BQ9jMG9rBzqgp/YQFI6fKV8c/5+/h9zzms2n8Rt+5FPOkgvopmTYkXS2T1fVU1etfcTrnEtLdKAKYrLyp0PQYgpz5D/Iv/Ak8VB7r9pbKUI59xm/4pN2vpnrO+a5Ibj1zGw0cR1ZIwXlxUzpcOtYs8hVqFMiJhyF1f/zeqeJo6dWopHar4GamFPTSJAYhGylY26JgASFCQqIxEn+soSI3qa6pGMmBSFCRA5Vspx+f0aYWH+REtJfDgAZA9O0DvL3U9TxCp1OSNG8Abb4grWsuWGWJB2c8Y2sW+yUb5O3U1CAu3HsPPWw7j6K14CI4crQAokiUl6hXLjPrFMiNXevflz7ktADVqfWH8Nzg8APFunARyPQu0X2x0GcfOd7P+qdP677vPYfHOs9hy7MoTYISUViRzcuSIdx0daj+DcgWySunRqJ+RWtRjkxiAaKRwZYOOCYBMmyYCGEpopWpJPNwnAQpUqaTygQPu483LHA0YIE4tKc+jUqWIkggOBjp0AKhkLzUUNTCU/YyBPeycapS/8WsOY+iv+yKQTN9rnsmRxnddg65XZU9rf7PAQMrUzQGojNzC+G+4twfiUgWsgvWBljNkHnXFHK/o/9Kte1j+73nfCSddr4x8TatBkQz4tk05KZ0a9TNSi3psEgMQjRSubNDRAZC7d8XpR0iIOP1IlUojbpkU0yRATesIhPzzj2lL8kIaSIDe2Tx5RINCAiORR8eOwNNPAzt3GiJW2c8Y2sW+yUb5O3ThFp77YjUSxn2EynnToU6xrKhVKJNjKliZIWmvBKDRycrH/6pVaLSjI+I8CgFKtAReGmuGaB2xhhf1f/PuA6w+cBEr917Ayn3nce1OMIY3LohXKuST0plRPyO1qMcmMQDRSOHKBh0dAKHGZl9+CQwaJBJWebhTAnT6QXkgBr+Eu1MYLuOKckCo6eCnn4rSvOEH5YikSSPKahsYyn7GwB52TjXK36NHj7Bsx3HcPLoDz9WQvwNuJ49m7+3FADS8DIn/tSuXocHOLuI/l+sK1DNW3tpsnVi5ntf1f/nKVUxdsgav1K6MrJnSS4neqJ+RWtRjkxiAaKRwZYOOCoDQ6UfjxqKSzvHjgGRilUbiYFJkJPDwoegVUasWsGKFzBM8x0kSWLRInGLWri0qXoUflIROV7EuXjTEkbKfMbSLfZNV+PN6AMb8X8OmFQtRZ3dPYbhV+wA1vXNlmfV/jZPQbXDZDEBsEHp0W6r8cPrWigqAzJ4tGpQNHAh89JFGXDIppkqASixTWeWGDQEKVnm4SwIEMHLlAq5dE7lc1Eg0bNCp5pkzwJ07hnhW9jOGdrFvsgp/HIAZD8Ds07D5O5P+t/3+E2rt7ScWf/5joHIP8zfSdEW2f+P2r+JnNFW/bWQxALFN9E9urGzQUQGQTp2A3buBs2eBDBk04pJJMVUC9PU7Y0ageXNg5kxTl+bFNJHA4MHiGmWXLkDVqv8RNWyYeMfplDNylawYSFf2M5qIwx8ZKvxxAGY8APOnByf9nfS/89cfUPXAYEF2g6+AMh2cxEKsaGX7N27/Kn4mVkpy4cMMQDRSqrJBRwYg1Misbl2gRg3gjz804pBJMV0CdL2OvpBTRSTqds/DfRI4dQrImRPInVsAkbDxzTfAli3iClZ6uXvL9Kiyn3GIZFX44wDMeADmEHOQIpP0/+8v36LS4RFifrMfgKJNpZ51wyS2f+P2r+Jn3GArZvLAAMRMacZyLWWDjgxA5s4FPvtMNB+kXgE83CuBvXuBwoWFnknfPNwpAcrn+vlnUU6bACeNCROA1auBQ4eAvHml+Vb2M9I72DtRhT8OwIwHYPZq2dzdSf8HF45A2WOhPvTVeUD+58zdROPV2P6N27+Kn9HYBGwhjQGILWKPelNlg44MQCgY3bQJoC+nWeWa6mgkBibFiARI92XKiK7YlPPDw50SWLpUnGrWrClOu2jMmCEqZJENlC4tzbeyn5Hewd6JKvxxAGY8ALNXy+buTvo/Om8wSp0MPUXutBzILtcPwlxK7FmN7d+4/av4GXu0q++uDEA00o2yQYcHINevA3XqiKB0wwaNuGNSAiKBv/4SeQGUkBz+ek5ANuNFbZMAVTujU45z5wC6ekWllxcuBObNA1auFNctJYeyn5Fc3+5pKvxxAGY8ALNbz2buT/o/Nbsfip75SSz7+iYg49NmbqH1Wmz/xu1fxc9obQQ2EMcAxAahR7elskGHByCLF4tAlBJU+/bViDsmJSAS+P134IUXWN8BEa5mi1IvkP79gfbtRdll0v306cD8+cBLL0kTq+xnpHewd6IKfxyAGQ/A7NWyubuT/s/P7IGC534WC7+zF0iZxdxNNF6N7d+4/av4GY1NwBbSGIDYIvaoN1U26PAA5N13gVWrgAMHgPz5NeKOSQmIBBYsAJo0AUaNAqgxHQ/3SuD8eSBLFtEZnYAI5X9QHsi0aUDr1tJ8K/sZ6R3snajCHwdgxgMwe7Vs7u6k/8s/dkHei8vEwu+dBhIlN3cTjVdj+zdu/yp+RmMTsIU0BiC2iD1AACQoCHj+eaBAAWDnTo04Y1ICJgHqdk/B58SJQMeOAduGF9ZEAtTxngoPjB0LbNwIjBsnqp+F5YVIkOn2H04V/jgAMx6ASZiaY6aQ/m9MfRU5rqwF4sQDPrgMxInjGPpjSyjbv3H7V/EzsdWT255nAKKRRpUNOuwEhDph9+vH+QAa6TTgpIwfD3TtCvz0E9CiRcC34w1slkCPHuK0i3J+qPzumDEChLz2mjRhyn5Gegd7J6rwxwGY8QDMXi2buzvp/86kJsh8fRuQODXQ77i5G2i+Gtu/cftX8TOam4Hl5DEAsVzk0W+obNBhAOT99wGqlrNjB1C8uEacMSkBk8BXXwFvvy1KtDZqFLBteGFNJDBnDvDKKwJsUgNKSkg3WG5b2c9oIgJ/ZKjwxwGY8QDMnx6c9HfS/4MJLyDDrb1A6hxAr11OIj/WtLL9G7d/FT8Ta0W5bAEGIBopVNmgCYBQN+TatYFMmYCDBz11fKyRCq0nZehQYMAAYPly4Dnv1K23XtCa7Hj2rMgDoatY1asDX34p/unVS5pAZT8jvYO9E1X44wDMeABmr5bN3Z30j3HVkPrOMSBTMaD7WnM30Hw1tn/j9q/iZzQ3A8vJYwBiucgDdAKybh3Qsyf3g9BIn5aQQqdeQ4YApP9KlSzZkjexWQL58gEXLohrVyNHiv4v1AdGcrj9h1OFPw7AjAdgkubmiGmk//jflUPye+eBnJWBDr86gm6ziGT7N27/Kn7GLH25ZR0GIBppUtmg6QSEglCqiES9PypU0IgrJiWgEnjnHfEFfPt2oGTJgG7Fi2siAUo4nzxZFB2gBHR696kqluRQ9jOS69s9TYU/DsCMB2B269nM/Un/Sb4tikTBN4ECdYFWM81cXvu12P6N27+Kn9HeECwmkAGIxQKPaTtlgyYA0qYNcPw4cPMmEDeuRlwxKQGVQLduIgmZyy4HVMxaLU6go1Mn0f+Fcr6o7w8lpUsOZT8jub7d01T44wDMeABmt57N3J/0n+LrvIj3KBgo3hxoMt7M5bVfi+3fuP2r+BntDcFiAhmAWCzwgACQrVtFN+xChYDwPUE04o1JCZAE2rYVfSBOnQKyZg3QJrysVhKgHC8qtV20KLB7t8gB+uQTaRLd/sOpwh8HYMYDMGmDc8DEa5fOIfW3BQWlZbsA9T93ANXmkcj2b9z+VfyMeRpzx0oMQDTSo7JBL1kCNGgAtGoFUF8IHt6RQLNmwLx5wJUrQJo03uHby5w+egRkzgzcuwdQ8mzfvsCwYdISUfYz0jvYO1GFPw7AjAdg9mrZ3N2vnz6IVN+XEYtWeQd4Tv5E0VxK7FmN7d+4/av4GXu0q++uDEA00o2yQY8eLbpgf/QRMHCgRhwxKQGXQL16wG+/AXfvAokSBXw73kATCbz8MjB3riCGyjB/8YU0Ycp+RnoHeyeq8McBmPEAzF4tm7v7jaN/I+WUGmLR5wYBVd42dwPNV2P7N27/Kn5GczOwnDwGIJaLPPoNlQ2aKuB8/jkwezZAgQkP70iASrH+9RcQHMyll72jddH/g6re0aCPD9ScUHIo+xnJ9e2epsIfB2DGAzC79Wzm/jf3rUaKmaF9lOp/AZTtZOby2q/F9m/c/lX8jPaGYDGBDEAsFnhM2ykbdNjX0F27xL1wHt6RQLlywN69ovgAD+9IgKqelS4t+O3aFRg7Vpp3ZT8jvYO9E1X44wDMeABmr5bN3f3WzsVIPv9VsWjTiUCxZuZuoPlqbP/G7V/Fz2huBpaTxwDEcpFHv6GyQVMQSsnnt28DiRNrxBGTEnAJFCsGnDsHXLwY8K14A40kEBICpEwJBAWJcrwTJ0oTp+xnpHewd6IKfxyAGQ/A7NWyubvf3jIDyZZ0F4u2mgMUqG3uBpqvxvZv3P5V/IzmZmA5eQxALBd5AABIxowiGDl0SCNumBRLJEAnXgQ+zp+3ZDveRCMJUEPCw4dFCe6pU6UJc/sPpwp/HIAZD8CkDc4BE4PWjUPS5X0FpR1/B3J4q5cW279x+1fxMw54FSwlkQGIpeKOeTMlg75+HUidGqhfH1i8WCNumBRLJMAAxBIxa7lJ+fLA5s1A8+bATPnGaUp+RksBRE2UCn8cgBkPwBxkEn5JvbPycyRZ87GY130DkKmw32fcNIHt37j9q/gZN9mMGbwwADFDiiatoWTQmzaJzufvvguMGGESJbyMYyTAAMQxqjKd0LAKaI0aAT//LL28kp+RXt3+iSr8cQBmPACzX9PmUXBn6SAk2filWPDtPUCqbOYt7oCV2P6N27+Kn3GAKVhKIgMQS8Ud82ZKBj1lCtC+PTBhguiOzMNbEmAA4i19h+e2XTtx9apWLWDFCmk5KPkZ6dXtn6jCHwdgxgMw+zVtHgV3f34HibeH5lH1OwkkTmne4g5Yie3fuP2r+BkHmIKlJDIAsVTcAQAg/fqJJmRr1wKVK2vEDZNiiQQYgFgiZi03CSu/XbEisH69NIlu/+FU4Y8DMOMBmLTBOWDivTldkGjPbDxCHMT54AoQN64DqDaPRLZ/4/av4mfM05g7VmIAopEelQy6cWNx/eLSJSBdOo24YVIskQADEEvErOUmdOWSuqCXLAlQWV7JoeRnJNfWYZoKfxyAGQ/AdNC1WTTcn94CCQ/9hkcJUyJO/5NmLeuYddj+jdu/ip9xjEFYRCgDEIsELbONkkGXKQPs2wfcuiWzBc9xmwQYgLhNo/L8hF2/LFhQ+ADJoeRnJNfWYZoKfxyAGQ/AdNC1WTQ8+KE+EpxYi4cpsiJu73/NWtYx67D9G7d/FT/jGIOwiFBXAZCQkBCMGDECEyZMwMmTJ5E9e3Z07twZffr0Qbx48fyKdPfu3ejbty/W0nUmAFWqVMHw4cNRNIrmfkbm+t04dIKSQRMAOXgQoGpYPLwnAQYg3tN5GMdLlgANGgC5cgFHj0rLQcnPSK9u/0QV/jgAMx6A2a9p8ygI/q4q4p/fgZD0TyPem5vMW9ghK7H9G7d/FT/jEHOwjExXAZDXX38d3333HTp06IBKlSph/fr1mDRpEui/jx49OkahHjx4EGXLlkXatGnx1ltv+eZ+8803oBdz8+bNyJ8//+Pnjcw1okklg2YAYkTE7pvLAMR9OpXlKKwCXubMwJkzsk9Byc9Ir27/RBX+OAAzHoDZr2nzKAj5uhTiXT2C4CxlEf81+YIO5lFg70ps/8btX8XP2Ktl/XZ3DQDZtWsXSpQo4QMPX3/99WNJ9+zZE6NGjcKOHTtQjLpGRzOaNWuGpUuXYu/evb6TExp0ilKoUCHUrVsXc+bMefykkblGVK5k0AxAjIjYfXMZgLhPp7IcURNCakZIuV+UAyY5ZPyMk0+TZfiLLCoOwIwHYJLm5ohpD4fnQ9ygi3iQuyYStFvgCJrNJJLt37j9q/gZM3XmhrVcA0AGDBiAoUOH4siRI8idO/dj3Rw9ehR58uRB//79MWTIkCh1duvWLaRLlw4tWrTAFLpXHW60a9cOs2bNwqVLl5A8eXIYmWvUQJQMmgGIUTG7az4DEHfp0wg3YU1IU6QAbtyQflLGzzj5NFmGPwYgESXg9QD00ccZESfkHu4XbISELadJv0tumeh1/avwr+Jn3GIvZvHhGgBSp04d3ynHuXPnnpBNpkyZUKpUKd8JR1Rjw4YNvitbdH2rW7duEabQf6MfY5pToUIF3//KzjWqJCWDZgBiVMzums8AxF36NMLNo0eiXGiSJEBQkPST/vyM00+T/fEXlaBUAhBpgTtgoqf5D74PfJLBp6V7xVojUdOYr2s7QJ2GSfS0/gHfVfvVq1ejWrVqSJ06tZT8VPyM1MIemuQaAELXqxImTIht27Y9ob7SpUvjwYMHoB/WqMa8efNA16oWLVqEhg0bRphC/+3FF1/E3Llz0bRpUxiZG5MdnT17FvRP+EHXv1q3bu3jgWiWGgxApMTk2kkMQFyrWinG4sQR0wiMSA5/P5xOP032xx8DkCcloBKASZqb/tNuXwJG5PXRebdMdyRu8Jn+NJtMoaf1zwDEZGuSX841ACRv3rygkw5KPI886MTiwoULOHToUJSSmTZtGtq2bYvff/8dtWvXjjBn2bJloNMVmkPgwMjcmNQwaNAgDB48OMopDEDkDdjzMxmAeNsEAgBAnH6azADE+Cvh6QD0yhHgm1I+od2p1BdJag8wLkCHP+Fp/TMAsc16XQNA+ASEy/Da9hbZuTEDEDulb+/eAbqC5SRfGtNJ8qpVq3yFSWTGzZs3fdXB6OQ5BeXUeGx4mf94F3YhxYwGPo1frfg+4pTv4jHtA17WPylbhX+68l+9enVjN1Y8Z1kxM+waAOL0r3akJpUvd+ArWN5+pRmAeFf/AUpCd9JpckwnySNHjgTxwoMlEJME0t/8F5UPiWtX23J2w6m0lVhgLAG/Ejh8+DB69+7NAMSvpKKf4BoAQlWuPv3004BUwZo5cyYuX74sVQUr/FyjemEAYlRiPB8MQLxrBAEqw8snIHwC4qWXKsGh35Fs8Ws+li8+/y0SFImYB+oFWaicALhJLir88wlI7C3ANQCEjIEqXUXXB+Sff/5B8eLFfcnohFxTpUqFzNTAK3RQgjnlgOzbtw/ZsmXz/dewPiB0ukLJ5ypzjaiIAYgRafFcnwQYgHjXEALUiNDpp8kqfpTvwBuvAuSaF++fGcDC7j52br48BymKRMwDdQ2fMTDC9m/c/lX8jBdsyQiPrgEgxDSV0B03bpyvE3rlypWxbt06Xyf0rl27YuzYsT65HDt2zNcnhPp7TJ48+bGs9u/fj3Llyvn6gfTo0cP336kTOp18UCf0ggULKs01ogwlg+YrWEZE7L65DEDcp1NZjpYsARo0AHLlAo4elX3K71VPp58mq/hRDsCMB2DSBqf7xI1jgaX/81F549WlSJm/ou4Um04f279x+1fxM6YrzuELugqABAcHY/jw4ZgwYQJOnTrlO8no3Lkz+vbti/jx48cIQOiPO3fu9M0l4EKjSpUqGDZsmO/kJPIwMlfWRpQMmgDIvn3ArVuy2/A8N0mAAYibtGmMF2qa2r49QB9HyAdIDn9+xumnyf74i0pMHIAZD8AkzU3/aauHA3+KJsXXO65DqhxF9afZZArZ/o3bv4qfMVltjl/OVQDE6dpQMujGjYGffwYuXQLSpXO6CJh+oxJgAGJUYu6ZP2IE0LcvULIksH27NF8yfsbJp8ky/EUWFgdgxgMwaYPTfeLvA4AN3woA0m0nUj2VU3eKTaeP7d+4/av4GdMV5/AFGYBopEAlg+7XDxg2DFi7FqhcWSNumBRLJMAAxBIxa7lJnz7A558DFSsCUfQ/io5mGT/j5NNkGf4YgESUgKcD0EVvAX9P9QnkWo8jSJ3Wex/yPK1/7gNi288bAxDbRP/kxio/nAi7hjFhAtCpk0bcMCmWSIABiCVi1nKTdu2AqVOBWrWAFSukSVTyM9Kr2z9RhT8OwIx/AbZf0yZRMLsd8O9CPIibGLd77Efq1KlNWtg5y7D9G7d/FT/jHIuwhlIGINbIWWoXJYMOq4Tz7rsAXcng4S0JMADxlr7Dc1uvHvDbb0CjRuIapuRQ8jOSa+swTYU/DsCMB2A66NoUGqa9BBxeiTsJ0uLeG9sZgDAAkzIrFT8jtbCHJjEA0UjZSgYd1oysfn1g8WKNuGFSLJEAAxBLxKzlJuXLA5s3A82bAzNnSpOo5GekV7d/ogp/DEA8DEC+rwWc3oobibPiYbf1DEAYgEg5MRU/I7WwhyYxANFI2coGnTEjkDIlcOiQRtwwKZZIgAGIJWLWcpN8+QBqRtimjbiKJTmU/Yzk+nZPU+GPAYiHAci3ZYFLB3AlWT7E7fIHAxAGIFIuTMXPSC3soUkMQDRStrJBlysHbNsG3L4NJE6sEUdMSsAlUKwYcO4ccPFiwLfiDTSSQEiI+OgQFAR07AhMnChNnLKfkd7B3okq/DEA8TAA+bwgcOsczqcojkSdfmEAwgBEyoGp+BmphT00iQGIRspWNuiXXwbmzgV27RKdsXl4RwIEPvfuBW7e9A7PzKkou1u6tJBE165AaKNVGdEo+xmZxTWYo8IfAxAPA5AhmYEHQTiVujySt5/NAIQBiJQXU/EzUgt7aBIDEI2UrWzQYeU4Z88GCIzw8I4EqlcH/voLCA4G4sTxDt9e5/Sbb4CePYUU3nwTGDVKWiLKfkZ6B3snqvDHAMSjACQkGPhYlN09lq4GUreZzACEAYiUA1PxM1ILe2gSAxCNlK1s0KNHiyDko4+AgQM14ohJCbgEwioh3b0LJEoU8O14A00kEHbqSeS8/TbwxRfShCn7Gekd7J2owh8DEI8CkKArwPDcPoM9mLEeMrT6jgEIAxApB6biZ6QW9tAkBiAaKVvZoJcsARo0AFq1An78USOOmJSAS6BZM2DePODKFSBNmoBvxxtoIIFHj4DMmYF794Br10Q3dGpGKjmU/Yzk+nZPU+GPAYhHAcjVY8DXJXwmuzdzM2RuPpIBCAMQKRem4mekFvbQJAYgGilb2aC3bgWqVgUKFRLJ6Dy8I4G2bYFp04BTp4CsWb3Dt5c5PXgQKFBA5Hvt3g0MGAB88om0RJT9jPQO9k5U4Y8BiEcByNmdwLhnfQa7M1sb5Gj2CQMQBiBSDkzFz0gt7KFJDEA0UrayQRPooFKcx4+LZOS4cTXiikkJqAS6dQPGjQMOHADy5w/oVry4JhL44QegUyfghReApUuBQYOADz+UJk7Zz0jvYO9EFf4YgHgUgBxbC0yu7zPYbTm7Iu9L/RmAMACRcmAqfkZqYQ9NYgCikbKVDZoAyJAhwIIFwIYNQIUKGnHFpARUAu+8A3z5paiKVLJkQLfixTWRQIcOwOTJovwugRF69/v3lyZO2c9I72DvRBX+GIB4FIDs+xWY2dJnsJvy9ELBRm8zAGEAIuXAVPyM1MIemsQARCNlKxs0AZB160RVHKqINXy4RlwxKQGVwPvviwCU9F+pUkC34sU1kQA1ILxwAXjtNWDkSPG+03svOZT9jOT6dk9T4Y8BiEcByI6ZwIKuPpNdm68/ijboygCEAYiUC1PxM1ILe2gSAxCNlK1s0ARA7t8HatcGMmUC6I44l2TVSLMBJGXoUJEDsHw58NxzAdyIl9ZCAmfPAlmyAKVKAVSCmU6/6J9evaTJU/Yz0jvYO1GFPwYgHgUgm8YDvwnw/mfBj1GqblsGIAxApByYip+RWthDkxiAaKRsZYMOSzynr+F0J3zHDqB4cY04Y1ICJoGvvhJlWH/+GWjUKGDb8MKaSGDOHOCVV4AWLYCMGQHqB/Ltt8Abb0gTqOxnpHewd6IKfwxAPApA1owAVooCDssLj0TZ2s0YgDAAkXJgKn5GamEPTWIAopGylQ06DICsWAH06ycSUikxlYf7JTB+vOiE/dNPIijl4W4J9Oghmg7SO37xIjBmjChCQNexJIeyn5Fc3+5pKvwxAPEoAFk2EFj/jc9kfy02BpVq1WcAwgBEyoWp+BmphT00iQGIRspWNugwABIUBDz/vCjRuXOnRpwxKQGTAPV9ad0amDhRJCXzcLcE6OrV3r3A2LHAxo0CfFAiOiWmSw5lPyO5vt3TVPhjAOJRAPJLT2DbZJ/JLio5CVWr12QAwgBEyoWp+BmphT00iQGIRspWNujwvT/efRdYtYrLsmqk14CSQpXPmjQRX8XfEZkFcwAAIABJREFUfDOgW/HiNkvg/HmR/1GwoKh6tXo1MGGC6ANDIFRyKPsZyfXtnqbCHwMQjwKQOR2APfPxKEFSLCo6FtWqVWMAwgBEyoWp+BmphT00iQGIRspWNujwAGTxYnH9ijojU4dkHu6WwO+/i34QrG9365m4+/RTATzatwdq1QJI99OnA/PnAy+9JM2/sp+R3sHeiSr8MQDxKACZ3hQ4tAIPk2XELwU+ZwDCAEwagKr4GXs9o367MwDRSCfKBh0egFy/DtSpA5QpI3qC8HC3BP76C6halfN+3K1l4OFDIG9e4Nw5kXieJAmwcCEwbx6wciVQo4a0BJT9jPQO9k5U4Y8BiEcByITngVObEZImLxbn+pABCAMQBiAWum8GIBYK299WKj+cvjXDAxD6/1QRZ9Mm4NQpIGtWf9vy350sAdI9gU3u/+JkLfqnnarb1a0L1Kz5X77HjBnAb7+J9790af9rhM5Q9jPSO9g7UYU/BiAeBSCjywMX9yH4qVJYkvltBiAMQBiAWOi+GYBYKGx/W6n8cEYJQObOBT77zHB5Tn/08d81lAAlJBcuLEAnlWPl4U4JNG4sSi1//DGQK5fgkfI/KA/k0CFxOiI5lP2M5Pp2T1PhjwGIRwHIF4WBG6fxIEdV/JquMwMQBiAMQCx04AxALBS2v61UfjijBCCXLomvpXQt448//G3Lf3eyBI4fFwEpVUGiakg83CcBOsnMmRPInTtieW26irVliyjHmz69NN/KfkZ6B3snqvDHAMSjAGRoNuD+TdzPXx+/JW/OAIQBCAMQC903AxALhe1vK5UfzigBCP3HTp2A3bsB6pycIYO/rfnvTpUABZ/UkK55c2DmTKdywXTHJIHBgwXw6NJF5PuEDSo8QO/4/ftAggTSMlT2M9I72DtRhT8GIB4EIA9DgI/S+oz1XtEWWJqgHgMQBiAMQCx03wxALBS2v61UfjijBSCzZwPDhwMDBwIffeRva/67UyVw+zaQPDnQsCGwaJFTuWC6o5NAcLA44bp2Dfj6ayBRov9mUjPCM2eAO3cMyU/Zzxjaxb7JKvwxAPEgALlzDRiW02eod0t3we+PnmUAwgCEAYiFrpsBiIXC9reVyg9ntADk7l2A7o3T11G6puPB2t7+5O2Kv1N1pHjxRFnWFStcwRIzEU4CBCpffBGoXRto0yaiaKjwAAEUOgUzMJT9jIE97Jyqwh8DEA8CkGsngK+K+Uz1TsV3sOxuSQYgDEAYgFjovBmAWChsf1up/HBGC0DoD9Ql+8svxfUN+lrKw50SoJKs1CF7/Xp38udlrurVE5WuqKhE5Ip21HgyTRrg6FFDElL2M4Z2sW+yCn8MQDwIQM7tBsZW9hlqULVBWH4jDwMQBiAMQCx03QxALBS2v61UfjhjBCB0CkJfT0NCgGPHgFSp/JHAf3eiBNKlA7JnB/75x4nUM83RSYDe2Tx5ROfzAQOenNWxI/D008DOnYZkqOxnDO1i32QV/hiAeBCAHF8PTKrrM9TbtUdixcUMDEAYgDAAsdB1MwCxUNj+tlL54YwRgNAfp00Td8epfOf77/sjgf/uRAkQ+KBTkAMHnEg90xydBAh0DB0KdO8OVKoUcRZdvaLKZxUrGj75UvYzDtGUCn8MQDwIQPYvBX5qLgBIg/FYcToxAxAGIAxALPTzDEAsFLa/rVR+OP0CEEpQbdRIbE25IClS+COD/+40CdAX8lu3gNOnnUY50xudBB48EKdaQUHiA0LkKlc3bojeL88/DyxbZkiOyn7G0C72TVbhjwGIBwHIztnA/C4+Q73V9Cf8ceQBAxAGIAxALHTdDEAsFLa/rVR+OP0CEJowebJoUkdfU997zx8Z/HenSYDyP+i6ztWrTqOc6Y1OAqNHA5TjQTkgLVs+OevcOYCS0F96CZg/35Aclf2MoV3sm6zCHwMQDwKQzd8Dv77rM9SbrRZj5d4rDEAYgDAAsdB1MwCxUNj+tlL54ZQCIFSqlU5B4scXgSqVbeXhHglUqwasWycqnsWN6x6+vMoJNRItUEDoc8SIqE8tjxwRhSWoMtbUqYYkpexnDO1i32QV/hiAeBCA/DUS+EOUqL/Rfg3+3HGMAQgDEAYgFrpuBiAWCtvfVio/nFIAhCZRl+wxY0RvEPpyysM9EmjaVHwFv3wZSCsaa/FwsAS6dQPGjQPathVXrKIae/aIyliUH0LvtYGh7GcM7GHnVBX+GIB4EIAs/xBY95XPVK933Y5Vm3cxAGEAwgDEQufNAMRCYfvbSuWHUxqAUI4AnYJQIzMq25ksmT9y+O9OkUDXrsD48cD+/eLLOQ/nSmD7duCZZ4Bs2UThCOrxEtXYsgX45hvxMYE+KhgYyn7GwB52TlXhjwGIBwHI4reBrT/4TPXaWwexeu0GBiAMQBiAWOi8GYBYKGx/W6n8cEoDEJr4/ffiy+rIkcA77/gjh//uFAlQdbMhQ4C1a4HKoq49DwdK4NEj4NlnxXW6/v2BQoWiZ2LNGvE+Dx4MfPCBIWaV/YyhXeybrMIfAxAPApC5nYDdc4H4iXHtzf1YvXo1AxAGIAxALHTdDEAsFLa/rVR+OA0BkJs3xSlI0qQA3SGn/+XhfAl89RXw9tvAwoWi7wsPZ0qAGoe2bi1K677+esw8UHPCGTOUPiYo+xmHSFWFPwYgHgQgP74MHFwGJMuIa122MABhAGYIgKr4GYe4UMvIZABimaj9b6Rs0Nu2+V88bAadgNCXU/pqTlc8eDhfAmGB64QJQKdOzufHixzQxwEqp3zlCjBsGEDNJWMalPOzYIG4etdFlBKVHcp+RnYDm+ep8McAxGMAJPge8G1Z4NpxIF1+XGuzggEIAxAGIBb7btcBkN27d6Nv375YS9dRAFSpUgXDhw9H0aJF/Yp269atmD59OlauXImjR48iWbJkKFKkCN577z0899xzEZ4/duwYcufOHeWanTp1wgQKBg0OlR9O3xZGAAj1FaCynlTGk656lC9vkEqerp0Efv8deOEF4NNPgX79tCOPCZKQAOmNgAcVFGjc2P8D06cDpHc6BYmqTG8MKyj7Gf9UaTFDhT8GIB4DIKuHA38OEfZavjuuVezHAIQBCAMQiz24qwDIwYMHUbZsWaRNmxZvvfWWT5TffPMN6Mdl8+bNyJ8/f4zibdasmc8JNW3aFKVLl8atW7cwadIkEKgZM2YMulPFmdARBkBefPFF0HPhR758+VChQgXDqlT54TQMQOgBSnR97TWA5EH/zlexDOtKqwf+/lskLvfuDXz+uVakMTESEjh4EChSBEiTRoDIhAn9P0SnmJQHsmgR0LCh//nhZij7GUO72DdZhT8GIB4CIJcOAd9VAkLuAckzAW9sxrV7YADCAIQBiMVu21UAhIDA0qVLsXfvXmSnLsIATp48iUKFCqFu3bqYM2dOjOJdt24dypQpg0RUKSp03LlzByVLlsTFixdx4cIFxKdeGqB2GuIEZMCAAfjkk09MUZvKD6cSAKGHqLvytGkAATWqpsPDuRI4cQLImVOUbZ0yxbl8eJXy+vWBX38FevUSQFJm0Pu7dSuwciVQo4bME4/nKPsZQ7vYN1mFPwYgHgEgVOhhSkPg2F/CQJtNAoo28X2k5CR0TsKvZiAJX8XP2OcV9dzZNQCETivSpUuHFi1aYEqkIKxdu3aYNWsWLl26hOQKTfh69+6NL774AidOnHgMbMIDEAIhNJIkSRIrLSsbtJErWGEU3rsHtGsHHDoErFgB1KoVK9r5YRslQNfqqKwydc1essRGQnhrwxIgfTVoABQrJkrqxokjtwSdlPz7L7BpE1CunNwzobNk/IzXrrJyAOqRAHzdN8DygeJNyF8baDXb986x/j2i/2g8pYr+ZfyoIcfswcmuASAbNmxApUqV8N1336EbNfIKN+i/vf7666A5KlejWrZsiblz5/qcFOWF0AgDIARoCPzQoKtXvXr1whtvvKFkSsoGrQJAiELqG9G+PZApE7BrF5A6tRLd/JAGEiC7pGs8mzdrQAyTICUB+ghAuWnUl2foUCBLFqnHfJOo9O758+IaluypiSQA8eJVVpUARF5Z+s/0BP+HVwLTmwKPHgKJUgLd1gJpcvqU4wn+YzBD5t84AFOO1/R3B5ZR6BoAMm/ePF8uxqJFi9Aw0p1o+m+Uq0EggvI7jAy6zkVXsBo0aADaI2zQaUjHjh3RuHFj5MyZE2fOnPElnlMi+7vvvosRI0YY2cY3V9mgVQEIbRrWIZ2v7xjWl1YP5MoFxI0ryivzcIYEevYU1x/r1gVatTJG87vvAnSdhK5umQxAvHiVlQMw4wGYMYO1efbVY8D46sCdqwDiAK1mAQXqPCaK9e9y/fsxPxX9K8drNr8KOm2vJQB58OABDh8+LCWnpEmTIkeOHJg2bRratm2L33//HbVr147w7LJly1CnTh3fnNZUZ19yXL9+HRUrVsTZs2exY8cO3z4xjZCQENSsWdNXgevAgQPImzdvtNNpTfon/CCwQ/Rt27bNlwQvPWIDQIKDRRlPOgEhgNWkifS2PFEjCZQpI060qJwrD/0lQPlXBPopV41OMxInNkYznbKmTw/Mnm0qAPHqVVaVAMSYwvSe7Xr+pzQCjq4WSqjxPlCtTwSFuJ7/AATgelu0MepU9M8AxJiMo5qtJQCJqcRtZCYoaWjVqlW+0wkzT0Ao+ZxAy5YtW3yJ7bSPzPjll1/QqFEjjBs3Dq9RpaloxqBBgzCYuhhHMSwFILQ/JTG/+qrII9i9W1zJ4uEsCdBX9KVLgTt3jAezzuLU+dRS1TLqWE8FLQYNMv6+PXwIdOwIFC8uevqYeALi1ausKgGI8w3xPw5czX9IMDDkKeDhAyDXs0DbReK0ONxwNf8Shsr8Gz8BYgAiYVh+pmgJQCj4p4oUMoNK7pYrV86X32FWDsj9+/d9IIL6gcyfP993/Up27Ny5EyVKlMCQIUPQv3//aB/T5gQkjEKqEEZ9COj62s8/yyfDygqG5wVWAm3aANQb4uRJIFu2wO7Fq6tL4NIlgE6rCPTTNSoCEUbH9evAm28Czz8vyvaaCEDM/pATxlqgrrLG5EfpwxT5Yplx8+ZN3xVYOnlOkSKFzCOumuNm/uNePYqUU6r79HWn4ju4V77nE7pzM/8yhsr8G3//6VZM9erVjd9YkVGIR+ZoCUBUZO/v6sDMmTNx+fJlv1WwgoODfScpdJLx448/+qpqGRkEWCjPhPJBqCGhkaGMqGNzBSuMQLpPTkENVdWhvJAOHYyQznPtlsA77wBffin6upQsaTc1vH9UEqDrjtQw8o8/gJdfBho1UpPT8ePA+++LvBHSezQAJLqrrHv27PH5OMqJo0arNJx6lTWmk+SRI0fGeA1WTfj8lNMkkOn6dlQ48qWP7C253sCZNNx812k61JFeShOgCqmGb6zoyIxNNLkGgJD8KPCnHJB9+/YhW+hX4LA+IHSdKnwSOX05oxwPytNIkCCBT/wPHz5Eq1atfCV7x48fjy6UGxHNuHLliq/hYfhBJzeVK1f2NS4k4wzrRSKrW1sBCBFJVXWaNxenH//8A+TJI0s6z7NbAlRFicpBL1smvozz0E8CffsCVJyibFnRf0e25G5kTujdHDkS6NFD5JFEA0C8cJWVT0DMMXM3fwFPtHUskqz91CeoG68uxcMMhZ4Qmpv5l7EQ5p9PQGTsxOw5rgIg+/fv913Hon4gPejHObQTOp18UCf0ggULPpZf+/btff1Cjh49ilxUQQj0MfEdfPnll758j86dOz8h6+effx6ZQvMjmjRpgqCgIF9ZXwI7VAWL1jty5Ag+/fRT9OvXz7CubAcgRDHlEdDX1QIFgLVrgQwZDPPBD9ggAcoFoJyjGTOAli1tIIC3jFEClCxO4D5rVuDDD6lpkLrAVq0CJk4EPv5YVNCKBoBEd5X10KFDeOuttzBq1Chf6XAaTr3KGpUQVfwo34E3fgde3YAtfvLnN4Ht00T1qwFngQRPvnusfxfrX8LcVPSv4mckSPHUFFcBENIc5WD07dsX1NWcRpUqVTBs2DAUj3TXOioAQvf5Yso9+fPPP313/mhMnDjRBzgI9NBpCPUDofvDPXv29OWPqAxlgzbjClZ4gseMEdew6EstdVpWaN6owj8/EwsJLFggKphRWVf6us5DHwlQhbkKFQQ9lHSeOXPsaCNdz58PjB0r8klMzAHx6lVWlQAkdkrU62lX8z+xDnByI5A6B9BrV5SCdzX/EqbG/BsHYMrxmoQ+vDLFdQDEyYpTNmizAQjlg9CVHgp06DrP4sVAwoROFq37aafTqmefBQYOBD76yP38OoXDq1cFkKey4m+/DRgprx0dj5MmiQ8Dc+cCdHprIgChLb14lZUDMOMBmFNeQQzPAwRdBvLWAtrMZwAShQTY/o3bv3K85pgXJ/CEMgAJvIyld1A2aLMBCFFMCbN0jYyue9CVHqqwFKl0oTRjPDHwEti3DyhUCOjeHaATLB72S4DK5VJVOWoW2LgxRfbm0PTFF6LYAFUKpNLZJgMQL15l5QDMeABmjjEHeJWgK8Dw3GKT8t2Bup8xAGEA8oQEVN5/5XgtwCbvpOUZgGikLWWDDgQAIbncuyeu81DfAsqp+eor9cRZjeTsSlIuXxaN6Zo1A6ikMg/7JUANBilPg6qS0emHWQCe1qWCEWvWCB5NBiC0pNeusqoEIPYbmHkUuJb/E1TVMbQxcf2RQNkncztJiq7lX9JEmH/jAFw5XpPUiRemMQDRSMvKBh0oAEKyoc7aXbsCBw4AQ4YAMfQ20UiU3iOFvrZTNbeqVYE///Qe/7pxTDlUVIb7qadE3gedVJg16KNAypQiDyRAAMQsUu1YR8WPcgBmPACzQ7eG9/x7GrDoTfFYu1+A3FWjXIL171L9SxqMiv5V/IwkOZ6ZxgBEI1UrG3QgAQjJh5qnUVWwU6dE5+UoKoRpJEbvkpIxI0D/UDd7HvZJYPRo0VOHQAIBdqp8ZdYgoNm+vcglGTeOAUgUclXxoyoBiFkq1WEd1/K//ANg3ddCxO/sA1JGXQDCtfxLGhfzbxyAqfgZSXV4ZhoDEI1UrWzQgQYgJCPq3EzA49o1YN48caedh14SKFwYuHIFOHdOL7q8RM3nnwN9+gBp0gD/+5+54IPkSO8fnYBQQ8NPPmEAwgDElLfLtQHoTy2B/b8CCVMA752M9gqxa/mXtA7mnwGIpKmYOo0BiKnijN1iWgMQYm3vXnEdKyRENLyj6z489JFAtWoAlZ++f9+8fAN9uNObEqocR/ke1OODcnGogENozyBTCT96FKAckDZtgJ49GYAwADHFvFwbgI56Brh8CMhSGngt+qupruVf0jqYfwYgkqZi6jQGIKaKM3aLaQ9AiL3Nm0XgkzSpqMJTokTsmOanzZPAK6+IBHRKUKarWDyskQCBD7pq9dlnAnQQ+CAQEohBBSG+/FIktb/6KgMQBiCmWJkrA9CQB8CQp4CHwUDx5kCT8dHKypX8G7AM5p8BiAFzMW0qAxDTRBn7hRwBQIjNFSuA994TwRadhBQrFnvmeYXYS4Cu/tAVIAKJ1HuCR+AlQOCjVy/RAJJyPejaFV2/CtSg/h/UB4T69NQOre4TgCpYgSLfinVV/CgHYMYDMCt0Gas9Lh4ARof6wZrvA1X7MACJRgJs/8btX8XPxMqeXfgwAxCNlKps0FbkgESWEzVBoy++KVIAs2YBdetqJEmPkhKW/Dx7NvDyyx4VgoVsU0I49V0ZPx7ImVPkfqRKFVgCKP9q4UJRDKJUKbEXA5AIMlfxoxyAGQ/AAmvoJqy+bwkws5VY6OUpQJHo8xZZ/y7UvwETUtG/ip8xQJInpjIA0UjNygZtBwAhudHXWLqPTjkH1COEkmN52CeBJUuABg2A4cNFMMwjcBKgRp0dOwLTpgF58wLvvgskTx64/cJWnjhRNAddsADInp0BSBQSV/GjKgFI4JVt3Q6u5H/tl8CKQUKI3dcDmYpEK1BX8m/AfJh/4wBMxc8YUIknpjIA0UjNygZtFwAh2f37L9C7N3DxIvDGGwKIxI+vkVQ9RAqV36XrcKSHb7/1EOMWs/rggci/oHybggWBd94ROVFWDLpit2MH8NdfQJIkDEAYgJhida4MQBe+AfwzHUAcYMA5IEFiBiDRSMCV+jfwZqjwrxyvGaDL7VMZgGikYWWDthOAkPwo6ZmCsP37gTp1xJWsQF9F0Uhv2pBCTSOp90T9+sDixdqQ5SpC7t4FKNn/l18AKntMyeCJow9sTOf9/fcB6npPpyBhg69gRRCzih9VCUBM162NC7qS/4l1gJMbgdQ5gF67YpSuK/k3YE/MP5+AGDAX06YyADFNlLFfSOWH07er3QCEaAgKAgYOFJWxKDCjADh37tgLhVcwJgGqvpQ5M7Ar5h9cY4vybJ8E6JSvRQtx9bB4cVENLmFCa4VDp1tp0wKUg8UAJErZq/hRDsCMB2DWGr7CbsPzAEGXgby1gDbzGYDEIAG2f+P2r+JnFKzY1Y8wANFIvcoGrQMAITlSfxC6+kP34jNkEMmylSppJGEPkEJfww8cAG7ciLbplgekYD6LBKxbtQLOnBEVxij5PEEC8/eJaUXKO+nQAShXDhgzhgFINLJS8aMcgBkPwKw1foO7BV0Bhod+ACvXFag3nAEIA5BoJaDy/qv4GYNW7PrpDEA0UrGyQesCQMJkScCDKmTFiwf88IMI3HhYI4GmTYH584FLl4B06azZ0827EKimkreDBglA17y56EJO/271oKtXVPK3Xj3go48YgDAAMc0CVQIw0zYPxEIntwATnxMr1/scKNeFAQgDEAYggXjXYrEmA5BYCM/sR10DQEgw1IuCGrLRl3jqDk3/2BG0ma0k3dejXBxqVEegtHRp3anVm75z54DWrYE//hAneq+/DuTLZx/Nhw4BgwcD7dpFrDjHOSARdKLiR10XgBu0Utfx/88MYGF3IYU2C4G8NRiAMABhAGLQLwR6OgOQQEvYwPoqP5y+5XU7AQnj+dgxkaR78qS4O08N1KxM2DUge9dMpYZ4lJtA/SKaNHENW5YzQs02CXxQgYUyZYDOnYFkySwnI8KGW7cCX38tSv7S+xQ2GIAwAImlZboOgKwYDKz9Qkil124gdWjJ6mjk5Dr+DdoD82/8CqJyvGZQN26ezgBEI+0qG7SuAIRke+0a0Lcv8PffQNGi4koWd+kOnNUtWgS8+CLwxRcC/PEwJgHKs6BThiFDRDnpli2B557T4/SOQNGUKeJ6I9HEACRK3ar4UQ7AjAdgxl4si2fPagPsXQTETwL0PwPEjRsjAax/l+nfoLmp6F/Fzxgky/XTGYBopGJlg9YZgJB8wxoVUodu+iGgviEU5IX1MdBIB44nhXpElCwJ9OghvpbzkJfA6dMiX2nNGuCpp8SVK50quVHfEQKYEyYIHTMAYQAib93eCsDHVAQu/AtkKgZ0X+tXSioBqN9FHTSB+TcOwJTjNQfZRaBJZQASaAkbWF/ZoHUHIGEyoFOQjz8WV7Ly5weoq/OzzxqQEE/1KwE6cUqTBmjUCPj5Z7/TeUKoBH77DWjbViTvly8PdOqkH0CmCnObNgFEK+WkMABhAGLSC+yqAPRhCDAkMxByDyjcGHhlil8puYp/v9w+OYH5ZwCiYDaxfoQBSKxFaN4CrgcgJCpq5DZuHPDjj8DDh6Jr96efAilSmCdIr69EACRnTuCff7wuCf/8U1dzau43fLgoq0t5HzVq6HHlKjL11GeHclLohCZ8QQfOAYkgKRU/ygGY8QDM/8tl04yrx4CvS4jNq/YBar7vlxDWv4v071fb5gAwFT+jQJqrH2EAopF6lQ3aKScg4WW9Z48oJXr4sAiWv/8eeP55jbThYFLoeg4VAKDTEB7RS2D7dtHPg04V6MrVm28KW9RxPHoEvPaaoI/Ae/jBAIQBSCxt1lUB+KEVwPSmQiIvjQdKNPcrHVfx75dbcwJwhW20fURF/8rxmrZSsJ4wBiDWyzzaHZUN2okAhKRAuSFUGYv+CWuyNnKkuELEQ10CjRuL61dXrwKpU6uv49YnqbzugAHC7iiwr1wZaN9e7wptBCbfekuAdDoxZABiqh9VCUDc9Hq4iv+NY4Gl/xPq6bwSyPaMX1W5in+/3DIAiSwBFf0rx2sK+nHrIwxANNKsskE7FYCEyf7gQXEasncvkDkz8N13opITDzUJUBleKsdLV7BKhF5FUFvJXU/R9T9KzKcKVzdvAjlyAK++ChQurD+f+/YJuik3hU5tGIAwADHRalUCMBO3N3epJb2BLRPEmv1OAIlT+V3fVfz75ZYBCAMQBSMJwCMMQAIgVNUlPQtASGB0AkJXSyg/hE5GqOP0qFERk21VBeu156gRITUkpI70DOTEKQd1h+/TBzh6FEiVCqCO8dWq+S3PqY3prFolijZQR/YGDRiAxKAYFT/KAaiLcgCmvggcWQUkywj0OSj1CrP+XaR/KY1HnKSifxU/o0Caqx9hAKKRepUN2uknIOF1QLkLVCmLysmmSyfK9dJXX25gKG+pCxaIJoT0tZ/K8Xp5UJ4H9UNZvVokmdeuLSqEJU3qLKnMnAksWSKujRUrxgCEAYip9qsSgJlKgJmLfVEEuHEKyFEJ6Pib1Mqu4l+K49gH4ArbaPuIiv6V4zVtpWA9YQxArJd5tDsqG7SbAAhJh6pjUc+D0aOBoCAgSxagXz+gSxcGIjL2SuWOKTGZAm9qSOjFQdWiqLoVnRrQCQh1M6fu4ZkyOVMaX30F0HtOzQgj5/VwEnoEnar4UZUAxJmGFDXVruH/fhAwNLNgsnRboNEoKTW5hn8pbp+cxPwbPwFS8TOK6nHtYwxANFKtskG7DYCE6YQSb+la1qxZ/wGR//1PABFuYhi95V65Ik6P6BRk3jyNLNwCUiLneVDVKGou6IQ8j5jEQwCc8lZWrnxyFgMQBiCxfLVcE4CVVi7cAAAgAElEQVSe3QmMC+0t9fzHQGW5E2DX8K9oB8w/AxBF04nVYwxAYiU+cx9mABKNPMOACHVSv31blEwlINK1KwORqERGX/wpz4GaPboVnEbmm3imq2fvvivyPFKmBJo1c1aeR3TuhE4EO3cGChYEJk9mAOLH7ar4UQ7AjAdg5v76mbTa7vnA3A5isRY/AU/Xk1qY9e8S/Utp25wTIBU/o0ieax9jAKKRapUN2itB5vXrwIwZAN2HDwMiffsKIOK0O/2BtjvKEzhzBrh8OdA72bv+nTvATz+JggVU9St+fJHnQcn3brGJixdFUYF69US1uMiDT0D4BCSWb6FrAvDVw4E/hwhpvLkVSJ9fSjKu4V+KW3MCcMWttHxMRf/K8ZqWErCHKAYg9sg9yl2VDdorACRMagREKOgkIHLrlrjXTxWOunUDkiXTSKM2ktKwIbB4MXDjhju7zJ84Ico1UwNLAlnx4gHlyonqVk7N84jOXHbtEp3ayb7pJIQBSIwvloofVQlAbHy7Td/aNfzP6wLsmg3EjQ8MOAfESyAlK9fwL8UtA5DIElDRv4qfUVSPax9jAKKRapUN2msAJExnFFyHARG6H58xo7iC8/rrDER69RJVsMg2SpfWyMpjQQpds1qzRpx20HUruppEV61q1ABq1gTSpo3F4ho/unw5MHUqMHSoON1hAMIAxGRzVQnATCbBnOXG1wDO/A2kywe8tU16TdfwL81xxInMv/EraMrxmqKO3PgYAxCNtKps0F4FIGG6I/BBpyF0PYv+PUMGUbq3TRvnJx+r2ueECSJZf8oUoG1b1VX0eI4qoZFuCXjs3CloypNHdAUvX16U13XzmDYNWLYMmD4dePppBiB+dK3iRzkAMx6AaffK0QeKz3IA924ABV4AWs2SJpH17wL9S2v7yYkq+lfxM7Eg0ZWPMgDRSK3KBu11ABKmQ7qORUCETkXomhYN+vrfujXQsqVIXvfK2LgRqFhRXE2j6ztOHMePA2PGAASmqLJX2DUrOgXImxeIE8eJXBmnecQIAbzo9CeqvBbOAYkgUxU/qhKAGFekvk+4gv+b54GRBYSQK74J1AnNBZEQuyv4l+AzuinMv3EApuJnYqEiVz7KAEQjtSobNAOQiFq8dw9Yuxb49Vdg/XrgwQMRvNIXczoVadzYPQnK0dkvXU+jSlh16wo5OGXQV0xqGvjNN8DPP4trVtT3onp1cc0qTRqncGIenb17CzksXRr1mgxAGIDE0tpcEYAeWwtMri8k0fBr4Jn20lJxBf/S3D45kflnABIL81F+lAGIsujMf5ABiPkyBZXwpeZtFISHXd9JnlwkKxMYocCWwIkbR65cInClhG2dB9G4ZQvwyy/A/PnA3r2CWjrlINBIyeVuv2YVnX6Cg8V1wpIlgfHjGYBI2LGKH+UAzHgAJqEKa6dsmwz80lPs2X4JkKuK9P6sfxfoX1rb5gAwFT8TCxJd+SgDEI3UqmzQfAIip8WTJwUQoS/J9O80smYFXn1VgJGiReXWccqsBg2AJUvgA2F0GqLToDLKBAwXLRI0UudyGgkTiq7lBDzy5dOJYntoOXsWoFLTdGpHnd2jGnwCEkEqKn6UA1AXBKC/DwA2fCtsofcBIEUm6XeW9e8C/UtrmwFILERl6qMMQEwV5//bOxNwn6r1j3/NQ0goJbMmJFGUKJpolMQ/lSLcuIaUqaIbuiFTJUmKVCJFKnUvSRludBNdMs8yE0rGTP2fd28nZz57rT381t77u57nPIo1vZ/33fus716Tu8p0fnFaLVKAqIGXZT4yGyJiRE4YkuVKkqpWtYWIDNwvuST8ewzk9uyBA4F584DrrlNj5EfurVvto4FlpuPrrwFZKidJllUJ+2rVgMqVgTx5/Gg9nHX++CPw8svA449nfJgABQgFiMvojsQAfML9wJrpQJ5CwNObld7fkbDfRQzQfnUBpj1ec+GnqBWlADHIo9oBTQGi78Vjx+x9IvIVXvaNyH4RSXKk7w032D9169qzI9mz67eTiJJyapIIqlGjgMceC74HIvRkAC2CQ37kv5OSLA+TZUUiOuS/w8Y2KJrTptkngA0ZYi8XTC9RgFCAuIzHSAxAh18F7F0HlKgOPDZLiUgk7FeyOGVm2k8B4iJ8tItGToAsW7YMPXr0wLcymARQp04dDBo0CJc7WF6zadMmlCtXLl2YrVu3xmg5jSdZOnnyJAYPHmz9/ZYtW1CqVCm0adMG3bt3Rw6NfQUUINpx7E1BOTlr9mx7Rul//wNk+UtSko3Q119/RpDIwFlu3TY5yc3g0s9OnexN3UGkX3+1BZ0IDpnt2LbNblX2cFSqdEZ0FC0aRG/C38bYscA33wAffWQfPUwBkqVPdd6jHICpD8CydESQGU4eB/qdD5w6AVT5P+C+t5Rap/9D7n8lb6fNrON/nfeMy25GrnikBMjatWtRo0YNFClSBJ1k0AUZd70KCa4FCxbg4osvztSBSQLknnvuQZMmTVLkveiii3Dttdem+Lv27dtj5MiRePTRR3Hddddh/vz5GDt2LOTvR4wYoRws2gHNGRBl1o4KiACRr/YiRuTP5Ju5ZSO7LGuS2RGZJalRw7ylQ0eP2hcySh9lEOtlktmNTZsAETnJf5IzkksCk2Y55ANA3rxe9iAedQ0YYG/Kl2V0sj+GAiRLv+u8R3UGIFl2JEQZQm//nrXAa1fbxG/sBdTtoUQ/9PYrWevNANxlk0YV1/G/znvGKKMN6EykBIiIhunTp2PlypXWbIQkmZmoWLEibr/9dkyaNMmRAOnVqxdeeOGFTPMuXboUVatWtYTOMLlx+nTq3Lkzhg8fjiVLlqBKlSpKLtYOaAoQJc7amffsOSNGRJSsW3emKtm3IAK1Th17/4h8rZYfuXskkcuL5OI6uUNj925ts629GsuXA0uWnBEb8t9Jd60k1Sw3kZcubS+puuIK+xSrRNqub7E5JTt3toWbbNbPKHEJVgoyOu9RnQGIOUHivieht3/Vv4GJD9ggmowFLm+sBCX09itZSwGSmoCO/3XeMy7dFLnikREgBw8eRNGiRdGsWTO8K7c/J0stWrTAhx9+iD179qCAfLnOICXNgIgAkR9J+fLlSze3/Hv//v2xYcOGFMu2Nm7ciPLly6Nnz57o18/5RUjSiHZAU4Ak5sGU06Xk63/SLMnq1faxt8mTDB5lWV+SIEn+p/y9zFD4mWQm7+OP7VOmZF9LRkn6Lfb88gsgm8WTiw35Ai/HwSYlERUlSwIi8kVwlClj/1mwoJ+WxK9uEX5t2tjC9rXTp/ukR8EHARK3paw6A5AoBWTo7Z/3KvDVP2yXtP0PcMEVSu4Jvf1K1qbNTPvVl6Bpj9dc+ipKxSMjQL777jtrGZQsiWrXrl0KH8nfybIoyZN6GVXyjEkCRESKCBpJsvTqiSeeQIcOHVLU2aBBA2uWY+fOnWnioXjx4qhWrZo1G6OStAOaAkQFs395JWZWrbIH8LL3QX62b7d/ZBYivVS8eEpxIrMHMpCX5TYyq5L0k9X/y56jpJvBZXnU4cOAzNiICH7rLUBOxJK2RGDI3yf9JP3/3r1pxZP0VwS4iIskoSFio0SJjJcD+Uc3fjWvXw/06QM88AAglxFmlDwWIHFcysoBmPoAzKgHcmon4Mf37C713A7kVvuwQ/+H3P8ug1HH/9rjNZd9jVLxyAiQjz/+2Nq3MXXqVNx9990pfCR/J/s6Jk+ejPvkAroM0ubNm9GqVSs0atQIZcqUwfbt260N5gsXLkS3bt2sDedJSZZX5c6dG4vSGfxXr14dx48fhyzTyijt2LED8pM8ydKx5s2bW3VKHY4TBYhjVAnLKPdeiBARUZJaoMjfJZ2+pdtBER9JYkW+nMv+j6ySzGTIPg0RPDITI3/Kj9wZIrMbIjaKFeMyqqw4+vXvck+KzOb27QvcefqG5/Ta8liAxHEpq84AxC+3J6Le0Nv/9u3A5vlAoZJAl+XKCENvv7LFKQvQfnUBRgHiMugAGClAZPC+Xr7+OUj58+dH6dKlMW7cODzyyCP48ssvUb9+/RQlZ8yYAZmxkDwywFdJctLVTTfdZJ2qtWbNGlSQde3WJc0VIDMdsvE8dZKZmN27d2Nd8j0CqTL16dMHfWVgkU6iAFHxUATyyvInmYlImjER8SCCRH7kmOCkP2UZlPy//KT330n55HQuuVtDTu4SkfHZZ8CllwJ33HFGZIjQkNkN7tEwN4Dk1L05czI/AUt676EAietSVg7A1AdgRj04gy8GDu0GytcDHvlMuWv0f8j9r+xx9wKMAsQldFMFSGbH4aY2uW7dupg9eza8mAHJCOfnn3+Ohg0bYtSoUXjs9H0KnAFxH3ysIQACIlTk+GCZzejdO4AG2YRnBOTmczk8QI6GzuxYbw8FSFyXsnIAGuIB6NH9wIul7ceuRhvgzqHKjyD9H2L/K3s7bQEd/1OAuAdv5AzIkSNHMEe+/DlIcuRuzZo1rf0dbveAZNTcTz/9ZJ14JZvKZXO5JO4BceAcZjGDQLNm9rKvN99Uuh3YjM7HtBcyyyUfO+T44jFjMofgoQDx4kOOKUtZ5cOUvLedpAMHDliHgMjS14IxPEwhzPbn2LkYBSfeY7n5cN0+OFbtUScuT5EnzPYrG5tOAdqv/vzLHuB69eqpL5n3wmERqcNIAaLDNqulAxMnTsTevXszPQUro3anTJli7R2R/SByIaEkESIDBgzgKVg6zmKZYAnIl3Q5EOHll+09HUzmE9iwwZ6xuv9+oHt3LQGS0VLW5cuXW/vlZE9c5cqVrbqjuJR16NChfy2ZNd/h7KEugZL75uGqn0dZxedX6IZfCqmdgKXbLsvFm4BsE+jatSsFiIswiIwAEQYiEmQPyKpVq1BSjglNdg+IzFjI172kJBvA9+/fb/2CyiW3NEMOKtpnXWKYPMlsTO3atSHHUkrAJd0vIupXTrrK6B6QxYsX4wq5C0EhaU/pcRO6AuUYZpXbtOViTDlJSS4GZDKfgFwcKX6TU7DuuktLgMR9KStnQJyHeZi/gOedPwR5Fwy3jP390f/g1Nmnl2M5Nx9htl/BzAyz0n7OgHgRR6p1REqArF692lqOJfeBPP744xYLuQldZj7kJvRLZSPu6dSyZUvrvhC5t6OsHH0KoHHjxjh8+LB1VK8IGDkFS/LIXR8y2/G0HGWaLMlxv7IvRG5CF5Eyb9486yb0tm3b4o033lD1Be8BUSbGAo4IzJ0LdOlif03PajDrqEJm8p2ALLuSvR8TJ8pZ4FoCJKOlrHI4hnw4kQtT5ZhxSXFfyqqzBtz3GAiwgVDb/1ELYMWnQI48QK8dQPYcyuRCbb+ytWkL0H71PTDaH4w98FdUqoiUABGnyH6NHj16WGJAUp06dTBw4MA0sxHpCZAxY8ZYgkOEjMyGyH0gsiZYbjeXTeip04kTJzBo0CBradbWrVst0dKmTRur/ZxyEpFi0g5ozoAoko5Zdjld6557gNq1gVR35MSMRHjM/cc/ADmmW/bCZfUu8XAPSFyXsnIApj4AM+ZhGlkH2LUUOK8S0P47rW7R/yH2v5bHUxbS8b/2eM2D/kalisgJkDA7RjugKUDC7Hb/+y7H/Nata9+E/sIL/rfHFtwRkOOU//Y3oFIlexlWVslDASJNxXEpq84AJCu3hOnfQ2u/vNv6lwBOHAEqNgTuH6eFPbT2a1mbthDtVxdg2uM1j3wWhWooQAzyonZAU4AY5EVDu9KiBbBmDSB3S/DuD0OddLpbGzcCzz0HNG0KPPVU1n31WIDEcSkrB2DqA7CsAzOAHL9tAV653G6oThfgFr2jxun/kPrfoxDT8b/2eM2jPkehGgoQg7yoHdAUIAZ50dCuPP88MHUq8OKLwIUXGtpJdssiMGsW8PbbtghJZ+lnGkoeCxCpP25LWXUGIFGK1tDav34WMK6R7YpGI4ErH9RyS2jt17KWMyCpCej4X3u85pHPolANBYhBXtQOaAoQg7xoaFemTAH69wfatLGXYzGZS0CWXckpWB98AFx8cdb99EGAZN2ouTl03qM6AxBzCaj3LLT2L3gL+Hc32+DWM4FSNdSNBxBa+7WspQChAPEocFxWQwHiEqCXxXV+cVrtU4B46YZo1rVuHSAXEor4EBHCZC4BmfmQgwPk9LKsNqCLFRQgKXyp8x7lADSkS3CmPQV8f/rEyR4bgfwpj9F3+pDT/yH1v1MHZ5FPx/867xmPuhuZaihADHKldkBTgBjkRUO7Ips1b7oJKFQIGDjQ0E6yWzhxwt6AftllwDvvOANCAUIB4ixSMsylMwBz2aQ3xcc1BtZ/DeQvCvTYoF1naO3XtjhlQdqvLsC0x2se+SwK1VCAGORF7YCmADHIiwZ3Re7GmT8feP11oGBBgzsa465t2gTIEbxNmgCp7h3KkAoFCAWIy0cmtAPQV6oAv20GSl0LtP5Sm0Jo7de2mAIkOQEd/2uP1zzyWRSqoQAxyIvaAU0BYpAXDe6KnIAlF2TyRnRznSSXD8olhM8+CzQ6vbk2q95SgFCAZBUjWfy7zgDMZZPuix8/CvQ7H8CfQLXmwD0jtOsMpf3a1qYtSPs5A+JhODmuigLEMSr/M1KA+M841i0sWAC0b2+frCRHvDKZR0CWXX39NTB+PHDppc76RwFCAeIsUjLMFcoB6K4VwMhatk239AHqPKlNIZT2a1tLAZKagI7/tcdrHvot7FVRgBjkQe2A5gyIQV40uCuHDwP16gGXXAL06mVwR2Pctd69ga1bnW9AF1QUIBQgLh8ZnQGYyybdF1/xGfDRI3Y9948HKt6lXWco7de2lgKEAsTD4HFRFQWIC3heF6UA8Zoo60tD4KGHALnobtQoZycsEWFwBGQD+mOP2Ufvvvee83YpQChAnEdLujlDOQCfOwT45p+2PR0WAOc6nDFMh0Ao7Xfp8+TFaT+XYHkYTo6rogBxjMr/jBQg/jOOfQtyAtakSUDfvkD58rHHYRSAn3+29340bgz07Om8axQgFCDOoyU6AuSTvwNLJgDZsgO9dgI582hT4ABcfQCuDdvAgjr+1x6vGWh/orpEAZIo8um0qx3QXIJlkBcN78r06fYgt3lzoEEDwzsbs+7NmQPIQQGyPO7ee50bTwFCAeI8WqIjQEbfAmz9ATinHNB5sSsCOgNQVw0aVpj2qwsw7fGaYb5PZHcoQBJJP1Xb2gFNAWKQFw3vyo4dwN13A9dcA3TsaHhnY9a9pBvQ33/fvgfEaaIAoQBxGisZ5AvdAPTPP4GBZYGjvwEX1wcemuSKQOjsd2Vt2sK0nwLE45ByVB0FiCNMwWSiAAmGc6xbkV/ct98OyMWEw4bFGoVxxvfoAfz+u30KlpMb0JMMoAChAHEZzKEbgB7aCww+vYT02g7Abf1dEQid/a6spQBJTUDH/9rjNY99F+bqKEAM8p52QHMGxCAvhqArTz1lD3JfeQUoWjQEHY5BF/ftAzp3Bm64AXjpJTWDKUAoQNQiJk1unQGYyybdFd/8X+Dt00tI73wJqNHaVX2hs9+VtRQgFCAeB5BmdRQgmuD8KEYB4gdV1pmGgNwx8fLLQIcOwLXXEpAJBL791j6ZTC6JfOABtR5RgFCAqEVM+AXIj+OAqaeXkLb4HCh3gysCFCDqS5BcATessI7/tcdrhtmeyO5QgCSSfqq2tQOaMyAGeTEEXVm2DGjZEqhfH3j44RB0OAZdfPNN4D//ASZOBC66SM1gChAKELWICb8A+ao3MO8V244uq4BCF7gioDMAddWgYYVpv7oA0x6vGeb7RHaHAiSR9ClADKIfo64cPw7UrQtceCHw/PMxMtxQU2VfzpNP2vtyZswAsmVT6ygFCAWIWsSEX4BMfAhY9QWQuwDwzFb1ZyYVAQ7A1QfgLkPOqOI6/qcAce9CChD3DD2rQTugOQPimQ9iU9Hf/gYsWWIv+8mbNzZmG2norl1At27ArbcCAwaod5EChAJEPWpSlNAZgLls0l3x12oCe1YDF1QF2s51VxeA0Nnv2uKUFdB+dQGmPV7z2Hdhro4CxCDvaQc0BYhBXgxJV4YPB959177wrmLFkHQ6ot385htAjuBVvf8jCQcFCAWIy0cjVAPQkyeAfucDp44DlzcBmoxxaT0FSKj879rbaSvQsV97vOZD/8NaJQWIQZ7TDmgKEIO8GJKuzJ0LdOkCNG0KNGwYkk5HtJuvvQZ8/z3w6adAyZLqRlKAUICoR014Z0D2bQBerWb3v94zQL2nXVpPAaIzAHcN3aAKdOzXHq8ZZHeiu0IBkmgPJGtfO6ApQAzyYki68ttvwC23AFWr2st/mBJDQPZ9yIWQZ50FfP653lp2ChAKEJfRqzMAc9mkfvE1M4AJTe3y940BqjTRr+t0yVDZ79ratBXQfi7B8iGssqySAiRLRMFloAAJjjVbAtC4MbB3L/D660D27ESSCAKbN9tLr+R2+t699XpAAUIBohc5f5UK1QD0uxHAlz3tvj82ByhxpUvrOQMSKv+79rY3Akx7vOZD/8NaJQWIQZ7TDmjOgBjkxRB15YUX7GU/chJWuXIh6niEujptGjBhAvDPf9o31OskChAKEJ24SVYmVAPQL54EFr5t9/6ZbUCeAi6tpwAJlf9de5sCxAeEWlVSgGhh86cQBYg/XFlrBgRmzQK6dwfuvdeeDWEKnsDQocDixYAIkXPP1WufAoQCRC9y/ioVqgHo6FuBrQuAQhcCXVa4tNwuHir7PbE4ZSW0n0uwfAirLKukAMkSUXAZKECCY82WABw6ZO8DkY3PvA8k+JA4eRJo1w44/3xg8mT99ilAKED0oydcA/DjR4EXSwEnjwEVGwL3j3NpOQUIBZieANUer3kSsdGohALEID9qBzSXYBnkxZB1RTZA//e/gBzLW7hwyDof8u6uWwf07WufRPbUU/rGUIBQgOhHT7gEyM/fAWNvs61t0B+o1cGl5RQgFCAUIJ48RBqVUIBoQPOrCAWIX2RZb4YEJk4EhgwB2rSxb0dnCo7A1KnApEnA4MHAjTfqt0sBQgGiHz3hEiDfvgzM7GNb2+YboORVLi2nAKEAoQDx5CHSqIQCRAOaX0UoQPwiy3ozJLB1K9CoEXD11UDnzgQVJAG59XzlSmDmTODss/VbpgChANGPnnAJkAnNgDXTgJz5gGe2ADlyubScAoQChALEk4dIoxIKEA1ofhWhAPGLLOvNlMB99wG7dtnH8eby5hc6iWdB4Ngxe/9HhQrA+++7w0UBQgHiLoLCsQn7zz+BQeWBI/uAMnWAR//l0uozxbkJW30TtmfwDahIx//a4zUD7DWlCxQgpngCgHZAcw+IQV4MYVeGDQPGjQN69ACqVAmhASHs8vLlwIsvAg8/7H7miQKEAsTlI6AzAHPZpHrxX9YAI2rY5a7vCtz8nHodGZQIhf2eWZu2ItqvLsC0x2s++jFsVVOAGOQx7YCmADHIiyHsisRP27ZA/fr2gJjJfwKy90P2gMjm/1q13LVHAUIB4i6CwjED8uN7wNROtqUPTgIuqe/S6jPFOQBXH4B7Bt+AinT8rz1eM8BeU7pAAWKKJzgDYpAnYtaVEyfs43jz57c3pGfLFjMACTBXTr/atAmQu1jy5XPXAQoQChB3ERQOAfJpB2Dx6eWKT20C8p3j0moKkCQCOgNwz+AbUJGO/RQg7h1HAeKeoWc1aAc0Z0A880FsK3rmGeCrr4CBA4ESJWKLIRDDf/sNePxxQITDG2+4b5IChALEZRTpDMBcNqlefPhVwN51wLkVgQ7/VS+fSYlQ2O+pxSkro/3qM0Da4zUf/Ri2qilADPKYdkBTgBjkxZB25V//Anr3Bpo1A+68M6RGhKTbIvTeew94+mmgSRP3naYAoQBxGUXGD0AP7QEGV7CtvKolcPcwlxZzAJ6cgPH+99TbaSvTsV97vOazLWGqngLEIG9pBzQFiEFeDGlX5Kv8rbcCl10G9OwZUiNC0u0XXgDWrgWmTQOKFnXfaQoQChCXUaQzAHPZpFrxZR8Dk1vZZRq9AVz5gFr5LHIbb7+n1nozAPe5S4FWr+N/7fFaoJaZ3RgFiEH+0Q5oChCDvBjirrRqBSxbZh/He9ZZITbE4K7v2wc88YR3y6/EVAoQChCXIa8zAHPZpFrxj1oAKz4FsmUHuq4GCpynVp4CJFMCxvvfU297I8C0x2s+2xKm6ilADPKWdkBTgBjkxRB35e23bfHRoQNw7bUhNsTgrn/5pX3vh+y5kftXvEgUIBQgLuPI6AHoscP28qvjh4Gy1wMtv3BprTcDUM87kcAKjfZ/AFx07NcerwVgT1iaoAAxyFPaAU0BYpAXQ9wVWRb0wANA7dr2JXlM3hP45z+BdesAESLneHSKDwUIBYjLSNUZgLls0nnxFVOBj04fD377YOCax5yXdZjTaPsd2uAmG+3nJnQ38aNbNnICZNmyZejRowe+/fZbi0mdOnUwaNAgXH755VkyatmyJd59990M873wwgvo1auX9e+bNm1CuXLl0s3bunVrjB49Osv2UmegAFFGxgJeEpCbhmUD+uHDwIgRQPbsXtbOumT5VefOQM2a9kyTV4kChALEZSwZPQCd3BpYNtm2sMsqoNAFLq1NW9xo+z23lvanJqDjf+3xWgD+DEsTkRIga9euRY0aNVCkSBF06mRfWPTqq69aZ5wvWLAAF198caZ++e6777B+/fo0eYYNG4aFCxdi0aJFqF69egoBcs8996BJqpNsLrroIlyrsYRFO6A5AxKW5838fg4YAHz8MfCPfwCXXGJ+f8PUw+nTgfHjAfmIce+93vWcAoQCxGU06QzAXDbprPjxo8Dgi4BjB4BS1wCtZzgrp5jLWPsV7dDNTvs5A6IbO27KRUqAiBCYPn06Vq5ciVKlSllctmzZgooVK+L222/HJLl9WDEdPnwY559/PsqWLYuffvrpr9JJMyAyIyIzI14kChAvKLIOV365zK8AACAASURBVARk5lA2STdsCDRt6qoqFk5FQC4f3LABmDEDKFzYOzwUIBQgLqPJ2AHo6mnAB81s6xr0B2p1cGlp+sWNtd8Xa9NWSvspQAIKtRTNREaAHDx4EEWLFkWzZs3SLKNq0aIFPvzwQ+zZswcFChRQ4jx+/Hg0b94cQ4YMQdeuXdMVIEnLsvK5vNGYAkTJNczsB4GjR4Gbb7b3JwwaxFvRvWK8Zw/w5JPANdfYy9u8TD4IkLgtZeUATH0A5mUIZ1jXJ+2AJR/Y//zEMqCw/WHR60T/G+p/rx2dQX06/tcerwVkUxiaiYwAkeVT1113HUaOHIl2qTbQyt+1b98ekkd1aVT9+vUxa9YsbN26FcWLF08jQETQiPiRJEuvnnjiCXSQU4Q0knZAcwmWBm0WyZCALL+SOyq4DMu7IBGeEyYAzz4LNGrkXb1Sk8cCJI5LWXUGIN46MbG1GWn/sUPAkEuAYweBEtWBx2b5BslI+32zNm3FtF9dgGmP1wL0q+lNRUaAfPzxx9ZejKlTp+Luu+9OwV3+TvZqTJ48GfcpHH25bds2lC5d2lq+9cUXKY/+27x5M1q1aoVGjRqhTJky2L59u7XxXPaKdOvWDYMHD87U9zt27ID8JE+ydExmW5LvNXEUQBQgjjAxk0MCCxfap2DVrQu0aeOwELNlSqBPHzm5wj79ysvlVz4IkDguZeUATH0A5vsTv3gC8Onf7WZ8Ov0qyQb630D/+x5gZxrQ8T8FiHsHGSlAjh8/nu5m8PTMzZ8/vyUSxo0bh0ceeQRffvklZNYieZoxYwYaNGhg5ZEBvtP04osv4plnnrH2jqTeaJ5eHSdPnsRNN91kncC1Zs0aVKhQIcOm+vTpg76yJjydRAHi1EPM5wuBU6fsr/RyatPw4UDevL40E5tKf/kF6NIFqFXL5ul18nAGJK5LWXUGIF67MZH1GWn/2DuAn+cBOfIAXVcB+Yv4hshI+32zNm3FtF9dgFGAuA9QIwVIZkfcpja5bt26mD17NvyYAalUqRJ27txpzVTkyZPHEe3PP/8cDRs2xKhRo/DYYxmfV84ZEEc4mSlRBOQY6TfeACSGr78+Ub2IRrv/+hcwcSLw3HP25n6vk4cCJK5LWTkAUx+AeR3GKerbux4Ybp84icvvA5q87Wtz9L9h/vfV294IMAoQ904yUoAcOXIEc+bMcWSdHLlbs2ZNa3+Hl3tAfvjhB6te2TsyQmHTqJyUVbVqVfTr1w89e/Z0ZENSJu2A5hIsJc7M7IDAzp2ALGWUo3hl3wKTPoHevYHNm+3TrwoV0q8no5IeChA/PuQkaimrfJiSd7GTdODAAcj7V45ZL1iwoJMikcpjmv155w1C3h/swxoO3vs+TpTx9yOIafYHHVy0X/35X7JkCerVq6e+ZD5o5xrcnpECRIdXVksHJk6ciL179zo+Batjx46W8Pj+++8tIeI0TZkyxdpnIvtB5EJClUQBokKLeX0n0LEj8N//ArKf6fzzfW8ukg3s3g3I6Xlyu/ywYf6YmIEAyWgp6/Lly60lpbInrnLlylaforiUdejQoZkug/XHGazVNYE/T6H+8ieR7/ivOJyrKL6qPBTIxktRXXNlBZ4SkDvj5GRU5SXznvYi3JVFRoCIG2TgL3tAVq1ahZIlS1qeSboHRPaAyNe9pCRLoPbv32/9gsqVK1cKLx47dgwlSpTAeeedhxUrVqTr4X379lkXHiZPMnNTu3ZtyBGWEpxJd5E4DREKEKekmC8QAvLFXmbxeCeIPm45vOLDDwHZhH7XXfr1ZFYyAwES96WsnAFxHm4mfQHPufFrFPisldX5o9d0xtFaXZwbopnTJPs1TXBVjPZzBsRVAGkWjpQAWb16tTVbIfeBPP744xYSuQldZj7kJvRLL730L0wtW7a07gvZuHGjdclg8pQ0iyGb0J966ql00TZu3BhySaEc6ytiR07Bkvo2bNiAAQMG4Omnn1Z2CQWIMjIW8JPAH38At90G5MwJvPIKkJ1fIZVxy76PLVuAr74C/Frak4EAyWgp67p169CpUycMHz7cOjpcUtyXsnIPgEF7AN5tCGyUJdjZgM6LgXNS/n5WfgYdFKD/DfK/A395nUXH/9rjNa87H+L6IiVAxA+yB6NHjx6YN2+e5ZY6depg4MCBuOKKK1K4KTMBIkf2yrG7MnsiMyHppTFjxliCQ0SPzIbIfSCyfrhz587WJnSdpB3Q3AOig5tlnBAYOBCYNAno1g1wuJ7eSbWxyLNxo73x/IYbgJde8s9kD/eAxHUpq84AxD+HBl+zMfbv+AkYdXq/R8W7gfvfDwSGMfYHYm3aRmi/ugDTHq8lyMcmNhs5AWIiZKd90g5oChCniJlPlcCqVYAcXV2jBnB6VlG1itjml1PE5EPI668DCvvIlHl5KECk7TguZeUATH0AphynTgpMaQv8NNHO2WoGUPoaJ6Vc56H/DfG/a0/qVaDjf+3xml4XI1mKAsQgt2oHNAWIQV6MWFf+/BN48EFgwwb7Dgu/lhFFDBt++w144glAlnfKEbzZsvlnoccCJI5LWXUGIP45NPiajbD/9+3AK1WAUyeAkjWANjMDA2GE/YFZyxmQ1AR0/K89Xkugn01rmgLEII9oBzQFiEFejGBXZAA9ZIg9E9KgQQQN9MEkOfDi00/tI4zlUkc/k8cCRLoat6WsOgMQP10adN1G2P9Vb2DeK7bpTd8FKvv83CSDbIT9QTud9v9FQMf/2uO1BPrZtKYpQAzyiHZAU4AY5MUIdkW+5t9+u30Ub79+/n7NjwK+Y8fs2Q/ZtC+XEPp9k7wPAiTMbtB5j+oMQMLMyIsvwJ7af3gfMOxK4I/9QOEywOP/A7Ln8LSJzCqj/7kES+6ek4utCxcu7CjudN4zjiqOUSYKEIOcrR3QFCAGeTGiXZFT3WbOBP75T3tZEVPGBObOBd56C2jVCmjf3n9SFCApGOu8RzkATfAAdGYf4NuXbT/eORSo0cb/54YzAK5mAAJ1kM+N6Tz/Ou8Zn80IXfUUIAa5TDugKUAM8mJEuzJ/vr0J/ZZbgBYtImqkB2bJnplevYDt2wG5A+Tccz2oNIsqKEAoQFxGmc4AzGWTZ4of2GnPfpw4Ys9+dFwI5MztWfVOKkqo/U466HMe2q8uwLXHaz77MkzVU4AY5C3tgKYAMciLEe3KyZPA3XcDBw/am9FzBztACA1Vubh0wAB7yZrMFgWRKEAoQFzGWUIHoP/qBvzwlm3BvaOAqs1cWqNePKH2q3fX8xK0nwLE86ByUCEFiANIQWWhAAmKNNvRIiDHyo4eDTzyCHDrrVpVRL7Qyy8DP/4IvPceUKlSMOZSgFCAuIy0hA1Af90EDL8aOHUcOLci8Pd5ge79SMKWMPtd+s2r4rSfAsSrWFKphwJEhZbPeSlAfAbM6t0RkM3ocslmnjz2qVicBUnJc9cuoHt3QC49HTPGHWuV0hQgFCAq8ZJO3oQNQD98GFg51e7R/eOBine5tESveMLs1+uu56VoPwWI50HloEIKEAeQgspCARIUabajTWDECGDsWODhh4H69bWriWTBceOAGTOAF1+098oElShAKEBcxlpCBqBrvwLGN7F7XupaoNX0hJ2wlxD7XfrMy+K0nwLEy3hyWhcFiFNSAeSjAAkAMptwRyBpFkRmP4YO5SxIEs3Dh4HOnQE5wlHu/8iZ0x1nldIUIBQgKvGSTt7AB6DHjwCvXwvIEqxsOYC2c4HzL3dphX7xwO3X76ovJWk/BYgvgZVFpRQgiaCeQZsUIAY5g13JmMDrrwNvv82LCZMTmjYNmDDBFiEyOxRkogChAHEZb4EPQGf1B+YMtHtdqyPQoJ9LC9wVD9x+d931vDTtpwDxPKgcVEgB4gBSUFkoQIIizXZcEdi/394LIl/5X3qJsyCnTgFduwKHDtkXDxYq5AqvcmEKEAoQ5aBJWSDQAejOpcBbNwEnjwEFSwAdFwB5Crq0wF3xQO1311VfStN+ChBfAiuLSilAEkE9gzYpQAxyBruSOYGkE7Eeegi47bZ401q4EBg2DGjaFHjqqeBZUIBQgLiMusAGoLL06s16wC+r7B7/3zigUkOXvXdfPDD73XfVlxpoPwWIL4FFAZIIrHptUoDocWOpBBD4/Xf7XhCZBZG9IHIyVhyTzH706QNs3AhMnpyYW+IpQChAXD57gQ1A/90DWDDK7m3VB4F7R7rsuTfFA7Pfm+56XgvtpwDxPKgcVMgZEAeQgspCARIUabbjCYFRo4C33gIefNC+eC+Oac4c+26UO+8E+vZNDAEKEAoQl5EXyAB0zQxgQlO7p3LjebtvgbwBL1fMgFMg9rv0kZ/FaT8FiJ/xlVHdFCCJoJ5BmxQgBjmDXcmawIED9ixI9uz2XpC4zYLIyVdy78fx48AnnwDFimXNzI8cFCAUIC7jyvcB6N71wFs3Akf3A9myA49OB0pf47LX3hX33X7vuupLTbSfAsSXwMqiUgqQRFCnADGIOrviisCbbwLy88ADwB13uKoqdIXl1Cs5/erxx+3b4ROVKEAoQFzGnq8DUBEdo28B9qyxe3nzc8D1XV322NvivtrvbVd9qY32U4D4ElgUIInAqtcmZ0D0uLFUAgkcPGjPgmTLZu8FyZs3gZ0JsOlt24BevYASJYCPPgJy5Qqw8VRNUYBQgLiMPt8GoCdPABMfANbOsHt4+X3AfWMSduFgRph8s9+lX4IqTvspQIKKteTtcAYkEdQzaJMCxCBnsCvOCcgeCDkVq1kzey9E1NOffwKDBwNLlwKvvALUqZNYiylAKEBcRqAvA1A5oOGzDsCSCXbvLqhqL73Knd9lb70v7ov93nfTtxppPwWIb8GVScUUIImgTgFiEHV2xTUBmQWRe0FkYC6zIPnyua7S6AoWLTojPESAJDpRgFCAuIxBzweg8i6Y9tSZE68KXQi0ngGcXdJlT/0p7rn9/nTTt1ppPwWIb8FFAZIItOptcgZEnRlLGELgnXeA114D6tUDWrc2pFM+dOPYMeCZZ4B9++ylV6VL+9CIYpUUIBQgiiGTOrunA1ARHzP7APNOi/P8xYBHpwHnXuKyl/4V99R+/7rpW820nwLEt+CiAEkEWvU2KUDUmbGEIQROnABatgRWrQK6dAGqVTOkYx53Y+pUYNIke9O5bD43IVGAUIC4jEPPBqCnTgL/6gosGmv3KE8hoOUX9vIrg5Nn9htsY2Zdo/0UIIkIXS7BSgT1DNqkADHIGeyKOoENG4Dmze0lWAMGAAULqtdhcgmZ9ejRAyhQAJgyBTjrLDN6SwFCAeIyEj0ZgJ74A/ikHbB8it2bvGcDD30MlKrhsnf+F/fEfv+76VsLtJ8CxLfgyqRiCpBEUKcAMYg6u+IpgfHjgZdfBmrUADp1Mu60G1e2vv468N139oWDJm22pwChAHEV2IDrAeiBncCHzYGtP9g9KVAcePgToHhllz0Lprhr+4Pppm+t0H4KEN+CiwIkEWjV2+QMiDozljCMgJx8064d8OOP9p+1axvWQc3urF4NvPACcPnlwNtv25cvmpIoQChAXMaiqwHo1oW2+Diww+7FOeVs8VGknMteBVfclf3BddO3lmg/BYhvwUUBkgi06m1SgKgzYwkDCezYAdx/v92x/v2BokUN7KRCl2Tjucx6bNkCyGb7yoZ91aUAoQBRCOf0smoNQGW/x7xhwKx+wKkTdrXlbwSavA3kL+KyR8EW17I/2C762hrtpwDxNcAyqJxLsBJBPYM2KUAMcga74o7A55/bg3YZrMu+CZNmDFQskxN9Ro0C5s0DmjQBnn5apXQweSlAKEBcRpryAPTXTcBnHYFN/znT8rUdgFufB3LkdNmb4Isr2x98F31tkfZTgPgaYBQgicCr1iYFiBov5jaYgAzcu3cHZs8GHn4YqF/f4M5m0rUvvgA+/BC44gr7ssXcuc2zgwKEAsRlVDoegMrN5t+PBGb1B44ftlvNVwS4ZwRw2R0ue5G44o7tT1wXfW2Z9lOA+BpgFCCJwKvWJgWIGi/mNpyAnBolS7HkokLZP1GihOEdTtU92cciFw0WLw689x5QxNBlJRQgFCAunyxHA9ANs4EvnwV2LT3Tmiy5ajQSKHSByx4ktrgj+xPbRV9bp/0UIL4GGAVIIvCqtUkBosaLuUNAQGZAunUDypcH/vEPIGdIlmfIfo/nn7dP8RozBrjE3EvUQAFCAeLyVZDpAHTnMuCbF4A10860IrMeDfoDVZtF4qQ7DsDVB+AuQ86o4jr+1x6vGWV5YjvDPSCJ5e/6F6dVwaJFBlnBrpBAKgKyF0T2hMjRtc2amY/n99+B3r2BPXuAIUPs291NThQgrt+jOgMQk0NCtW/p2r9rOTBnILDiszPVZcsOVGsO3NwbOKuYajPG5qf/KUDmzJmDunXronDhwo7ilALEEaZMM1GAuGfoWQ3aAU0B4pkPWJEPBGQJluwDkVmFhg3tzdwys2Bikhvd5RLFNWuA9u2BVq1M7GXKPlGAUIC4jNK/BuA33IDCe38EvnsNWP9NylrL1wPq9wPOv9xla+YVpwChAKEACf65pAAJnnmGLVKAGOQMdsVbAr/8Yt8L8vPPwB132DMhpokQ2Tg/ejQwd669ab5fP/P6mJ5XKEAoQFw+rft3bMCWzwei4uHvkeO3jSlrK3s9UO9poGwdl62YW5wChAKEAiT455MCJHjmFCAGMWdXAiSwdy/w978DGzbYA/zmzc0a4E+bBkyYAFSqBLz5JpA3b4BwXDRFAUIBohM+x48Aa2cASz7En2tnINup48lqyQZcdidQqyNQppZO7aEqQwFCAUIBEvwjSwESPHMKEIOYsysBE/j1V3tp09q1wE03AS1amHFHiCxjHDYMKFYMGDfO/jMsiQKEAsRprB793V5atXIqsOZL4NjBFCVP5Tkb2WWPR43WQNEKTmsNfT4KEAoQCpDgH2MKkOCZU4AYxJxdSQCB/fuBDh2AVauAG24AWrdOnAg5eRL45BNg6lT7jg9ZglWxYgKguGiSAoQCJKPwOXUK2L0cWD8LWDcT+Hk+kGKmA0C27Dheqg5+ylYRFe7ugsLFzncRjOEsSgFCAUIBEvyzSwESPHMKEIOYsysJIiAb00WELF8OXHcd8NhjQI4cwXZGZmNef90WQiVLAi++CFx2WbB98KI1ChAKkCQCclHg7hXA5v8CP39rC45Dv6QTZdmA0rWASg2Byvfit5N5oToA8yJ0TamDAoQCRDX+tffsmhL0BvSDAsQAJyR1QTugeQqWQV5kVxwTOHQI6NwZWLwYqFnT3h8S1D0hS5cCI0cCBw4AN99s31FSoIDjrhuVkQIkngJEDk34dROwYwmw/Udg2+mf44fSD89c+QG5OPCSBvZPwTMzHRyAcwCuOgA36h3osjM68a89XnPZ1ygVj5QAmTFjBiZPnoxFixZh6dKlOH78ODZu3IiyZcs69tnJkycxePBgjB49Glu2bEGpUqXQpk0bdO/eHTlSfaFVyeukA9oBTQHiBC/zmEjgyBHgySeBhQuBUqWApk2BK6/0b3O6LLmaMsW+l0TETteuwH33+ddeEMwpQKIvQA7tBfasBnavPP2zAti5FPjj94wjLHsu4MLq9ulVFW4CStYEcuZON7/OACyI0A6qDdpPAaYqwLTHa0EFdQjaiZQAadmyJT744ANUqVIFf/zxB5YtW6YsQNq3b4+RI0fi0UcfxXXXXYf58+dj7NixkL8fMWJECpeq5HUSC9oBTQHiBC/zmErg6FFg6FDgs88AWbMut47/3/8Bl17qbY/37bOXXK1eDVx4ITBwYDiXXKWmQgESfgEisxlHfgV+3WjPauzbCOzbAOxdD+xdCxzem/WzILeTl7zaFhqlagIlawC582ddDgAH4ByAqw7AHQVWSDLpxL/2eC0kTILoZqQEyLZt21CsWDHkyZMHzz77LPr166ckQGTWpGrVqujUqROGyYk4p1Pnzp0xfPhwLFmyxBI3klTyOnWkdkBTgDhFzHwmE9i0yV4W9fXXdi+rVrVnRMqUcddr2fQuz8jkyfaSq1tvBXr1Cu+SKwqQTONB5z2qMwBxHJQiLmSm4sAu4MB24PcdwO/b7J/9W4HftgD7t6Q5kSrT+gteABS/HDi/iv0jMx2Fy2jP5Plqv2NQictI+ynAVAWYznsmcRFuZsuREiDJEesIkF69eqF///7YsGEDypUr91d1soyrfPny6NmzpyVqJKnkdep67YCmAHGKmPnCQGDFCmD4cOCHH+ze1qplL5MqXtx57+XiQ1nWJT9y5K8MAuWUK1ly1bix9kDNeQcCzMkZkBSwdd6jygPQY4ftGYsj++zZiUN7zvwpm76Tfg7uAg7uBo4fVg+IbNmBs0vZx+EWuxQ49xL7z/MqAvmLqNeXSQll+z1tPfGV0X4KEAqQ4J9DCpBkzBs0aGDNcuzcuTONJ4oXL45q1aph+vTp1r+p5HXqVp1fnFbdFCBOETNfmAgsWGALkZUr7ROy5KPAOecARYrYfyb9JP3/rl224JDnQW5cl5Q9uz2TIneOyI+KiAkLK48FSOz20h3YhYPrv8PKxQtQuUIp5M9xAji6H5A7M6w/T/+I4Dj6my08Thz1JjryFwPOvhAoXNqewZA/z5E4LwucUwbImcebdrKohQNwDsBVB+CBBGZAjejEv/Z4LSCbwtAMBUgyL8nyqty5c1ub2FOn6tWrW5vaZemVJJW86QXCjh07ID/J08qVK9G8eXOrfWnPcaIAcYyKGUNGQGYuZs8GxowB1q8Hjie/rTkDW3LlAmrUsE+3kntGRKhEOXksQGK3l27pZODj1t5GSN6zgbPOAwoUBwqc/lNOnZKfQhcChUoAsozK4R4NbzuXtjadAZjffQqyftpPAaYqwChA3D+hRgoQGeivl8GGg5Q/f36ULl06TU6dJVgVKlSAzHTIxvPUSTak7969G+vWrbP+SSVvemb06dMHffv2TddCZQHigBOzkEDoCYgY2bMH2LYN2L7d/jP5j8yE3HMPcNttQMGCoTfXLwOy+sUZu710a2YAE5qmjzt7TiBvYUAERb7CQL5z7P+XJVDy3/mLArL5W/7/rGLAWefafxfQzIVXMcIBOAfgqgNwr2LPhHp04j+r96gJdpneByMFyKZNm1LswcgMYt26dTFbvpCmSjoCRGVWQyVvev33dAbE9Chj/0iABIwhoPKLU+c9qrI/TiWvU4Aq9ll1HtiFQytnYsnqDahydW0ULFrCFhx5CwFyd0a2bE6bDm0+nQFYaI1Np+O0nwJMVYApv2ei9MB4ZIuRAuTIkSPWraxOUpEiRVBTLjHzQICo7OtQyevEDsnDgHZKivlIgAR0Cai8Z3QEiMq7USWvU3tV7EuqkwNQDkBVB6BO4zEM+Rj/6vGv854JQywE2UcjBYgXAHR+ccopVwMGDHB0CpZKXqf2MKCdkmI+EiABXQIq7xmd96jK7LBK3vTszWwmWWbG5Vh1J+nAgQPWByDZe1cwhsv3aD/9z/hXe/7lwKJ69eqp79l18kKKSZ7YChD5xbV//35rL0cu2bQKWCdgyUlXGd0DsnjxYlxxxRXKeZ3GksrAwGmdzEcCJBBPAhntpVu+fDmaNGmCyZMno3LlyhacKO6lGzp0qPV+ZyIBEiABrwnIPuWuXbtSgLgAGykB8tNPP2Hq1KkWjpkzZ1rLuCRAChcubP107NjxL1Ry0su7776b5qLCdu3aYdSoUdZN6LVr18a8efOsm9Dbtm2LN954IwVqlbxOfEQB4oQS85AACTghEPe9dJwBcRIldh7OgHAGhDMgnAFx/sbwJmekBMg777xjCYf0UpkyZSC/kJNSRgLkxIkTGDRoEEaPHo2tW7eiZMmSaNOmDXr06IGcOXOmqFolrxN3UYA4ocQ8JEACTghktJdOTvKTWd7hw4fjoosusqqK+146roFXXwPvJAbDkof+p/9V9wBxvOb+6Y6UAHGPI7E1MKATy5+tk0AcCKi8Z3T2gKjsj1PJ69Q3KvYl1ckBKAegqgNQp/EYhnyMf/X413nPhCEWguwjBUiQtLNoiwFtkDPYFRKIKAGV90xWAiQqe+k4AFMfgEXp8aD/6X9VAaryHo3Ss+KlLRQgXtJ0WRcD2iVAFicBEsiSQFbvmTjupeMAlANQ1QFolg9aiDIw/tXjP6v3aIjcn7CuUoAkDH3ahhnQBjmDXSGBiBLI6j0Tx710HICpD8Ci9HjQ//S/qgDN6j0apefDL1soQPwiq1EvA1oDGouQAAkoEYj6e0bHPg5AOQBVHYAqPXSGZ2b8q8e/znvG8DAIvHsUIIEjz7hBBrRBzmBXSCCiBKL+ntGxjwMw9QFYlB4P+p/+VxWgOu+ZKD0zXthCAeIFRY/qYEB7BJLVkAAJZEgg6u8ZHfs4AOUAVHUAGqVXDONfPf513jNRihkvbKEA8YKiR3UwoD0CyWpIgAQoQBYtQvXq1R1FAgdg6gMwR2BDkon+p/9VBSjHa+4fbgoQ9ww9q4EB7RlKVkQCJJABgai/Z3Ts4wCUA1DVAWiUXjCMf/X413nPRClmvLCFAsQLih7VwYD2CCSrIQES4AwIZ0AcPwUcgKoPQB3DDUFG+l/d/xyvuQ9sChD3DD2rgQHtGUpWRAIkwBkQLsFy+BRwAKo+AHWINhTZ6H91/3O85j60KUDcM/SsBga0ZyhZEQmQAAUIBYjDp4ADUPUBqEO0ochG/6v7n+M196FNAeKeoWc1MKA9Q8mKSIAEKEAoQBw+BRyAqg9AHaINRTb6X93/HK+5D20KEPcMPath3rx5qFOnDt5//31UrFjRs3pZEQmQAAkkEVi5ciWaN2+Ob7/9FrVr144cGJ336IEDB7Bo0SJcddVVKFiwYOSYZGUQ7af/Gf9qz3/U36NZvTO8+HcKEC8oelTH+PHjrYEBEwmQAAn4TUA+dDz00EN+NxN4/XyPBo6cDZJAbAlEjiLlhAAADaBJREFU9T0ahEMpQIKg7LCNPXv24Msvv0TZsmWRL18+R6WSVHhcZ01ov/01m/6P56yhTvwfOXIEmzZtQoMGDVCsWDFH75kwZeJ7VN1bOnGk3oq5JWg/f4+o/h6N+ns0iKeVAiQIyj62Efd1iLT/R2vZiEyfO710zcdwDLxq+j/e/vcq4BhH8Y4j+p/+j/PvUa/eo6r1UICoEjMsP1+cfHHG+cXJ+I93/Hv1OmYcxTuO6H/6P86/R716j6rWQwGiSsyw/Hxx8sUZ5xcn4z/e8e/V65hxFO84ov/p/zj/HvXqPapaDwWIKjHD8vPFyRdnnF+cjP94x79Xr2PGUbzjiP6n/+P8e9Sr96hqPRQgqsQMy79jxw6MGjUKbdu2xQUXXGBY7/zvDu2n/xn/8X3+vXrD8D3C9wjfI/F9j8T9+ffqPapaDwWIKjHmJwESIAESIAESIAESIAES0CZAAaKNjgVJgARIgARIgARIgARIgARUCVCAqBJjfhIgARIgARIgARIgARIgAW0CFCDa6FiQBEiABEiABEiABEiABEhAlQAFiCox5icBEiABEiABEiABEiABEtAmQAGijY4FSYAESIAESIAESIAESIAEVAlQgKgSMzz/oEGD8Pnnn2P16tXYv38/ihcvjmuuuQa9evXClVdeaXjv3XXv8OHDeO+99zB16lQsXboUe/fuRdmyZXHXXXehZ8+eKFy4sLsGQlB6xowZmDx5MhYtWmQxOH78ODZu3GhxiFI6efIkBg8ejNGjR2PLli0oVaoU2rRpg+7duyNHjhxRMjWNLQcPHsSQIUMsHy9cuBA7d+5EixYt8M4770Ta7kQaV7duXcydOxcPPfQQ3n///UR2xfe24/QejfN7RN4dEsvffPON9TvirLPOQuXKlfHMM8/glltu8T3OTGxAWNx8881W19auXYuLLrrIxG5Gpk8UIJFxpW1I06ZNcfbZZ6NixYo455xzsHXrVowdOxbbt2/H7NmzUatWrYhZfMacZcuW4YorrsD111+PBg0a4LzzzrMGaTJIlQG4/HehQoUia78Y1rJlS3zwwQeoUqUK/vjjDwiTKAqQ9u3bY+TIkXj00Udx3XXXYf78+Vacy9+PGDEi0j7etGkTypUrZ937I5dnffHFFxQgPnpcPmpIXB06dCgWAiRO79E4v0eaNGmCOXPm4L777kP16tUhHzbkHSr+f/311/H3v//dx6fKvKqPHTuGqlWrWh+05FmnAPHfRxQg/jNOeAvyhVS+EMsLRwanUU179uyxhJaIkOTp7bffRuvWrTF06FB06dIlquZbdm3btg3FihVDnjx58Oyzz6Jfv36REyAysyO/KDp16oRhw4b95c/OnTtj+PDhWLJkiSXAoppEWEqsX3jhhThx4gRy5cpFAeKTs3/77TdceumlePLJJ60vw3GYAYnLezTu75F58+bh6quvtn5XJKUjR45YKyV++eUX7N69Gzlz5vTpyTKv2gEDBuCVV17Bgw8+aP1JAeK/jyhA/Gec8BZOnTplLT+qXbs2pk2blvD+BN2B33//3ZoVatWqFcaMGRN08wlrL6oCRJYT9u/fHxs2bLBmApKSzPSUL1/eWm4nwisOiQLEXy936NABX331lfVVWAZqcRAgGRGN2nuU75H0Pd21a1e89NJL2Lx5s/XhMg7p559/RqVKlfDaa69B/rtv374UIAE4ngIkAMiJaEK+YonwkBmBl19+2dobIapevhLHLcl+mMsuuwxPP/005CtHXFJUBYgsr5NZDpnZS51kz1O1atUwffr0WLiZAsQ/N8uSzZo1a1pL3G6//XZky5Yt1gIkau9RvkfSf3YeeOABax+hzP7JvpA4pHvuucea8ZGlvCI+KECC8ToFSDCcA29FflkmJfn6L8tV5KHKnj174H1JdIOPPPKItdnuf//7n7V0Jy4pqgJEllflzp3b2tOTOslaZtl4L8sr4pAoQPzxsny8ufbaa619Np999pnVSNwFSNTeo3yPpH12Vq5caS3BkoNbPv74Y38eLsNqlQ8MIkAWLFhg7anr06cPBUhAPqIACQi0ajMyiFq/fr2jYvnz50fp0qVT5J05c6a1PnzdunXW7If8MpUTsvLmzeuozkRncmt/Uv/ffPNNtG3b1tr7IXtAwpK8sD+qAqRChQrW6W7ytSp1kg3p8iVL4j4OiQIkcy/rPkdvvPGGte9jxYoVfy3zC6MA0bU/NdWwvkcziw6+R1LSkVMz5ZCaHTt2WDPMqccUUXyfyp4XOfnr1ltvxahRoywTKUCC8zQFSHCslVpKOunGSSE5IlJOuMooyYsl6XSosBwh6YX9n376qbXx/o477sCUKVNCtaHOC/ujKkD45fLMk04BkvkbUuc5kg24svG8Y8eOeP755/9qIIwCRMf+1ETD/B7NLDr4HjlD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width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "# visualize constraints\n",
    "u1 = np.linspace(-1.0, 2.0)\n",
    "t = np.linspace(0.0, 2.0 * np.pi)\n",
    "\n",
    "plt.figure()\n",
    "plt.subplot(1, 2, 1)\n",
    "plt.gca().add_patch(Circle((0, 0), 1.0, facecolor='r', alpha=0.2)) # h1\n",
    "plt.gca().add_patch(Rectangle((-3, -1), 4.0, 2.0, facecolor='r', alpha=0.2)) #h2\n",
    "plt.gca().add_patch(Ellipse((-1, 0), 4.0, 1.0, facecolor='w', alpha=1.0)) #h2\n",
    "plt.plot(np.cos(t), np.sin(t), 'r-', linewidth=1)\n",
    "plt.plot(2.0 * np.cos(t) - 1.0, 0.5 * np.sin(t), 'r-', linewidth=1)\n",
    "\n",
    "# define inequality constraints as h_i >= 0 to use scipy.optimize.minimize function\n",
    "h1 = lambda u: -1.0 * (u[0]**2 + u[1]**2 - 1.0)\n",
    "h2 = lambda u: 0.25 * (u[0] + 1.0)**2 + 4.0 * u[1]**2 - 1.0\n",
    "\n",
    "# solve a bunch of problems varying x_2\n",
    "x1 = 0.75\n",
    "x2 = np.linspace(-4.0, 4.0, 101)\n",
    "y = []\n",
    "for xi in x2:\n",
    "    # minimize the square distance to (0.75, xi) subject to constraints\n",
    "    result = opt.minimize(lambda u: (u[0] - x1)**2 + (u[1] - xi)**2, (x1, xi), options={'maxiter': 100, 'disp': False},\n",
    "        constraints=({'type': 'ineq', 'fun': h1}, {'type': 'ineq', 'fun': h2}))\n",
    "    y.append(result.x)\n",
    "\n",
    "# visualize optimal solution\n",
    "plt.subplot(1, 2, 2)\n",
    "plt.plot(x2, [yi[0] for yi in y])\n",
    "plt.plot(x2, [yi[1] for yi in y])\n",
    "plt.grid()\n",
    "plt.legend([r\"$y_1$\", r\"$y_2$\"])\n",
    "plt.show()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 12,
   "metadata": {},
   "outputs": [],
   "source": [
    "%%capture\n",
    "\n",
    "def animate(fnum, x, y):\n",
    "\n",
    "    # draw constraints\n",
    "    ax.clear()\n",
    "    ax.add_patch(Circle((0, 0), 1.0, facecolor='r', alpha=0.2)) # h1\n",
    "    ax.add_patch(Rectangle((-3, -4), 6.0, 8.0, facecolor='r', alpha=0.2)) #h2\n",
    "    ax.add_patch(Ellipse((-1, 0), 4.0, 1.0, facecolor='w', alpha=1.0)) #h2\n",
    "    ax.plot(np.cos(t), np.sin(t), 'r-', linewidth=1)\n",
    "    ax.plot(2.0 * np.cos(t) - 1.0, 0.5 * np.sin(t), 'r-', linewidth=1)\n",
    "    \n",
    "    # draw x and y\n",
    "    ax.plot(x1, x[fnum], 'ko')\n",
    "    ax.plot(y[fnum][0], y[fnum][1], 'ro')\n",
    "    ax.plot([x1, y[fnum][0]], [x[fnum], y[fnum][1]], 'r--')\n",
    "    ax.plot([yi[0] for yi in y[:fnum+1]], [yi[1] for yi in y[:fnum+1]], 'k-')\n",
    "\n",
    "    # count active constraints\n",
    "    num_active = 0\n",
    "    if h1(y[fnum]) < eps: num_active += 1\n",
    "    if h2(y[fnum]) < eps: num_active += 1\n",
    "    ax.text(-2.95, 3.5, \"{} active constraint(s)\".format(num_active))    \n",
    "    \n",
    "    #ax.axis('square')\n",
    "    ax.set_xlim(-3.0, 2.5); ax.set_ylim(x[0], x[-1])\n",
    "    return (ax,)\n",
    "\n",
    "# animate\n",
    "fig = plt.figure()\n",
    "ax = plt.subplot(1, 1, 1)\n",
    "ani = animation.FuncAnimation(fig, animate, init_func=None, fargs=(x2, y),\n",
    "                              interval=100, frames=len(x2), blit=False, repeat=False)\n",
    "plt.close(fig)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 13,
   "metadata": {},
   "outputs": [
    {
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       "6QAAAQoAAAE6AAAAhgAAAEUAAAFHAAAAWQAAAUwAAACMAAAAcQAAAXQAAADYAAAAkAAAAGsAAAFs\n",
       "AAAAugAAAHUAAAB4AAABSAAAAGoAAAEgAAAAkwAAAPMAAADOAAAA0gAAABRzdGNvAAAAAAAAAAEA\n",
       "AAAsAAAAYnVkdGEAAABabWV0YQAAAAAAAAAhaGRscgAAAAAAAAAAbWRpcmFwcGwAAAAAAAAAAAAA\n",
       "AAAtaWxzdAAAACWpdG9vAAAAHWRhdGEAAAABAAAAAExhdmY1OC4yOS4xMDA=\n",
       "\">\n",
       "  Your browser does not support the video tag.\n",
       "</video>"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "execution_count": 13,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "#HTML(ani.to_jshtml())\n",
    "HTML(ani.to_html5_video())"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 14,
   "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\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the 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"
    }
   ],
   "source": [
    "def gradient(x, y):\n",
    "    # compute D_Y f(x, y)\n",
    "    g = (y - x).T\n",
    "    \n",
    "    def Dy_for_h1_active():\n",
    "        A = 2.0 * y.T\n",
    "        lmda1 = g[0] / A[0]\n",
    "        Dy = np.identity(2) - np.outer(A.T, A) / np.dot(A, A.T)\n",
    "        return 1.0 / (1.0 - 2.0 * lmda1) * Dy\n",
    "\n",
    "    def Dy_for_h2_active():\n",
    "        A = np.array([-0.5 * (y[0] + 1.0), -8.0 * y[1]])\n",
    "        lmda2 = g[0] / A[0]\n",
    "        invH = np.array([[1.0 / (1.0 + 0.5 * lmda2), 0.0], [0.0, 1.0 / (1.0 + 8.0 * lmda2)]])\n",
    "        Dy = -1.0 * np.outer(np.dot(invH, A), np.dot(A.T, invH)) / np.dot(A.T, np.dot(invH, A)) + invH\n",
    "        return Dy\n",
    "    \n",
    "    # compute gradient depending on which constraints are active\n",
    "    if h1(y) < eps and h2(y) < eps:\n",
    "        h1_YY = 2.0 * np.identity(2)\n",
    "        h2_YY = np.array([[-0.5, 0.0], [0.0, -8.0]])\n",
    "        v1 = np.dot(np.linalg.solve(h1_YY, g), g)\n",
    "        v2 = np.dot(np.linalg.solve(h2_YY, g), g)\n",
    "        if v1 > v2:\n",
    "            return Dy_for_h1_active()\n",
    "        else:\n",
    "            return Dy_for_h2_active()\n",
    "        \n",
    "    if h1(y) < eps:\n",
    "        return Dy_for_h1_active()\n",
    "        \n",
    "    if h2(y) < eps:\n",
    "        return Dy_for_h2_active()\n",
    "            \n",
    "    # no active constraints\n",
    "    return np.identity(2)\n",
    "\n",
    "\n",
    "dydx = []\n",
    "for xi, yi in zip(x2, y):\n",
    "    Dy = gradient((x1, xi), yi)\n",
    "    dydx.append(Dy[1, :])\n",
    "    \n",
    "# plot y and Dy\n",
    "plt.figure()\n",
    "plt.subplot(1, 2, 1)\n",
    "plt.plot(x2, [yi[0] for yi in y])\n",
    "plt.plot(x2, [yi[1] for yi in y])\n",
    "plt.legend([r\"$y_1$\", r\"$y_2$\"])\n",
    "\n",
    "plt.subplot(1, 2, 2)\n",
    "# computed gradient\n",
    "plt.plot(x2, [di[0] for di in dydx])\n",
    "plt.plot(x2, [di[1] for di in dydx])\n",
    "# check against empirical gradient\n",
    "#plt.plot(x2, np.gradient([yi[0] for yi in y], (x2[-1] - x2[0]) / (len(x2) - 1)))\n",
    "#plt.plot(x2, np.gradient([yi[1] for yi in y], (x2[-1] - x2[0]) / (len(x2) - 1)))\n",
    "plt.legend([r\"$D y_{1,2}$\", r\"$D y_{2,2}$\", r\"$D^\\star y_{1,2}$\", r\"$D^\\star y_{2,2}$\"])\n",
    "plt.show()"
   ]
  },
  {
   "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": "3.7.4"
  }
 },
 "nbformat": 4,
 "nbformat_minor": 2
}