{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# Python"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Reading ACE Files\n",
    "To interact with nuclear data, we first need to read in an ACE file. ACE stands for A Compact ENDF. This is the format which many Monte Carlo codes (such as MCNP and Serpent) use for nuclear data. First we need to import the PapillonNDL library into Python, then we will read in a pre-prepared data file for U235."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {},
   "outputs": [],
   "source": [
    "from pyPapillonNDL import *\n",
    "U235ACE = ACE(\"92235.800nc\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "With the ACE file read into memory, we can access the raw data in this manner should we so desire. We can get basic information such as whether the nuclide is fissile, the temerature at which the evaluation was prepared (given in kelvin !), and the atomic weight ratio."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "U235 is fissile: True\n",
      "Atomic Weight Ratio of U235 is 233.02480\n",
      "This evaluation was prepared at 293.606 kelvin\n"
     ]
    }
   ],
   "source": [
    "print(\"U235 is fissile: %r\" %U235ACE.fissile())\n",
    "print(\"Atomic Weight Ratio of U235 is %.5f\" %U235ACE.awr())\n",
    "print(\"This evaluation was prepared at %.3f kelvin\" %U235ACE.temperature())"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "It is also possible to access the JXS, NXS, and XSS blocks directly. All values from the JXS and NXS blocks are given as integers, while values in the XSS block are given as floats (even if they are provided as a integer in the file)."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Length of NXS block is 7168374\n",
      "First 5 elements of the XSS: [1e-11, 1.03125e-11, 1.0625e-11, 1.09375e-11, 1.125e-11]\n"
     ]
    }
   ],
   "source": [
    "len_of_xss = U235ACE.nxs(0)\n",
    "segment_of_xss = U235ACE.xss(0, 5)\n",
    "print(\"Length of NXS block is %i\" %len_of_xss)\n",
    "print(\"First 5 elements of the XSS: %r\" %segment_of_xss)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Most of the time however, interacting with the raw ACE file is not very desireable. For ACE files which contain continuous energy neutron data, you can construct an `STNeutron` object, which allows for interaction with the data in a more natural manner. This object provides similar access to the temperature, and AWR, as well as cross sections and secondary energy distributions."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 4,
   "metadata": {},
   "outputs": [],
   "source": [
    "U235 = STNeutron(U235ACE)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## MCNP and Serpent Libraries\n",
    "\n",
    "While it is possible to load ACE files individually to create `STNeutron` instances, this can become tedious when more nuclides or temperatures are needed. Instead, you can directly read either an MCNP or a Serpent cross section library.\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 5,
   "metadata": {},
   "outputs": [],
   "source": [
    "lib = MCNPLibrary(\"/home/hunter/Documents/nuclear_data/lib80x/ace/lib80x.xsdir\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "From a library, you can directly load a nuclide using the element symbol, and the atomic mass number of the isotope. You must also specify the desired temperature for the data, and a temperature tolerance (which is 1 Kelvin by default). If you don't know what temperatures are provided in the library, you can get a list of the provided data for the symbol:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "[0.100000774447288,\n",
       " 249.99613385916,\n",
       " 293.60591295412,\n",
       " 600.00000487648,\n",
       " 900.00000731472,\n",
       " 1200.0232187892002,\n",
       " 2499.9613385916]"
      ]
     },
     "execution_count": 6,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "lib.temperatures(\"U235\")"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Let's grab the evaluation for U235 at 293.6 Kelvin:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "metadata": {},
   "outputs": [],
   "source": [
    "U235 = lib.load_STNeutron(\"U235\", 293.6)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Evaluating and Plotting Cross Sections\n",
    "From the `STNeutron` object, it is possible to get instances of callable `CrossSection` objects for the total, elastic, dissapearance, and fission cross sections. These facilitate the evaluation of cross sections at a provided energy (in units of MeV)."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 8,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Total XS at 0.3 MeV = 9.74688 barns\n",
      "Elastic Scattering XS at 0.3 MeV = 7.13012 barns\n",
      "Disappearance XS at 0.3 MeV = 0.21780 barns\n",
      "Fission XS at 0.3 MeV = 1.23070 barns\n"
     ]
    }
   ],
   "source": [
    "total_xs = U235.total_xs()\n",
    "elastic_xs = U235.elastic_xs()\n",
    "disappearance_xs = U235.disappearance_xs()\n",
    "fission_xs = U235.fission_xs()\n",
    "\n",
    "print(\"Total XS at 0.3 MeV = %.5f barns\" %total_xs(0.3))\n",
    "print(\"Elastic Scattering XS at 0.3 MeV = %.5f barns\" %elastic_xs(0.3))\n",
    "print(\"Disappearance XS at 0.3 MeV = %.5f barns\" %disappearance_xs(0.3))\n",
    "print(\"Fission XS at 0.3 MeV = %.5f barns\" %fission_xs(0.3))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "One of the most time consuming parts of looking-up a cross sections is locating the appropriate location in the energy grid. PapillonNDL implements the hashing method, which allows for a quick lookup of the energy index. This index can be provided as an optional argument, to speed up evaluations. If an energy grid index is not provided, binary search will be used to find the appropriate location in the grid."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 9,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Total XS at 1.4 MeV = 6.74889 barns\n"
     ]
    }
   ],
   "source": [
    "indx = U235.energy_grid().get_lower_index(1.4)\n",
    "print(\"Total XS at 1.4 MeV = %.5f barns\" %total_xs(1.4, indx))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "It is very common to need to look up the total, elastic, fission, and absorption cross sections quite often. For this reason, a `XSPacket` class is provided, which contains these cross sections, and can be evaluated with"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 10,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Total XS = 6.74889371\n",
      "Elastic XS = 3.55468\n",
      "Inelastic XS = 1.8799812289000002\n",
      "Absorption XS = 1.3142324811\n",
      "Fission XS = 1.2279\n"
     ]
    }
   ],
   "source": [
    "xspacket = U235.evaluate_xs(1.4, indx)\n",
    "print(\"Total XS =\", xspacket.total)\n",
    "print(\"Elastic XS =\", xspacket.elastic)\n",
    "print(\"Inelastic XS =\", xspacket.inelastic)\n",
    "print(\"Absorption XS =\", xspacket.absorption)\n",
    "print(\"Fission XS =\", xspacket.fission)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "PapillonNDL also makes it really easy to plot cross sections. To do this, we get instances of the `CrossSection` objects which we want to plot (such as total, fission, etc.), and we can then access the data as lists."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 11,
   "metadata": {},
   "outputs": [
    {
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       "        button.setAttribute('aria-disabled', 'false');\n",
       "        button.addEventListener('click', on_click_closure(method_name));\n",
       "        button.addEventListener('mouseover', on_mouseover_closure(tooltip));\n",
       "\n",
       "        var icon_img = document.createElement('img');\n",
       "        icon_img.src = '_images/' + image + '.png';\n",
       "        icon_img.srcset = '_images/' + image + '_large.png 2x';\n",
       "        icon_img.alt = tooltip;\n",
       "        button.appendChild(icon_img);\n",
       "\n",
       "        buttonGroup.appendChild(button);\n",
       "    }\n",
       "\n",
       "    if (buttonGroup.hasChildNodes()) {\n",
       "        toolbar.appendChild(buttonGroup);\n",
       "    }\n",
       "\n",
       "    var fmt_picker = document.createElement('select');\n",
       "    fmt_picker.classList = 'mpl-widget';\n",
       "    toolbar.appendChild(fmt_picker);\n",
       "    this.format_dropdown = fmt_picker;\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = document.createElement('option');\n",
       "        option.selected = fmt === mpl.default_extension;\n",
       "        option.innerHTML = fmt;\n",
       "        fmt_picker.appendChild(option);\n",
       "    }\n",
       "\n",
       "    var status_bar = document.createElement('span');\n",
       "    status_bar.classList = 'mpl-message';\n",
       "    toolbar.appendChild(status_bar);\n",
       "    this.message = status_bar;\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",
       "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",
       "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], msg['forward']);\n",
       "        fig.send_message('refresh', {});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function (fig, msg) {\n",
       "    var x0 = msg['x0'] / fig.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / fig.ratio;\n",
       "    var x1 = msg['x1'] / fig.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / fig.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,\n",
       "        0,\n",
       "        fig.canvas.width / fig.ratio,\n",
       "        fig.canvas.height / fig.ratio\n",
       "    );\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",
       "    fig.rubberband_canvas.style.cursor = msg['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.handle_history_buttons = function (fig, msg) {\n",
       "    for (var key in msg) {\n",
       "        if (!(key in fig.buttons)) {\n",
       "            continue;\n",
       "        }\n",
       "        fig.buttons[key].disabled = !msg[key];\n",
       "        fig.buttons[key].setAttribute('aria-disabled', !msg[key]);\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_navigate_mode = function (fig, msg) {\n",
       "    if (msg['mode'] === 'PAN') {\n",
       "        fig.buttons['Pan'].classList.add('active');\n",
       "        fig.buttons['Zoom'].classList.remove('active');\n",
       "    } else if (msg['mode'] === 'ZOOM') {\n",
       "        fig.buttons['Pan'].classList.remove('active');\n",
       "        fig.buttons['Zoom'].classList.add('active');\n",
       "    } else {\n",
       "        fig.buttons['Pan'].classList.remove('active');\n",
       "        fig.buttons['Zoom'].classList.remove('active');\n",
       "    }\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",
       "            var img = evt.data;\n",
       "            if (img.type !== 'image/png') {\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",
       "                img.type = 'image/png';\n",
       "            }\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",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                img\n",
       "            );\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        } else if (\n",
       "            typeof evt.data === 'string' &&\n",
       "            evt.data.slice(0, 21) === 'data:image/png;base64'\n",
       "        ) {\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(\n",
       "                \"No handler for the '\" + msg_type + \"' message type: \",\n",
       "                msg\n",
       "            );\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(\n",
       "                    \"Exception inside the 'handler_\" + msg_type + \"' callback:\",\n",
       "                    e,\n",
       "                    e.stack,\n",
       "                    msg\n",
       "                );\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "};\n",
       "\n",
       "// from https://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",
       "    }\n",
       "    if (e.target) {\n",
       "        targ = e.target;\n",
       "    } else if (e.srcElement) {\n",
       "        targ = e.srcElement;\n",
       "    }\n",
       "    if (targ.nodeType === 3) {\n",
       "        // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "    }\n",
       "\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    var boundingRect = targ.getBoundingClientRect();\n",
       "    var x = e.pageX - (boundingRect.left + document.body.scrollLeft);\n",
       "    var y = e.pageY - (boundingRect.top + document.body.scrollTop);\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",
       " * https://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",
       "        }\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",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x * this.ratio;\n",
       "    var y = canvas_pos.y * this.ratio;\n",
       "\n",
       "    this.send_message(name, {\n",
       "        x: x,\n",
       "        y: y,\n",
       "        button: event.button,\n",
       "        step: event.step,\n",
       "        guiEvent: simpleKeys(event),\n",
       "    });\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",
       "    // Prevent repeat events\n",
       "    if (name === 'key_press') {\n",
       "        if (event.key === this._key) {\n",
       "            return;\n",
       "        } else {\n",
       "            this._key = event.key;\n",
       "        }\n",
       "    }\n",
       "    if (name === 'key_release') {\n",
       "        this._key = null;\n",
       "    }\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.key !== 'Control') {\n",
       "        value += 'ctrl+';\n",
       "    }\n",
       "    else if (event.altKey && event.key !== 'Alt') {\n",
       "        value += 'alt+';\n",
       "    }\n",
       "    else if (event.shiftKey && event.key !== 'Shift') {\n",
       "        value += 'shift+';\n",
       "    }\n",
       "\n",
       "    value += 'k' + event.key;\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, { key: value, 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",
       "\n",
       "///////////////// REMAINING CONTENT GENERATED BY embed_js.py /////////////////\n",
       "// prettier-ignore\n",
       "var _JSXTOOLS_RESIZE_OBSERVER=function(A){var t,i=new WeakMap,n=new WeakMap,a=new WeakMap,r=new WeakMap,o=new Set;function s(e){if(!(this instanceof s))throw new TypeError(\"Constructor requires 'new' operator\");i.set(this,e)}function h(){throw new TypeError(\"Function is not a constructor\")}function c(e,t,i,n){e=0 in arguments?Number(arguments[0]):0,t=1 in arguments?Number(arguments[1]):0,i=2 in arguments?Number(arguments[2]):0,n=3 in arguments?Number(arguments[3]):0,this.right=(this.x=this.left=e)+(this.width=i),this.bottom=(this.y=this.top=t)+(this.height=n),Object.freeze(this)}function d(){t=requestAnimationFrame(d);var s=new WeakMap,p=new Set;o.forEach((function(t){r.get(t).forEach((function(i){var r=t instanceof window.SVGElement,o=a.get(t),d=r?0:parseFloat(o.paddingTop),f=r?0:parseFloat(o.paddingRight),l=r?0:parseFloat(o.paddingBottom),u=r?0:parseFloat(o.paddingLeft),g=r?0:parseFloat(o.borderTopWidth),m=r?0:parseFloat(o.borderRightWidth),w=r?0:parseFloat(o.borderBottomWidth),b=u+f,F=d+l,v=(r?0:parseFloat(o.borderLeftWidth))+m,W=g+w,y=r?0:t.offsetHeight-W-t.clientHeight,E=r?0:t.offsetWidth-v-t.clientWidth,R=b+v,z=F+W,M=r?t.width:parseFloat(o.width)-R-E,O=r?t.height:parseFloat(o.height)-z-y;if(n.has(t)){var k=n.get(t);if(k[0]===M&&k[1]===O)return}n.set(t,[M,O]);var S=Object.create(h.prototype);S.target=t,S.contentRect=new c(u,d,M,O),s.has(i)||(s.set(i,[]),p.add(i)),s.get(i).push(S)}))})),p.forEach((function(e){i.get(e).call(e,s.get(e),e)}))}return s.prototype.observe=function(i){if(i instanceof window.Element){r.has(i)||(r.set(i,new Set),o.add(i),a.set(i,window.getComputedStyle(i)));var n=r.get(i);n.has(this)||n.add(this),cancelAnimationFrame(t),t=requestAnimationFrame(d)}},s.prototype.unobserve=function(i){if(i instanceof window.Element&&r.has(i)){var n=r.get(i);n.has(this)&&(n.delete(this),n.size||(r.delete(i),o.delete(i))),n.size||r.delete(i),o.size||cancelAnimationFrame(t)}},A.DOMRectReadOnly=c,A.ResizeObserver=s,A.ResizeObserverEntry=h,A}; // eslint-disable-line\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\", \"Left button pans, Right button zooms\\nx/y fixes axis, CTRL fixes aspect\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\\nx/y fixes axis\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"jpeg\", \"pgf\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\", \"tif\"];\n",
       "\n",
       "mpl.default_extension = \"png\";/* global mpl */\n",
       "\n",
       "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.binaryType = comm.kernel.ws.binaryType;\n",
       "    ws.readyState = comm.kernel.ws.readyState;\n",
       "    function updateReadyState(_event) {\n",
       "        if (comm.kernel.ws) {\n",
       "            ws.readyState = comm.kernel.ws.readyState;\n",
       "        } else {\n",
       "            ws.readyState = 3; // Closed state.\n",
       "        }\n",
       "    }\n",
       "    comm.kernel.ws.addEventListener('open', updateReadyState);\n",
       "    comm.kernel.ws.addEventListener('close', updateReadyState);\n",
       "    comm.kernel.ws.addEventListener('error', updateReadyState);\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",
       "        var data = msg['content']['data'];\n",
       "        if (data['blob'] !== undefined) {\n",
       "            data = {\n",
       "                data: new Blob(msg['buffers'], { type: data['blob'] }),\n",
       "            };\n",
       "        }\n",
       "        // Pass the mpl event to the overridden (by mpl) onmessage function.\n",
       "        ws.onmessage(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 = document.getElementById(id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm);\n",
       "\n",
       "    function ondownload(figure, _format) {\n",
       "        window.open(figure.canvas.toDataURL());\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy, ondownload, element);\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;\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",
       "    fig.cell_info[0].output_area.element.on(\n",
       "        'cleared',\n",
       "        { fig: fig },\n",
       "        fig._remove_fig_handler\n",
       "    );\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function (fig, msg) {\n",
       "    var width = fig.canvas.width / fig.ratio;\n",
       "    fig.cell_info[0].output_area.element.off(\n",
       "        'cleared',\n",
       "        fig._remove_fig_handler\n",
       "    );\n",
       "    fig.resizeObserverInstance.unobserve(fig.canvas_div);\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.innerHTML =\n",
       "        '<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 / this.ratio;\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] =\n",
       "        '<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 () {\n",
       "        fig.push_to_output();\n",
       "    }, 1000);\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function () {\n",
       "    var fig = this;\n",
       "\n",
       "    var toolbar = document.createElement('div');\n",
       "    toolbar.classList = 'btn-toolbar';\n",
       "    this.root.appendChild(toolbar);\n",
       "\n",
       "    function on_click_closure(name) {\n",
       "        return function (_event) {\n",
       "            return fig.toolbar_button_onclick(name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    function on_mouseover_closure(tooltip) {\n",
       "        return function (event) {\n",
       "            if (!event.currentTarget.disabled) {\n",
       "                return fig.toolbar_button_onmouseover(tooltip);\n",
       "            }\n",
       "        };\n",
       "    }\n",
       "\n",
       "    fig.buttons = {};\n",
       "    var buttonGroup = document.createElement('div');\n",
       "    buttonGroup.classList = 'btn-group';\n",
       "    var button;\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",
       "            /* Instead of a spacer, we start a new button group. */\n",
       "            if (buttonGroup.hasChildNodes()) {\n",
       "                toolbar.appendChild(buttonGroup);\n",
       "            }\n",
       "            buttonGroup = document.createElement('div');\n",
       "            buttonGroup.classList = 'btn-group';\n",
       "            continue;\n",
       "        }\n",
       "\n",
       "        button = fig.buttons[name] = document.createElement('button');\n",
       "        button.classList = 'btn btn-default';\n",
       "        button.href = '#';\n",
       "        button.title = name;\n",
       "        button.innerHTML = '<i class=\"fa ' + image + ' fa-lg\"></i>';\n",
       "        button.addEventListener('click', on_click_closure(method_name));\n",
       "        button.addEventListener('mouseover', on_mouseover_closure(tooltip));\n",
       "        buttonGroup.appendChild(button);\n",
       "    }\n",
       "\n",
       "    if (buttonGroup.hasChildNodes()) {\n",
       "        toolbar.appendChild(buttonGroup);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = document.createElement('span');\n",
       "    status_bar.classList = 'mpl-message pull-right';\n",
       "    toolbar.appendChild(status_bar);\n",
       "    this.message = status_bar;\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = document.createElement('div');\n",
       "    buttongrp.classList = 'btn-group inline pull-right';\n",
       "    button = document.createElement('button');\n",
       "    button.classList = 'btn btn-mini btn-primary';\n",
       "    button.href = '#';\n",
       "    button.title = 'Stop Interaction';\n",
       "    button.innerHTML = '<i class=\"fa fa-power-off icon-remove icon-large\"></i>';\n",
       "    button.addEventListener('click', function (_evt) {\n",
       "        fig.handle_close(fig, {});\n",
       "    });\n",
       "    button.addEventListener(\n",
       "        'mouseover',\n",
       "        on_mouseover_closure('Stop Interaction')\n",
       "    );\n",
       "    buttongrp.appendChild(button);\n",
       "    var titlebar = this.root.querySelector('.ui-dialog-titlebar');\n",
       "    titlebar.insertBefore(buttongrp, titlebar.firstChild);\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._remove_fig_handler = function (event) {\n",
       "    var fig = event.data.fig;\n",
       "    if (event.target !== this) {\n",
       "        // Ignore bubbled events from children.\n",
       "        return;\n",
       "    }\n",
       "    fig.close_ws(fig, {});\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function (el) {\n",
       "    el.style.boxSizing = 'content-box'; // override notebook setting of border-box.\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function (el) {\n",
       "    // this is important to make the div 'focusable\n",
       "    el.setAttribute('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",
       "    } else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function (event, _name) {\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",
       "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(\n",
       "        'matplotlib',\n",
       "        mpl.mpl_figure_comm\n",
       "    );\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
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\" width=\"978\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "<matplotlib.legend.Legend at 0x7f36d677ba30>"
      ]
     },
     "execution_count": 11,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "import matplotlib.pyplot as plt\n",
    "%matplotlib notebook\n",
    "energy_grid = total_xs.energy()\n",
    "plt.plot(total_xs.energy(), total_xs.xs(), label='Total', linewidth=0.75)\n",
    "plt.plot(elastic_xs.energy(), elastic_xs.xs(), label='Elastic', linewidth=0.75)\n",
    "plt.plot(disappearance_xs.energy(), disappearance_xs.xs(), label='Disappearance', linewidth=0.75)\n",
    "plt.plot(fission_xs.energy(), fission_xs.xs(), label='Fission', linewidth=0.75)\n",
    "plt.xscale('log')\n",
    "plt.yscale('log')\n",
    "plt.xlabel('Energy [MeV]')\n",
    "plt.ylabel('Cross Section [barns]')\n",
    "plt.title('Cross Sections for U235 at %ik' %int(U235.temperature()))\n",
    "plt.tight_layout()\n",
    "plt.legend()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Interacting with Reaction Data\n",
    "Data which is related to a particular reaction, such as the cross section and secondary distributions, is stored in the corresponding `STReaction` class instance. You can check to see if an `STNeutron` instance has a particluar reaction MT and then get that reaction using:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 12,
   "metadata": {},
   "outputs": [],
   "source": [
    "if U235.has_reaction(16):\n",
    "    n2n = U235.reaction(16)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Here, `n2n` contains all the data for the MT=16 (n,2n) reaction for U235. One should always check that a desired reaction MT is actually contained in a `STNeutron` instance with the `has_reaction` method. If you try accessing an reaction which does not exists, an exception will be thrown."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 13,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "\n",
      " #---------------------------------------------------------------------------------\n",
      " # File: /home/hunter/projects/papillon-ndl/include/PapillonNDL/st_neutron.hpp\n",
      " # Function: const pndl::STReaction& pndl::STNeutron::reaction(uint32_t) const\n",
      " # Line: 148\n",
      " # \n",
      " # MT = 37 is not provided in ZAID = 92235.\n",
      " #---------------------------------------------------------------------------------\n",
      "\n"
     ]
    }
   ],
   "source": [
    "try:\n",
    "    n4n = U235.reaction(37)\n",
    "except Exception as e:\n",
    "    print(str(e))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Only data related to scattering reactions which are not elastic (MT 2), and absorption reactions which are not related to fission (MT 18, 19, 20, 21, and 38) can be found with `STNeutron.has_reaction` and `STNeutron.reaction`. Because elastic scattering a fission are quite different, they are treated in a special manner, covered later on.\n",
    "\n",
    "Once we have an `STReaction` instance, we can get the threshold energy for the reaction to occur, the yield as a function of energy, the cross section, and the secondary distributions."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 14,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "(n,2n) threshold for U235 = 5.321 MeV\n",
      "Yield at 5.321 MeV = 2\n",
      "(n,2n) cross section at 6 MeV = 0.184 barns\n"
     ]
    }
   ],
   "source": [
    "n2n_threshold = n2n.threshold()\n",
    "print(\"(n,2n) threshold for U235 = %.3f MeV\" %n2n_threshold)\n",
    "\n",
    "# The C++ method 'yield' cannot be used in Python as it is a keyword.\n",
    "# Here, we must use the method name 'multiplicity'.\n",
    "print(\"Yield at %.3f MeV = %.f\" %(n2n_threshold,n2n.multiplicity()(n2n_threshold)))\n",
    "    \n",
    "n2n_xs = n2n.xs()\n",
    "print(\"(n,2n) cross section at 6 MeV = %.3f barns\" %n2n_xs(6.))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "We can easily sample the secondary distributions from reactions. All that must be provided is an incident energy, and a random number generator function, and the reaction will return an `AngleEnergyPacket` which contains the sampled cosine of the scattering angle, and outgoing energy *both in the LABORATORY frame*. PapillonNDL will convert all data sampled from reactions to the lab frame automatically. While not provided in the C++ version of the library, the Python version comes with a simple random number generator function by the name of `rng`. We can use that here to sample an energy and angle."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 15,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Cosine of scattering angle = 0.55257\n",
      "Scattered energy = 0.38519 MeV\n"
     ]
    }
   ],
   "source": [
    "scatter_data = n2n.sample_neutron_angle_energy(6., rng)\n",
    "print(\"Cosine of scattering angle = %.5f\" %scatter_data.cosine_angle)\n",
    "print(\"Scattered energy = %.5f MeV\" %scatter_data.energy)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "We can even retrieve the angle-energy distributions for the reaction to take a closer look at the data if we want."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 16,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "<class 'pyPapillonNDL.CMDistribution'>\n"
     ]
    }
   ],
   "source": [
    "neutron_dist = n2n.neutron_distribution()\n",
    "print(type(neutron_dist))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Through the magic of pybind11, Python will know the true type of distribution automatically, so you know how to look at it. To learn more about all of the different distribution types, try looking at the Library API documentation."
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Elastic Scattering\n",
    "\n",
    "Elastic scattering is somewhat peculiar, as there are many different approximations which can be made when performing the collision mechanics, to sample the outgoing energy and direction of a neutron after such a collision. The elastic data is stored in an `Elastic` instance, and can be retrieved with"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 17,
   "metadata": {},
   "outputs": [],
   "source": [
    "elastic = U235.elastic()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "One thing we can do is plot the elastic scattering angular distributions. We can look at the number of incident energies, and then get the `AngleLaw` corresponding to a particular incident energy."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 18,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "/* global mpl */\n",
       "window.mpl = {};\n",
       "\n",
       "mpl.get_websocket_type = function () {\n",
       "    if (typeof WebSocket !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof MozWebSocket !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert(\n",
       "            '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",
       "\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 = document.createElement('div');\n",
       "    this.root.setAttribute('style', 'display: inline-block');\n",
       "    this._root_extra_style(this.root);\n",
       "\n",
       "    parent_element.appendChild(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 (fig.ratio !== 1) {\n",
       "            fig.send_message('set_device_pixel_ratio', {\n",
       "                device_pixel_ratio: fig.ratio,\n",
       "            });\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 = document.createElement('div');\n",
       "    titlebar.classList =\n",
       "        'ui-dialog-titlebar ui-widget-header ui-corner-all ui-helper-clearfix';\n",
       "    var titletext = document.createElement('div');\n",
       "    titletext.classList = 'ui-dialog-title';\n",
       "    titletext.setAttribute(\n",
       "        'style',\n",
       "        'width: 100%; text-align: center; padding: 3px;'\n",
       "    );\n",
       "    titlebar.appendChild(titletext);\n",
       "    this.root.appendChild(titlebar);\n",
       "    this.header = titletext;\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function (_canvas_div) {};\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function (_canvas_div) {};\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function () {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = (this.canvas_div = document.createElement('div'));\n",
       "    canvas_div.setAttribute(\n",
       "        'style',\n",
       "        'border: 1px solid #ddd;' +\n",
       "            'box-sizing: content-box;' +\n",
       "            'clear: both;' +\n",
       "            'min-height: 1px;' +\n",
       "            'min-width: 1px;' +\n",
       "            'outline: 0;' +\n",
       "            'overflow: hidden;' +\n",
       "            'position: relative;' +\n",
       "            'resize: both;'\n",
       "    );\n",
       "\n",
       "    function on_keyboard_event_closure(name) {\n",
       "        return function (event) {\n",
       "            return fig.key_event(event, name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    canvas_div.addEventListener(\n",
       "        'keydown',\n",
       "        on_keyboard_event_closure('key_press')\n",
       "    );\n",
       "    canvas_div.addEventListener(\n",
       "        'keyup',\n",
       "        on_keyboard_event_closure('key_release')\n",
       "    );\n",
       "\n",
       "    this._canvas_extra_style(canvas_div);\n",
       "    this.root.appendChild(canvas_div);\n",
       "\n",
       "    var canvas = (this.canvas = document.createElement('canvas'));\n",
       "    canvas.classList.add('mpl-canvas');\n",
       "    canvas.setAttribute('style', 'box-sizing: content-box;');\n",
       "\n",
       "    this.context = canvas.getContext('2d');\n",
       "\n",
       "    var backingStore =\n",
       "        this.context.backingStorePixelRatio ||\n",
       "        this.context.webkitBackingStorePixelRatio ||\n",
       "        this.context.mozBackingStorePixelRatio ||\n",
       "        this.context.msBackingStorePixelRatio ||\n",
       "        this.context.oBackingStorePixelRatio ||\n",
       "        this.context.backingStorePixelRatio ||\n",
       "        1;\n",
       "\n",
       "    this.ratio = (window.devicePixelRatio || 1) / backingStore;\n",
       "\n",
       "    var rubberband_canvas = (this.rubberband_canvas = document.createElement(\n",
       "        'canvas'\n",
       "    ));\n",
       "    rubberband_canvas.setAttribute(\n",
       "        'style',\n",
       "        'box-sizing: content-box; position: absolute; left: 0; top: 0; z-index: 1;'\n",
       "    );\n",
       "\n",
       "    // Apply a ponyfill if ResizeObserver is not implemented by browser.\n",
       "    if (this.ResizeObserver === undefined) {\n",
       "        if (window.ResizeObserver !== undefined) {\n",
       "            this.ResizeObserver = window.ResizeObserver;\n",
       "        } else {\n",
       "            var obs = _JSXTOOLS_RESIZE_OBSERVER({});\n",
       "            this.ResizeObserver = obs.ResizeObserver;\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.resizeObserverInstance = new this.ResizeObserver(function (entries) {\n",
       "        var nentries = entries.length;\n",
       "        for (var i = 0; i < nentries; i++) {\n",
       "            var entry = entries[i];\n",
       "            var width, height;\n",
       "            if (entry.contentBoxSize) {\n",
       "                if (entry.contentBoxSize instanceof Array) {\n",
       "                    // Chrome 84 implements new version of spec.\n",
       "                    width = entry.contentBoxSize[0].inlineSize;\n",
       "                    height = entry.contentBoxSize[0].blockSize;\n",
       "                } else {\n",
       "                    // Firefox implements old version of spec.\n",
       "                    width = entry.contentBoxSize.inlineSize;\n",
       "                    height = entry.contentBoxSize.blockSize;\n",
       "                }\n",
       "            } else {\n",
       "                // Chrome <84 implements even older version of spec.\n",
       "                width = entry.contentRect.width;\n",
       "                height = entry.contentRect.height;\n",
       "            }\n",
       "\n",
       "            // Keep the size of the canvas and rubber band canvas in sync with\n",
       "            // the canvas container.\n",
       "            if (entry.devicePixelContentBoxSize) {\n",
       "                // Chrome 84 implements new version of spec.\n",
       "                canvas.setAttribute(\n",
       "                    'width',\n",
       "                    entry.devicePixelContentBoxSize[0].inlineSize\n",
       "                );\n",
       "                canvas.setAttribute(\n",
       "                    'height',\n",
       "                    entry.devicePixelContentBoxSize[0].blockSize\n",
       "                );\n",
       "            } else {\n",
       "                canvas.setAttribute('width', width * fig.ratio);\n",
       "                canvas.setAttribute('height', height * fig.ratio);\n",
       "            }\n",
       "            canvas.setAttribute(\n",
       "                'style',\n",
       "                'width: ' + width + 'px; height: ' + height + 'px;'\n",
       "            );\n",
       "\n",
       "            rubberband_canvas.setAttribute('width', width);\n",
       "            rubberband_canvas.setAttribute('height', height);\n",
       "\n",
       "            // And update the size in Python. We ignore the initial 0/0 size\n",
       "            // that occurs as the element is placed into the DOM, which should\n",
       "            // otherwise not happen due to the minimum size styling.\n",
       "            if (fig.ws.readyState == 1 && width != 0 && height != 0) {\n",
       "                fig.request_resize(width, height);\n",
       "            }\n",
       "        }\n",
       "    });\n",
       "    this.resizeObserverInstance.observe(canvas_div);\n",
       "\n",
       "    function on_mouse_event_closure(name) {\n",
       "        return function (event) {\n",
       "            return fig.mouse_event(event, name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mousedown',\n",
       "        on_mouse_event_closure('button_press')\n",
       "    );\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mouseup',\n",
       "        on_mouse_event_closure('button_release')\n",
       "    );\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'dblclick',\n",
       "        on_mouse_event_closure('dblclick')\n",
       "    );\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mousemove',\n",
       "        on_mouse_event_closure('motion_notify')\n",
       "    );\n",
       "\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mouseenter',\n",
       "        on_mouse_event_closure('figure_enter')\n",
       "    );\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mouseleave',\n",
       "        on_mouse_event_closure('figure_leave')\n",
       "    );\n",
       "\n",
       "    canvas_div.addEventListener('wheel', function (event) {\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        on_mouse_event_closure('scroll')(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.appendChild(canvas);\n",
       "    canvas_div.appendChild(rubberband_canvas);\n",
       "\n",
       "    this.rubberband_context = rubberband_canvas.getContext('2d');\n",
       "    this.rubberband_context.strokeStyle = '#000000';\n",
       "\n",
       "    this._resize_canvas = function (width, height, forward) {\n",
       "        if (forward) {\n",
       "            canvas_div.style.width = width + 'px';\n",
       "            canvas_div.style.height = height + 'px';\n",
       "        }\n",
       "    };\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    this.rubberband_canvas.addEventListener('contextmenu', function (_e) {\n",
       "        event.preventDefault();\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 toolbar = document.createElement('div');\n",
       "    toolbar.classList = 'mpl-toolbar';\n",
       "    this.root.appendChild(toolbar);\n",
       "\n",
       "    function on_click_closure(name) {\n",
       "        return function (_event) {\n",
       "            return fig.toolbar_button_onclick(name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    function on_mouseover_closure(tooltip) {\n",
       "        return function (event) {\n",
       "            if (!event.currentTarget.disabled) {\n",
       "                return fig.toolbar_button_onmouseover(tooltip);\n",
       "            }\n",
       "        };\n",
       "    }\n",
       "\n",
       "    fig.buttons = {};\n",
       "    var buttonGroup = document.createElement('div');\n",
       "    buttonGroup.classList = 'mpl-button-group';\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",
       "            /* Instead of a spacer, we start a new button group. */\n",
       "            if (buttonGroup.hasChildNodes()) {\n",
       "                toolbar.appendChild(buttonGroup);\n",
       "            }\n",
       "            buttonGroup = document.createElement('div');\n",
       "            buttonGroup.classList = 'mpl-button-group';\n",
       "            continue;\n",
       "        }\n",
       "\n",
       "        var button = (fig.buttons[name] = document.createElement('button'));\n",
       "        button.classList = 'mpl-widget';\n",
       "        button.setAttribute('role', 'button');\n",
       "        button.setAttribute('aria-disabled', 'false');\n",
       "        button.addEventListener('click', on_click_closure(method_name));\n",
       "        button.addEventListener('mouseover', on_mouseover_closure(tooltip));\n",
       "\n",
       "        var icon_img = document.createElement('img');\n",
       "        icon_img.src = '_images/' + image + '.png';\n",
       "        icon_img.srcset = '_images/' + image + '_large.png 2x';\n",
       "        icon_img.alt = tooltip;\n",
       "        button.appendChild(icon_img);\n",
       "\n",
       "        buttonGroup.appendChild(button);\n",
       "    }\n",
       "\n",
       "    if (buttonGroup.hasChildNodes()) {\n",
       "        toolbar.appendChild(buttonGroup);\n",
       "    }\n",
       "\n",
       "    var fmt_picker = document.createElement('select');\n",
       "    fmt_picker.classList = 'mpl-widget';\n",
       "    toolbar.appendChild(fmt_picker);\n",
       "    this.format_dropdown = fmt_picker;\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = document.createElement('option');\n",
       "        option.selected = fmt === mpl.default_extension;\n",
       "        option.innerHTML = fmt;\n",
       "        fmt_picker.appendChild(option);\n",
       "    }\n",
       "\n",
       "    var status_bar = document.createElement('span');\n",
       "    status_bar.classList = 'mpl-message';\n",
       "    toolbar.appendChild(status_bar);\n",
       "    this.message = status_bar;\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",
       "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",
       "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], msg['forward']);\n",
       "        fig.send_message('refresh', {});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function (fig, msg) {\n",
       "    var x0 = msg['x0'] / fig.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / fig.ratio;\n",
       "    var x1 = msg['x1'] / fig.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / fig.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,\n",
       "        0,\n",
       "        fig.canvas.width / fig.ratio,\n",
       "        fig.canvas.height / fig.ratio\n",
       "    );\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",
       "    fig.rubberband_canvas.style.cursor = msg['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.handle_history_buttons = function (fig, msg) {\n",
       "    for (var key in msg) {\n",
       "        if (!(key in fig.buttons)) {\n",
       "            continue;\n",
       "        }\n",
       "        fig.buttons[key].disabled = !msg[key];\n",
       "        fig.buttons[key].setAttribute('aria-disabled', !msg[key]);\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_navigate_mode = function (fig, msg) {\n",
       "    if (msg['mode'] === 'PAN') {\n",
       "        fig.buttons['Pan'].classList.add('active');\n",
       "        fig.buttons['Zoom'].classList.remove('active');\n",
       "    } else if (msg['mode'] === 'ZOOM') {\n",
       "        fig.buttons['Pan'].classList.remove('active');\n",
       "        fig.buttons['Zoom'].classList.add('active');\n",
       "    } else {\n",
       "        fig.buttons['Pan'].classList.remove('active');\n",
       "        fig.buttons['Zoom'].classList.remove('active');\n",
       "    }\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",
       "            var img = evt.data;\n",
       "            if (img.type !== 'image/png') {\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",
       "                img.type = 'image/png';\n",
       "            }\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",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                img\n",
       "            );\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        } else if (\n",
       "            typeof evt.data === 'string' &&\n",
       "            evt.data.slice(0, 21) === 'data:image/png;base64'\n",
       "        ) {\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(\n",
       "                \"No handler for the '\" + msg_type + \"' message type: \",\n",
       "                msg\n",
       "            );\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(\n",
       "                    \"Exception inside the 'handler_\" + msg_type + \"' callback:\",\n",
       "                    e,\n",
       "                    e.stack,\n",
       "                    msg\n",
       "                );\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "};\n",
       "\n",
       "// from https://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",
       "    }\n",
       "    if (e.target) {\n",
       "        targ = e.target;\n",
       "    } else if (e.srcElement) {\n",
       "        targ = e.srcElement;\n",
       "    }\n",
       "    if (targ.nodeType === 3) {\n",
       "        // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "    }\n",
       "\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    var boundingRect = targ.getBoundingClientRect();\n",
       "    var x = e.pageX - (boundingRect.left + document.body.scrollLeft);\n",
       "    var y = e.pageY - (boundingRect.top + document.body.scrollTop);\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",
       " * https://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",
       "        }\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",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x * this.ratio;\n",
       "    var y = canvas_pos.y * this.ratio;\n",
       "\n",
       "    this.send_message(name, {\n",
       "        x: x,\n",
       "        y: y,\n",
       "        button: event.button,\n",
       "        step: event.step,\n",
       "        guiEvent: simpleKeys(event),\n",
       "    });\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",
       "    // Prevent repeat events\n",
       "    if (name === 'key_press') {\n",
       "        if (event.key === this._key) {\n",
       "            return;\n",
       "        } else {\n",
       "            this._key = event.key;\n",
       "        }\n",
       "    }\n",
       "    if (name === 'key_release') {\n",
       "        this._key = null;\n",
       "    }\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.key !== 'Control') {\n",
       "        value += 'ctrl+';\n",
       "    }\n",
       "    else if (event.altKey && event.key !== 'Alt') {\n",
       "        value += 'alt+';\n",
       "    }\n",
       "    else if (event.shiftKey && event.key !== 'Shift') {\n",
       "        value += 'shift+';\n",
       "    }\n",
       "\n",
       "    value += 'k' + event.key;\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, { key: value, 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",
       "\n",
       "///////////////// REMAINING CONTENT GENERATED BY embed_js.py /////////////////\n",
       "// prettier-ignore\n",
       "var _JSXTOOLS_RESIZE_OBSERVER=function(A){var t,i=new WeakMap,n=new WeakMap,a=new WeakMap,r=new WeakMap,o=new Set;function s(e){if(!(this instanceof s))throw new TypeError(\"Constructor requires 'new' operator\");i.set(this,e)}function h(){throw new TypeError(\"Function is not a constructor\")}function c(e,t,i,n){e=0 in arguments?Number(arguments[0]):0,t=1 in arguments?Number(arguments[1]):0,i=2 in arguments?Number(arguments[2]):0,n=3 in arguments?Number(arguments[3]):0,this.right=(this.x=this.left=e)+(this.width=i),this.bottom=(this.y=this.top=t)+(this.height=n),Object.freeze(this)}function d(){t=requestAnimationFrame(d);var s=new WeakMap,p=new Set;o.forEach((function(t){r.get(t).forEach((function(i){var r=t instanceof window.SVGElement,o=a.get(t),d=r?0:parseFloat(o.paddingTop),f=r?0:parseFloat(o.paddingRight),l=r?0:parseFloat(o.paddingBottom),u=r?0:parseFloat(o.paddingLeft),g=r?0:parseFloat(o.borderTopWidth),m=r?0:parseFloat(o.borderRightWidth),w=r?0:parseFloat(o.borderBottomWidth),b=u+f,F=d+l,v=(r?0:parseFloat(o.borderLeftWidth))+m,W=g+w,y=r?0:t.offsetHeight-W-t.clientHeight,E=r?0:t.offsetWidth-v-t.clientWidth,R=b+v,z=F+W,M=r?t.width:parseFloat(o.width)-R-E,O=r?t.height:parseFloat(o.height)-z-y;if(n.has(t)){var k=n.get(t);if(k[0]===M&&k[1]===O)return}n.set(t,[M,O]);var S=Object.create(h.prototype);S.target=t,S.contentRect=new c(u,d,M,O),s.has(i)||(s.set(i,[]),p.add(i)),s.get(i).push(S)}))})),p.forEach((function(e){i.get(e).call(e,s.get(e),e)}))}return s.prototype.observe=function(i){if(i instanceof window.Element){r.has(i)||(r.set(i,new Set),o.add(i),a.set(i,window.getComputedStyle(i)));var n=r.get(i);n.has(this)||n.add(this),cancelAnimationFrame(t),t=requestAnimationFrame(d)}},s.prototype.unobserve=function(i){if(i instanceof window.Element&&r.has(i)){var n=r.get(i);n.has(this)&&(n.delete(this),n.size||(r.delete(i),o.delete(i))),n.size||r.delete(i),o.size||cancelAnimationFrame(t)}},A.DOMRectReadOnly=c,A.ResizeObserver=s,A.ResizeObserverEntry=h,A}; // eslint-disable-line\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\", \"Left button pans, Right button zooms\\nx/y fixes axis, CTRL fixes aspect\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\\nx/y fixes axis\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"jpeg\", \"pgf\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\", \"tif\"];\n",
       "\n",
       "mpl.default_extension = \"png\";/* global mpl */\n",
       "\n",
       "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.binaryType = comm.kernel.ws.binaryType;\n",
       "    ws.readyState = comm.kernel.ws.readyState;\n",
       "    function updateReadyState(_event) {\n",
       "        if (comm.kernel.ws) {\n",
       "            ws.readyState = comm.kernel.ws.readyState;\n",
       "        } else {\n",
       "            ws.readyState = 3; // Closed state.\n",
       "        }\n",
       "    }\n",
       "    comm.kernel.ws.addEventListener('open', updateReadyState);\n",
       "    comm.kernel.ws.addEventListener('close', updateReadyState);\n",
       "    comm.kernel.ws.addEventListener('error', updateReadyState);\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",
       "        var data = msg['content']['data'];\n",
       "        if (data['blob'] !== undefined) {\n",
       "            data = {\n",
       "                data: new Blob(msg['buffers'], { type: data['blob'] }),\n",
       "            };\n",
       "        }\n",
       "        // Pass the mpl event to the overridden (by mpl) onmessage function.\n",
       "        ws.onmessage(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 = document.getElementById(id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm);\n",
       "\n",
       "    function ondownload(figure, _format) {\n",
       "        window.open(figure.canvas.toDataURL());\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy, ondownload, element);\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;\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",
       "    fig.cell_info[0].output_area.element.on(\n",
       "        'cleared',\n",
       "        { fig: fig },\n",
       "        fig._remove_fig_handler\n",
       "    );\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function (fig, msg) {\n",
       "    var width = fig.canvas.width / fig.ratio;\n",
       "    fig.cell_info[0].output_area.element.off(\n",
       "        'cleared',\n",
       "        fig._remove_fig_handler\n",
       "    );\n",
       "    fig.resizeObserverInstance.unobserve(fig.canvas_div);\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.innerHTML =\n",
       "        '<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 / this.ratio;\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] =\n",
       "        '<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 () {\n",
       "        fig.push_to_output();\n",
       "    }, 1000);\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function () {\n",
       "    var fig = this;\n",
       "\n",
       "    var toolbar = document.createElement('div');\n",
       "    toolbar.classList = 'btn-toolbar';\n",
       "    this.root.appendChild(toolbar);\n",
       "\n",
       "    function on_click_closure(name) {\n",
       "        return function (_event) {\n",
       "            return fig.toolbar_button_onclick(name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    function on_mouseover_closure(tooltip) {\n",
       "        return function (event) {\n",
       "            if (!event.currentTarget.disabled) {\n",
       "                return fig.toolbar_button_onmouseover(tooltip);\n",
       "            }\n",
       "        };\n",
       "    }\n",
       "\n",
       "    fig.buttons = {};\n",
       "    var buttonGroup = document.createElement('div');\n",
       "    buttonGroup.classList = 'btn-group';\n",
       "    var button;\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",
       "            /* Instead of a spacer, we start a new button group. */\n",
       "            if (buttonGroup.hasChildNodes()) {\n",
       "                toolbar.appendChild(buttonGroup);\n",
       "            }\n",
       "            buttonGroup = document.createElement('div');\n",
       "            buttonGroup.classList = 'btn-group';\n",
       "            continue;\n",
       "        }\n",
       "\n",
       "        button = fig.buttons[name] = document.createElement('button');\n",
       "        button.classList = 'btn btn-default';\n",
       "        button.href = '#';\n",
       "        button.title = name;\n",
       "        button.innerHTML = '<i class=\"fa ' + image + ' fa-lg\"></i>';\n",
       "        button.addEventListener('click', on_click_closure(method_name));\n",
       "        button.addEventListener('mouseover', on_mouseover_closure(tooltip));\n",
       "        buttonGroup.appendChild(button);\n",
       "    }\n",
       "\n",
       "    if (buttonGroup.hasChildNodes()) {\n",
       "        toolbar.appendChild(buttonGroup);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = document.createElement('span');\n",
       "    status_bar.classList = 'mpl-message pull-right';\n",
       "    toolbar.appendChild(status_bar);\n",
       "    this.message = status_bar;\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = document.createElement('div');\n",
       "    buttongrp.classList = 'btn-group inline pull-right';\n",
       "    button = document.createElement('button');\n",
       "    button.classList = 'btn btn-mini btn-primary';\n",
       "    button.href = '#';\n",
       "    button.title = 'Stop Interaction';\n",
       "    button.innerHTML = '<i class=\"fa fa-power-off icon-remove icon-large\"></i>';\n",
       "    button.addEventListener('click', function (_evt) {\n",
       "        fig.handle_close(fig, {});\n",
       "    });\n",
       "    button.addEventListener(\n",
       "        'mouseover',\n",
       "        on_mouseover_closure('Stop Interaction')\n",
       "    );\n",
       "    buttongrp.appendChild(button);\n",
       "    var titlebar = this.root.querySelector('.ui-dialog-titlebar');\n",
       "    titlebar.insertBefore(buttongrp, titlebar.firstChild);\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._remove_fig_handler = function (event) {\n",
       "    var fig = event.data.fig;\n",
       "    if (event.target !== this) {\n",
       "        // Ignore bubbled events from children.\n",
       "        return;\n",
       "    }\n",
       "    fig.close_ws(fig, {});\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function (el) {\n",
       "    el.style.boxSizing = 'content-box'; // override notebook setting of border-box.\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function (el) {\n",
       "    // this is important to make the div 'focusable\n",
       "    el.setAttribute('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",
       "    } else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function (event, _name) {\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",
       "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(\n",
       "        'matplotlib',\n",
       "        mpl.mpl_figure_comm\n",
       "    );\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
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DA57Ub9uj9EcIb3jjjuWTTbZZOJQGWH7u9/9rpxzzjll6dKlEz9fbrnlqkDqb//2b6e9x7XeN3O8fK9mlHJmo2g3MjsjN//t3/6tGkk9XWm2R76POxmhucoqq5TDDz+8W6q+7NfPftUMpHN/S9vm/rbmmmuWtGFGS5977rnV90Bd7n//+1fLiWy++ebTXm9ectlll13KHXfcUW0X2/SfjKa/4ooryllnnVXqgHXRokXlhz/8YTVyuVclYfQrX/nKicOtscYaEzOYXHbZZdWo8Lo85jGPKd/73vfKfe973zmffqpA+s1vfnM54ogjOjp+/j6MR2vpdyCd0expg2XLllWnzgjpfN5mU1qP8ZnPfKa8+MUvns0hbEuAAAECBAgQIPC/AgJpXYEAAQIECBAgQGBCoBmmdjqqdCa+QQ1oZ6p3fj/MdW+9vve85z3lwAMPnPjxG9/4xvLOd76zelDfWjJ6Out+f+ELXyif/vSnq4e4AulOeoxtBkEgU/NmdOBtt91WVWfllVcut99+e/XfX/7yl0tGuykzC/QzOJz57P3bohlIZ+Tzy172snucLEHyf/7nf5b/9//+X8nMEilrr712+cUvfnGPEZazuW/+5je/qUavZuTm1VdfPXHejKpNoJmQc6rSbI8EqDnvMJZ+9qslS5aUj3/841VwnCUn2k21nhA0L1m96lWvqparSEmAmxexphqFnu022GCDienPE0R//vOfLw94wAMmmiD757slL3Wl7LDDDuX000/vSRP97Gc/q0Zx18FqXrj52Mc+Nqkvfvvb366mIc8U4ikvf/nLq6m951qagXSutw72E/TmWvPv6crPf/7zsvHGG1ebPOpRj6qmVK9LvwPpnCd/u3zlK1+pTpnR49/61rdmRZKXRTIqPSVT7+czPN0U/rM6uI0JECBAgAABAmMmIJAeswZ3uQQIECBAgACB6QRm82C9U8lhDnWHue7N9slD7KxxWT+ozrTd9XTWM7XjLbfcUgV7CWOGqXQz2rmbfYbJZFzqmiBx7733ri430+Zm6u6ECil///d/X639qsws0M/gcOaz92+LTgLp+uwf+chHyute97qJyiQEfPWrXz2pct3cN7Pub6Z+PvHEEyeO9dznPrd6CWiqIpDubZ9IqJ+1vOuSEcXbbrtt25MccMABE6OBE0z/6Ec/avvyQH6eWUfq4DhTO2eK57mW5z//+RN9Zbvttitnnnlm27Wvv/nNb05MAZ+gOPVJCDyX0gyk83dE1siulz7I+VqXRmg91zve8Y7yT//0T9WPDzvssPLWt751YpP5CKTz8sFznvOc6pzdrP+cWQ8y8j4lI9T/4z/+Yy6c9iVAgAABAgQIjLWAQHqsm9/FEyBAgAABAgQmC3TzYH0mw2EOdYe57s12+f73v1/yEDsla0JnStqM9Bnl0k243M0+o2w4rNe2/fbbV6NNUw499NAqoKnXlV1xxRWr6XqbIxuH9Tr7XW+BdKmmZ1533XVLpu1NyQjUE044YRJ9t/fNhHHPetazStYlrst0I58F0r3v8QmXM+o9JS+tNF8+qM+WcDkvZGXa9ZSZpmzOyOs6tEz71qNzu6191j3OaOSM2k+ZLjjP73faaady2mmnVdtmZG8dHnd7/tZAOst+ZER/SqaujsdUJX384Q9/eDVVfZZMyIjxjEavy3wE0lmuJH75uyfl/e9/f8kLBp2Un/70p+WRj3zkxKZ5EeBJT3pSJ7vahgABAgQIECBAoI2AQFq3IECAAAECBAgQmBDo9sH6dISdhroZhZvRRHlgeeGFF5ZMvZkRvQmQ8iAzD0B33XXXap3q/KyTkjUVjznmmJJA9qqrrioZlbbaaqtVx8sD5qyRndE9CbCaUzBONW1nu3O2Tvna6fU2j5UHvJlKOA+ar7vuupIph7Om8/rrr18FaZl+NGuXJkzupiRAecELXlDtmhFOmXKyHyWjsbJub0KVPIDONKdpq6x1mvU5M1Lsec973pRrpWafk08+uRr9demll1ZruP7pT3+qwvMcI6H6XnvtVbIe5VSl6T/TNeZYRx999KSp2Tvdp912ebiedsz/sgZtgoRM95s1RrfYYotqdG6mWp2uHX/5y19WD/BT1ltvvZJ/p5x99tlVXfP/dR/Zb7/9yoc+9KHq952sIT3VsTP666ijjqrcM43wSiutVB7xiEdUU53mHOmLnZQENxmdfPzxx1fTsmZ0fcK89OGMWE5QktIcoZrPZf7dq5JwKWvGpi3yOb7yyisrz4QKCRdSpgqeWuvQ7gWFBJTp45nG/vLLL6+Cykx7n+mBc435juq0pL+nLunzmfo2a94+5CEPKX/3d39X9tlnn/LQhz60o3ZNv8j0vCl1n56uDlP1g9Z9Og2ksy7vSSedVNU13wG5rrR9+k2mTt9mm22qUZUzjaTM+duZ594Q80yRnDbM91f62kUXXTTjur/tHGYzQjr757s339Ep+RzXoyXrY8/lvpnvyNQnXinTTSm8UIF0rHNfzpTQuadm+ujUO/XJix0JGNO2GT061ZrFU61DPFU/7fX3wlTnSd/8wQ9+UP06o3jf9ra33WPTTPFcj3LO3w833HBD9R05VWm+AJblAvId0el3aLtjfuITn5gYlZ8ZH+I/XclnJfeZlHyHtFu3vNPvqGzXGkjn85c2zz06U8zn33FpV5qj0DP9/Wtf+9pJAW8ngXT6X+4pX/va16rPXvwTzudvuPwtkNHjuVdN93dbzv3hD3+4quKmm25a1b2Tkv6QUd0p+Xssa4XP5u/DTs5hGwIECBAgQIDAOAkIpMeptV0rAQIECBAgQGAGgbk8WJ/q0J0EtD/84Q+rB/EJjGcqeXifKXcf+9jHTrlpQqN99923Wkuyk5IpJbPGcl1m88BxLoH0j3/842r90taAo12dEyjnoWw3JdPC5qFtSq6tDou6OVa7fTJy7B/+4R+qkYMzPWCeKhDff//9ywc/+MEZ98/5X/SiF1Uj0Nqtt7pQgXSCuISBWUd0upK1NNN/p5pGtTUszPqbCYUTGLeWuQbSCX0SAKbv16PvWs+RMDej7fIwfrqS0COjAeMwVcnIwUyBnLC7Dkl6HTw1A80nPvGJEyOlEzblc56SKXUTrM1UWsPR1D+fowROU5UEw+mbmRp2upJ1hF/zmteUW2+9te1meQkjoffqq69erUWb8uQnP7kKh1rLQgbSWQv5TW96U8m68zOVTI+c74jpRqe3mud7L6OS813ZWuYrkE64l5AvJX03n8lmmet9M6NY6ynl8/1cv+TQer0LEUjnpaDca+vRpdO1cV70ilP94klz20EMpPN3Ql6YqK9tqpHPb3/728v73ve+6nISTOfFuelKjpvPbV6mSkmgnb9vui0Zhfy5z32u2j3TxWfa+OlKXljKiOC65OW+vKTTbWkXSB9xxBETo4yzTnX9QkzrOfLzfD+l5Ds3Lyw0RxzP9PdCzp0XffJi0XQlwXSmu8+La+1K/saqZ8nI7/PS43R/Q2ab3BPz92Y+Ayn5bjr44IO7ZbQfAQIECBAgQIDA3QICad2AAAECBAgQIEBgQmCuD9bbUXYSSDfXPcyol8WLF5dFixZVo4ryUDejUs4999xq+tSUjMbJA8WpHrK+4Q1vmDRNZR5SZjR0HpjnAWgeQGcEZz3SqDWQrqftzNqDmd43JSNw2j3s3HPPPavRkXXp5HqzbR60JsCrR8blZxnNlHpmxGWCqtTvkksuqUYD7rbbbtXI225Kgpt6is3sn/Wjs450L0p8EjQ1R23d//73r0YzZ3Rs6p7w8YILLqiuNQ/q66lPm+fPCMqMgEzoktA2/0twlVGjaa9cQ/OhdEYtZqrb1pcHMj1pHsCnv9ShYx5Ex7W15CF2Rtx3s0/zWBlZnFGtGdmekhHQCT1zDal/QuaMbL799tur38cgI6ibD+br47UG0hkd/9GPfrT69aMf/eiy2WabVcdMKJZr+ud//ufqd92MkM7LEPVa4hnBnuPn2AnV8/mqS36e9svv2pWMWItlPfVttsm1xz0WGY2W/VMSXn7xi1/sSyCdz3a+E+p6NNf7zQjkhAt1AJKAc6a1VZvh6D/+4z9WQdRll11WvQiRaVszmjl9OqMAM0q4LhlR95a3vGXKj1deEEl/r18CiFFmaUjonz50xhlnVKPrM7tAgvQ3v/nN1bEGMZDOerCZAjcl9U+fzowAGRmaz3navhkmp59lROpUI0yb5vke/upXv1qNHs/xYp5ZA2KeY+T7MMebbZnLCOl2LzPM9b6Z6eXT/nXJdeX7vrUsRCDdnLJ4jTXWqO7NaYMEi5kKOS+UpC3q77b05fTf1rWY851cTx2dl1LqkhfH2pVMtZ/7YD9LvvvS31LymU7w2O6cmdmivvemv9fh9HR1y/dhXrRLyUsbGaHbbUlwWr/olBeTMnvCTCVBe75DUvIZyv2p29IukE7one+/vIiS/p/vwNaSv91Sj3xe872Qv7lap8CeLpDO92ReBqnX4853QFzz+c362LkH5j5a/12Y+uSen5fe2pX03dQh5Y1vfOPEvXMql8wKsOOOO1a/zmcvf4fO9GJWt8b2I0CAAAECBAiMi4BAelxa2nUSIECAAAECBDoQmOuD9Xan6CSgzYPbPDTNyNdMp9iuJPBJMJORhSl5UFivk9jcPqPLEoTmIWUeWmYK4Ze+9KVtp1nMQ9WMqsnD6Ew32lo6qXs3++TBdwLiel3SjEL993//97ZT2mba8owqzMPQjErqpuShb9bKTHiQkoerMcn0mQkNZzMivHn+GMcoU42nZNrz1DGjuFrDy4QXCfQymipBf2vJfgmyMuVxXhxoVxLcvOIVr6gsUtIXEii3K92sB93NPpmuNKFY/fA/fTjX0vryQn6fEbH1tSfkTciePtoszUA6v8sD/zxoz+i91rUrMx14HezNNpBO2JkH/XnAnlGNrYF9axiQqe/TZ9qV5gi+fJaybaZmb5YE8hntms9c+kb6Q0ovR0g3g71cX9omIVpdMtK4HmGcwLieinWqz1SzP8Q53hkFn5cAmsFVgpeM4qtHMSasy7nbTdObfpBwJp/rlLzMkv3qadrzs3yuEkRnNF593vx8EAPpfJ5z/QntphqdmFHz+X6tZ4J497vfXd75znfO+LlNuBmL9KV8Pza/FxLm57Mx1UsSU7Vpfj6bQDqfkdxP6lG0vVxDuq5j/PKSSh2sZZrgtH9rWYhAOi8TZeaKfM8mjG838j8vUaRNP/CBD1RVzijyBI9TzRLQ6VTw07VhN79Lf0k75uWYzJ7SfMErL/3k+7ldyYsrmZ4/Jf0ws4HMVDKTQr5DU3KfbYbwM+3b+vt8p2ba+pRMHb/zzjvPeIh8n9cvZB1++OElM5B0W9oF0jlWpmk/9dRTq78fct/KC3XN8ulPf7rkhb2UhPgJ8zsNpPMSS66hHmWelwwPPPDAe7wwkJeP8p2c+0vKM5/5zGoJhHYlL86kDikJra+55pp73H+b++WFrdzLUnLvzYtnCgECBAgQIECAwNwEBNJz87M3AQIECBAgQGCkBJoB7FSjSqe64KlGNHUT6k6H2lzPM6NdWkeZZtRsPRooo2vyULTb0k3dO9knD/cTMKZktFkC+alG9XRb99b9EoQ+97nPvceU2BmFnFAsYUPaPCObmyHedOfP1MSZxjgl4VFGFLWGpr2qf32cPPhOm2dEXh5Y16PQWs/TTbjczT4J2hLKpSSUzHqfU5UEIpnOth5NlinY67W9m9fXDCcTRiS4ztqh05XZBtI5Vto+YWFzetfmORJi1CFTQpB6Hd3mNgkOmi+RZPTzc57znLZVzWj/9LM6eMtGvQyk458XUFJSh9SlWdJO9YsnCU8z8na6qbWb/SHHycsG9dTNrReY/pg2qqd3bde22adpmgAnJplRoF054IADJr2EMoiBdKef75tvvrlssskmVVCfgDdOrS9j5Fit5pkiOf1upinQO61HtptNIJ0gsZ4xI/u2G6Haixe58pmv14vPSzd1P25eVzPInWrGjub2+Y3hdwUAACAASURBVO5IGDlfJYFuvbRAQsGEg+3KfAbSmSo7a19PVfIiQOqcGQumKrk31zMgZLmFvHwxU2lOw55j1y+rzLRf6+8TRDeXpuhkqukcI7OvZM3llE5HdU9Vt6kC6eZa1Vn2oV4SoT5OPruZrjyf3bzYkFlvOg2k88Jh/p5IaXfsZl0zm0z+dqlfGsiI/easNfW2CaDznVvPTDFdH00Qnnavl5HJ3zrtXlqcbXvangABAgQIECAw7gIC6XHvAa6fAAECBAgQINAQmM36u61wUwVLnQS0s2mEjBauQ7x2U2E2H5JmVM2//Mu/zObwk7btpu4z7ZOHoglE6lCu0xFPXV9EY8eM9kloUI+2anfMhAUJejMaNsFIpsmcqiQYzgPmlE5GnPbiGnKM+qWE1DXTAme93dbSTbg8230yVXVGL2fkbIKNq6++uprKdrqSh+XbbLNNtUlenMjMAM3SHCGdnyeUrKdEnu643QTSGfmYKbSnKnnAX09rnfC6HtHf3D6zFuQ4KZl2ONP1Tlcyer4Z2vcqkE6fzvSw9bTpeQEjoV2zZOrYhAx1/8+I/YQmU5Vmf8iI64QqOcdUJZ+BOgDMFN91mF9vnyAk+6ffpEy39mp+n6AlIU49xf0wB9K5nowUzQjTlLwIkVkCWktrIN3upaNpO1gHv+wkkE5bpX0SRufznZIZHDIis/Uz3otAOrMs5OWElASeCT5by2xnsphqeYQOiLraJMsk1EFgvlfq74XprmOmNYS7qkhjp+kC6czGkeA/y4RMV+qlQ7JNp/fr5ndBzlOHw7O9nnxXNOuX7+S82DFTyd9I+VspJX24XqN8pv3a/X6qQDrfo/k+zfdqlmio/xbIMZrhb9ogwXRKJ4F0Pgf1VPx5ySffAe1eXmnWNS8A5YWhlEyPnr8N25V6VHd+N92LAs3R3Zn5JS/StPs7oxtP+xAgQIAAAQIExllAID3Ore/aCRAgQIAAAQItAoMQSGdkSkK7rD2ah7F52JmRpXXJg856qs12I8kydWM9SjdhYR6STxciTdcJZgqX2+070z4JhTMVZEqmNs06iPNZEppmSukE9+0CxmZd4nfsscdW03K3loRzCXbqkhGPCc96UTJyNe0Wm4RxefDdDC4y4q1++J1pNNuNyp5tuJx6z3afjHrLdNUpnY7Gz3Uk0Eo/z0j03//+95PIWgPpTkfEdRNIxzltPFVJXRPG1AFuPoutYVxGPNfrQ3eyvmkC62Z/6lUg3XwRJdNpZ2rwhMitJaFFwouUtF09U0E7g2Z/yDrp0420zP7NUCSzEWQ5gGbJ+tN1CFuvjb7aaqtN+5F5+ctfXo4++uhqm0EPpDOKNN/dCc0yJXkC9ebntrmue75X6ul8mwBN88c85jETIW0vvlfqYzQD6YzEbAZ8qW+mdf7+978/Mdo9+2WUZ+477dbi7UUg/cQnPnFi6YNmgNe87oUOpDN9eWakSGCYgC7fB83ZDvLvtGvKdJ+X+Rwh/eEPf3jiXpFlAjJlfqayzvdDSmYnyPTxCdCn8k0YWo+qzXdArm2mctBBB1XTmKdMtbzITMfI73NfbU6FfeWVV3a0jnFeKKuXN8nI3ozw7bZMFUjnePkb7FOf+lR16ObI5Ob02M3PeieBdKb3fvvb314dM6OuM0J6ppLvnnqWmay5nftmu9K8T0wXNNeju3OMme4TM9XN7wkQIECAAAECBP5PQCCtNxAgQIAAAQIECEwI9OLBeivnTAFtvX2CuTzEzcPLPNjupGRayq985SuTNs1D8wS9CUxTEk5ljcEECVtvvXW1znGnpdO6N4830z7NaU0z3XXWslyIkiAhAVHW3c0D+jzArdeYbtYnU3GfdNJJ9xhJ+vnPf35imtNeBevnnHNONb1o6tTpyLmpplCdbbica57tPs1pWWczxX0CxoR1KZkStLnWcDOQTmiZ4DptMFOZbSDd6ejJTG197bXXVqfPywzNdYIT0mQEfT5zKZ2E57nejDSr27dXgXRz5FvWeK1H4ra6ZZrWXXbZpfrxTCPfmv1hv/32Kx/60IembYaMAqxHXLcLFZuj7joNW7O27b777ludd1AD6YxgzIjQjB5tvjw0HVbW4X7jG994j02a5gnj6+nwZ+r/s/l9M5DuZL8EXRlJW/eb1n16cd/cbLPNqlHjKe2mm8/PF2IN6Zw3L6RkTeu8cDLTS0y1zXT9ez4D6Xbtm++tvFyQkbT1d9t0oa0R0t8tO+ywQ0WZz0JeRqhL877TXCs7yzhkOYe8wJTt63tcJ4F0c7rxhP+ty7K0a9PcT/JdmZK15utZKFq3bZ1JI5/rhOrNkj6RF7XqlxBmmkmjk+8Q2xAgQIAAAQIECPyPgEBaTyBAgAABAgQIEJgQ6MWD9VbOmQLabJ/wONP9ZsTmbEoektbrDDb3yyjphAf19L317zJi8nGPe1x1rvw+I2unG3XWSd1ne70JGzKdcEpGAiWAHZSSB7F5UJ9pzq+44oqJauUhdKaqba5lmSkxE9KlJAz85je/OafLSPCUNYA7DaLrk2XEeUaDtZbZhsvZf7b7PO95z7vHOsWzRWgdWd4MpDNVa0b0dVJmG0hn1F390sZ0x2+Gd63hcUavN9cbzyi1TGs8U8k+9TTUvQikW9cG/d73vle23XbbttVIYJpQvXadbm3QZn/IyzKHHHLItJc2Uxsk0K5D2Ew7nxc9Zip54aaeenwQA+mENbvtttvEtNYzXU/9+1jGdLrPbafT1Xd6znq76QLp3A8yaj39OCMtsw5yRtVP9yJTL+6bzTpNtRb9QgTSGemeUPDiiy+eFXPWxM49o11Z6EC6rlPqt8UWW0x8F2X0bD3tc7Pe1pCeOpDO/TptnXtJlnXI3xCZ3SYzZ6Tk3px7dF06CaSbs27MqtP978YZ0d4cud96jHy+6jXa89n9zne+M2mTLLuQF2xSHvzgB1ej1Hu5hn0312QfAgQIECBAgMCoCAikR6UlXQcBAgQIECBAoAcCvXiw3lqNTkLd5nSlGT2ZkcMZaZj1AxMMJAyoHwjOFPrU50+wlykzM5K3Ho3aWrcc/7DDDqvW7GxXOqn7bK93p512Kqeddlq1W9Z1zPqOg1ayZmoeJNdrUKZ+revdvve9762mOk1pNz3xbK4pU/xmRF39EDn/nYfGWWt5vfXWqwKi5lrWmfK8fsid6ULrKdCb55xtuJx9Z7tPsy1nc73NbVsD2WYgnWvPvzspnXwuujn2dIF0Rkw3p/xuHe09Vb0ztXtC5JReBNLN6WHXX3/9kmltpysJhevRznkpJdO+tyuz7Q8ztUGmnj3wwAOrU+VlhhNPPHHGps13RfpZyqAF0hmFmNkRbr755qp+CaYyOj3f5/nvTIecz20dQHbi2ck2M6LNsEEna0jP5hxzvW/m/pQZC+rR5flerad7btZjIQLpTFecpQlSVlpppeq7Ni9zZdRqlsLIvble37fT75dBCaRzTc3PZMLp888//x5N/6hHPaqahj4lMy+kj89Unv/85098vpsjh2far93v8yJYvWxCp2tYb7nlltXMJykJWPfff/9uTl3tM92U3fl9vtPqabUzY0m2r9dwbp3ivJNAOt8pzRfiuqn4dC+2ZQaWvJSYkr6YftucFj3LKmR5hZQE0/kbUSFAgAABAgQIEOiNgEC6N46OQoAAAQIECBAYCYG5PlhvhzBTqJu1Orfbbrtq1wSPmUa6uaZn6zG/9rWvlUzpmDJVQNPcJw9yc46ETnkQmXUO64e79XYf/OAHqzUkW8tMde/megd5hHTzehIu5iFtRsiltE6f28sR0q9+9avLJz7xieo8GTmaUdqZrnqqkgA8D75TFjKQzsjVesr4BJz1iPG5fBl0Guq0nmOmMDTbd3Ps6QLp9I1MiV+XhRohvXjx4pJpo7spCSQSfiTIbi2zDUdnaoPMPFB/zyzkCOmMDN1ggw2qy53upYeZgsNM45w1XlMymjjfsa1rjDdN//Ef/7Fkqu6Ugw8+uHoBZK7m3bT5oAXSreuqf/3rX287Pfh8B9J5aSQvnCTcS+ic2UjqIK+de0bG5mWiufarbtq0232yJnaW8kjJS2+577WOhs8La7knpWRGk8xsMlPJMXPslNwrMz14tyWfrXqEeqZN32effWY8VF4WqGeB+OpXv9p27fMZD/K/G8wUSC9ZsqR6eTBl1113ra47L6uk7+Se0xxd3Ekgvfnmm0+sHR/3zMDQy5L+vOGGG06M4M/LdfWa1Vl2Ii8m1CXTjueFBIUAAQIECBAgQKA3AgLp3jg6CgECBAgQIEBgJAQWIpDOSLB66tY8tK1H1kwF+uEPf3ji4W4ngXTrcRJGZ5TRoYceOvHQM1N5J6Rpro+b/foRSDfXkE4Q+7GPfWxg+04eBOdhdsrOO+9cudWluYZ0Hkb/7Gc/6/o6Eo7V07tecMEF1bTq05XmlJ4LGUgnGKjXAM86v+mbcy3dhMY550xhaLbp5tjTBdKDsIZ0RjRm/e65lASjCUhbS68D6eOOO25ievleriH9mc98puyxxx5V9V/ykpeUrFU9XbnooosmPmNzCaR33HHHiSUTvvjFL1ZrH09XmlPcC6T/TyrfHfX6twnvfve731Wjy1vLfAfSzf76d3/3dxP3gqnaOEF6tkuZS7+ay2d5tvv+/Oc/LxtvvPHEbgnhM01zsySsrEPoTpanyEwfab96ZpasLZ815bstzVHquecklJ6uXHfddZOuIYFxAthuy0yBdI6b2Uzysl+zvO1tb6vWHm+WTgLpGJ966qnVbkcccUR585vf3G3Vp9yv+d2eFyDrEfDN2TPyd0Y9yrznFXBAAgQIECBAgMCYCgikx7ThXTYBAgQIECBAoJ3AQgTSzYC2k9E/zakwuwmk6+vO6M6MfPnNb35T/ShrCr7iFa+YxJI1qvMwNiXrDMZnpjJTiJ2ppusppjM1ZR6ID2p5wQteMDFtd8LpepRY6ps1IxNW1qV1LeTZXFNGpN1+++3VLvn/TA07Vcn0wJnGfdmyZdUmUwXSWaO2HoE5VfjVeo7Z7pNpzF/5yldWh8kD/zz4n2vpJjTOORcikM55M5oso8pSOvn8to4GneuU3XmJpX4RIGuYdhq8/P73v59or4yOzijp1vXkex1IN0eQZgaA1GG6EcUxzcwERx99dOU71fddXhqpRxG2vjjSrj8ee+yxZa+99qp+NZfgMNM2J2BKyf83g73W82Y66kzVXn/fCqT/R+jGG2+spjfPyNyUrFl98sknt/0ame9AujkVficjg7PmdwLEufaruX6Hzmb/1u+jvLDWXB4ix0qgnCVEUrKkSEb/5iW2qco555wzsYZ9jpU2XnXVVWdTrUnbZvaQvLyWks9Y/Zmb6oCZYj0hdkpGKf/617/u+tzZsZNAOlOZZ2ryZknI2zrbTSeBdF5QrKesT5Af/16XvACXe0U9tXdm5slI9HxH1SPLB3VJlV5bOB4BAgQIECBAYD4FBNLzqe1cBAgQIECAAIEBF1iIQLo5OizTuWaEylTl2muvrabWzRrHKXMJpLN/c+rnjOTJiJ5mSTjwzW9+s/pRRuzUa7lO14wzBdK5hoRA9XrJOX5GBA1iycPvOjBvN3q9ubZmJ4HFVNeYh/V/+tOfql8npFtjjTWm5Mj06s0RU1MF0s0wJSPcMi3nTGW2+2Q0XUL5ui0znXymLJ1LGbZAujkNc6bzTcAzXWlOz57t5hJI56WEddddtxpRmnLkkUeW17/+9R3xZ/3rfA4zyjsl001nPelm6XUgnXNlKt0EWimt67K3VjwjLBOQ3HTTTdWvpvq+awbd8Ui/bA3Xm8dOHz3ppJOqH80lkG5OlZ6XEhLoTFUygjojpOsikC5VGJa2aAbQZ5999sQSFq2W8x1IJ1xOyJySz1U+X1OVfH/n3lyHedP1q+YLSH/5y1+mXZ6how/zHDbK2sof+MAHqiPkuzzfR60l3zN5CapeKz2B7wtf+MIpz9qcOaOTkeUzVT+mGbVdf1cl8K6nGW+3b3OEcSezzsx0/k4C6bzgl++e+m+zzFqRkLe1dBJIZ7+tttqq2jV9/pJLLilZ17nXJferLOOS8rrXva6aBaa+f+eFoYw0z0tOCgECBAgQIECAQO8EBNK9s3QkAgQIECBAgMDQCyxEIN0MGKcLmDPCLqMA6yAl2O22TzjV6UPEPDTNlL8pGYW09957T2rDTIOb6XBTpgo+Wxt9pkA62zePmwf3WXNxnXXW6Vv/yfHz4DWj0TsdqdUcyZ2KxT3r3jbLf/zHf5RXvepV1Y/yAPfb3/72PUK9Ti4qD5svu+yyGZ0zAjkjcm+55ZaJw07VLs26ZTRoPcp0uvp0s09zBGumfI9169Tv7c6ZcCF9NUFHswxbIJ12a4YFWds7a662KwkWMg1qHeBnm7kE0v/1X/81MU101rhNEDubz1FzBoSMdE/7N0uvA+kcOy9T5DsvJWu0x6Td9Mz5fXPEaf491fdjPLOWd/25mO4ll3yOmy9NzCWQTtiWaZpTppuFIAF8PreZRaEu4x5IZ0R0+twJJ5wwYTLTdOvzHUg3XyLIsgoJE5dffvm2n+3mTCfZYLp+lZcs8lmd6+e/XUVmc//PSxTbbbfdxOwcebmmDqdbj90MrjOzST63rWtNZ598H6avJ2hP6dULZ7vvvnv5whe+UB0zL87kxZ92L53kxbn6Bbd8J/7oRz+a8xrInQTSqddPfvKTiRfL8j2c0dmtpZNAOvs0v5uzvEH+fsno9JlK3PMiz3QvtdXHyKw49d98D3zgAyvX3FNScg/LvUwhQIAAAQIECBDorYBAureejkaAAAECBAgQGGqBhQik84AyI23rqRPzUDjTNTYf9maa13/4h38oX/nKV6pAtV6bsV1AkxApU0tnJGYeKmbUTmtJcPOe97ynHH744dWv8uA2wVjrA9TmiNlddtmlZATsdCMPc6xOAukEMxlNWI/szJStmfKy3UjpjI5MaJEphev6zraT5aF4RnvnoWtCjwTiWac565W2lj/+8Y/VSLissV0Hh6lr1lKMU7Pk92mD73//+9WPV1lllWrK1oTUCaibJQ+KTznllGpUaP3Qt/59RqYfdthh1T/zIDkj0FotEna/9KUvLRlh3uwDUwXSCYbrUWQZlZp+tvrqq09L180+GUWVACL/n5L+lnXQs55uO98EMQkWPvKRj1SjDjMyq1mGLZBO3ZtTu6dtEv43R8Nmm+9973sl0+3HKX2jDmzmEkg/+9nPrr4TUjKlbvrXbErzBYSEHfmeaX7v9COQzvXn+64e9ZyRgOnv+Q6oSz5XWbM2U9dm+vpOZoRIuJnPVkq+x/KZz3nqku/XrC2d79G83FMfcy6B9Mc+9rHqeCmpZzzrtazr8yb0y88yfW/zczuugXT6WNoh3xHNgD79IMFf63TRzf4834F0Rr0mPK5nr8i9I9PjN1+gyP0iL1nkha5m+07Xr5ozj+QeW4/Cns1nd6pt8zJQvmf23HPPiXXSW7fN9eQ7KjNn1KOec9/52c9+do8XhOp9c6/OFM/15zbfN5/97GcnvfyWkDrfSfkOT0moevrpp095WalDXmhqfkan2jj3rwSz9VIVuRdm3fHmC2ZZViTfu5llJCXHrr8T5mLbaSDdyTk6DaQT7Gdd6noq+8zWkr431Vrc+fvo85//fGWS76VOZipJ383fBpmmvbXkb8h6GYROrss2BAgQIECAAAECnQkIpDtzshUBAgQIECBAYCwEmmFqRg9vueWWHV93wsh2gWknAW1GsGZd07ok1Mv511577erhbqbTTYC12mqrVYFnHYJMFUhnLeCUPMDPyK5NN920CmPzMDeBZgLUOtTOdu94xzuqgLq1ZERuHoTWYXmOs+2221b1qEum7syoz7p0cr3ZNgFrHl7XD1zzszzEj3lGO+bnmS774osvrurduoZzxw1z94Z1IN3cJwFcQulMBZr/zkP6K6+8shoxXodV2T4jnfKgO+vFtiuZ+vipT33qpPWTE1g88YlPrMLZ1D3rTV9wwQUlD4ATCtcP9evjXX/99VUb1VMZ5+epWwK1tGFCrR//+MfV5gmq0y+OO+646t9TBdIZgZyQr14/Mw+eEyKkH9TBTvpYwtS6dLNP9k1Yn9HjWSu0LqljQqb41aOh85A9a1fW/andGpXDGEin/XKtdRATg3xu0pczojJTStczEbzpTW8qGXmZPpGS/89I4dmWWKfv1gFNRvQnpJlNST9Mv6j7e2ZDqNdezXH6EUjnuAlOXvSiF030gxhl+thMeZzPSEY/ZpreBPdZSiCjM1OmC7hin89Q/b2WffP9WB8z33n5LOSlkgQ29cjAuQTScUtIVk/rnzrme2KzzTargtX097rd87N8dut7xKgG0q33zXz206bpaxlB2m5K6Fe84hXVS0AzrSc+34F02jPtlJeT6pJ7Uz7rCX7zckXCyvS59KuEn52sTd58ESTXlHtmpn/PSw11yT25k1GurZ/33HvqkDnf9el3uQ/FNve4fE5yL2re//O7TJveOmV/67HzwkuCzvpFrYTBCUhzngSi+Tul/m6PT6aeznfUVGU2gXSO0RzRm3+nLXLvzd8juT82p8jO5zLTvzf/VpnNd2Nz24UIpHP+zL6Q+3P9QkR+lpdt8hmLef4mzN8MeREgf4fUZTZLZ+Qli7xY0Cw5dv5ObH2prls/+xEgQIAAAQIECPyfgEBabyBAgAABAgQIEJgQaIaps2VpFzTmGJ0EtHngmNHMmW5yqpKRWscff3wVQCWYSWkXSLeuMTzdday44opVGJ2RiFOVAw88sG1YXW/fGoh2cr31vnmQmgf4+f+ZykzTuU63f0Z+ZV3LPKDO6MhOS0ayZSRvc/Rmu30zIisBV+vI53bb5kF98+FxvU3WxXzWs541KdRt3T8Bfh7i77fffiUBZMp0U6knZMhI5WbA3jxmu6m8u9knx0ywmlGqedGgk5KgOtfQOhJ8GAPpXG+CtrRfPfV6O4P0kYxgy1qteeCfMtOa4VNZZoRp+kFKRjUnwO0mfGmuI986yrpfgXTqnLZ/7WtfOylsaV5rXhLJSzp50Sf1SolvPSK8nUtePMn1NAOc1mPm85KXPerP9FwC6Rw7YXS+J/KixVQl0yInhM8o2vploVENpDv57GebzJ6QNWvf8IY3lJ122qmj3RYikM79IoF584Wx1somBE6/2nzzzTvqVwl006fzotNUpduZE/K9mhdkOi25X2d2kk022aSjXRJ25nu++fJU646ZUSSzHuSlnOnKbAPpHCthfvpMM1BvPceOO+5YvbDVbnaYji6yZaOFCqRTjfxtFO+8RNBJyb0lf4ekL3ZSmlOc19vPtF56J8e1DQECBAgQIECAQHsBgbSeQYAAAQIECBAgMCGwUIF0KpCRZBmpkqDmoosuqkaVZaRKRvglZHnZy15WjZhqPhydak3VhHrf+ta3qpHQGZ2Zf+d4CQHy8Dyj+DKyKCMqE8jMVBL0ZPRXRvsl+GoGPnMJpHPejKjK9JD5X0LZHD8PmxNI5dozyjRrtSa4bDcF9Ex1b/4+o0rjl2A6LhnVlalIb7/99ir4im8ezOecmfa0uTZwJ+fJSOG0Yc6R0DlTviYszMsEeUCcACZTik61jnWChA996EPV1Oh1wJWH6pkSO9P+xiElfaGTQDrbZuRYpvrMNSc0zsjzehTbVGtLd7NP7ZM2PPHEE6vRcpmSNwYZAZt1zbP2aEbTJ4zJZ63deqzDGkjn+vOySAKThDEZDRrreraDTONeB2/pa5kmNQFb9mmdCr6TvpY+kZHzKemrCTy7KVknNN8vKfl8ZRRxvQZ4PwPpnC9tnWA9L0Gkr2REXkYApp9nFoiMHM91ZRaGlHxf1f1+qmvNcbIObkZz5r9jm+PkmFnnN//daR9rBqD1Z6bdefPdmhdXYpmXXzJyMSPP8/2REedZ/zZ9vRPPTrbppp2b+yS0qkfoT/dCS6fnme6+mZee8l2eF7YSliaszHdAQsN2a+xOd86FCKTr+mS06sc//vGSZQ3ynZZ7RfpSZu5IYJ2RwJ32q/q7IvfUzJaQe1FeTKmn8c/vuw2k872S+0/WHE6ImXtc7iu5Z+d7J/f/3OMyyjbfG50Gl812SRidfpPgM/epjH5P22aUd2Y+yP86GV3bTSCdeuQ7KqOlc5/Mf9ffs3nRJPfJvLg109IinfbtbLeQgXRdzwTH+RspSz/kZaaYZ0T9WmutVTbaaKNqeY78jZRpvmdz7fm7M/24XtM858vfebm/KAQIECBAgAABAr0XEEj33tQRCRAgQIAAAQIECBAgQKCNQKbBT4CQkhGEWVNUmVogMzhk2u6UrCv91re+FRcBAgQIECBAgAABAgQIEBg6AYH00DWZChMgQIAAAQIECBAgQGA4Bd773veWd77znVXlM5qvXgt8OK+mv7XOqOSM5qzXaD7ttNOqkbUKAQIECBAgQIAAAQIECBAYNgGB9LC1mPoSIECAAAECBAgQIEBgCAUyTXKmyM10qyknnXRS+du//dshvJL5qfKRRx5ZrRebkqnPMz1vu2ne56c2zkKAAAECBAgQIECAAAECBLoXEEh3b2dPAgQIECBAgAABAgQIELhb4AUveEG1Juuuu+5are3ZWrKm8d57712tLZ6S9YUvvvjiOa+LPoz4Wds+68fuu+++ZbPNNrvHJWRN2KwD/e53v7tkjdOUww8/vOy///7DeLnqTIAAAQIECBAgQIAAAQIEikBaJyBAgAABAgQIECBAgACBOQk87GEPKxkBvdpqq5XHPe5xJf9eeeWVy+9+97ty7rnnVqN767LqqquWs88+uxotPY7lu9/9btlhhx2qS19vvfUqh7XXXrv89a9/LUuXLi0JrG+99dYJmu23376cfvrpZbnllhtHLtdMgAABAgQIECBAgAABAiMgIJAegUZ0CQQIECBAgAABAgQIEFhIgTqQnqkO66+/fjnhhBPKF8RxHQAAIABJREFUFltsMdOmI/v7ZiA900W+8IUvLP/5n/9ZVllllZk29XsCBAgQIECAAAECBAgQIDCwAgLpgW0aFSNAgAABAgQIECBAgMBwCFx11VXlS1/6UjnrrLPKL37xi3LjjTdWo6NXXHHFstZaa1UBdKbzfvGLX1xWWGGF4bioPtUy03CfccYZ5eSTT65Gj1933XWV1y233FJWX331smjRopJR0XvuuWd5whOe0KdaOCwBAgQIECBAgAABAgQIEJg/AYH0/Fk7EwECBAgQIECAAAECBAgQIECAAAECBAgQIECAAAECBMZKQCA9Vs3tYgkQIECAAAECBAgQIECAAAECBAgQIECAAAECBAgQIDB/AgLp+bN2JgIECBAgQIAAAQIECBAgQIAAAQIECBAgQIAAAQIECIyVgEB6rJrbxRIgQIAAAQIECBAgQIAAAQIECBAgQIAAAQIECBAgQGD+BATS82ftTAQIECBAgAABAgQIECBAgAABAgQIECBAgAABAgQIEBgrAYH0WDW3i51PgWuuuaaceOKJ5eSTTy4//elPy29+85uy5pprlu22264ccMABZauttprP6jgXAQIECBAgQIAAAQIECBAgQIAAAQIECBAgQIAAgXkXEEjPO7kTjovAW9/61vL+97+/bLDBBuXJT35yWXvttcuSJUvKl7/85XLXXXeVz33uc+X5z3/+uHC4TgIECBAgQIAAAQIECBAgQIAAAQIECBAgQIAAgTEUEEiPYaO75PkR+NKXvlTWWmut8qQnPWnSCc8666yy4447ltVWW61ce+21ZaWVVpqfCjkLAQIECBAgQIAAAQIECBAgQIAAAQIECBAgQIAAgXkWEEjPM7jTEYjAM57xjHLqqaeW8847rzz+8Y/vCcrtt99eLr300upYCcKXX375nhzXQQgQIECAAAECBAgQIECAAAECBAgQIECAAIHOBe64445yww03VDs8+tGPLiuvvHLnO9uSwAgKCKRHsFFdUinXX399Offcc6v/JfTN/373u99VNHvttVc5+uijO2b69a9/Xf71X/+1nHTSSSX/nRHNG264YTXd9mtf+9qyyiqrdHysesNdd921Ot5FF11UNt9881nv326HXOOWW27Zk2M5CAECBAgQIECAAAECBAgQIECAAAECBAgQIDB3geQUT3jCE+Z+IEcgMMQCAukhbjxVn1rg7o495S9nE0gnNH7JS15Sbr755rbH23jjjcvJJ59c1l9//Y6bI6H2RhttVNZYY41y9dVXl+WWW67jfafbUCDdE0YHIUCAAAECBAgQIECAAAECBAgQIECAAAECPRMQSPeM0oGGWEAgPcSNp+pTCzQD6Yc85CHlkY98ZDVFdkqngfQll1xStt122/KnP/2p3Pe+9y1ve9vbyg477FBuu+22cvzxx5dPfOIT1fE22WSTagR2tpmpLFu2rDztaU8rZ555Zjn22GPLnnvuOdMuHf/+l7/8ZXn4wx9ebZ8b3LrrrtvxvjYkQIAAAQIECBAgQIAAAQIECBAgQIAAAQIEeiNw3XXXTcxoetVVV5WHPexhvTmwoxAYUgGB9JA2nGpPL3DwwQdXU2Dkf+uss05phrWdBtIJn7/73e9WazEnQN5mm20mnfSII44oBxxwQPWzQw45pBx00EHTVurOO++swvBPf/rT5VWvelX5+Mc/3tNmzGjrhO8pS5cuLYsWLerp8R2MAAECBAgQIECAAAECBAgQIECAAAECBAgQmFnA8/qZjWwxXgIC6fFq77G92tkG0s3pr/fZZ59y1FFH3cMuAfOmm25aLr/88mr67d/+9rdlhRVWaGt81113lb333rt88pOfLHvssUc55phjyr3vfe+etocbXE85HYwAAQIECBAgQIAAAQIECBAgQIAAAQIECHQl4Hl9V2x2GmEBgfQIN65L+z+B2QbS73jHO8o//dM/VQf4wQ9+ULbaaqu2nIcddlg1lXdKpgTfaaed7rFdguuE0Z/61KfKi170onLcccf1bN3o5snc4PR4AgQIECBAgAABAgQIECBAgAABAgQIECCw8AKe1y98G6jBYAkIpAerPdSmTwKzDaS33377ctZZZ5VVV1213HTTTdW03e3KOeecU60znZIpuzN1d7M0w+gXvOAF5TOf+Uxfwuic0w2uT53HYQkQIECAAAECBAgQIECAAAECBAgQIECAwCwEPK+fBZZNx0JAID0WzewiZxtIr7XWWuXGG28sm222Wbn44ounBPzDH/5Q1lxzzer3u+++eznhhBMmtk0Y/cpXvrIcffTR1e8++9nPThls96KF3OB6oegYBAgQIECAAAECBAgQIECAAAECBAgQIEBgbgKe18/Nz96jJyCQHr02dUVtBGYTSN9+++3lPve5T3WUXXbZpXz961+f1vS+971vufXWW8vWW29dMmK6Lu9617uqEdP5/X777dc2jH72s59dNt98847aLDew6cp1111Xttxyy2qTpUuXlkWLFnV0XBsRIECAAAECBAgQIECAAAECBAgQIECAAAECvRMQSPfO0pFGQ0AgPRrt6CpmEJhNIH3DDTeUtddeuzpiptk+/vjjpz36OuusU66//vqy6aablksvvXRi25e97GXlmGOOmXbfrCud7Topd39YO9ms2kYg3TGVDQkQIECAAAECBAgQIECAAAECBAgQIECAQE8FBNI95XSwERAQSI9AI7qEmQVmE0gnzH3oQx9aHXTPPfcsxx577LQnyLbZZ4MNNihXXHHFzJXpcguBdJdwdiNAgAABAgQIECBAgAABAgQIECBAgAABAvMoIJCeR2ynGgoBgfRQNJNKzlVgNoF0r0ZIz7XOrfubsrvXoo5HgAABAgQIECBAgAABAgQIECBAgAABAgR6LyCQ7r2pIw63gEB6uNtP7TsUmE0g3as1pDusWs82c4PrGaUDESBAgAABAgQIECBAgAABAgQIECBAgACBrgU8r++azo4jKiCQHtGGdVmTBWYTSGfPtdZaq9x4441ls802KxdffPGUnH/4wx/KmmuuWf1+9913LyeccMKC0bvBLRi9ExMgQIAAAQIECBAgQIAAAQIECBAgQIAAgQkBz+t1BgKTBQTSesRYCMw2kN5+++3LWWedVVZdddVy0003leWXX76t0znnnFO23Xbb6ncHHXRQOeSQQxbM0w1uweidmAABAgQIECBAgAABAgQIECBAgAABAgQITAh4Xq8zEJgsIJDWI8ZCYLaB9Nvf/vbyvve9r7L5wQ9+ULbaaqu2Tocddlh529veVv3ulFNOKU9/+tPnzXPx4sWTzrVs2bKyZMmS6mdLly4tixYtmre6OBEBAgQIECBAgAABAgQIECBAgAABAgQIECDwPwICaT2BwGQBgbQeMRYCsw2kzz333IkQep999ilHHXXUPZzuvPPOsummm5bLL7+83P/+9y/XX399WWGFFebNUyA9b9RORIAAAQIECBAgQIAAAQIECBAgQIAAAQIEOhYQSHdMZcMxERBIj0lDj/tlzjaQjlc9bXem6z7zzDPLNttsM4nxiCOOKAcccED1s4MPPri8613vWlBmN7gF5XdyAgQIECBAgAABAgQIECBAgAABAgQIECBQCXheryMQmCwgkNYjRlLg7LPPLldcccXEtd14441l//33r/693Xbblb333nvSdb/sZS+7h8NFF11UbXvbbbeV+973viXTeO+www7Vv48//vjy8Y9/vNpno402Kueff35ZbbXVFtTSDW5B+Z2cAAECBAgQIECAAAECBAgQIECAAAECBAhUAp7X6wgEJgsIpPWIkRRIwHzMMcd0fG133XVX222/9rWvlT322KP88Y9/bPv7hNEnnXRS2XDDDTs+V782dIPrl6zjEiBAgAABAgQIECBAgAABAgQIECBAgACBzgU8r+/cypbjISCQHo92Hrur7FUgHbhf/epX5cgjj6yC59xEVlxxxSqA3n333cvrXve6ssoqqwyErxvcQDSDShAgQIAAAQIECBAgQIAAAQIECBAgQIDAmAt4Xj/mHcDl30NAIK1TEBgRATe4EWlIl0GAAAECBAgQIECAAAECBAgQIECAAAECQy3gef1QN5/K90FAIN0HVIckMB8CixcvnnSaZcuWlSVLllQ/W7p0aVm0aNF8VMM5CBAgQIAAAQIECBAgQIAAAQIECBAgQIAAgYaAQFp3IDBZQCCtRxAYUgGB9JA2nGoTIECAAAECBAgQIECAAAECBAgQIECAwEgLCKRHunldXBcCAuku0OxCYBAF3OAGsVXUiQABAgQIECBAgAABAgQIECBAgAABAgTGTcDz+nFrcdc7k4BAeiYhvycwJAJucEPSUKpJgAABAgQIECBAgAABAgQIECBAgAABAiMt4Hn9SDevi+tCQCDdBZpdCAyigBvcILaKOhEgQIAAAQIECBAgQIAAAQIECBAgQIDAuAl4Xj9uLe56ZxIQSM8k5PcEhkTADW5IGko1CRAgQIAAAQIECBAgQIAAAQIECBAgQGCkBTyvH+nmdXFdCAiku0CzC4FBFHCDG8RWUScCBAgQIECAAAECBAgQIECAAAECBAgQGDcBz+vHrcVd70wCAumZhPyewJAIuMENSUOpJgECBAgQIECAAAECBAgQIECAAAECBAiMtIDn9SPdvC6uCwGBdBdodiEwCAKLFy+eVI1ly5aVJUuWVD9bunRpWbRo0SBUUx0IECBAgAABAgQIECBAgAABAgQIECBAgMBYCQikx6q5XWwHAgLpDpBsQmAQBQTSg9gq6kSAAAECBAgQIECAAAECBAgQIECAAAEC4y4gkB73HuD6WwUE0voEgRERcIMbkYZ0GQQIECBAgAABAgQIECBAgAABAgQIEBgygSuuv6Us/f1tZfGD71fWvt/KQ1b73lfX8/remzricAsIpIe7/dSewISAG5zOQIAAAQIECBAgQIAAAQIECBAgQIAAAQILIfCBU35WPvydK8qLtnxoed9zHr0QVRioc3peP1DNoTIDICCQHoBGUAUCvRBwg+uFomMQIECAAAECBAgQIECAAAECBAgQIECAwGwF9j7mvHLa5deXQ561uOy17cNmu/vIbe95/cg1qQuao4BAeo6AdicwKAJucIPSEupBgAABAgQIECBAgAABAgQIECBAgACB8RLY7rDTyzU33VY+/+qty1brP2C8Lr7N1XpeP/ZdAECLgEBalyAwIgJucCPSkC6DAAECBAgQIECAAAECBAgQIECAAAECQyTwx9uXlce869SqxhcftFO5/yorDlHt+1NVz+v74+qowysgkB7etlNzApME3OB0CAIECBAgQIAAAQIECBAgQIAAAQIECBCYb4Hzf/n78ryjzikPut/K5Qdv33G+Tz+Q5/O8fiCbRaUWUEAgvYD4Tk2glwJucL3UdCwCBAgQIECAAAECBAgQIECAAAECBAgQ6ETg0z/4VXnnly8rT9l4rXL0y7fsZJeR38bz+pFvYhc4SwGB9CzBbE5gUAQWL148qSrLli0rS5YsqX62dOnSsmjRokGpqnoQIECAAAECBAgQIECAAAECBAgQIECAwIgKHHh3GH3c3aH0Pk9ev7ztmY8c0auc3WUJpGfnZevRFxBIj34bu8IRFRBIj2jDuiwCBAgQIECAAAECBAgQIECAAAECBAgMkcDuR32/nPfLP5R/ecFm5e8fa6BUmk4gPUQdWFXnRUAgPS/MTkKg/wJucP03dgYCBAgQIECAAAECBAgQIECAAAECBAgQ+D+Bu+66qzzmkFPLLbffUU5+/ZPKox58PzwCaX2AwD0EBNI6BYERERBIj0hDugwCBAgQIECAAAECBAgQIECAAAECBAgMicC1N91Wtj3s9LLcve9VfnLoM8pKyy83JDXvbzU9r++vr6MPn4BAevjaTI0JtBVwg9MxCBAgQIAAAQIECBAgQIAAAQIECBAgQGA+Bb7z0+vLy48+rzxi7fuWb73pyfN56oE+l+f1A908KrcAAgLpBUB3SgL9EHCD64eqYxIgQIAAAQIECBAgQIAAAQIECBAgQIDAVAJHnXFlOewbPy27Pmbd8uEXPw7U/wp4Xq8rEJgsIJDWIwiMiIAb3Ig0pMsgQIAAAQIECBAgQIAAAQIECBAgQIDAkAi86fMXly9ddE1589M3Kq976iOGpNb9r6bn9f03dobhEhBID1d7qS2BKQXc4HQOAgQIECBAgAABAgQIECBAgAABAgQIEJhPgb898qzyk+v+WD6+5xbl6YsfNJ+nHuhzeV4/0M2jcgsgIJBeAHSnJNAPATe4fqg6JgECBAgQIECAAAECBAgQIECAAAECBAi0E7jjr3eWRx18SvnLHXeWM/Z/SlnvAauC+l8Bz+t1BQKTBQTSegSBERFwgxuRhnQZBAgQIECAAAECBAgQIECAAAECBAgQGAKBK2/477LjB88o91lhufLjQ55R7n3vew1Breenip7Xz4+zswyPgEB6eNpKTQlMK+AGp4MQIECAAAECBAgQIECAAAECBAgQIECAwHwJfOPS68prPnNh2WzR6uUrr3vifJ12KM7jef1QNJNKzqOAQHoesZ2KQC8FFi9ePOlwy5YtK0uWLKl+tnTp0rJo0aJens6xCBAgQIAAAQIECBAgQIAAAQIECBAgQIDAhMC/fOvn5chvLym7b7GoHLH7ZmQaAgJp3YHAZAGBtB5BYEgFBNJD2nCqTYAAAQIECBAgQIAAAQIECBAgQIAAgREQeM2nLyjfuOw35Z27PLLs/aT1R+CKencJAuneWTrSaAgIpEejHV0FgeIGpxMQIECAAAECBAgQIECAAAECBAgQIECAwHwJPPWD3y2/uOHWctwrtyxPesRa83XaoTiP5/VD0UwqOY8CAul5xHYqAv0UcIPrp65jEyBAgAABAgQIECBAgAABAgQIECBAgEAtcPuyv5ZHHfTNcuddpZz7jh3L2qutDKch4Hm97kBgsoBAWo8gMCICbnAj0pAugwABAgQIECBAgAABAgQIECBAgAABAgMucNk1N5dd/+3sssYqK5QLD9yp3B02DXiN57d6ntfPr7ezDb6AQHrw20gNCXQk4AbXEZONCBAgQIAAAQIECBAgQIAAAQIECBAgQGCOAl+68OryphMuKVs+fM1ywj7bzPFoo7e75/Wj16auaG4CAum5+dmbwMAIuMENTFOoCAECBAgQIECAAAECBAgQIECAAAECBEZa4LBv/LQcdcaVZc+t1yvvfvamI32t3Vyc5/XdqNlnlAUE0qPcuq5trATc4MaquV0sAQIECBAgQIAAAQIECBAgQIAAAQIEFkzglUefV7790+vLu3dbXPbc5mELVo9BPbHn9YPaMuq1UAIC6YWSd14CPRZwg+sxqMMRIECAAAECBAgQIECAAAECBAgQIECAQFuBJx1+eln6+9vK8a/eumy9/gMotQh4Xq9LEJgsIJDWIwiMiIAb3Ig0pMsgQIAAAQIECBAgQIAAAQIECBAgQIDAAAv86S93lMUHn1LuuquUCw/cqay56ooDXNuFqZrn9Qvj7qyDKyCQHty2UTMCsxJwg5sVl40JECBAgAABAgQIECBAgAABAgQIECBAoAuBS6++ufzdh88uD7g7iL7g7kBauaeA5/V6BYHJAgJpPYLAiAi4wY1IQ7oMAgQIECBAgAABAgQIECBAgAABAgQIDLDAFy+4uvzjiZfcPVX3mndP2b3NANd04armef3C2TvzYAoIpAezXdSKwKwF3OBmTWYHAgQIECBAgAABAgQIECBAgAABAgQIEJilwPu+cXn52Bm/KC/dZr1y6G6bznLv8djc8/rxaGdX2bmAQLpzK1sSGCiBxYsXT6rPsmXLypIlS6qfLV26tCxatGig6qsyBAgQIECAAAECBAgQIECAAAECBAgQIDD8Aq84+rxy+k+vL+9+9qZlz63XG/4L6sMVCKT7gOqQQy0gkB7q5lP5cRYQSI9z67t2AgQIECBAgAABAgQIECBAgAABAgQILIzAE99/ern6D7eVz79667LV+g9YmEoM+FkF0gPeQKo37wIC6Xknd0IC/RFwg+uPq6MSIECAAAECBAgQIECAAAECBAgQIECAwP8I3PrnO8rig0+p/vuiA3cqa6y6Ipo2Ap7X6xYEJgsIpPUIAiMi4AY3Ig3pMggQIECAAAECBAgQIECAAAECBAgQIDCgApcsvans9pHvlQfed6Vy/jufNqC1XPhqeV6/8G2gBoMlIJAerPZQGwJdC7jBdU1nRwIECBAgQIAAAQIECBAgQIAAAQIECBDoQODE85eW/b/wo7LN3VN1f+7uKbuV9gKe1+sZBCYLCKT1CAIjIuAGNyIN6TIIECBAgAABAgQIECBAgAABAgQIECAwoAL/dPLl5eNn/qLstc165ZDdNh3QWi58tTyvX/g2UIPBEhBID1Z7qA2BrgXc4LqmsyMBAgQIECBAgAABAgQIECBAgAABAgQIdCDwsk+dW777sxvKe569adlj6/U62GM8N/G8fjzb3VVPLSCQ1jsIjIiAG9yINKTLIECAAAECBAgQIECAAAECBAgQIECAwIAKbHfY6eWam24rJ+yzTdny4WsOaC0Xvlqe1y98G6jBYAkIpAerPdSGQNcCbnBd09mRAAECBAgQIECAAAECBAgQIECAAAECBGYQuPXPd5TFB59SbXXxQTuV+6+yIrMpBDyv1zUITBYQSOsRBEZEwA1uRBrSZRAgQIAAAQIECBAgQIAAAQIECBAgQGAABS5eelN59ke+V9ZabaVy3jueNoA1HJwqeV4/OG2hJoMhIJAejHZQCwJzFnCDmzOhAxAgQIAAAQIECBAgQIAAAQIECBAgQIDAFAJfuODq8uYTLynbbvCA8tlXbc1pGgHP63UPApMFBNJ6BIEREXCDG5GGdBkECBAgQIAAAQIECBAgQIAAAQIECBAYQIHDvvHTctQZV5aXbrNeOXS3TQewhoNTJc/rB6ct1GQwBATSg9EOakFgzgJucHMmdAACBAgQIECAAAECBAgQIECAAAECBAgQmEJg72POL6dd/ttyyLMWl722fRinaQQ8r9c9CEwWEEjrEQRGRMANbkQa0mUQIECAAAECBAgQIECAAAECBAgQIEBgAAV2+MB3y1U33lo+s/dWZbsNHziANRycKnlePzhtoSaDISCQHox2UAsCcxZwg5szoQMQIECAAAECBAgQIECAAAECBAgQIECAQBuBP9/x1/LIA79Z7ryrlB++fceyzv1W5jSNgOf1ugeByQICaT2CwIgIuMGNSEO6DAIECBAgQIAAAQIECBAgQIAAAQIECAyYwM9+c0t5xofOLKuttHz50bueXu4OlwashoNVHc/rB6s91GbhBQTSC98GakCgJwJucD1hdBACBAgQIECAAAECBAgQIECAAAECBAgQaBE46UfXlX0/e2HZ/CH3L1/edzs+Mwh4Xq+LEJgsIJDWIwiMiIAb3Ig0pMsgQIAAAQIECBAgQIAAAQIECBAgQIDAgAkcedqS8i+n/bw8b4tF5QO7bzZgtRu86nheP3htokYLKyCQXlh/ZyfQtcDixYsn7bts2bKyZMmS6mdLly4tixYt6vrYdiRAgAABAgQIECBAgAABAgQIECBAgAABArXA//vcReVrl1xb3rLzJuU1T9kAzAwCAmldhMBkAYG0HkFgSAUE0kPacKpNgAABAgQIECBAgAABAgQIECBAgACBIRN45pFnlcuv+2P5xEsfX3Z61DpDVvv5r65Aev7NnXGwBQTSg90+akegYwE3uI6pbEiAAAECBAgQIECAAAECBAgQIECAAAECHQrceedd5ZEHfbP8+Y47y3fe/JTy8Aeu2uGe47uZ5/Xj2/auvL2AQFrPIDAiAm5wI9KQLoMAAQIECBAgQIAAAQIECBAgQIAAAQIDJLD0938qTzr8O2XF5e5dfnLoM8ryd/+/Mr2A5/V6CIHJAgJpPYLAiAi4wY1IQ7oMAgQIECBAgAABAgQIECBAgAABAgQIDJDAd356fXn50eeVjddZrZzyxu0HqGaDWxXP6we3bdRsYQQE0gvj7qwEei7gBtdzUgckQIAAAQIECBAgQIAAAQIECBAgQIDA2At84sxflPeefHnZ5dHrlo+85HFj79EJgOf1nSjZZpwEBNLj1NqudaQF3OBGunldHAECBAgQIECAAAECBAgQIECAAAECBBZE4C1f+FH5/PlLy+t3fER5004bLUgdhu2kntcPW4upb78FBNL9FnZ8AvMk4AY3T9BOQ4AAAQIECBAgQIAAAQIECBAgQIAAgTESeO6/f79c8Ks/lCNfuHnZbfO/GaMr7/5SPa/v3s6eoykgkB7NdnVVYyjgBjeGje6SCRAgQIAAAQIECBAgQIAAAQIECBAg0EeBu+66q2x+6LfKzbctKye9/oll8YNX7+PZRufQntePTlu6kt4ICKR74+goBBZcwA1uwZtABQgQIECAAAECBAgQIECAAAECBAgQIDBSAjfc8ufyhPeeVu51r1IuP3TnsvIKy43U9fXrYjyv75es4w6rgEB6WFtOvQm0CLjB6RIECBAgQIAAAQIECBAgQIAAAQIECBAg0EuBc678XXnRJ35QHrLmfcpZBzy1l4ce6WN5Xj/SzeviuhAQSHeBZhcCgyjgBjeIraJOBAgQIECAAAECBAgQIECAAAECBAgQGF6B437wq3Lgly8rO2y8VvnUy7cc3guZ55p7Xj/P4E438AIC6YFvIhUk0JmAG1xnTrYiQIAAAQIECBAgQIAAAQIECBAgQIAAgc4E3vXVH5ejv//L8qonPby8Y5dHdbaTrYrn9ToBgckCAmk9gsCICLjBjUhDugwCBAgQIECAAAECBAgQIECAAAECBAgMiMCe//nDctaSG8v7n/vo8oInPHRAajX41fC8fvDbSA3nV0AgPb/ezkagbwJucH2jdWACBAgQIECAAAECBAgQIECAAAECBAiMpcA27/vb4vzwAAAgAElEQVR2ue7m28sX/mGb8viHrTmWBt1ctOf13ajZZ5QFBNKj3LqubawE3ODGqrldLAECBAgQIECAAAECBAgQIECAAAECBPoqcOuf7yiLDz6lOsfFB+1U7r/Kin093ygd3PP6UWpN19ILAYF0LxQdg8AACLjBDUAjqAIBAgQIECBAgAABAgQIECBAgAABAgRGROCya24uu/7b2WXNVVcsFx6404hc1fxchuf18+PsLMMjIJAenrZSUwLTCrjB6SAECBAgQIAAAQIECBAgQIAAAQIECBAg0CuBr15ybXn95y4qW6y3Rvnia7bt1WHH4jie149FM7vIWQgIpGeBZVMCgyzgBjfIraNuBAgQIECAAAECBAgQIECAAAECBAgQGC6BI09bUv7ltJ+X522xqHxg982Gq/ILXFvP6xe4AZx+4AQE0gPXJCpEoDsBN7ju3OxFgAABAgQIECBAgAABAgQIECBAgAABAvcUeMPxF5UvX3xtOWDnjctrn7IholkIeF4/CyybjoWAQHosmtlFjoOAG9w4tLJrJECAAAECBAgQIECAAAECBAgQIECAwPwI7Pbhs8slV99cjtrjcWXnTdedn5OOyFk8rx+RhnQZPRMQSPeM0oEILKyAG9zC+js7AQIECBAgQIAAAQIECBAgQIAAAQIERkXgrrvuKo9516nllj/fUU55w/Zl4wetNiqXNi/X4Xn9vDA7yRAJCKSHqLFUlcB0Am5w+gcBAgQIECBAgAABAgQIECBAgAABAgQI9ELghlv+XJ7w3tPKve5VyuWH7lxWXmG5Xhx2bI7hef3YNLUL7VBAIN0hlM0IDLqAG9ygt5D6ESBAgAABAgQIECBAgAABAgQIECBAYDgEzr3q9+X5HzunLFrjPuXstzx1OCo9QLX0vH6AGkNVBkJAID0QzaASBGYvsHjx4kk7LVu2rCxZsqT62dKlS8uiRYtmf1B7ECBAgAABAgQIECBAgAABAgQIECBAgMDYC3z+vF+Xt3zx0vKkRzywHPfKrcbeY7YAAunZitl+1AUE0qPewq5vZAUE0iPbtC6MAAECBAgQIECAAAECBAgQIECAAAECCyrwvm9cXj52xi/KXtusVw7ZbdMFrcswnlwgPYytps79FBBI91PXsQnMo4Ab3DxiOxUBAgQIECBAgAABAgQIECBAgAABAgRGWOBVx55fvvWT35ZDnrW47LXtw0b4SvtzaZ7X98fVUYdXQCA9vG2n5gQmCbjB6RAECBAgQIAAAQIECBAgQIAAAQIECBAg0AuBp/3zGeWK6/+7HPuKLcv2G63Vi0OO1TE8rx+r5naxHQgIpDtAsgmBYRBwgxuGVlJHAgQIECBAgAABAgQIECBAgAABAgQIDLbAX++8q2xy4DfKsr/eVc46YIfykDVXGewKD2DtPK8fwEZRpQUVEEgvKL+TE+idgBtc7ywdiQABAgQIECBAgAABAgQIECBAgAABAuMq8Ovf/alsf8R3yorL37tcfujOZbl732tcKbq+bs/ru6az44gKCKRHtGFd1vgJuMGNX5u7YgIECBAgQIAAAQIECBAgQIAAAQIECPRa4Ds/u768/FPnlY3XWa2c8sbte334sTie5/Vj0cwuchYCAulZYNmUwCALuMENcuuoGwECBAgQIECAAAECBAgQIECAAAECBIZD4JNnX1UO/fpPys6LH1SO2nOL4aj0gNXS8/oBaxDVWXABgfSCN4EKEOiNgBtcbxwdhQABAgQIECBAgAABAgQIECBAgAABAuMscOCXLyvH/eBX5TVP2aC8ZedNxpmi62v3vL5rOjuOqIBAekQb1mWNn4Ab3Pi1uSsmQIAAAQIECBAgQIAAAQIECBAgQIBArwX2+I8flrOvuLEc/rzHlOc//iG9PvxYHM/z+rFoZhc5CwGB9CywbEpgkAXc4Aa5ddSNAAECBAgQIECAAAECBAgQIECAAAECwyGw3WGnl2tuuq188TXblC3WW3M4Kj1gtfS8fsAaRHUWXEAgveBNoAIEeiPgBtcbR0chQIAAAQIECBAgQIAAAQIECBAgQIDAuArc9pe/lkce9M3q8i88cKey5qorjivFnK7b8/o58dl5BAUE0iPYqC5pPAXc4Maz3V01AQIECBAgQIAAAQIECBAgQIAAAQIEeiVw+XV/LM888qyy+n1WKBcftFO5O0Tq1aHH6jie149Vc7vYDgQE0h0g2YTAMAi4wQ1DK6kjAQIECBAgQIAAAQIECBAgQIAAAQIEBlfg5EuvK6/9zIVl84fcv3x53+0Gt6IDXjPP6we8gVRv3gUE0vNO7oQE+iPgBtcfV0clQIAAAQIECBAgQIAAAQIECBAgQIDAuAh85DtXlCNO+Vl5zuP+pvzz8zcfl8vu+XV6Xt9zUgcccgGB9JA3oOoTqAXc4PQFAgQIECBAgAABAgQIECBAgAABAgQIEJiLwJtOuLh86cJrypufvlF53VMfMZdDjfW+ntePdfO7+DYCAmndgsCICLjBjUhDugwCBAgQIECAAAECBAgQIECAAAECBAgskMDff/R75aJf31Q+8uLHlV0es+4C1WL4T+t5/fC3oSvorYBAureejkZgwQTc4BaM3okJECBAgAABAgQIECBAgAABAgQIECAwEgKbH3pquelPy8rJr39SedSD7zcS17QQF+F5/UKoO+cgCwikB7l11I3ALATc4GaBZVMCBAgQIECAAAECBAgQIECAAAECBAgQmCTwh1v/Uh777m9VP7v80J3LfVZcjlCXAp7Xdwlnt5EVEEiPbNO6sHETcIMbtxZ3vQQIECBAgAABAgQIECBAgAABAgQIEOidwAW/+kN57r9/vzx49ZXL99+2Y+8OPIZH8rx+DBvdJU8rIJDWQQiMiIAb3Ig0pMsgQIAAAQIECBAgQIAAAQIECBAgQIDAAgiceP7Ssv8XflS22/AB5TN7b70ANRidU3pePzpt6Up6IyCQ7o2joxBYcAE3uAVvAhUgQIAAAQIECBAgQIAAAQIECBAgQIDA0Aoc/s2flo9+98qyx9YPLe959qOH9joGoeKe1w9CK6jDIAkIpAepNdSFwBwE3ODmgGdXAgQIECBAgAABAgQIECBAgAABAgQIjLnAaz9zQTn5/7N3J+BWleUCgD9lFBCURByOMyB6UCQVBARzxqy0bppDJg5lmaUNesMJVBxulqalWXrNoXLMSlMRJwQVRXBm0IPjMRVEERFBDsI9e5tdTzKcYQ9rrf3u5+Ehz1nr/7/v/f77/Pf5P9baz7wZp+67VRw9ZPMK12hZ+s7rW+bn7uwJaEhnr6YyqlABG1yFFl7aBAgQIECAAAECBAgQIECAAAECBAgQKIDAvhdPiKmvvxdXfGuH2GPr7gUYsXKHcF5fubWX+fIFNKStDAIZEbDBZaSQ0iBAgAABAgQIECBAgAABAgQIECBAgECJBZYtWxbbjhob8z9cEmN/NDR6dV+zxBFkazrn9dmqp2xaLqAh3XJDIxBIhIANLhFlEAQBAgQIECBAgAABAgQIECBAgAABAgRSJzB3weLod9bd+bhnnDUs2rdplbockhSw8/okVUMsSRDQkE5CFcRAoAACNrgCIBqCAAECBAgQIECAAAECBAgQIECAAAECFSjwZO27sf8lD0X3zu3i0ZP3qECBwqbsvL6wnkZLv4CGdPprKAMCeQEbnIVAgAABAgQIECBAgAABAgQIECBAgAABAs0R+PuT/4zjr38y+m/aNW787sDmDOGeTwk4r7ccCDQU0JC2IggUUeCPf/xjTJgwIaZMmRLPPPNMLF68OP7whz/E8OHDCz6rDa7gpAYkQIAAAQIECBAgQIAAAQIECBAgQIBARQj8+t6a+OXdz8fXt6+KXxzQtyJyLmaSzuuLqWvsNApoSKexamJOjcCmm24ar7zySqyzzjrRsWPH/P/WkE5N+QRKgAABAgQIECBAgAABAgQIECBAgACBihA48aan4qYpr8WP9+wVP9y9Z0XkXMwkNaSLqWvsNApoSKexamJOjcA999wTPXv2jE022STOO++8GDFihIZ0aqonUAIECBAgQIAAAQIECBAgQIAAAQIECFSGwIG/mxiTXnonLjpou9hvuw0rI+kiZqkhXURcQ6dSQEM6lWUTdBoFNKTTWDUxEyBAgAABAgQIECBAgAABAgQIECBAIPsCO51zb7z53qL467GDot/Ga2c/4SJnqCFdZGDDp05AQzp1JRNwYwRmz54dkyZNyv957LHH8n/efvvt/K2HH354XHXVVY0ZJn/Nq6++GhdffHHcfvvt+f/drl276NGjRxx44IFx7LHHRocOHRo1loZ0o5hcRIAAAQIECBAgQIAAAQIECBAgQIAAAQIlFFhU91H0Pm1MfsbHT9szunZsW8LZszmVhnQ26yqr5gtoSDffzp0JFqhf2CuMrikN6VwT+tBDD4158+Ytd7wtt9wy7rjjjth8881XqaEhvUoiFxAgQIAAAQIECBAgQIAAAQIECBAgQIBAiQVqZs2PPS8cH2u2ax1Pj9orVna+XuLQUjudhnRqSyfwIgloSBcJ1rDlFfj0hrnRRhvFVlttFWPHjs0H1diG9FNPPRWDBg2KDz74IDp16pT//uddd901Fi5cGNdff31cfvnl+fF69+6dfwI7d83KPhrS5V0TZidAgAABAgQIECBAgAABAgQIECBAgACBzwrcO31WHHX15Nh6/c5xx/FDEBVAQEO6AIiGyJSAhnSmyimZTwRGjhwZO+64Y/5P9+7d4+WXX47NNtss/+vGNqRzzedx48ZF69atY/z48TFw4MAGwOeff36cdNJJ+Z+dccYZcfrpp6+0ABrS1icBAgQIECBAgAABAgQIECBAgAABAgQIJE3gygdfijP/MS326bNe/Pab2yctvFTGoyGdyrIJuogCGtJFxDV0cgSa2pDOPfHcv3//fALHHHNMXHbZZZ9JZunSpdGnT5+YPn16rL322jFr1qxo06bNCpPWkE7OehAJAQIECBAgQIAAAQIECBAgQIAAAQIECHwsMOrWqXHVwy/HMbtsHiP22QpLAQQ0pAuAaIhMCWhIZ6qcklmRQFMb0qecckqcc845+eEeeeSRGDBgwHKH/qTJnPtl7pXge+655wqLoCFtfRIgQIAAAQIECBAgQIAAAQIECBAgQIBA0gSO+MOkuP+5t+Kcr24ThwzYOGnhpTIeDelUlk3QRRTQkC4irqGTI9DUhvTQoUNjwoQJ0bFjx3j33Xfzr+1e3mfixIn575nOfXKv7M69untFHw3p5KwHkRAgQIAAAQIECBAgQIAAAQIECBAgQIDAxwK7/XJcvPjWgvjT0QNicI91sBRAQEO6AIiGyJSAhnSmyimZFQk0tSHdrVu3mDNnTvTt2zeefPLJFcLOnTs3unbtmv/9AQccEDfeeOMKr9WQtj4JECBAgAABAgQIECBAgAABAgQIECBAIEkCS5cui96njYnFHy2NCSftGht17ZCk8FIbi4Z0aksn8CIJaEgXCdawyRJoSkN60aJFscYaa+QT2HfffeMf//jHSpPp1KlTLFiwIHbaaafIPTH96c8VV1wRDz74YP5HzzzzTDz++OMxePDg6NGjR/5n+++/f/5PYz65DWxlnzfeeOPf33tdW1sbVVVVjRnWNQQIECBAgAABAgQIECBAgAABAgQIECBQoQKvv7swBp13X7RefbWYcdawaN1q9QqVKGzaGtKF9TRa+gU0pNNfQxk0QqApDem33nor1l133fyo3/jGN+L6669f6Qzdu3eP2bNnR58+ffJN509/hg8fHldfffUK7x85cmSMGjWqERlE1P8fa6Ouy12kId1oKhcSIECAAAECBAgQIECAAAECBAgQIECgYgUmvvB2HHz5I7Hp5zrEuBN3rViHQieuIV1oUeOlXUBDOu0VFH+jBJrSkM41czfeeOP8uIcddlhcc801K50jd23uni222CJmzpzZqHiac5GGdHPU3EOAAAECBAgQIECAAAECBAgQIECAAAECKxK44bFX47//8kwM7dUtrjmyP6gCCWhIFwjSMJkR0JDOTCklsjKBpjSkC/mEdCGr4pXdhdQ0FgECBAgQIECAAAECBAgQIECAAAECBAj8fMyMuHTcC3HYTpvEWfv3AVIgAQ3pAkEaJjMCGtKZKaVECtWQLuR3SJeyKja4UmqbiwABAgQIECBAgAABAgQIECBAgAABAukXOO7Pj8c/nn4jTvniVvHtoZunP6GEZOC8PiGFEEZiBDSkE1MKgRRToClPSOfi6NatW8yZMyf69u0bTz755ApDmzt3bnTt2jX/+wMOOCBuvPHGYqax0rFtcGWjNzEBAgQIECBAgAABAgQIECBAgAABAgRSKfCV3zwYT782L3532Paxd/V6qcwhiUE7r09iVcRUTgEN6XLqm7tkAk1tSA8dOjQmTJgQHTt2jHfffTdat2693FgnTpwYgwYNyv/u9NNPjzPOOKNkOf3nRDa4stGbmAABAgQIECBAgAABAgQIECBAgAABAqkU6HvG2Ji3sC7GnDAkeq/XOZU5JDFo5/VJrIqYyimgIV1OfXOXTKCpDemTTz45zj333Hx8jzzySAwYMGC5sZ533nkxYsSI/O/uuuuu2GuvvUqWU3V1dYO56urqoqamJv+z2traqKqqKlksJiJAgAABAgQIECBAgAABAgQIECBAgACBdAnM+6Au+p45Nh/0tDP3jg5tl/9gVrqySka0GtLJqIMokiOgIZ2cWoikiAJNbUhPmjTp303oY445Ji677LLPRLd06dLo06dPTJ8+PdZaa62YPXt2tGnTpohZNBxaQ7pk1CYiQIAAAQIECBAgQIAAAQIECBAgQIBA5gSefu3d+MpvHopua7aLx07ZI3P5lTMhDely6ps7iQIa0kmsipgKLtDUhnQugE9e2517Xff48eNj4MCBDeI6//zz46STTsr/bOTIkTFq1KiCx92UAW1wTdFyLQECBAgQIECAAAECBAgQIECAAAECBCpb4B9Pvx7H/fmJ2GGTtePm73381ZQ+hRFwXl8YR6NkR0BDOju1lMmnBB588MGYOXPmv38yZ86cOPHEE/P/PXjw4Dj66KMbeA0fPvwzfk888UT+2oULF0anTp0i9xrvXXfdNf/f119/ffz+97/P39OrV6+YPHlyrLnmmmWtgQ2urPwmJ0CAAAECBAgQIECAAAECBAgQIECAQKoELrl/Zpx/13PxtX4bxgXf2C5VsSc9WOf1Sa+Q+EotoCFdanHzlUQg12C++uqrGz3XsmXLlnvtbbfdFt/85jfjvffeW+7vc83o22+/PXr06NHouYp1oQ2uWLLGJUCAAAECBAgQIECAAAECBAgQIECAQPYE/vvmp+OGybVxwh496//0yl6CZczIeX0Z8U2dSAEN6USWRVAtFShUQzoXxyuvvBIXXXRRvvGc20Tatm2bb0AfcMABcdxxx0WHDh1aGm5B7rfBFYTRIAQIECBAgAABAgQIECBAgAABAgQIEKgIgYN+PzEeefGduPAbfeOr/aoqIudSJem8vlTS5kmLgIZ0WiolTgKrELDBWSIECBAgQIAAAQIECBAgQIAAAQIECBAg0FiBQefeG6/PWxR/qf/+6O3rv0fap3ACzusLZ2mkbAhoSGejjrKoQIHq6uoGWdfV1UVNTU3+Z7W1tVFV5V+0VeCykDIBAgQIECBAgAABAgQIECBAgAABAgRWKfDhko+i92ljIvdtlpNP3SPW6dRulfe4oPECGtKNt3JlZQhoSFdGnWWZQQEN6QwWVUoECBAgQIAAAQIECBAgQIAAAQIECBAogcALb70fu//ygejQtlVMPWPvqG8WlWDWyplCQ7pyai3TxgloSDfOyVUEEi9gg0t8iQRIgAABAgQIECBAgAABAgQIECBAgACBRAjcP2N2HHHVY9F7vTVjzAlDExFTloJwXp+lasqlEAIa0oVQNAaBBAjY4BJQBCEQIECAAAECBAgQIECAAAECBAgQIEAgBQJXPfRSjLptWuxd3T1+d9gOKYg4XSE6r09XvURbfAEN6eIbm4FASQRscCVhNgkBAgQIECBAgAABAgQIECBAgAABAgRSL3DGbVPjDw+9HN8Zunmc/MWtUp9P0hJwXp+0ioin3AIa0uWugPkJFEjABlcgSMMQIECAAAECBAgQIECAAAECBAgQIEAg4wJH1b+u+97613aP3r9PfHOnTTKebenTc15fenMzJltAQzrZ9REdgUYL2OAaTeVCAgQIECBAgAABAgQIECBAgAABAgQIVLTAnhc8EDWz349rjuwfQ3t1q2iLYiTvvL4YqsZMs4CGdJqrJ3YCnxKwwVkOBAgQIECAAAECBAgQIECAAAECBAgQILAqgWXLlkXv08bEh0uWxgMnfiE2+VzHVd3i900UcF7fRDCXZ15AQzrzJZZgVgWqq6sbpFZXVxc1NTX5n9XW1kZVVVVWU5cXAQIECBAgQIAAAQIECBAgQIAAAQIECDRTYPb8RdH/7Htj9dUinhu9T7RptXozR3LbigQ0pK0NAg0FNKStCAIpFdCQTmnhhE2AAAECBAgQIECAAAECBAgQIECAAIEyCjxZ+27sf8lDsX6X9jFxxO5ljCS7U2tIZ7e2MmuegIZ089zcRSBxAja4xJVEQAQIECBAgAABAgQIECBAgAABAgQIEEicwO1PvxHf//Pjsf0ma8dfvjcocfFlISDn9VmoohwKKaAhXUhNYxEoo4ANroz4piZAgAABAgQIECBAgAABAgQIECBAgEBKBC4f/2Kcfcf0+ErfDeLig/ulJOp0hem8Pl31Em3xBTSki29sBgIlEbDBlYTZJAQIECBAgAABAgQIECBAgAABAgQIEEi1wKhbp8ZVD78c391li/jZPr1TnUtSg3den9TKiKtcAhrS5ZI3L4ECC9jgCgxqOAIECBAgQIAAAQIECBAgQIAAAQIECGRQ4NvXTI67p82Ks/arjsMGbprBDMufkvP68tdABMkS0JBOVj1EQ6DZAja4ZtO5kQABAgQIECBAgAABAgQIECBAgAABAhUj8MWLJsS0N96LK4fvELv17l4xeZcyUef1pdQ2VxoENKTTUCUxEmiEgA2uEUguIUCAAAECBAgQIECAAAECBAgQIECAQIULbHfm2Hj3g7oYc8KQ6L1e5wrXKE76zuuL42rU9ApoSKe3diIn0EDABmdBECBAgAABAgQIECBAgAABAgQIECBAgMDKBBZ8uCSqR96Vv+SZUXvFmu3bACuCgPP6IqAaMtUCGtKpLp/gCfy/gA3OaiBAgAABAgQIECBAgAABAgQIECBAgACBlQnUzJofe144vr4R3bq+Ib03rCIJOK8vEqxhUyugIZ3a0gm80gWqq6sbENTV1UVNTU3+Z7W1tVFVVVXpRPInQIAAAQIECBAgQIAAAQIECBAgQIAAgU8JjHtudgz/w2P1r+pes/6V3UPZFElAQ7pIsIZNrYCGdGpLJ/BKF9CQrvQVIH8CBAgQIECAAAECBAgQIECAAAECBAg0TeBPj74Sp/z12di997rxv8N3bNrNrm60gIZ0o6lcWCECGtIVUmhpZl/ABpf9GsuQAAECBAgQIECAAAECBAgQIECAAAECLRE4/64Zccn9L8S3Bm4SZ+7XpyVDuXclAs7rLQ8CDQU0pK0IAhkRsMFlpJDSIECAAAECBAgQIECAAAECBAgQIECAQJEETrj+ifjbk6/Hz/bpHd/dZYsizWJY5/XWAAENaWuAQCYFbHCZLKukCBAgQIAAAQIECBAgQIAAAQIECBAgUDCBAy+bGJNefid+fXC/+HLfDQo2roEaCjivtyIIaEhbAwQyKWCDy2RZJUWAAAECBAgQIECAAAECBAgQIECAAIGCCQw+777457sL4y/fGxTbb7J2wcY1kIa0NUBgZQJe2W19EMiIgIZ0RgopDQIECBAgQIAAAQIECBAgQIAAAQIECBRBYMlHS2PL08bER0uXxaMn7x7dO7cvwiyGzAk4r7cOCDQU0JC2IghkRMAGl5FCSoMAAQIECBAgQIAAAQIECBAgQIAAAQJFEMg9GZ17QrpNq9XiubP2idVXX60IsxhSQ9oaIPBZAQ1pq4JARgQ0pDNSSGkQIECAAAECBAgQIECAAAECBAgQIECgCAKP1X939AH13yG9Udc1YsJJuxVhBkN+IuC83log0FBAQ9qKIJARARtcRgopDQIECBAgQIAAAQIECBAgQIAAAQIECBRB4G9P/DNOuOHJ2GnzrnH9dwYWYQZDakhbAwSWL6AhbWUQyIiAhnRGCikNAgQIECBAgAABAgQIECBAgAABAgQIFEHgkvtnxvl3PRdf+/yGccGB2xVhBkNqSFsDBDSkrQECmRKorq5ukE9dXV3U1NTkf1ZbWxtVVVWZylcyBAgQIECAAAECBAgQIECAAAECBAgQINB8gZP/+kz8+dFX44e79Ygf77Vl8wdy5yoFPEC2SiIXVJiAJ6QrrODSzY6AhnR2aikTAgQIECBAgAABAgQIECBAgAABAgQIFFtg+B8mxbjn3orzvrZNHNR/42JPV9Hja0hXdPklvxwBDWnLgkBGBGxwGSmkNAgQIECAAAECBAgQIECAAAECBAgQIFAEgT0veCBqZr8f1x7VP4b07FaEGQz5iYDzemuBQEMBDWkrgkBGBGxwGSmkNAgQIECAAAECBAgQIECAAAECBAgQIFBggWXLlkWfkXfFgsUfxb0/2SW26NapwDMY7tMCzuutBwIa0tYAgUwK2OAyWVZJESBAgAABAgQIECBAgAABAgQIECBAoMUC736wOLY78+78ODPOGhbt27Rq8ZgGWLGA83qrg0BDAU9IWxEEMiJgg8tIIaVBgAABAgQIECBAgAABAgQIECBAgACBAgtMfX1e7Hvxg/G5jm1jyml7Fnh0w/2ngPN6a4KAhrQ1QCCTAja4TJZVUgQIECBAgAABAgQIECBAgAABAqONaHYAACAASURBVAQIEGixwNipb8Z3rp0S21Z1iVuP27nF4xlg5QLO660QAhrS1gCBTArY4DJZVkkRIECAAAECBAgQIECAAAECBAgQIECgxQJXPfRSjLptWgyrXi8uO2z7Fo9nAA1pa4BAUwS8srspWq4lkGABDekEF0doBAgQIECAAAECBAgQIECAAAECBAgQKKPA2bdPi8snvBRH7bxZnPalrcsYSWVM7by+Muosy8YLaEg33sqVBBItYINLdHkER4AAAQIECBAgQIAAAQIECBAgQIAAgbIJfP9Pj8ftz7yRb0bnmtI+xRVwXl9cX6OnT0BDOn01EzGB5QrY4CwMAgQIECBAgAABAgQIECBAgAABAgQIEFiewP6XPBRP1r4bl33z8zGsz/qQiizgvL7IwIZPnYCGdOpKJmACyxewwVkZBAgQIECAAAECBAgQIECAAAECBAgQILA8gR3Pvifemv9h3HbczrFNVRdIRRZwXl9kYMOnTkBDOnUlEzABDWlrgAABAgQIECBAgAABAgQIECBAgAABAgQaJ/Dhko9iy1PH5C+ecuoe8blO7Rp3o6uaLaAh3Ww6N2ZUQEM6o4WVVvYFqqurGyRZV1cXNTU1+Z/V1tZGVVVV9hFkSIAAAQIECBAgQIAAAQIECBAgQIAAAQIrFXh5zoL4wi/GRfs2q8f0M4dFfWOIWJEFNKSLDGz41AloSKeuZAIm8LGAhrSVQIAAAQIECBAgQIAAAQIECBAgQIAAAQKrEnh45pw45IpHY/NuHeO+n3xhVZf7fQEENKQLgGiITAloSGeqnJKpZAEbXCVXX+4ECBAgQIAAAQIECBAgQIAAAQIECBBYvsCNk2vjpJufjiE914lrjxqAqQQCzutLgGyKVAloSKeqXIIlsGIBG5zVQYAAAQIECBAgQIAAAQIECBAgQIAAAQL/KfCre56PX91TEwftuFGc91/bAiqBgPP6EiCbIlUCGtKpKpdgCWhIWwMECBAgQIAAAQIECBAgQIAAAQIECBAg0HiBE296Km6a8lr8ZM9e8YPdezb+Rlc2W0BDutl0bsyogIZ0RgsrrcoTsMFVXs1lTIAAAQIECBAgQIAAAQIECBAgQIAAgVUJHHrFI/HQzLfjlwf0jf/avmpVl/t9AQSc1xcA0RCZEtCQzlQ5JVPJAja4Sq6+3AkQIECAAAECBAgQIECAAAECBAgQILB8gS+cf3+8/PYHcf13doqdNv8cphIIOK8vAbIpUiWgIZ2qcgmWwIoFbHBWBwECBAgQIECAAAECBAgQIECAAAECBAh8WmDp0mXR+/QxsXjJ0phw0q6xUdcOgEog4Ly+BMimSJWAhnSqyiVYAhrS1gABAgQIECBAgAABAgQIECBAgAABAgQINE5g9vxF0f/se2O11SKeH71PtGm1euNudFWLBDSkW8Tn5gwKaEhnsKhSqkwBG1xl1l3WBAgQIECAAAECBAgQIECAAAECBAgQWJHAk7Xvxv6XPBTrdW4fj5y8O6gSCTivLxG0aVIjoCGdmlIJlMDKBWxwVggBAgQIECBAgAABAgQIECBAgAABAgQIfFrg9qffiO//+fH4/MZrxS3HDoZTIgHn9SWCNk1qBDSkU1MqgRLQkLYGCBAgQIAAAQIECBAgQIAAAQIECBAgQKDxApePfzHOvmN6fLnvBvHrg/s1/kZXtkhAQ7pFfG7OoICGdAaLKqXKFLDBVWbdZU2AAAECBAgQIECAAAECBAgQIECAAIEVCYy6dWpc9fDLccwum8eIfbYCVSIB5/UlgjZNagQ0pFNTKoESWLmADc4KIUCAAAECBAgQIECAAAECBAgQIECAAIFPC3z7mslx97RZcdZ+1XHYwE3hlEjAeX2JoE2TGgEN6dSUSqAENKStAQIECBAgQIAAAQIECBAgQIAAAQIECBBovMAXL5oQ0954L/738B1i9626N/5GV7ZIQEO6RXxuzqCAhnQGiyqlyhSwwVVm3WVNgAABAgQIECBAgAABAgQIECBAgACBFQlsd+bYePeDuhhzwpDovV5nUCUScF5fImjTpEZAQzo1pRIogZUL2OCsEAIECBAgQIAAAQIECBAgQIAAAQIECBD4RGDBh0uieuRd+f98etRe0bl9GzglEnBeXyJo06RGQEM6NaUSKIGGAtXV1Q1+UFdXFzU1Nfmf1dbWRlVVFTICBAgQIECAAAECBAgQIECAAAECBAgQqFCBmlnzY88Lx8ea7VvHM6P2rlCF8qStIV0ed7MmV0BDOrm1ERmBlQpoSFsgBAgQIECAAAECBAgQIECAAAECBAgQILAigQeefysOv3JS9OreKcb+aBdQJRTQkC4htqlSIaAhnYoyCZLAqgVscKs2cgUBAgQIECBAgAABAgQIECBAgAABAgQqReCmybVx4s1Px5Ce68S1Rw2olLQTkafz+kSUQRAJEtCQTlAxhEKgJQI2uJbouZcAAQIECBAgQIAAAQIECBAgQIAAAQLZErjk/plx/l3Pxdc+v2FccOB22Uou4dk4r094gYRXcgEN6ZKTm5BAcQRscMVxNSoBAgQIECBAgAABAgQIECBAgAABAgTSKDDq1qlx1cMvx3d32SJ+tk/vNKaQ2pid16e2dAIvkoCGdJFgDUug1AI2uFKLm48AAQIECBAgQIAAAQIECBAgQIAAAQLJFTj2T1PijmfejNO/tHUcufNmyQ00g5E5r89gUaXUIgEN6RbxuZlAcgRscMmphUgIECBAgAABAgQIECBAgAABAgQIECBQboGv//bhmPzK3PjNIf3iS9tuUO5wKmp+5/UVVW7JNkJAQ7oRSC4hkAYBG1waqiRGAgQIECBAgAABAgQIECBAgAABAgQIlEZg6M/vj1ff+SBuPGZg9N+sa2kmNUtewHm9hUCgoYCGtBVBICMCNriMFFIaBAgQIECAAAECBAgQIECAAAECBAgQaKHAsmXLYqvTx8SiuqUx7qdfiE3X6djCEd3eFAHn9U3Rcm0lCGhIV0KV5VgRAja4iiizJAkQIECAAAECBAgQIECAAAECBAgQILBKgfcW1cW2o8bmr5t25t7RoW3rVd7jgsIJOK8vnKWRsiGgIZ2NOsqCgFeAWAMECBAgQIAAAQIECBAgQIAAAQIECBAgkBeYOfv92OOCB6JTu9bx7Bl7UymxgIZ0icFNl3gBDenEl0iABBonYINrnJOrCBAgQIAAAQIECBAgQIAAAQIECBAgkHWBh1+YE4dc/mhsXv+q7vvqX9ntU1oB5/Wl9TZb8gU0pJNfIxESaJSADa5RTC4iQIAAAQIECBAgQIAAAQIECBAgQIBA5gX+/uQ/4/jrn4wBm3WNG44ZmPl8k5ag8/qkVUQ85RbQkC53BcxPoEACNrgCQRqGAAECBAgQIECAAAECBAgQIECAAAECKRe4fPyLcfYd0+PLfTeIXx/cL+XZpC985/Xpq5mIiyugIV1cX6MTKJmADa5k1CYiQIAAAQIECBAgQIAAAQIECBAgQIBAogXOvn1aXD7hpThq583itC9tnehYsxic8/osVlVOLRHQkG6JnnsJJEjABpegYgiFAAECBAgQIECAAAECBAgQIECAAAECZRQ4/von4u9Pvh4j9ukdx+yyRRkjqcypnddXZt1lvWIBDWmrg0BGBGxwGSmkNAgQIECAAAECBAgQIECAAAECBAgQINBCgYN//0hMfPHtuPAbfeOr/apaOJrbmyrgvL6pYq7PuoCGdNYrLL+KEbDBVUypJUqAAAECBAgQIECAAAECBAgQIECAAIGVCuz+y3HxwlsL4k9HD4jBPdahVWIB5/UlBjdd4gU0pBNfIgESaJyADa5xTq4iQIAAAQIECBAgQIAAAQIECBAgQIBA1gW2GXVXzF+0JO7+0dDo2X3NrKebuPyc1yeuJAIqs4CGdJkLYHoChRKwwRVK0jgECBAgQIAAAQIECBAgQIAAAQIECBBIr8Ciuo+i92lj8gk8dfpe0aVDm/Qmk9LIndentHDCLpqAhnTRaA1MoLQCNrjSepuNAAECBAgQIECAAAECBAgQIECAAAECSRR49e0PYuj590fb1qvHc2cNi/pGUBLDzHRMzuszXV7JNUNAQ7oZaG4hkEQBG1wSqyImAgQIECBAgAABAgQIECBAgAABAgQIlFZg8svvxNcvmxhVa68RD/73bqWd3Gx5Aef1FgKBhgIa0lYEgYwI2OAyUkhpECBAgAABAgQIECBAgAABAgQIECBAoAUCdzzzRhz7p8fj8xuvFbccO7gFI7m1uQLO65sr576sCmhIZ7Wy8qo4ARtcxZVcwgQIECBAgAABAgQIECBAgAABAgQIEPiMwFUPvRSjbpsWw6rXi8sO255QGQSc15cB3ZSJFtCQTnR5BEdgxQLV1dUNfllXVxc1NTX5n9XW1kZVVRU+AgQIECBAgAABAgQIECBAgAABAgQIEKgwgZ+PmRGXjnshvjVwkzhzvz4Vln0y0tWQTkYdRJEcAQ3p5NRCJASaJKAh3SQuFxMgQIAAAQIECBAgQIAAAQIECBAgQKAiBH5601Nx85TX4qd79YrjdutZETknLUkN6aRVRDzlFtCQLncFzE+gQAI2uAJBGoYAAQIECBAgQIAAAQIECBAgQIAAAQIpFvjWlZNi/PNvxc//a9s4cMeNUpxJekN3Xp/e2om8OAIa0sVxNSqBkgvY4EpObkICBAgQIECAAAECBAgQIECAAAECBAgkTmDYr8bHjDfnxx+O2DF23XLdxMVXCQE5r6+EKsuxKQIa0k3Rci2BBAvY4BJcHKERIECAAAECBAgQIECAAAECBAgQIECgRALbn3V3vL1gcdz+w52jeoMuJZrVNJ8WcF5vPRBoKKAhbUUQyIiADS4jhZQGAQIECBAgQIAAAQIECBAgQIAAAQIEmilQ99HS6HnKnfm7Hztlj+i2ZrtmjuS2lgg4r2+JnnuzKKAhncWqyqkiBWxwFVl2SRMgQIAAAQIECBAgQIAAAQIECBAgQODfAm/MWxgDz70vWq2+WtSM3idWr//bp/QCzutLb27GZAtoSCe7PqIj0GgBG1yjqVxIgAABAgQIECBAgAABAgQIECBAgACBTAo8Vftu7HfJQ9G9c7t49OQ9MpljGpJyXp+GKomxlAIa0qXUNheBIgrY4IqIa2gCBAgQIECAAAECBAgQIECAAAECBAikQODuabPi29dMjm027BK3/WDnFESczRCd12ezrrJqvoCGdPPt3EkgUQI2uESVQzAECBAgQIAAAQIECBAgQIAAAQIECBAoucCfHn0lTvnrs7F773Xjf4fvWPL5TfixgPN6K4FAQwENaSuCQEYEbHAZKaQ0CBAgQIAAAQIECBAgQIAAAQIECBAg0EyBC+9+Pi66tyYO7r9RnPu1bZs5ittaKuC8vqWC7s+agIZ01ioqn4oVsMFVbOklToAAAQIECBAgQIAAAQIECBAgQIAAgbzAiFueiesmvRo/3L1n/HjPXlTKJOC8vkzwpk2sgIZ0YksjMAJNE7DBNc3L1QQIECBAgAABAgQIECBAgAABAgQIEMiawNFXPxb3TJ8do/fvE9/caZOspZeafJzXp6ZUAi2RgIZ0iaBNQ6DYAja4YgsbnwABAgQIECBAgAABAgQIECBAgAABAskW+MpvHoynX5sXl39rh9hz6+7JDjbD0Tmvz3BxpdYsAQ3pZrG5iUDyBGxwyauJiAgQIECAAAECBAgQIECAAAECBAgQIFBKgZ3OuTfefG9R/P37g6PvRmuVcmpzfUrAeb3lQKChgIa0FUEgIwI2uIwUUhoECBAgQIAAAQIECBAgQIAAAQIECBBohsDSpcui16l3xpL6vyeO2C3W77JGM0ZxSyEEnNcXQtEYWRLQkM5SNeVS0QI2uIouv+QJECBAgAABAgQIECBAgAABAgQIEKhwgTnvfxg7jL4nVlst4vnR+0SbVqtXuEj50ndeXz57MydTQEM6mXURFYEmC9jgmkzmBgIECBAgQIAAAQIECBAgQIAAAQIECGRGYNrr78UXL54Qn+vYNqactmdm8kpjIs7r01g1MRdTQEO6mLrGJlBCARtcCbFNRYAAAQIECBAgQIAAAQIECBAgQIAAgYQJjHtudgz/w2PRe701Y8wJQxMWXWWF47y+suot21ULaEiv2sgVBFIhYINLRZkESYAAAQIECBAgQIAAAQIECBAgQIAAgaII3Di5Nk66+ekY2qtbXHNk/6LMYdDGCTivb5yTqypHQEO6cmot04wL2OAyXmDpESBAgAABAgQIECBAgAABAgQIECBAYCUCl9w/M86/67n4+vZV8YsD+rIqo4Dz+jLimzqRAhrSiSyLoAg0XcAG13QzdxAgQIAAAQIECBAgQIAAAQIECBAgQCArAiP//mxcPfGVOPYLW8RJw3pnJa1U5uG8PpVlE3QRBTSki4hraAKlFLDBlVLbXAQIECBAgAABAgQIECBAgAABAgQIEEiWwPf+OCXufPbNGPXlrWP44M2SFVyFReO8vsIKLt1VCmhIr5LIBQTSIWCDS0edREmAAAECBAgQIECAAAECBAgQIECAAIFiCPzXbx+OKa/MjUsP/Xx8cZv1izGFMRsp4Ly+kVAuqxgBDemKKbVEsy5gg8t6heVHgAABAgQIECBAgAABAgQIECBAgACBFQsM+fl9UfvOwrj5uwNjh027oiqjgPP6MuKbOpECGtKJLIugCDRdwAbXdDN3ECBAgAABAgQIECBAgAABAgQIECBAIAsCy5Yti96njYkPlyyN8SfuGht/rkMW0kptDs7rU1s6gRdJQEO6SLCGJVBqARtcqcXNR4AAAQIECBAgQIAAAQIECBAgQIAAgWQIzFtYF33PGJsPZsZZw6J9m1bJCKxCo3BeX6GFl/YKBTSkLQ4CGRGwwWWkkNIgQIAAAQIECBAgQIAAAQIECBAgQIBAEwVmzp4fe1wwPtZs3zqeGbV3E+92eaEFnNcXWtR4aRfQkE57BcVP4F8CNjhLgQABAgQIECBAgAABAgQIECBAgAABApUp8PDMOXHIFY/GFt06xr0/+UJlIiQoa+f1CSqGUBIhoCGdiDIIIqsCjz32WIwcOTImTpwYixcvjurq6jjhhBPikEMOKXjKNriCkxqQAAECBAgQIECAAAECBAgQIECAAAECqRD42xP/jBNueDIGbv65uO47O6Ui5iwH6bw+y9WVW3MENKSbo+YeAo0QGDduXOy9997Rtm3bOOigg6JLly5xyy23xEsvvRRnn312nHzyyY0YpfGX2OAab+VKAgQIECBAgAABAgQIECBAgAABAgQIZEng9+NfiHPumBH7bbdBXHRQvyyllspcnNensmyCLqKAhnQRcQ1duQJLliyJ3r17R27TyT0d3a/fx/8PwPz582PgwIHx3HPPxbRp06Jnz54FQ7LBFYzSQAQIECBAgAABAgQIECBAgAABAgQIEEiVwOh/TIsrHnwpvj1kszhl361TFXsWg3Ven8WqyqklAhrSLdFzL4EVCIwdOzb/dPQRRxwRV155ZYOrbrjhhvwT0yNGjIhzzjmnYIY2uIJRGogAAQIECBAgQIAAAQIECBAgQIAAAQKpEvjhdU/ErU+9Hqd8cav49tDNUxV7FoN1Xp/FqsqpJQIa0i3Rc28iBWbPnh2TJk3K/8l9h3Puz9tvv52P9fDDD4+rrrqq0XG/+uqrcfHFF8ftt98euf/drl276NGjRxx44IFx7LHHRocOHZY7Vu513Oeee25cd911+ebzpz9z586Nrl27xqBBg+Khhx5qdCyrutAGtyohvydAgAABAgQIECBAgAABAgQIECBAgEA2BQ76/cR45MV36l/XvV39a7s3zGaSKcrKeX2KiiXUkghoSJeE2SSlFKhf1CucrikN6VwT+tBDD4158+Ytd7wtt9wy7rjjjth888/+a7MDDjggbr755pg8eXJsv/32n7m/W7dukYsz1zwv1McGVyhJ4xAgQIAAAQIECBAgQIAAAQIECBAgQCBdArv9cly8+NaC+PO3B8SgLdZJV/AZjNZ5fQaLKqUWCWhIt4jPzUkU+HRDeqONNoqtttoqcq/Qzn0a25B+6qmn8k8wf/DBB9GpU6f867V33XXXWLhwYVx//fVx+eWX58fLfU907gns3DWf/uy1115x9913R01NTf6J6v/8bLHFFvnvl/7www8LRmiDKxilgQgQIECAAAECBAgQIECAAAECBAgQIJAqgW1G3hXzP1wS9/x4l+ixbsPz6lQlkpFgnddnpJDSKJiAhnTBKA2UFIGRI0fGjjvumP/TvXv3ePnll2OzzTbLh9fYhnSu+Txu3Lho3bp1jB8/PgYOHNggvfPPPz9OOumk/M/OOOOMOP300xv8XkM6KatBHAQIECBAgAABAgQIECBAgAABAgQIEMi2wMLFH8VWp4/JJ/n0qL2ic/s22U44BdlpSKegSEIsqYCGdEm5TVYOgaY2pHNPPPfv3z8f6jHHHBOXXXbZZ8JeunRp9OnTJ6ZPnx5rr712zJo1K9q0+f9N3iu7y1FpcxIgQIAAAQIECBAgQIAAAQIECBAgQKDyBF55e0Hscv64aN9m9Zh+5rD810X6lFdAQ7q8/mZPnoCGdPJqIqICCzS1IX3KKafEOeeck4/ikUceiQEDBiw3ovPOOy//Ku/cJ/dK8D333PPf15188slx7rnnxnXXXRcHHXRQg/vnzp0bXbt2zb8S/KGHHipYtja4glEaiAABAgQIECBAgAABAgQIECBAgAABAqkReOzld+KAyybGxl07xPiTdk1N3FkO1Hl9lqsrt+YIaEg3R809qRJoakN66NChMWHChOjYsWO8++67+dd2L+8zceLEfFM598m9sjv36u5PPnfddVcMGzYsjjjiiLjyyisb3H7DDTfkm9S5ZvYnje9CgNrgCqFoDAIECBAgQIAAAQIECBAgQIAAAQIECKRL4I5n3ohj//R47LDJ2nHz9z4+s/Ypr4Dz+vL6mz15AhrSyauJiAos0NSGdLdu3WLOnDnRt2/fePLJJ1cYzSdPOucuyL2i+8Ybb/z3tUuWLIktt9wy/vnPf+afst5uu+3yv5s/f37++6ife+65mDp1avTq1atg2drgCkZpIAIECBAgQIAAAQIECBAgQIAAAQIECKRG4KqHXopRt02LL26zXlx66PapiTvLgTqvz3J15dYcAQ3p5qi5J1UCTWlIL1q0KNZYY418fvvuu2/84x//WGmunTp1igULFsROO+0UuSemP/25//77Y++994527drFwQcfHJ07d45bbrklXnrppRg9enTkXg3elE9uA1vZ54033vj3d1/X1tZGVVVVU4Z3LQECBAgQIECAAAECBAgQIECAAAECBAikUODnY2bEpeNeiOGDNo1RX6lOYQbZC1lDOns1lVHLBDSkW+bn7hQINKUh/dZbb8W6666bz+ob3/hGXH/99SvNsHv37jF79uzo06dPPPPMM5+5dtKkSTFy5Mh8s3rx4sVRXV0dJ5xwQhx66KFNlqv/P9ZG36Mh3WgqFxIgQIAAAQIECBAgQIAAAQIECBAgQCDVAj+96am4ecprceLeW8b3d+2R6lyyEryGdFYqKY9CCWhIF0rSOIkVaEpDOtfI3XjjjfO5HHbYYXHNNdesNK/ctbl7tthii5g5c2ZRDTSki8prcAIECBAgQIAAAQIECBAgQIAAAQIECKRS4FtXTorxz78V53992zhgh41SmUPWgtaQzlpF5dNSAQ3plgq6P/ECTWlIF/oJ6ULieGV3ITWNRYAAAQIECBAgQIAAAQIECBAgQIAAgWwIDPvV+Jjx5vy4+sj+sUuvbtlIKuVZaEinvIDCL7iAhnTBSQ2YNIGmNKQL+R3SpXawwZVa3HwECBAgQIAAAQIECBAgQIAAAQIECBAov8D2Z90dby9YHHcePyS2Wr9z+QMSQTivtwgINBTQkLYiMi/QlIZ0DqNbt24xZ86c6Nu3bzz55JMr9Jk7d2507do1//sDDjggbrzxxrJa2uDKym9yAgQIECBAgAABAgQIECBAgAABAgQIlFyg7qOl0fOUO/PzTjl1j/hcp3Ylj8GEnxVwXm9VEGgooCFtRWReoKkN6aFDh8aECROiY8eO8e6770br1q2XazRx4sQYNGhQ/nenn356nHHGGWW1tMGVld/kBAgQIECAAAECBAgQIECAAAECBAgQKLnAG/MWxsBz74vWq68Wz4/eJ1av/9un/ALO68tfAxEkS0BDOln1EE0RBJrakD755JPj3HPPzUfyyCOPxIABA5Yb1XnnnRcjRozI/+6uu+6KvfbaqwjRr3jI6urqBr+sq6uLmpqa/M9qa2ujqqqqpPGYjAABAgQIECBAgAABAgQIECBAgAABAgRKK/BU7bux3yUPxfpd2sfEEbuXdnKzrVBAQ9riINBQQEPaisi8QFMb0pMmTfp3E/qYY46Jyy677DNGS5cujT59+sT06dNjrbXWitmzZ0ebNm1KaqkhXVJukxEgQIAAAQIECBAgQIAAAQIECBAgQCBxAvdOnxVHXT05ttmwS9z2g50TF1+lBqQhXamVl/eKBDSkrY3MCzS1IZ0D+eS13bnXdY8fPz4GDhzYwOn888+Pk046Kf+zkSNHxqhRo8ruaIMrewkEQIAAAQIECBAgQIAAAQIECBAgQIAAgZIK3DS5Nk68+enYpVe3uPrI/iWd22QrFnBeb3UQaCigIW1FZE7gwQcfjJkzZ/47rzlz5sSJJ56Y/+/BgwfH0Ucf3SDn4cOHf8bgiSeeyF+7cOHC6NSpU+Re473rrrvm//v666+P3//+9/l7evXqFZMnT44111yz7I42uLKXQAAECBAgQIAAAQIECBAgQIAAAQIECBAoqcDl41+Ms++YHl/tt2Fc+I3tSjq3yVYs4Lze6iDQUEBD2orInECuwXz11Vc3Oq9ly5Yt99rbbrstvvnNb8Z777233N/nmtG333579OjRF0rQRAAAIABJREFUo9FzFfNCG1wxdY1NgAABAgQIECBAgAABAgQIECBAgACB5An8z5gZ8dtxL8QRgzeNkV+uTl6AFRqR8/oKLby0VyigIW1xZE6gUA3pHMwrr7wSF110Ub7xnNtA2rZtm29AH3DAAXHcccdFhw4dEuNng0tMKQRCgAABAgQIECBAgAABAgQIECBAgACBkgj87C9Px/WP1cZP9uwVP9i9Z0nmNMmqBZzXr9rIFZUloCFdWfWWbYYFbHAZLq7UCBAgQIAAAQIECBAgQIAAAQIECBAgsByBY66dHHdNnRWj9+8T39xpE0YJEXBen5BCCCMxAhrSiSmFQAg0TaC6uuHrV+rq6qKmpiY/SG1tbVRVVTVtQFcTIECAAAECBAgQIECAAAECBAgQIECAQKoEDrxsYkx6+Z245JDPx77brp+q2LMcrIZ0lqsrt+YIaEg3R809BBIgoCGdgCIIgQABAgQIECBAgAABAgQIECBAgAABAmUU2OOCB2Lm7Pfjz98eEIO2WKeMkZj60wIa0tYDgYYCGtJWBIGMCNjgMlJIaRAgQIAAAQIECBAgQIAAAQIECBAgQKCRAjuMvjvmvL84xpwwJHqv17mRd7ms2ALO64stbPy0CWhIp61i4iWwAgEbnKVBgAABAgQIECBAgAABAgQIECBAgACByhFYunRZ9Dz1zvio/u9HT949unduXznJJzxT5/UJL5DwSi6gIV1ychMSKI6ADa44rkYlQIAAAQIECBAgQIAAAQIECBAgQIBAEgXmfVAXfc8cmw/tudHDol3rVkkMsyJjcl5fkWWX9EoENKQtDwIZEbDBZaSQ0iBAgAABAgQIECBAgAABAgQIECBAgEAjBF6asyB2/cW46NSudTx7xt6NuMMlpRJwXl8qafOkRUBDOi2VEieBVQjY4CwRAgQIECBAgAABAgQIECBAgAABAgQIVI7A46/Oja9d+nBUrb1GPPjfu1VO4inI1Hl9CookxJIKaEiXlNtkBIonYIMrnq2RCRAgQIAAAQIECBAgQIAAAQIECBAgkDSBe6fPiqOunhzbVnWJW4/bOWnhVXQ8zusruvySX46AhrRlQSClAtXV1Q0ir6uri5qamvzPamtro6qqKqWZCZsAAQIECBAgQIAAAQIECBAgQIAAAQIEViVw0+TaOPHmp2OXXt3i6iP7r+pyvy+hgIZ0CbFNlQoBDelUlEmQBD4roCFtVRAgQIAAAQIECBAgQIAAAQIECBAgQKByBS4f/2Kcfcf02H+7DeJXB/WrXIgEZq4hncCiCKmsAhrSZeU3OYHCCdjgCmdpJAIECBAgQIAAAQIECBAgQIAAAQIECCRd4H/GzIjfjnshjhi8aYz8csM3aiY99qzH57w+6xWWX1MFNKSbKuZ6AgkVsMEltDDCIkCAAAECBAgQIECAAAECBAgQIECAQBEEfvaXp+P6x2rjJ3v2ih/s3rMIMxiyuQLO65sr576sCmhIZ7Wy8qo4ARtcxZVcwgQIECBAgAABAgQIECBAgAABAgQIVLDAMddOjrumzoqz9u8Th+20SQVLJC915/XJq4mIyiugIV1ef7MTKJiADa5glAYiQIAAAQIECBAgQIAAAQIECBAgQIBA4gUOvGxiTHr5nbjkkM/Hvtuun/h4KylA5/WVVG25NkZAQ7oxSq4hkAIBG1wKiiREAgQIECBAgAABAgQIECBAgAABAgQIFEhgjwseiJmz348/f3tADNpinQKNaphCCDivL4SiMbIkoCGdpWrKpaIFbHAVXX7JEyBAgAABAgQIECBAgAABAgQIECBQYQI7jL475ry/OO48fkhstX7nCss+2ek6r092fURXegEN6dKbm5FAUQRscEVhNSgBAgQIECBAgAABAgQIECBAgAABAgQSJ7B06bLoeeqd8VH934+evHt079w+cTFWckDO6yu5+nJfnoCGtHVBIKUC1dXVDSKvq6uLmpqa/M9qa2ujqqoqpZkJmwABAgQIECBAgAABAgQIECBAgAABAgRWJjDvg7roe+bY/CXPjR4W7Vq3ApYgAQ3pBBVDKIkQ0JBORBkEQaDpAhrSTTdzBwECBAgQIECAAAECBAgQIECAAAECBLIg8PKcBfGFX4yLjm1bxdQzh2UhpUzloCGdqXJKpgACGtIFQDQEgSQI2OCSUAUxECBAgAABAgQIECBAgAABAgQIECBAoPgCj786N7526cNRtfYa8eB/71b8Cc3QJAHn9U3icnEFCGhIV0CRpVgZAja4yqizLAkQIECAAAECBAgQIECAAAECBAgQIHDv9Flx1NWTY9uqLnHrcTsDSZiA8/qEFUQ4ZRfQkC57CQRAoDACNrjCOBqFAAECBAgQIECAAAECBAgQIECAAAECSRe4ecpr8dObnoqhvbrFNUf2T3q4FRef8/qKK7mEVyGgIW2JEMiIgA0uI4WUBgECBAgQIECAAAECBAgQIECAAAECBFYhcPn4F+PsO6bH/tttEL86qB+vhAk4r09YQYRTdgEN6bKXQAAECiNggyuMo1EIECBAgAABAgQIECBAgAABAgQIECCQdIH/GTMjfjvuhThi8KYx8svVSQ+34uJzXl9xJZfwKgQ0pC0RAhkRsMFlpJDSIECAAAECBAgQIECAAAECBAgQIECAwCoERtzydFw3qTZ+vGev+OHuPXklTMB5fcIKIpyyC2hIl70EAiBQGAEbXGEcjUKAAAECBAgQIECAAAECBAgQIECAAIGkCxxz7eS4a+qsOGv/PnHYTpskPdyKi895fcWVXMKrENCQtkQIZETABpeRQkqDAAECBAgQIECAAAECBAgQIECAAAECqxA48LKJMenld+KSQz4f+267Pq+ECTivT1hBhFN2AQ3pspdAAAQKI2CDK4yjUQgQIECAAAECBAgQIECAAAECBAgQIJB0gT0veCBqZr8ffz56QAzqsU7Sw624+JzXV1zJJbwKAQ1pS4RASgWqq6sbRF5XVxc1NTX5n9XW1kZVVVVKMxM2AQIECBAgQIAAAQIECBAgQIAAAQIECKxMYIfRd8ec9xfHnccPia3W7wwrYQIa0gkriHDKLqAhXfYSCIBA8wQ0pJvn5i4CBAgQIECAAAECBAgQIECAAAECBAikWWDZsmXR45Q746Oly+LRk3eP7p3bpzmdTMauIZ3JskqqBQIa0i3AcyuBJAnY4JJUDbEQIECAAAECBAgQIECAAAECBAgQIECgOALzFtZF3zPG5gd/bvSwaNe6VXEmMmqzBZzXN5vOjRkV0JDOaGGlVXkCNrjKq7mMCRAgQIAAAQIECBAgQIAAAQIECBCoPIGX5yyIL/xiXHRs2yqmnjms8gBSkLHz+hQUSYglFdCQLim3yQgUT8AGVzxbIxMgQIAAAQIECBAgQIAAAQIECBAgQCApAo+/Oje+dunDUbX2GvHgf++WlLDE8SkB5/WWA4GGAhrSVgSBjAjY4DJSSGkQIECAAAECBAgQIECAAAECBAgQIEBgJQL3zZgVR141ObbZsEvc9oOdWSVQwHl9AosipLIKaEiXld/kBAonYIMrnKWRCBAgQIAAAQIECBAgQIAAAQIECBAgkFSBm6e8Fj+96akY2qtbXHNk/6SGWdFxOa+v6PJLfjkCGtKWBYGMCNjgMlJIaRAgQIAAAQIECBAgQIAAAQIECBAgQGAlApePfzHOvmN67L/dBvGrg/qxSqCA8/oEFkVIZRXQkC4rv8kJFE7ABlc4SyMRIECAAAECBAgQIECAAAECBAgQIEAgqQI/HzMjLh33QgwftGmM+kp1UsOs6Lic11d0+SW/HAENacuCQEYEbHAZKaQ0CBAgQIAAAQIECBAgQIAAAQIECBAgsBKBEbc8HddNqo0f79krfrh7T1YJFHBen8CiCKmsAhrSZeU3OYHCCdjgCmdpJAIECBAgQIAAAQIECBAgQIAAAQIECCRV4JhrJ8ddU2fFWfv3icN22iSpYVZ0XM7rK7r8kl+OgIa0ZUEgIwI2uIwUUhoECBAgQIAAAQIECBAgQIAAAQIECBBYicCBv5sYk156J35zSL/40rYbsEqggPP6BBZFSGUV0JAuK7/JCRROwAZXOEsjESBAgAABAgQIECBAgAABAgQIECBAIKkCe17wQNTMfj/+fPSAGNRjnaSGWdFxOa+v6PJLfjkCGtKWBYGUClRXVzeIvK6uLmpqavI/q62tjaqqqpRmJmwCBAgQIECAAAECBAgQIECAAAECBAgQWJHADqPvjjnvL447jx8SW63fGVQCBTSkE1gUIZVVQEO6rPwmJ9B8AQ3p5tu5kwABAgQIECBAgAABAgQIECBAgAABAmkUWLZsWfQ45c74aOmyeGTE7rFel/ZpTCPzMWtIZ77EEmyigIZ0E8FcTiCpAja4pFZGXAQIECBAgAABAgQIECBAgAABAgQIECiMwLyFddH3jLH5wWacNSzat2lVmIGNUlAB5/UF5TRYBgQ0pDNQRCkQyAnY4KwDAgQIECBAgAABAgQIECBAgAABAgQIZFvg5TkL4gu/GBcd27aKqWcOy3ayKc7OeX2Kiyf0oghoSBeF1aAESi9ggyu9uRkJECBAgAABAgQIECBAgAABAgQIECBQSoEnXp0bX7304dhwrTXioZ/tVsqpzdUEAef1TcByaUUIaEhXRJklWQkCNrhKqLIcCRAgQIAAAQIECBAgQIAAAQIECBCoZIH7ZsyKI6+aHNts2CVu+8HOlUyR6Nyd1ye6PIIrg4CGdBnQTUmgGAI2uGKoGpMAAQIECBAgQIAAAQIECBAgQIAAAQLJEbh5ymvx05ueiqG9usU1R/ZPTmAiaSDgvN6CINBQQEPaiiCQEQEbXEYKKQ0CBAgQIECAAAECBAgQIECAAAECBAisQOCKCS/G6Nunx37bbRAXHdSPU0IFnNcntDDCKpuAhnTZ6E1MoLACNrjCehqNAAECBAgQIECAAAECBAgQIECAAAECSRP4+ZgZcem4F2L4oE1j1FeqkxaeeP4l4LzeUiDQUEBD2oogkBEBG1xGCikNAgQIECBAgAABAgQIECBAgAABAgQIrEBgxC1Px3WTauPHe/aKH+7ek1NCBZzXJ7QwwiqbgIZ02ehNTKCwAja4wnoajQABAgQIECBAgAABAgQIECBAgAABAkkT+O61U2LM1DfjrP2q47CBmyYtPPH8S8B5vaVAoKGAhrQVQSAjAja4jBRSGgQIECBAgAABAgQIECBAgAABAgQIEFiBwIG/mxiTXnonfnNIv/jSthtwSqiA8/qEFkZYZRPQkC4bvYkJFFbABldYT6MRIECAAAECBAgQIECAAAECBAgQIEAgaQJ7XvBA1Mx+P/589IAY1GOdpIUnnn8JOK+3FAg0FNCQtiIIZETABpeRQkqDAAECBAgQIECAAAECBAgQIECAAAECKxDYYfQ9Mef9D+OOHw6JrTfozCmhAs7rE1oYYZVNQEO6bPQmJlBYARtcYT2NRoAAAQIECBAgQIAAAQIECBAgQIAAgSQJLFu2LHqccmd8tHRZPDJi91ivS/skhSeWTwk4r7ccCDQU0JC2IghkRMAGl5FCSoMAAQIECBAgQIAAAQIECBAgQIAAAQLLEZi3sC76njE2/5sZZw2L9m1acUqogPP6hBZGWGUT0JAuG72JCRRWwAZXWE+jESBAgAABAgQIECBAgAABAgQIECBAIEkCr7y9IHY5f1x0aNsqpp05LEmhieU/BJzXWxIEGgpoSFsRBDIiYIPLSCGlQYAAAQIECBAgQIAAAQIECBAgQIAAgeUIPPHq3PjqpQ/HhmutEQ/9bDdGCRZwXp/g4gitLAIa0mVhNymBlgtUV1c3GKSuri5qamryP6utrY2qqqqWT2IEAgQIECBAgAABAgQIECBAgAABAgQIEEiEwH0zZsWRV02ObTbsErf9YOdExCSI5QtoSFsZBBoKaEhbEQRSKqAhndLCCZsAAQIECBAgQIAAAQIECBAgQIAAAQLNEPjLlNfiJzc9FUN6rhPXHjWgGSO4pVQCGtKlkjZPWgQ0pNNSKXESWIWADc4SIUCAAAECBAgQIECAAAECBAgQIECAQHYFrpjwYoy+fXrst90GcdFB/bKbaAYyc16fgSJKoaACGtIF5TQYgfIJ2ODKZ29mAgQIECBAgAABAgQIECBAgAABAgQIFFvg52NmxKXjXojhgzaNUV9p+JWOxZ7b+E0TcF7fNC9XZ19AQzr7NZZhhQjY4Cqk0NIkQIAAAQIECBAgQIAAAQIECBAgQKAiBUbc8kxcN+nV+NEeveL4PXpWpEFaknZen5ZKibNUAhrSpZI2D4EiC9jgigxseAIECBAgQIAAAQIECBAgQIAAAQIECJRR4LvXTokxU9+Ms/arjsMGblrGSEy9KgHn9asS8vtKE9CQrrSKyzezAja4zJZWYgQIECBAgAABAgQIECBAgAABAgQIJESg9p0P4qx/TItde68bB/ffuKRRHfi7iTHppXfiN4f0iy9tu0FJ5zZZ0wSc1zfNy9XZF9CQzn6NZVghAja4Cim0NAkQIECAAAECBAgQIECAAAECBAgQKIvAK28viIN//0i8Pm9RrLZaxJ+OHhCDtlinZLHsdeED8fys9/PzDu5RunlLlmCGJnJen6FiSqUgAhrSBWE0CIHyC9jgyl8DERAgQIAAAQIECBAgQIAAAQIECBAgkE2BF996Pw65/NF4871F0bbV6rH4o6WxXuf2cefxQ2Ltjm1LkvQOo++JOe9/GHf8cEhsvUHnksxpkuYJOK9vnpu7siugIZ3d2sqswgRscBVWcOkSIECAAAECBAgQIECAAAECBAgQIFASgZmzc83oR2L2/A+j57qd4n8P3zGGXzUpXnxrQey1dff43WHb1z8xXf/IdBE/y5Ytix6n3BkfLV0Wj4zYPdbr0r6Isxm6pQLO61sq6P6sCWhIZ62i8qlYARtcxZZe4gQIECBAgAABAgQIECBAgAABAgQIFEng+Vnz809G555M7r3emvHH+tdlr9OpXTz7z3nx1UsfirqPlsXZX+0Thw7YpEgRfDzsvIV10feMsfn/PeOsYdG+Tauizmfwlgk4r2+Zn7uzJ6Ahnb2ayqhCBWxwFVp4aRMgQIAAAQIECBAgQIAAAQIECBAgUBSB6W+8F9+84tF4e8Hi2Hr9zvlmdNdPvZ77igkvxujbp9c3h1eP247bOXp2X7MoceQGzX1/9S7nj4sObVvFtDOHFW0eAxdGwHl9YRyNkh0BDens1FImFS5gg6vwBSB9AgQIECBAgAABAgQIECBAgAABAgQKJjD19Xn5ZvTcD+pimw27xLVH9Y+1OjT8ruil9a/PHn7VYzH++bdiq/qG9V+PHVS0J5efeHVu/RPZD8eGa60RD/1st4LlaaDiCDivL46rUdMroCGd3tqJnEADARucBUGAAAECBAgQIECAAAECBAgQIECAAIGWCzzzWn0z+n8f/fg12RutFdcc2T+6rNFmuQPPnr8o9vnVhPxT1EcM3jRGfrm65QEsZ4T7ZsyKI6+aHH027Bz/+MGQosxh0MIJOK8vnKWRsiGgIZ2NOsqCQNjgLAICBAgQIECAAAECBAgQIECAAAECBAi0TCD3JPK3rpwU8xctic9vvFZcVd+M7tx++c3oT2a6f8bsOKL+Senc5w/Dd4xde6/bsiCWc/dfprwWP7npqRjSc536p7UHFHx8AxZWwHl9YT2Nln4BDen011AGBPICNjgLgQABAgQIECBAgAABAgQIECBAgAABAs0XmPLKO3H4lY/F+x8uiR03XTv+cET/6NSudaMGHHXr1Ljq4ZdjnU5t487jh0a3Nds16r7GXvTJ91Xvt90GcdFB/Rp7m+vKJOC8vkzwpk2sgIZ0YksjMAJNE7DBNc3L1QQIECBAgAABAgQIECBAgAABAgQIEPhEYNJL78QRf5gUCxZ/FDtt3jX+9/Ado2Mjm9G5MRbVfRT7X/JQzHhzfuzSq1v+SenVV1+tYMA/HzMjLh33QgwftGmM+kpxXgtesGAN5AEya4DAfwhoSFsSBDIioCGdkUJKgwABAgQIECBAgAABAgQIECBAgACBkgq8/u7C2OOCB+KD+mb04B6fiyu+tWOs0bZVk2OomTU/vvTrB+PDJUvj1H23iqOHbN7kMVZ0w4hbnonrJr0aP9qjVxy/R8+CjWug4gg4ry+Oq1HTK6Ahnd7aiZxAAwEbnAVBgAABAgQIECBAgAABAgQIECBAoDIFPlzyUSxbFtG+TdObqJUp1jDrC8Y+FxffNzP6VnWJG44Z2CLHPz7ySpz6t2ejTavV4q/HDo4+G3YpCPF3r50SY6a+GWftVx2HDdy0IGMapHgCzuuLZ2vkdApoSKezbqIm8BkBG5xFQYAAAQIECBAgQIAAAQIECBAgQCB7Agvrn9p9871F8ca8hfHmvNzfi/7/7/c+/tmc9xdH21arx7G7bhHf37VHfTN09exBFCmjJR8tjZ3/5/688a8P7hdf7rtBi2ZaVv8vA46pbx6PnTYrtujWMW77wc7RoW3jvod6ZRMf+LuJkXuteCFibFGCbm6UgPP6RjG5qIIENKQrqNhSzbaADS7b9ZUdAQIECBAgQIAAAQIECBAgQIBAdgU+WLwk7qp/+rX2nYX/ajj/6+/6Jum7H9Q1KfGt1+8cvzigb2y9Qecm3VepF99T3zg++prJ0bVj25g4Yrdo17rlT5nPXbA4hl00Pma992EcOmDjOPur27SYd68LH4jnZ70ffzp6QP1rxddp8XgGKK6A8/ri+ho9fQIa0umrmYgJLFfABmdhECBAgAABAgQIECBAgAABAgQIEEifwHNvzo/v//nxmDn7/RUG36H++4zX69I+1q//s17nNT7++5P/zv+9Rjw4c06c/vdn8w3s3Ouif7Bbz/jeF7bwtPQqlsRRVz0W986YHd8Zunmc/MWtCraAHqqvx6FXPBqtVl8tpp6xd4teA54LaofR99Q/Cf9h3PHDIf6xQcGqVLyBnNcXz9bI6RTQkE5n3URN4DMCNjiLggABAgQIECBAgAABAgQIECBAgEB6BHKvdr5pymv5JvKiuqWx7prtYrfe636q0fz/jec127WO+sP8VSY3e/6iOPWvz+ZfF5379Nnw46ele6/naenl4eVegz74vPtiaf33b9/7k13qX7HdaZXGjb0gV98dz74330S+5dhB8fmN127srZ+5LjdWz1PujCX1geae4s79AwSfZAs4r092fURXegEN6dKbm5FAUQRscEVhNSgBAgQIECBAgAABAgQIECBAgACBggss+HBJnPa3Z+OWJ/6ZH3tor25x4YF943Od2rV4rlzz8tanXq9vdE+NeQs/flr6+N17xnd32SJa+27pBr4X3VMTF97zfAzYrGvccMzAFtv/5wBH1j99fV/909dnfKU6Dh+0abPHf29RXWw7amz+/hlnDWvx09bNDsSNjRZwXt9oKhdWiICGdIUUWprZE6iurm6QVF1dXdTU1OR/VltbG1VVVdlLWkYECBAgQIAAAQIECBAgQIAAAQIEUi6Qe0X3sX+aEi+8tSDq3+YcP9lry/hefbN49dx/FPAzu/77p0+uf1r6nukfPy29bVWX/NPSvbqvWcBZ0jvUR/VPGw/5n/vi9XmL4qKDtov9ttuw4MlccPfzcfG9NfH17avy9s39vPL2gtjl/HGRe3X7tDOHNXcY95VQQEO6hNimSoWAhnQqyiRIAp8V0JC2KggQIECAAAECBAgQIECAAAECBAikRyD35PKNk2tj5K1T86/oXq9z+7j44H7Rv/7p3GJ9cnP+7cl/xqhbp+Wflm5b/4T08Xv0jGPqvy+50p+Wvr/+yeUj6p9gXqtDm3hkxO5Feer4nvpXpx99zeTYsv4fAdz1o6HNLvMTr86Nr176cGy41hrx0M92a/Y4biydgIZ06azNlA4BDel01EmUBFYpYINbJZELCBAgQIAAAQIECBAgQIAAAQIECJRFIPeK7lPrX9H913+9onuX+ld0X1CgV3Q3JqFZuaelb3km7q1vwuY+ff/1tHTPCn5a+jv1jeLcd20fOXizOP3LWzeGscnX5NwHnHNv/kn4Z8/Yu/4J59ZNHiN3wyfN89x3gv/jB0OaNYabSivgvL603mZLvoCGdPJrJEICjRKwwTWKyUUECBAgQIAAAQIECBAgQIAAAQIESiow48334vt/ejz/iu5W9Z3Jn+zVK747tPCv6F5VUrmnpW95vP5p6dumxvxFS6Jt69XjR3v0im8P2azinpbONYoHnXdf5F7bfXf9k8vFbMz3P/uemD3/w/jL9wbG9ps072n4v0x5LX5y01MxpOc6ce1RA1ZVar9PgIDz+gQUQQiJEtCQTlQ5BEOg+QI2uObbuZMAAQIECBAgQIAAAQIECBAgQIBAoQU+eUX36X+fGh8uKc0ruhuTw5v135k84pan4/7n3spfvt1Ga+W/37jHup0ac3smrvnNfTXxi7HPxw6brB03f29QUXM6+urH6r/He3aMrH8K+4j6p7Gb87liwosx+vbp8ZW+G+Rf8+6TfAHn9cmvkQhLK6AhXVpvsxEomoANrmi0BiZAgAABAgQIECBAgAABAgQIECDQJIHcK7pP+esz9d/f/Hr+vlK/ontVweaa5TfXP3V75m3TYn59rLmnpa88fMfYuf4J3Kx/ltY/FT30/PvjtbkL45f1jfj/2r6qqCn/6p7n41f31MTXPr9h/Wvat2vWXOffNSMuuf+FGD5o0xj1lepmjeGm0go4ry+tt9mSL6AhnfwaiZBAowRscI1ichEBAgQIECBAgAABAgQIECBAgACBogpMf6P+Fd1/fjxe/Ncrun+615ZxzNDNY/XcFwkn7PPGvIVx0s1Px4SaObHhWmvE2PrXV3ds17zvOU5YaisMZ/zzb8W3rpwUndu3jkmn7BHt27Qqauj3zaj/nuqrJkfP+ifQ7/7xLs2aa0T9939fN+nV/CvWj99kJ3oQAAAgAElEQVSjZ7PGcFNpBZzXl9bbbMkX0JBOfo1ESKBRAja4RjG5iAABAgQIECBAgAABAgQIECBAgEBRBHJPHd/wWG2MvPX/X9H960P6xY6bNu97g4sS5HIG/WDxktjrwvH5J4aP3nmzOPVLW5dq6rLM870/Tok7n30zDh+4SZyxX5+ixzB7/qLof/a9sVr9v0d4dtTezWr4f/faKTFm6ptx5n7V8a2BmxY9ZhO0XMB5fcsNjZAtAQ3pbNVTNhUsYIOr4OJLnQABAgQIECBAgAABAgQIECBAoKwC7//rFd1//9crur+wZbf865m7dmxb1rgaO/m452bH8D88FrmHuG89bufos2GXxt6aquvemv9hDDz33lhS/9ruMScMid7rdS5J/Dudc2+8+d6iuOm7A5v1DxS+8buJ8ehL78Sv678/+sv13yPtk3wB5/XJr5EISyugIV1ab7MRKJqADa5otAYmQIAAAQIECBAgQIAAAQIECBAgsEKB3PdFH3DZxJhW/6ruVvUd3SS/ontlZfzhdU/ErU+9Xt+M7hx/O3ZwtG61euaq/ttxL8T/jJkR/TZeK/5an2OpPt++ZnLcPW1WnFb/9PlR9U+hN/Wz14UPxPOz3o8/HT0gBvfI/vd8N9Unidc7r09iVcRUTgEN6XLqm5tAAQVscAXENBQBAgQIECBAgAABAgQIECBAgACBRgjkXtOd+77oO555M9bp1DZ++83tm/UEbCOmKvoluaeH97jggZi3sC5O3XerOHrI5kWfs5QTLK1/KnrXX46LV97+IH7+9W3jwB02Ktn0v763Jn559/Ox/3YbxK8O6tfkeXf4P/buAz6r6v7j+NdsMhghYYYZlhBEkL0EFdQ6SrVoVVSqtrTW0dpKXRWsrWJta7V/LXXjRKzWAVhxgIBsGaIywg4zCSshITv/c28AiTLykGfce5/PfTWvrHvP+Z33ufS055dzzp8+Vu6BYk27baC6NPPm6nWfURz+APP1Du8gwgu6AAnpoJNTIQKBEWCAC4wrpSKAAAIIIIAAAggggAACCCCAAAIIIHA8gcMrbqPMyujJP++rng4/L/pkPfnG4i36/VsrVSc6UjN+M1gtkuNP9ohrfv/5ulxd8+xCJcVGaeG95yo+Jiposc80W6L/1GyJnp6aoE9+O8Sneq0/emh/7wf2NuPz7z5HTevV8el5bg6NAPP1oXGnVucKkJB2bt8QGQI+CTDA+cTFzQgggAACCCCAAAIIIIAAAggggAACCNRK4LO1Oebc5UUy+UI9OCJD1/ZtVavynPCwlfz8ydML7POKrXOwXxjdSyaJ4ITQah3DLWYl+9Qvd2hU35b604iutS7PlwKs1c3WKmeLcuX485VokuI1vfKKSnXG+Bn27asfvEBx5o8FuJwvwHy98/uICIMrQEI6uN7UhkDABBjgAkZLwQgggAACCCCAAAIIIIAAAggggAACCFQT2Ly7QJf8c67yisp0pdn6ecLlXT2TuF2fc0AX/mOOSsor9M+ruuuSbs1c3/u7TUK478OfqLS8MmTbXg+Y8Km27TuoN8xK+j5tG9bYdP763brqmQX2lvBL7htW4+e4MbQCzNeH1p/anSdAQtp5fUJECJySAAPcKbHxEAIIIIAAAggggAACCCCAAAIIIIAAAj4JFBSX6bKn5mnNrnyd2aK+3hjTV7FR3lq1+vjHmXrs47V2EvSTO4aoXny0T0ZOu/np2ev10PTVOiOtnt67ZWBIwhvz8hJ9+PUun8/nfuR/q2VtDf+j7s312JVnhiR2KvVdgPl63814wtsCJKS93b+0LowEGODCqLNpKgIIIIAAAggggAACCCCAAAIIIIBASASsLa1veX2Zppmtn1MSYzX11oFqUi8uJLEEstLisnJd9MRcrcs+oJ/0slaAnxHI6gJattVn5/7tM23ILdDDl3XVVb1bBrS+4xX+5Mx1evTDNbrUrDh/wqw8r+n1g8fn6JsdefqHSUaPMElpLncIMF/vjn4iyuAJkJAOnjU1IRBQAQa4gPJSOAIIIIAAAggggAACCCCAAAIIIIAAAvZKVWvFalTEaXrdbL3cq3WyZ1UWb9qjkRPn2+3zdZtpJ6Es2LDbPhc7ISZSC+89z6fzm/3ZDuvM8eufX6S2KQn69HdDalR0dn6Rev/5E/veJfedZ/8RBJc7BJivd0c/EWXwBEhIB8+amhAIqAADXEB5KRwBBBBAAAEEEEAAAQQQQAABBBBAIMwFrITi6BcWySy41YMjMnRt31aeF7n77ZV6fdEWtU1N0Ae3D3Ll1uS3T16md5dvNyujW5gV0qFb6b2noEQ9HvzIfme+HD9cdeNOvg36W19s1W/fXKGuzevpfbMan8s9AszXu6eviDQ4AiSkg+NMLQgEXIABLuDEVIAAAggggAACCCCAAAIIIIAAAgggEKYCm3cX6JJ/zlVeUZmu7GltYd1VZnLd8xr7D5bqvL9/ppz8Yt1+bnv9ZlgHV7V5r0kC93n4E5WUVZizoweYM6TrhzT+gY98qq17D+q1n/VR//SUk8Zym9ke/r0V2/Wroem68/xOJ72fG5wjwHy9c/qCSJwhQELaGf1AFAjUWoABrtaEFIAAAggggAACCCCAAAIIIIAAAggggMD3BApLynTZU/O0eme+zmxRX2+M6evKlcKn2rXWedm/em2pYiIjNP32gWrXKOlUiwr6c8/N3agHp36jLs3q2ud9h/qPCH75yhf64KuduucHnfTzwekn9CivqFTPP32kvYWlmjKmn3q38e728EF/MYJQIfP1QUCmClcJkJB2VXcRLALHF2CA4+1AAAEEEEAAAQQQQAABBBBAAAEEEEDAvwKVZn/uW8wqVSspa53fayU1m9SL828lDi/NMrhp0hJ9sjpbvc2Z2ZPN2dkR5gxtp19W3MMem6112Qccs8X6U7PW6S//W6OLz2iq/7u6xwkJV2Tt0w+f/FxJsVFaev8wRZs/COByjwDz9e7pKyINjgAJ6eA4UwsCARdggAs4MRUggAACCCCAAAIIIIAAAggggAACCISZwMTP1mvCB6sVZRKwr5tEbC+TkA3Ha9u+gxpmtu4uLCk35zB3Necxt3Q8w5JNe/TjifNVJzpSC+89t0ZnNge6UXMzczXquYVq3TBes+4cesLqnvgkU3//aK3O79JY/762Z6BDo3w/CzBf72dQinO9AAlp13chDUCgSoABjjcBAQQQQAABBBBAAAEEEEAAAQQQQAAB/wnMXpuj0S8sktk52TErbP3XOt9LOrz9dVJclD757dlqlOTsleJ3TFmut5du0xU90/SXH3fzvcEBeGJfYYnO/ONHdskr7h+uevHRx63lx/+apyWb9+qhH3XV1X2c/wcAAeBydZHM17u6+wg+AAIkpAOASpEIhEKAAS4U6tSJAAIIIIAAAggggAACCCCAAAIIIOBFgc27C3Tp/32u/QdLdWXPFppwedeQnz8camfrTOMfPfW5vty6v0ZbTocy3gPFZfb5y0WlFXrrl/11VqsGoQynWt2D/zJTW/YU6tWb+mhAu5RjxrXfnBvd/cEZ9h9DzP39UKU1iHdM/ARSMwHm62vmxF3hI0BCOnz6mpZ6XIABzuMdTPMQQAABBBBAAAEEEEAAAQQQQAABBIIiUFhSpsuemqfVO/PVrUV9vWG26o4z2z5zSV9t22+fa2wlp58f3VPndGrsSJa3vtiq3765Qm1SEvSpWc1tEiGOifNXry7VtJU7dNeFnfSLs9OPGdd08/ubzX3pqQlmNfoQx8ROIDUXYL6+5lbcGR4CJKTDo59pZRgIMMCFQSfTRAQQQAABBBBAAAEEEEAAAQQQQACBgApUVlbqlteXadqXO5SSGKuptw5Uk3rO3po6oCDHKPyh6av09OwNal6/jmb8ZrASYqOCHcJJ67vWnNM8x5zXfMewDrrt3PYnvT+YNxw+l/yirk315DU9jln1XW99qcmLs3TDgDa6/5LOwQyPuvwkwHy9nyApxjMCJKQ905U0JNwFGODC/Q2g/QgggAACCCCAAAIIIIAAAggggAACtRU4nCyMijhNr5uV0b1aJ9e2SM89b60gH/7YbG3de1A3DmyjP1zsrITprrwi9Xv4E3u769l3DlXLhs7a7nreulxd/exCtUiuozljz/ne+2H9UUT/CZ9qx/4ivfjTXhrSsZHn3qFwaBDz9eHQy7TRFwES0r5ocS8CDhZggHNw5xAaAggggAACCCCAAAIIIIAAAggggIDjBWavzdHoFxbZicwHR2To2r6tHB9zqAKctSbbWC2Wydvr3V8NVNe0eqEK5Xv1PmNWb//ZrOK2zo22zo922mWdS97tgRl2WMvvH6b68THVQly7K99O+MdGRWjFuOFsF++0DqxhPMzX1xCK28JGgIR02HQ1DQ2FwCuvvKI5c+boiy++0MqVK1VSUqIXXnhBo0eP9ns4DHB+J6VABBBAAAEEEEAAAQQQQAABBBBAAIEwEdiyu1CX/N9cWcnCK3qm6ZHLz3DUucNO7IbbzNbm763Yrq7N6+m9WwY4xusHj8/RNzvy9CfzRwWjHPpHBUMenalN5p17+cbeGtQ+tVr3Pjtng/40bZUGd0jVSzf0dmLXE1MNBJivrwESt4SVAAnpsOpuGhtsgdatW2vz5s1KSUlRQkKC/TUJ6WD3AvUhgAACCCCAAAIIIIAAAggggAACCCBwfAFrC+rLnpqn1Tvz1a1Ffb1htuqOi46E7CQCOfnFshKrBSXleu76njr39MYhN1tj+vD8f8xWdORpWnTPeWqQUH31ccgDPBTArSaZ/75J5o+9oKNuHtKuWliHz7++76LTddOgtk4JmTh8FCAh7SMYt3tegIS057uYBoZS4OOPP1b79u3VqlUrTZgwQXfffTcJ6VB2CHUjgAACCCCAAAIIIIAAAggggAACCCBwlIB1Xu/tk5fbK31TEmM19daBalIvDqMaCjxstsb+t9kiu3vL+nrbbI9tEg41fDIwt034YLWsc8CHd26sp6/rGZhK/FDq07PX66Hpq3VhRhP9a9RZR0o8aJL73f44QyVlFfr4jsFq1yjJD7VRRCgESEiHQp06nSxAQtrJvUNsnhIgIe2p7qQxCCCAAAIIIIAAAggggAACCCCAAAIeEHhn2Tb9+o3lijKHIb9uVkb3ap3sgVYFrwnZ+UUa+MhMO4H62k191L9dSvAq/05NFebw7wGPfKod+4v0r2t66MKuTUMWy8kqnr9+t656ZoGa16+jz+8658jtM83Z3D81Z3NbP5/7+6EhT/CfrB38/vgCJKR5OxCoLkBCmjfCkQLZ2dlatGiR/bF48WL7Y/fu3Xas119/vV588cUax71lyxY98cQTmjZtmqyvY2Nj1a5dO11xxRW6+eabFR8fX+OyanMjCena6PEsAggggAACCCCAAAIIIIAAAggggAAC/hXYsf+ghj82W/lFZfrtsA669dz2/q0gTEq7/92v9NL8zeqf3lCv/axvyFo9b32urn5moZLiorT43vMcve16XlGpzhg/w7Za+odhSj60tfj4977Wi/M26areLfTwZWeEzJKKay9AQrr2hpTgLQES0t7qT8+05kRbu/iSkLaS0Ndcc432799/TJuOHTtq+vTpats28GdxkJD2zOtJQxBAAAEEEEAAAQQQQAABBBBAAAEEXC5graa97vlFmrsu1z43+q1f9FNUZITLWxWa8LftO6iz/zJTZcb07Zv7q0fLBiEJZOx/VmjKkq2uSeae89dZ2pBboEk39NbZHVJts3P+Zn6WU6CJo3roggznrvAOSQe7rFIS0i7rMMINuAAJ6YATU8GpCBydkG7RooVOP/10zZhR9RdjNU1Ir1ixQv3791dhYaESExPt85uHDh2qgwcPavLkyXrmmWfs8jp16mSvwLbuCeRFQjqQupSNAAIIIIAAAggggAACCCCAAAIIIIBAzQVemr9J97/7tVlFG6Fptw1Sempg5wZrHpk777zzzRV684utOrdTIz03ulfQG1FUWq5ef/pY+cVlesNsvd6nbcOgx+BrhbdPXqZ3l2/X74Z30C3ntFfWnkINMon9SLN9/LL7h6luXLSvRXK/gwRISDuoMwjFEQIkpB3RDQTxXYFx48apV69e9kfjxo21adMmtWnTxr6tpglpK/k8a9YsRUVFafbs2erXr1+1ah599FGNHTvW/tkDDzyg+++//3sdkZKScmSr8Jr00syZMzVkyJBj3kpCuiaC3IMAAggggAACCCCAAAIIIIAAAggggEBgBTbkHNAPnpijotIKPXBpF13fv3VgKwyD0i3T8/7+mcwiaU03Cf7OzeoGtdVTv9yuW15bZp+9PGfsUEWYpK7Tr2fnbNCfpq3S+V0a69/X9tQrCzbrvne+MueYN9Cbv+jv9PCJ7yQCJKR5RRCoLkBCmjfCFQK+JqStFc+9e/e22zZmzBhNnDjxe+2sqKhQRkaGVq1apQYNGmjXrl2Kjq7+V2e33nqr8vPza2x011132Suuj3WRkK4xIzcigAACCCCAAAIIIIAAAggggAACCCAQEIGy8gpdPnG+VmTt08B2KXrJbJfshuRlQDD8XOgtry3V1C936KIzmurJq3v4ufQTF3fji4v1yeps/Wpouu48/9jzs0ENqAaVLdywW1c+vUDN6sVp3t3n6ucvLdGMb3YdWTFdgyK4xcECJKQd3DmEFhIBEtIhYadSXwV8TUjfe++9euihh+xqFixYoD59+hyzysNJYuuX1pbgw4YN8zW0Gt9PQrrGVNyIAAIIIIAAAggggAACCCCAAAIIOFaguKxcewpKtPuA+TCf8w6W2qtB26Yk6Ohj6BzbgDAP7J+fZOpvH61VUlyUPvz1YDUzK2q5/COwakeeLnx8jvl3IH18x9lB2wZ994Fi9XnoE/sM64/vGKx2jZL806AAl3LAbC/edfyHqjSryheYhLS1wtz62Xu3DNAZafUDXDvFB1qAhHSghSnfbQIkpN3WY2Ear68J6cGDB2vOnDlKSEjQvn377G27j3XNnz/fPmfauqwtu62tuwN1kZAOlCzlIoAAAggggAACCCCAAAIIIIAAAqcuYK2Y3VNYlWC2Es25Jrl1+OvdBcXm+6qfW0kv6+fWGbXHutIa1NHgDqka3D5V/ds15PzXU++SgD351bb9GvHk53bi8rEru+lH3dMCVle4FnzTpMX6eFW2fnxWmv46sltQGA6fB961eT29f+vAoNTpr0rO/dssrc8p0C+HpOtfs9YrOSFGS+49j1X7/gIOYTkkpEOIT9WOFCAh7chuIajvCviakE5NTVVubq66deum5cuXHxd07969Sk5Otn8/cuRITZkyJWD4JKQDRkvBCCCAAAIIIIAAAggggAACCCCAwEkFtu07qDeXZGnNzvxDq5tNgtkkmvcVlp702e/eEGXOp7USRw0TYxUXHaGvt+WpxCS2D1+R5vc9WtbX2VaC2nxkNKtHgslnZf8+UFRarkv+OVeZ2Qd0YUYTPXVND1a0+5fYLm3Zlr360VPzZP0bmXXnEKU1iA9ALdWLtP7IYLnZgv0PF3fWjQPbBLw+f1bwmzeW67/LtikxNspeHT3izGb6x0+6+7MKygqRAAnpEMFTrWMFSEg7tmsI7GgBXxLSRUVFqlOnaqudiy66SFOnTj0hZmJiogoKCtS3b19ZK6b9eT377LOaO3euXeTKlSu1dOlSDRgwQO3atbN/NmLECPujJpc1gJ3o2rFjx5Fzs7OyspSWxl941sSVexBAAAEEEEAAAQQQQAABBBBAwLsC5WYl7Oy1OXplwWbNXJMt8+0xL5M7U4N4K8FsPhJilWw+pxxKOFuJ5xTr5yb5bH9tfl+3TlS1ZGZhSZkWbtijz0xdVn0bcguq1WM9Z51XbCWoB3VIUaOkOO+iO7Rlf572jZ6Zs9H0ZazZqnuQ3Z9cgRG45tkF+nzdbl3Xr5X++MOMwFRyqNSN5t/a0L/OkvVveME957ru39bzczfqj1O/OWL09yu66bIezOsG9KUJUuEkpIMETTWuESAh7ZquCu9AfUlI5+TkqFGjRjbYlVdeqcmTJ58Qr3HjxsrOzlZGRoadNPbnNXr0aE2aNOm4RY4bN07jx4+vUZW+nEFEQrpGpNyEAAIIIIAAAggggAACCCCAAAIeFcjJL9YUsxr69UVbtHXvwSOt7J/eUMM6N1ZqUqydeK5KQMeovklGW6ua/XVl7SnU7MwcfbYmR/PW77ZXPh59nd60rlk5XZWg7tkqWTFREf6qmnKOIbBgw25d9cwC+6zeZ6/rqfPMO8AVOIF563J19bML7fd67u+HBjRJ/HdzHvgT5lxw69/SpBt6B65RASp58aY9Gjnx20VSi8123dZ/P3G5X4CEtPv7kBb4V4CEtH89KS1AAr4kpK1kbMuWLe1Irr32Wr300ksnjMq613omPT1d69atC1ALal8sCenaG1ICAggggAACCCCAAAIIIIAAAgh4V6DSZBsXmFXKry7crA+/3qnS8qrl0PXqRNvn2V7dp6XSUxODDlBqtvJetmWfvXLaWkG90pxjfPQVHxOpfm0b2lt7W0m11ikJQY/RyxXmF5Xqwsfn2H+YcGXPFnrkx2d4ubmOaJv1b/Gyf82z3/sxg9vq7h+cHpC4rHrOfnSWtpg/APnHlWdqRPfmAaknkIUWmD9W6Tr+Q3v3hi7N6mrabYMCWR1lB1GAhHQQsanKFQIkpF3RTQTpS0LaSSuk/dlzbNntT03KQgABBBBAAAEEEEAAAQQQQAABrwjsN2dAv7V0q52IXp/z7VbZ3c0Zztf0aaWLz2hqznmOdExzdx8o1lyzgrRqe+9c5Zrvj75aJsfrqt4t7bNwWTld+277/X++1BtmtXxagzr64PZBSoqLrn2hlHBSgU9W7dKNk5YowfzBxed3nWPvQuDv64vNe3W5SXxbf9Sx5L7zzOcof1cRlPKG/f0z+2zzm4eka+wFnYJSJ5UEXoCEdOCNqcFdAiSk3dVfYRutLwlpJ50hHcwOY4ALpjZ1IYAAAggggAACCCCAAAIIIIBAKAWslZFfbt1vnw39/pfbVVRaYYdjJaasVZJXm4RuRvN6oQyxRnVXmGWRq3bm2YlpawX1ks17jqzs7tg4SQ9dlqGzzJbeXKcm8PE3u3TTS0vMed/S6z/rq75mJTpXcASsf6M/eGKuVu3I0+3nttdvhnXwe8X3vbPS/HfAFl1m/s3/3ayQduv1svnvsRc/36jnR/dSq4bskODWfvxu3MzXe6UnaYe/BEhI+0uScgIq4EtC2gokNTVVubm56tatm5YvX37c2Pbu3avk5Kr/UT9y5EhNmTIloO0IZOEMcIHUpWwEEEAAAQQQQAABBBBAAAEEEHCCQGFJmd5bvl2vmNXQX23LOxKSlbwd1belnYx28wpYa/veaSt36JEPVmt3QYndPmur8d+bVZPW1uNcNRewVqKf/4/ZZgV6iX42qI3uvahzzR/mTr8ITDV/LHLLa8vsd9daJZ0Y678VzCVlFer90MfaZ3ZIeMmcHW1tec+FgJMEmK93Um8QixMESEg7oReI4aQCviakBw8erDlz5ighIUH79u1TVNSx/8fO/Pnz1b9/f7v++++/Xw888MBJY3HqDQxwTu0Z4kIAAQQQQAABBBBAAAEEEEAAgdoKrN2Vr1fNKsK3l25TvknaWldMZIQuMttxX2MStme1amBWwZplsB659ppk9MMfrNKUJVvtFqUkxmrcJZ3t7ce91M5AdZe1OveXryzV/8xZ4u0bJer9Wwc6atv2QLXbaeWWmx0Ahj32mTaYrfTvurCTfnF2ut9CnGH69ucvf6HUpFgtuPtcRUZ459+/35AoKKQCzNeHlJ/KHShAQtqBnUJI3xfwNSF9zz336OGHH7YLWrBggfr06XNM1gkTJujuu++2f/fhhx9q+PDhruHv0qVLtVhLS0uVmZlp/ywry5yLk5bmmrYQKAIIIIAAAggggAACCCCAAAIIIPBdgeKycv3vq50mEb1FizbtOfLrVg3j7ST0j89qoeQE/59L66SeWLBht+7570o7oWddQzqm6sEfZqiFOWea6/gC/122Vb95Y4WiTJLynV8NcMX27V7tzzfN+d13mnO8rT+qmPv7oX77w4CbX/1C01fu1E3mrPX7Lmb1u1ffHze3i4S0m3uP2AMhQEI6EKqU6XcBXxPSixYtOpKEHjNmjCZOnPi9mCoqKpSRkaFVq1apfv36ys7OVnS0e7Y+IiHt99eMAhFAAAEEEEAAAQQQQAABBBBAwCECM1dn6+63V2pnXpEdkbX68bzTG5ltuVtpQHqKIsJoNaSVmP/XrPV6auZ6lZRXmIRehH59XgfdaBJx0WaVOFd1ge37DtpbdecXlem35tziW835xVyhEyg17+yQR2dpm+mXBy7touv7t651MPsPlqrXnz+WtW33tNsGqksz558XX+tGU4DrBEhIu67LCDjAAiSkAwxM8f4R8DUhbdV6eNtua7vu2bNnq1+/ftWCefTRRzV27Fj7Z+PGjdP48eP9E2yISmGACxE81SKAAAIIIIAAAggggAACCCCAgN8ErETTn6Z+oze/qNqqunHdWF3Vu6V+0qulmtSL81s9bixofc4B3WtWSy/YULVavFOTJD18WVd1b9nAjc0JSMwVZovoa59fqM/X7Va3FvX11i/6KYqkfUCsfSn05fmb9Id3v1Yz82941p1DFRNVuz+kmLxoi+4yf7DSoXGiPvz1YLax96UzuDdoAszXB42ailwiQELaJR0VbmHOnTtX69atO9Ls3Nxc3Xnnnfb3AwYM0E033VSNZPTo0d8jWrZsmX3vwYMHlZiYKGsb76FDh9rfT548WU8//bT9TIcOHbRkyRIlJSW5mpkBztXdR/AIIIAAAggggAACCCCAAAIIhL3ArDXZuuutqlXR1nHQNwxoo98N76g6MZFhb3MYwDob+T8mWf/n6au0r7DUdrrWrFw1iBUAACAASURBVBr/3fkdVTfOPTv/BapDJ83bpHHvfW2vIp922yClpyYGqirK9UGgqLRcg/4yUzn5xfrL5Wfoil4tfHj6+7de+e/5Wrhxj8Ze0FE3D2lXq7J4GIFACTBfHyhZynWrAAlpt/acx+O2EsyTJk2qcSut/zF+rOv999/XqFGjlJeXd8zfW8noadOmqV079/8PFwa4Gr8u3IgAAggggAACCCCAAAIIIIAAAg4SyCsq1Z+nrtIb5qxZ62ptzoh+dGQ39Wqd7KAonRXK7gPFdlL67aXb7MCsleTjL+miCzKahO1qUWsF+UVPzFFRaYXftoZ2Vq+7O5qnZ6/XQ9NXq01Kgj6+42x7G/5TubbuLdTAR2baj8676xw1q1/nVIrhGQQCLsB8fcCJqcBlAiSkXdZh4RKuvxLSltfmzZv1+OOP24lnaxCIiYmxE9AjR47ULbfcovj4eE+wMsB5ohtpBAIIIIAAAggggAACCCCAAAJhJTB7bY5+/9aX2rG/alX0aHO+7NjzO7EquoZvwefrcu1tvDftLrSfsM7ZfuCHGWoeZkm6MnNO8eUT52tF1j4NbJeil27oHVbnjNfwdQnpbQeKyzRgwqeytuV/4qruurRbs1OK58mZ6/Toh2vUt22yJv+8+hGNp1QgDyEQIAHm6wMES7GuFSAh7dquI3AEqgswwPFGIIAAAggggAACCCCAAAIIIICAWwTyzaroh8wK39cXVa2KbplsVkX/+Az1advQLU1wTJzWdshWkm7iZ+tVWl6peLPF+R3DOtjJ/XA5P/mfn2Tqbx+tVVJclH2mMKtmHfN6VgvkHx+v1T8+zrTPP59utlSP8HGVtLVL5rDHZmtd9gE9cnlXXWnOludCwKkCzNc7tWeIK1QCJKRDJU+9CNRSoEuXLtVKKC0tVWZmpv2zrKwspaWl1bIGHkcAAQQQQAABBBBAAAEEEEAAAQT8LzA3M9deFb1t30G7cHtVtDkLNj4myv+VhVGJmbvydffbK7Vk81671RnN6+rhH52hrmn1PK3w1bb9GvHk5yqrqNRjV3bTj7ozJ+bUDt9XWGKvki4oKdez1/XUeZ0b+xSq1dcX/3OuYqIitOS+8zg33Sc9bg62AAnpYItTn9MFSEg7vYeID4HjCJCQ5tVAAAEEEEAAAQQQQAABBBBAAAE3CVhb9lqrol9buMUOu0VyHf3l8m7ql86qaH/1Y4VJylpncT9snPOKymQtQL3eJPzvPN+bCX9rdfglJkGZaVbMXmjOz37qmh5he4a2v96hQJfz8Aer9O/PNujMFvX135v7+9RfD079Rs/N3aiLujbVk6avuRBwsgAJaSf3DrGFQoCEdCjUqROBAAgwwAUAlSIRQAABBBBAAAEEEEAAAQQQQMAvAtZZx2P/8+2q6Ov6tdLvL+ikhFhWRfsF+DuF5OQXy0revbdiu/2b9NQEO4HXqUndQFQXkjJLyir06zeWafrKnUpJjDVbdQ9SQ/OZy9kC1rs58JFPVWz6754fdLK3Vzd/RyFrO+4K82GOA7c/V31f9fXh3z9htmbPPVBySqurna1CdF4UYL7ei71Km2ojQEK6Nno8i4CDBBjgHNQZhIIAAggggAACCCCAAAIIIIAAArZAgVkVPeGD1Xp5wWb7+7QGZlW0OSu6f3oKQkEQmLUm294efVdesWLNNscPXNrFnLvbwqdVqUEI0+cqrJXRv3jlC81ak6OYyAg9e31PDe6Q6nM5PBAagXHvfqVJ86v+O8HXq0F8tBbec569bTcXAk4WYL7eyb1DbKEQICEdCnXqRCAAAgxwAUClSAQQQAABBBBAAAEEEEAAAQQQOGWB+et3a+xbK5S1p+qs6FF9W+ruC09nVfQpi57ag7sPFOs3U1Zo9tocu4AfntlMf/5RVyW6dHW6tfX7jS8u1sKNexQXHaGnryUZfWpvRuieyjXvpHXe+f7CUvPHETJby5+mSLO//OGvra3mrZ+Z5IW97bz1O+v7CPP5R92b6ZxOvp09HbqWUnM4CzBfH869T9uPJUBCmvcCAY8IMMB5pCNpBgIIIIAAAggggAACCCCAAAIuFygsKdMjZlX04RWQzc2WvNaq6AHtWBUdqq61zpaeOHu9/jZjrdkSuVJtUxL0z6u7q0uzeqEK6ZTq3VdYoutfWKwVWfuUZBLqz/+0l3q1Tj6lsngIAQQQCKQA8/WB1KVsNwqQkHZjrxEzAscQYIDjtUAAAQQQQAABBBBAAAEEEEAAgVALLNywW3eas6K37Cm0Q7m6T0tzTuzprl2NG2pPf9e/eNMe3fb6Mu3YX2RvefyHiztrlOkjayWq0y/r7OFrn1uo1TvzVd9s2/zyDX3UNc1dCXWnGxMfAgj4T4D5ev9ZUpI3BEhIe6MfaQUCYoDjJUAAAQQQQAABBBBAAAEEEEAAgVAJWKui//K/NXpx3iY7hGb14vSIWRU9qD3n+oaqT45X796CEv32zRX6dHW2fctFZzTVw5d1Vd24aKeFeiSe7fsO6ppnF2pjboFSk2L1yo191LFJkmPjJTAEEECA+XreAQSqC5CQ5o1AwKUCXbp0qRZ5aWmpMjMz7Z9lZWUpLS3NpS0jbAQQQAABBBBAAAEEEEAAAQQQcJPAl1v36Vaz6nbz7qpV0Vf1bmGvik5ycILTTb6BiNXawvu5uRv1yP9Wq8x83TI5Xk9e3cORK443mSS0lYzeZpLS1vbvr97UR63NluNcCCCAgJMFSEg7uXeILRQCJKRDoU6dCPhBgIS0HxApAgEEEEAAAQQQQAABBBBAAAEEaiXw7vJtGmu26C4uq1BTsyp6wuVn6OwOrIquFWoQH166Za9ufW2ZneyNiYwwf0jQSdf3b+2YLbzXmO25R5ltuq3tuq1zr18xyehmJinNhQACCDhdgIS003uI+IItQEI62OLUh0CABBjgAgRLsQgggAACCCCAAAIIIIAAAggg8D0Ba4XtX2es0VOz1tu/O6dTIz125ZmqV8e52z7TjccW2F9Yas79XqEZ3+yybzi/S2P95fJuqmfOaQ7lZa28v+75Rdpn4utktud+2WzTbW3XzYUAAgi4QYD5ejf0EjEGU4CEdDC1qQuBAAowwAUQl6IRQAABBBBAAAEEEEAAAQQQQOCIQH5RqX7zxnJ9vKrqDOJfDknX74Z3VGTEaSi5VKCystI+//uh6atUWl6ptAZ19H9mC+8zW9QPSYsWbdyjG15crAPFZepmYpj0016qHx8TklioFAEEEDgVAebrT0WNZ7wsQELay71L28JKgAEurLqbxiKAAAIIIIAAAggggAACCCAQEoEt5pzom15arLW7DigmKsKspD1DI7o3D0ksVOp/AWtV8i1mC+8tewoVZf7A4K4LO+nGgW2CuoX37LU5+vnLS1RUWqG+bZP17PW9lBgb5f/GUiICCCAQQAHm6wOIS9GuFCAh7cpuI2gEvi/AAMdbgQACCCCAAAIIIIAAAggggAACgRSYtz5XN7+61N5CuZHZOvmZ63raq1e5vCWQZ1bA3/XWl5q+cqfdsPNOb6S/juwWlBXK//tqp257fZlKyis0pGOqJo46S3HRkd4CpjUIIBAWAszXh0U300gfBEhI+4DFrQg4WYABzsm9Q2wIIIAAAggggAACCCCAAAIIuFvg5fmbNP79b1Ruzo7ullZPT5tkdOO6ce5uFNEfV8DawvuVhVv04NRvVFJWoWb14vTPq7vrrFbJAVP777Kt+t2bX9rv2A+6NtE/ruxur8LnQgABBNwowHy9G3uNmAMpQEI6kLqUjUAQBRjggohNVQgggAACCCCAAAIIIIAAAgiEiUCpWak6/r2v9apJTlrXiDObaYLZpptVq+HxAny9fb+9hffG3AL7jPA7z++onw9qqwg/nxf+yoLN+sO7X8nkwfXjs9I04bKuiookGR0ebxmtRMCbAszXe7NfadWpC5CQPnU7nkTAUQIMcI7qDoJBAAEEEEAAAQQQQAABBBBAwPUCewpK9MtXvtDCjXvMGcLS7y/opDGD2wb1PGHXI3qgAQeKy3TP2yv13ortdmviYyLVrlGi2qWaj8aJat8oyXwkqkVyvJ209vX692fr9fAHq+3Hru/XSuMu6eL3hLevMXE/AgggUFsB5utrK8jzXhMgIe21HqU9YSvAABe2XU/DEUAAAQQQQAABBBBAAAEEEPC7wOqdebpp0hJt3XtQibFRevwnZ+rc0xv7vR4KdIeAtYX35MVZ+vO0VbIS1Me6rO2126YkqH3jqgS1lbS2PrdqmHDMrbetMh/7aK2e+HSdXdzNQ9LtFdhmwtodKESJAAIInECA+XpeDwSqC5CQ5o1AwKUCXbp0qRZ5aWmpMjMz7Z9lZWUpLS3NpS0jbAQQQAABBBBAAAEEEEAAAQQQCKXAjK936jdvLFdBSblJJsbrWXNetJVk5ELA2sJ9y55CZe46oHXZ+crMPmB/vT7ngIrNWdPHuqLMqunWJlFtrahub1ZUVyWqk/TW0q16bu5G+xErEf2roe0ARgABBDwjQELaM11JQ/wkQELaT5AUg0CwBUhIB1uc+hBAAAEEEEAAAQQQQAABBBDwtoC1YvXJmev01xlr7Yb2T2+oJ6/uoQYJMd5uOK2rtUB5RaW2mdX0mUclqdeZJPW6Xfn2Hzac6Hrg0i66vn/rWsdAAQgggICTBEhIO6k3iMUJAiSkndALxICAHwQY4PyASBEIIIAAAggggAACCCCAAAIIhKnAQZM0vPM/KzT1yx22gHWW730Xd1Z0ZESYitBsfwhYf+SwY3+RvZJ6nf1hVlWbFdXW99bv/mDesZE9W/ijKspAAAEEHCXAfL2juoNgHCBAQtoBnUAICPhDgAHOH4qUgQACCCCAAAIIIIAAAggggED4CezYf1A/f+kLrdy2X9b2yn/8YYau7tMy/CBocdAErGS0WVStSPO+cSGAAAJeFGC+3ou9SptqI0BCujZ6PIuAgwQY4BzUGYSCAAIIIIAAAggggAACCCCAgEsEvti8V2Ne/kK5B4qVbLbm/tc1PdSnbUOXRE+YCCCAAAIIOFOA+Xpn9gtRhU6AhHTo7KkZAb8KMMD5lZPCEEAAAQQQQAABBBBAAAEEEPC8wH++2Kp73l6pkvIKdWqSpGeu66kWyfGebzcNRAABBBBAINACzNcHWpjy3SZAQtptPUa8CBxHgAGOVwMBBBBAAAEEEEAAAQQQQAABBGoiUG72Sp7wwSo9M2ejffvwzo312JVnKiE2qiaPcw8CCCCAAAIInESA+XpeEQSqC5CQ5o1AwCMCDHAe6UiagQACCCCAAAIIIIAAAggggEAABfYfLNVtry/TZ2tz7FpuO6edfn1eB0Vwlm8A1SkaAQQQQCDcBJivD7cep70nEyAhfTIhfo+ASwQY4FzSUYSJAAIIIIAAAggggAACCCCAQIgE1mUf0M9fXqINOQWKi47QX0d208VnNAtRNFSLAAIIIICAdwWYr/du39KyUxMgIX1qbjyFgOMEGOAc1yUEhAACCCCAAAIIIIAAAggggIBjBKZ9uUNj/7NCBSXlalovzj4vOqN5PcfERyAIIIAAAgh4SYD5ei/1Jm3xhwAJaX8oUgYCIRDo0qVLtVpLS0uVmZlp/ywrK0tpaWkhiIoqEUAAAQQQQAABBBBAAAEEEEDASQKl5RXmvOjVem5u1XnRfdsm659X9VBqUqyTwiQWBBBAAAEEPCVAQtpT3Ulj/CBAQtoPiBSBQCgESEiHQp06EUAAAQQQQAABBBBAAAEEEHCPQHZekX712lIt3rTXDnrM2W115/COioqMcE8jiBQBBBBAAAEXCpCQdmGnEXJABUhIB5SXwhEIngADXPCsqQkBBBBAAAEEEEAAAQQQQAABpwss3LDbJKOXKfdAsRJjo+zzoi/IaOL0sIkPAQQQQAABTwgwX++JbqQRfhQgIe1HTIpCIJQCDHCh1KduBBBAAAEEEEAAAQQQQAABBJwhUFlZqWfnbNSE/61WeUWlOjZO0r9G9VDb1ERnBEgUCCCAAAIIhIEA8/Vh0Mk00ScBEtI+cXEzAs4VYIBzbt8QGQIIIIAAAggggAACCCCAAALBEMgvKtXY/3ypD77aaVc34sxmeuiyroqPiQpG9dSBAAIIIIAAAocEmK/nVUCgugAJad4IBDwiwADnkY6kGQgggAACCCCAAAIIIIAAAgicgsDaXfn6xStfaENOgaIjT9MfLu6sa/u2kpn8O4XSeAQBBBBAAAEEaiPAfH1t9HjWiwIkpL3Yq7QpLAUY4MKy22k0AggggAACCCCAAAIIIIAAAnp3+Tbd9dZKHSwtV9N6cXrymh7q0bIBMggggAACCCAQIgHm60MET7WOFSAh7diuITAEfBNggPPNi7sRQAABBBBAAAEEEEAAAQQQcLtASVmFHpq+Si/O22Q3ZUC7hnriJ93VMDHW7U0jfgQQQAABBFwtwHy9q7uP4AMgQEI6AKgUiUAoBBjgQqFOnQgggAACCCCAAAIIIIAAAgiERmDH/oP61atLtXTLPjuAXw1N1x3DOioygi26Q9Mj1IoAAggggMC3AszX8zYgUF2AhDRvBAIeEWCA80hH0gwEEEAAAQQQQAABBBBAAAEETiIwb32ubn1tmXYXlCgpLkp/v+JMDevcGDcEEEAAAQQQcIgA8/UO6QjCcIwACWnHdAWBIFA7AQa42vnxNAIIIIAAAggggAACCCCAAAJOF6isrNTEzzbo0Q9Xq6JSOr1pXU0c1UOtGiY4PXTiQwABBBBAIKwEmK8Pq+6msTUQICFdAyRuQcANAgxwbuglYkQAAQQQQAABBBBAAAEEEEDg1ATyikr1uykrNOObXXYBl/dI059GZKhOTOSpFchTCCCAAAIIIBAwAebrA0ZLwS4VICHt0o4jbAS+K8AAxzuBAAIIIIAAAggggAACCCCAgDcFVu3I0y9f+UKbdhcqJjJC4y7trKt7t5SZ2PNmg2kVAggggAACLhdgvt7lHUj4fhcgIe13UgpEIDQCDHChcadWBBBAAAEEEEAAAQQQQAABBAIp8N9lW3X32ytVVFqh5vXr6Klreqhbi/qBrJKyEUAAAQQQQKCWAszX1xKQxz0nQELac11Kg8JFoEuXLtWaWlpaqszMTPtnWVlZSktLCxcK2okAAggggAACCCCAAAIIIICA5wSKy8r14NRv9MqCLXbbBrVP0eM/6a7khBjPtZUGIYAAAggg4DUBEtJe61HaU1sBEtK1FeR5BEIkQEI6RPBUiwACCCCAAAIIIIAAAggggECABb7atl/3vfOVlmfts2u67dz2ut18REawRXeA6SkeAQQQQAABvwiQkPYLI4V4SICEtIc6k6aEtwADXHj3P61HAAEEEEAAAQQQQAABBBBwt0BlZaUWbtyjp2at1+y1OXZj6sZF2auih3Zq5O7GET0CCCCAAAJhJsB8fZh1OM09qQAJ6ZMScQMC7hBggHNHPxElAggggAACCCCAAAIIIIAAAkcLVFRU6pPV2frXrHVauqVqRbS1EPqSbs30u+Ed1SI5HjAEEEAAAQQQcJkA8/Uu6zDCDbgACemAE1MBAsERYIALjjO1IIAAAggggAACCCCAAAIIIOAPgdLyCk39crtJRK/X2l0H7CJjoiI08qw0jRmcrpYNSUT7w5kyEEAAAQQQCIUA8/WhUKdOJwuQkHZy7xAbAj4IMMD5gMWtCCCAAAIIIIAAAggggIBHBQ6WlKu0okKRp51mnzdsfUSZDzMB5NEWu69ZRaXlmrIkS0/P3qCtew/aDUiMjdKovq10w8DWapQU575GETECCCCAAAIIVBNgvp4XAoHqAiSkeSMQ8IgAA5xHOpJmIIAAAggggAACCCCAAAI1ECguK9f67AKzsjZfq3fm25/XmM/b9lUlOL97WfloKzEdYb6wPx9KVB9OWtsJ7EjzcVQiOzIiwiS0ZT7MZ/v5CCWaM43bpCQoPTXRfCSorfmckhhDwrsGfZZXVKqX52/WC59vVO6BEvuJhgkxJgndxk5G16sTXYNSuAUBBBBAAAEE3CDAfL0beokYgylAQjqY2tSFQAAFGOACiEvRCCCAAAIIIIAAAggggECIBMrN+cKbd38/8bxpd6Gs3znhqmuS1FZi2kpStzVJ6sPJ6lYNE+wtqMP9yskv1nNzN+rVBZuVX1xmczSvX0djzm6rK3q2UFx0ZLgT0X4EEEAAAQQ8J8B8vee6lAbVUoCEdC0BeRwBpwgwwDmlJ4gDAQQQQAABBBBAAAEEEPBdoLKyUjv2F2mNWem81qx0tlY7W1+vyz6g4rKKYxZorajt2CRJHRsnqcPhz40TFR8TZSery02Z5eVVn8vMNt7mP9U/2z83H+aeikNfV1jfm4/Dn48uwypzT0GJNuQUaEPuAa3POWBvOW0ePeZlrb5u0aBOtUR1VeI6QclmZbDXtxHP2lOof89eb7bn3qqSQ33YvlGifjkkXZd0a6Zoa/k5FwIIIIAAAgh4UoD5ek92K42qhQAJ6Vrg8SgCThJggHNSbxALAggggAACCCCAAAIIIHB8ASupayWcj95u20pCH149+90n46Ij1MFKOpuPTibxbH22EtGNkmJDntS1zkPeZFZwW0nq9SZ5viHXfDaJauv7A4dWAx9LwkqmH97y++iV1a0axrs+UWv17b9mrdP7X+44soq9e8v6unlIO53bqZG9XToXAggggAACCHhbgPl6b/cvrfNdgIS072Y8gYAjBRjgHNktBIUAAggggAACCCCAAAII2ALWatl3lm3TO8u3mYRtwTFVrLOdrS2v7YTzoaSzlXhu0SDedUlMa8V3ttmq2kpOW+3dcNRn65zr462qtgxamzOq25mV1O3Nau92ZkVx1RbgiaoT4+ytrb/YvEdPzVyvT1ZnH+nfQe1T7ER037bJIf/jAf4pIoAAAggggEDwBJivD541NblDgIS0O/qJKBE4qQAD3EmJuAEBBBBAAAEEEEAAAQQQCKrAXrMSetrKHXYiesnmvdXqbpkcf2ilc+KRFc9tUxLD4szlgyXl2mhWUtvbfmd/u/23taq60PzuWNdpZlFxmtn+20pUW0nqqo8k+7O12jpUl5V4n7U2x6yIXq9FG/fYYVix/iCjqX5xdrq6ptULVWjUiwACCCCAAAIhFGC+PoT4VO1IARLSjuwWgkLAdwEGON/NeAIBBBBAAAEEEEAAAQQQ8LeAtYX1p2aF7H9NEnrWmmyVmvOZrctKUg5IT9GI7s01vEtj1Y0LXRLV3232V3nWudU78orsc7OrPqrO0LY+9haWHreaVLN1+dErqg8nra2f1/Scaut87LyDpdpnPvYf+thXWGL/7Nvvv/368M+sz4eT6NGRp+my7mkac3Zbs9I90V8slIMAAggggAACLhRgvt6FnUbIARUgIR1QXgpHIHgCDHDBs6YmBBBAAAEEEEAAAQQQQOBoASuRutCsjrVWQk//aofyi8qO/Lpz07r6kUlCX9KtmZrUiwPuFAV2HyhW5pFEtbUNeFWiesf+ouOWWDcu6shq6jSz7XlBSZn2m8T20cnkfeZ7K+l8vPO7axJuvNlK/KreLXXToDZqWq9OTR7hHgQQQAABBBDwuADz9R7vYJrnswAJaZ/JeAABZwowwDmzX4gKAQQQQAABBBBAAAEEvCuwZme+vRL6PXMu9PajEqPNTOL5hyYJPeLM5rLOgOYKnEB+Ual9RvW3q6qrVlZvMWd2m78T8PlKjI2ytwCvaz7qmw/ra+ujfnzVz47+/vDXjevGKS7a2edb+wzBAwgggAACCCBQKwHm62vFx8MeFCAh7cFOpUnhKcAAF579TqsRQAABBBBAAAEEEEAguAI7TeL5vRXbTCJ6u1btyDtSeZJZjXtR16b2lty9WycrIsLs0c0VMgFr6/RNu6sS1Zm7Dsjqt0TTR3aS2SSXj5V0thLO0ZERIYuZihFAAAEEEEDAOwLM13unL2mJfwRISPvHkVIQCLkAA1zIu4AAEEAAAQQQQAABBBBAwKMC1irc/321U++YldDz1u9W5aGVt9aZwUM7NrK35B7aqRGrZD3a/zQLAQQQQAABBBDwVYD5el/FuN/rAiSkvd7DtM+zAl26dKnWttLSUmVmZto/y8rKUlpammfbTsMQQAABBBBAAAEEEEAAgUALlJZXaPbaHHtL7o++2aXisoojVfZq3cBeCW2tiK4fHxPoUCgfAQQQQAABBBBAwGUCJKRd1mGEG3ABEtIBJ6YCBAIjQEI6MK6UigACCCCAAAIIIIAAAuEtkLkrXy8v2KypX+7QnoKSIxjpqQn2SugfmnOhWyTHhzcSrUcAAQQQQAABBBA4oQAJaV4QBKoLkJDmjUDAIwIMcB7pSJqBAAIIIIAAAggggAACIRHYlFugxz/JtLflPrwld0pirElAN9MIk4TOaF5XZhIlJLFRKQIIIIAAAggggIC7BJivd1d/EW3gBUhIB96YGhAIigADXFCYqQQBBBBAAAEEEEAAAQQ8JrBt30H936eZmrJkq8orqg6HHt65sa7p20oD0hsqKjLCYy2mOQgggAACCCCAAAKBFmC+PtDClO82ARLSbusx4kXgOAIMcLwaCCCAAAIIIIAAAggggEDNBbLzi/TUzPV6beEWlZjzoq1rSMdU/XZYR3VNq1fzgrgTAQQQQAABBBBAAIHvCDBfzyuBQHUBEtK8EQh4RIABziMdSTMQQAABBBBAAAEEEEAgoAJ7zbnQE2ev16R5m1RUWpWI7ts2Wb8b3lE9WycHtG4KRwABBBBAAAEEEAgPAebrw6OfaWXNBUhI19yKOxFwtAADnKO7h+AQQAABBBBAAAEEEEAgxAJ5RaV6bs5GPTd3ow4Ul9nRdG9ZX3eaRHT/dikhjo7qEUAAAQQQQAABBLwkwHy9l3qTtvhDgIS0PxQpAwEHCDDAOaATCAEBBBBAAAEEEEAAAQQcJ1BYUqYXzWrof3+2QfsPltrxdW5aV787JeC7qAAAIABJREFUv4OGdmwkMzHiuJgJCAEEEEAAAQQQQMDdAszXu7v/iN7/AiSk/W9KiQiERIABLiTsVIoAAggggAACCCCAAAIOFSgqLbfPh35q1jrlHiixo2zXKFF3DOugC7o0UUQEiWiHdh1hIYAAAggggAACrhdgvt71XUgD/CxAQtrPoBSHQKgEGOBCJU+9CCCAAAIIIIAAAggg4CSB0vIKTVmSpX9+sk4784rs0Fomx+s3w9rr0m7NFUki2kndRSwIIIAAAggggIAnBZiv92S30qhaCJCQrgUejyLgJAEGOCf1BrEggAACCCCAAAIIIIBAsAXKKyr1zrJtevyTTG3ZU2hX37RenG47t71+fFaaoiMjgh0S9SGAAAIIIIAAAgiEqQDz9WHa8TT7uAIkpHk5EPCIAAOcRzqSZiCAAAIIIIAAAggggIBPAhUmEf3BVzv194/WaH1Ogf1sSmKsfjU0XVf1bqm46EifyuNmBBBAAAEEEEAAAQRqK8B8fW0Fed5rAiSkvdajtCdsBRjgwrbraTgCCCCAAAIIIIAAAmEpUFlZqU9XZ+tvM9bqmx15tkH9+Gj94ux0XdevleJjosLShUYjgAACCCCAAAIIhF6A+frQ9wEROEuAhLSz+oNoEDhlAQa4U6bjQQQQQAABBBBAAAEEEHCRgJWI/nzdbv11xhotz9pnR54YG6WbBrXRDQPbqG5ctItaQ6gIIIAAAggggAACXhRgvt6LvUqbaiNAQro2ejyLgIMEGOAc1BmEggACCCCAAAIIIIAAAgER2LK7UOPf/9peGW1dcdERGt2/jcYMbqsGCTEBqZNCEUAAAQQQQAABBBDwVYD5el/FuN/rAiSkvd7DtC9sBBjgwqaraSgCCCCAAAIIIIAAAmEnUFxWrqc/26D/m7lOxWUVio48TaP6ttIvh6SrUVJc2HnQYAQQQAABBBBAAAFnCzBf7+z+IbrgC5CQDr45NSIQEAEGuICwUigCCCCAAAIIIIAAAgiEWGBuZq7uf/crbcgtsCPpn95QD47IUHpqYogjo3oEEEAAAQQQQAABBI4twHw9bwYC1QVISPNGIOARAQY4j3QkzUAAAQQQQAABBBBAAAFbIDuvSA9OW6X3V2y3v09NitV9F52uS7s1k5nMQAkBBBBAAAEEEEAAAccKMF/v2K4hsBAJkJAOETzVIuBvAQY4f4tSHgIIIIAAAggggAACCIRCoKy8Qi8v2Ky/zVirA8VlijC55+v6tdYdwzuoblx0KEKiTgQQQAABBBBAAAEEfBJgvt4nLm4OAwES0mHQyTQxPAQY4MKjn2klAggggAACCCCAAAJeFli2Za/ue+crfb09z25mtxb19WezPXdG83pebjZtQwABBBBAAAEEEPCYAPP1HutQmlNrARLStSakAAScIcAA54x+IAoEEEAAAQQQQAABBBDwXWBfYYke+d8aTV68RZWVMiuho/T7CzvpJ71aKtJaIs2FAAIIIIAAAggggICLBJivd1FnEWpQBEhIB4WZShAIvAADXOCNqQEBBBBAAAEEEEAAAQT8K1BRUan/LN2qCR+s1p6CErvwy3uk6e4fdFJKYqx/K6M0BBBAAAEEEEAAAQSCJMB8fZCgqcY1AiSkXdNVBIrAiQUY4HhDEEAAAQQQQAABBBBAwE0Cq3fm6Q9me+7Fm/baYXdonKgHf5ihPm0buqkZxIoAAggggAACCCCAwPcEmK/npUCgugAJad4IBDwiwADnkY6kGQgggAACCCCAAAIIeFygoLhMj3+SqefmblS5WSEdHxOpX5/XXj8d0EbRkREebz3NQwABBBBAAAEEEAgHAebrw6GXaaMvAiSkfdHiXgQcJNClS5dq0ZSWliozM9P+WVZWltLS0hwULaEggAACCCCAAAIIIIBAuAtUmsOh//fVTv1x6jfasb/I5rigSxPdf0lnNatfJ9x5aD8CCCCAAAIIIICAhwRISHuoM2mKXwRISPuFkUIQCL4ACengm1MjAggggAACCCCAAAIInJrA5t0FGvfe15q1JscuoEVyHf3x0gwN7dTo1ArkKQQQQAABBBBAAAEEHCxAQtrBnUNoIREgIR0SdipFwP8CDHD+N6VEBBBAAAEEEEAAAQQQqJ1AUWm5/v3ZBj05a51KyioUY7bk/sXZbXXz0HaKi46sXeE8jQACCCCAAAIIIICAQwWYr3doxxBWyARISIeMnooR8K8AA5x/PSkNAQQQQAABBBBAAAEEaicwJzNH97/7tTbmFtgFDWjXUH/8YYbSUxNrVzBPI4AAAggggAACCCDgcAHm6x3eQYQXdAES0kEnp0IEAiPAABcYV0pFAAEEEEAAAQQQQAAB3wR2mvOhH5z2jaZ9ucN+MDUpVn+4uLMuOaOpzCSEb4VxNwIIIIAAAggggAACLhRgvt6FnUbIARUgIR1QXgpHIHgCDHDBs6YmBBBAAAEEEEAAAQQQ+L6AtSX3859v1BOfZKqwpFwRJvd8Xb/WumN4B9WNi4YMAQQQQAABBBBAAIGwEWC+Pmy6mobWUICEdA2huA0BpwswwDm9h4gPAQQQQAABBBBAAAHvCsxem6Px732tDYe25+7Rsr69PXdG83rebTQtQwABBBBAAAEEEEDgOALM1/NqIFBdgIQ0bwQCHhFggPNIR9IMBBBAAAEEEEAAAQRcJJC1p1B/Mttzf/j1LjvqlMQY3XXh6bqse3NFWEukuRBAAAEEEEAAAQQQCEMB5uvDsNNp8gkFSEjzgiDgEQEGOI90JM1AAAEEEEAAAQQQQMAFAkWl5fr3Zxv01Kx1KjZbdUea5PP1ZnvuXw9rz/bcLug/QkQAAQQQQAABBBAIrADz9YH1pXT3CZCQdl+fETECxxRggOPFQAABBBBAAAEEEEAAgUALVFZW6uNV2frj1K+VteegXV3ftsl64NIMdWySFOjqKR8BBBBAAAEEEEAAAVcIMF/vim4iyCAKkJAOIjZVIRBIAQa4QOpSNgIIIIAAAggggAACCGw050M/8P7XmrUmx8ZoUjdO9150ui4+o6nM5AJACCCAAAIIIIAAAgggcEiA+XpeBQSqC5CQ5o1AwCMCDHAe6UiagQACCCCAAAIIIICAwwQKS8r05Mx1emb2RpWUVyg68jTdNKitbhnaTgmxUQ6LlnAQQAABBBBAAAEEEAi9APP1oe8DInCWAAlpZ/UH0SBwygIMcKdMx4MIIIAAAggggAACCCBwDAFre+7pK3fqT9O+0Y79RfYdgzukavwlndU2NREzBBBAAAEEEEAAAQQQOI4A8/W8GghUFyAhzRuBgEcEGOA80pE0AwEEEEAAAQQQQAABBwhk7srXuPe+1rz1u+1o0hrU0f0Xd9awzo3ZntsB/UMICCCAAAIIIIAAAs4WYL7e2f1DdMEXICEdfHNqRCAgAgxwAWGlUAQQQAABBBBAAAEEwkogv6hUj3+cqRfnbVJZRaVioyL0yyHp+sXZ6YqLjgwrCxqLAAIIIIAAAggggMCpCjBff6pyPOdVARLSXu1Z2hV2AgxwYdflNBgBBBBAAAEEEEAAAb8JWNtz/3fZNj38wWrl5Bfb5Q43q6H/YFZFt0iO91s9FIQAAggggAACCCCAQDgIMF8fDr1MG30RICHtixb3IuBgAQY4B3cOoSGAAAIIIIAAAggg4GCBr7fv17h3v9aSzXvtKNukJGicOSd6SMdGDo6a0BBAAAEEEEAAAQQQcK4A8/XO7RsiC40ACenQuFMrAn4XYIDzOykFIoAAAggggAACCCDgaYH9haX620dr9MqCzTK7c6uO2ZL71nPb6caBbcxW3WzP7enOp3EIIIAAAggggAACARVgvj6gvBTuQgES0i7sNEJG4FgCDHC8FwgggAACCCCAAAIIIFATgXKTfX5zSZb+8uEa7SkosR+5+Iymuvei09W0Xp2aFME9CCCAAAIIIIAAAgggcAIB5ut5PRCoLkBCmjcCAY8IMMB5pCNpBgIIIIAAAggggAACARLIKyrVlMVZmjR/k7L2HLRr6dA4UeMv7aL+6SkBqpViEUAAAQQQQAABBBAIPwHm68Ovz2nxiQVISPOGIOARAQY4j3QkzUAAAQQQQAABBBBAwM8Cm3cX6MV5m8yq6K06UFxml14/Plq3DG2n6/u3VnRkhJ9rpDgEEEAAAQQQQAABBMJbgPn68O5/Wv99ARLSvBUIeESAAc4jHUkzEEAAAQQQQAABBBDwg0BlZaUWbNij5z/fqI9X7ZL51r7aNUrUDQPa6Efdm6tODOdE+4GaIhBAAAEEEEAAAQQQ+J4A8/W8FAhUFyAhzRuBgEcEGOA80pE0AwEEEEAAAQQQQACBWggUlZbr/RXbTSJ6k1btyDtS0pCOqXYielD7FJmJgFrUwKMIIIAAAggggAACCCBwMgHm608mxO/DTYCEdLj1OO31rAADnGe7loYhgAACCCCAAAIIIHBSgZz8Yr2yYLNeXbhZuQdK7PvrREfq8rOaa3T/NvbKaC4EEEAAAQQQQAABBBAIjgDz9cFxphb3CJCQdk9fESkCJxRggOMFQQABBBBAAAEEEEAg/AS+3r5fL5jV0O8t366S8goboGm9OPts6J/0amHOio4JPxRajAACCCCAAAIIIIBAiAWYrw9xB1C94wRISDuuSwgIgVMTYIA7NTeeQgABBBBAAAEEEEDAbQLlFZX6xJwLbZ0PbZ0Tffjq3rK+vS33BRlNFB0Z4bZmES8CCCCAAAIIIIAAAp4RYL7eM11JQ/wkQELaT5AUg0CoBRjgQt0D1I8AAggggAACCCCAQGAF8otK9eaSrXpx3iZt2VNoVxYZcZp+0LWpfjqgtXq0bBDYACgdAQQQQAABBBBAAAEEaiTAfH2NmLgpjARISIdRZ9NUbwswwHm7f2kdAggggAACCCCAQPgKbNldaCehpyzJ0oHiMhuiXp1oXd2npa7r18ps0V0nfHFoOQIIIIAAAggggAACDhRgvt6BnUJIIRUgIR1SfipHwH8CDHD+s6QkBBBAAAEEEEAAAQRCLVBZWamFG/fo+bkb9ZHZntt8a1/pqQm6YWAbXdY9TXViIkMdJvUjgAACCCCAAAIIIIDAMQSYr+e1QKC6AAlp3ggEAiSwbds2vfnmm5o+fbpWr16tnTt3Kjk5WQMGDNDYsWPVp08fv9bMAOdXTgpDAAEEEEAAAQQQQCCoAlYCeuveg/pq236tNB+z1uTomx15R2I4u0OqnYge1C5FEWabbi4EEEAAAQQQQAABBBBwrgDz9c7tGyILjQAJ6dC4U2sYCNx111165JFHlJ6errPPPluNGjVSZmam3nnnHbO6oVKvv/66rrjiCr9JMMD5jZKCEEAAAQQQQAABBBAIqID1/wc2m224v9pelXz+elue/fW+wtJq9cZFR+jyHmn2+dDtGiUFNCYKRwABBBBAAAEEEEAAAf8JMF/vP0tK8oYACWlv9COtcKDA22+/rdTUVA0aNKhadHPmzNG5556rpKQkbd++XbGxsX6JngHOL4wUggACCCCAAAIIIICAXwUqKiq1cXeBvfK56qMq+ZxfVHUW9NFXdORp6tgkSV2b1zMf9XVhRhM1SIjxazwUhgACCCCAAAIIIIAAAoEXYL4+8MbU4C4BEtLu6i+i9YjA+eefrxkzZmjx4sXq2bOnX1rFAOcXRgpBAAEEEEAAAQQQMAL5RaXalVek8opvOU47tEv00ZtFH/5Z1V1Vvzn6Z9XvPfT7Q0VGmBsTYiOVFBetmKgIT7iXm+TzhpwDVSuft1Ylnr/ZnqcDxd9PPlttPt0knzPs5HM9+3OHxkmesfBEh9IIBBBAAAEEEEAAAQROUYD5+lOE4zHPCpCQ9mzXurth2dnZWrRokf1hJW2tj927d9uNuv766/Xiiy/WuIFbtmzRE088oWnTpsn62lqR3K5dO3u77Jtvvlnx8fE1LstfN1588cV2PMuWLdOZZ57pl2IZ4PzCSCEIIIAAAggggIDnBaztonMPlGjbvoPaZs4s3rav8NDng/YZxtvNz/OOsXo3kDBWcjYpNkqJcVEmQW0+W1/HRquu9fXh7+3fRVfdd9S9Sea+w/cEM7FdZrL166zks7Xi+dC5z1by+WBp+feorK23T29a90jiOaNZPbVvnKjoSG8k4gP5blA2AggggAACCCCAAAJuFGC+3o29RsyBFCAhHUhdyj5lAfNiHvdZXxLSVtL3mmuu0f79+49ZXseOHTV9+nS1bdv2lGP19UErKd6hQwc1aNBA1qAUGRnpaxHHvJ8Bzi+MFIIAAggggAACCLheoNQkSnfuLzoq4Xw48Wwln6s+SsqOWvp8nBZbieGYQwnTyqPusRLah6/qP//2puPdo6MeKDOriY+VvK1NB8Raie1DCez4mCi7qIpD8VqfrS+tEOyfmf/YPzv0vf0j+6P6z0yY5qp69sj95odFpRUqOXoJ+aHA42Mi1dkkn49e+ZyemqAoks+16VqeRQABBBBAAAEEEEDAVQLM17uquwg2CAIkpIOATBW+CxydkG7RooVOP/10e4tr66ppQnrFihXq37+/CgsLlZiYqLvvvltDhw7VwYMHNXnyZD3zzDN2eZ06dbJXYFv3BPoqLS3Veeedp9mzZ+ull17Stdde67cqGeD8RklBCCCAAAIIIICA4wWKzCrcpZv32mcTV61y/jbpbG21XZVEPf5l/f1n46Q4NW9QR83rmw/zuZn5nHbU19Yq5EBf1hbX1nbW9odZlW1tFZ5/6GvrZ9b39s+P/L7q3qrvzb3md9b3hSXfX5Uc6Nit8i2jzs0Or3yu+twmJVGREcf/A9tgxEUdCCCAAAIIIIAAAgggEFoB5utD60/tzhMgIe28PiEiIzBu3Dj16tXL/mjcuLE2bdqkNm3a2DY1TUhbyedZs2YpKirKTgD369evmu2jjz6qsWPH2j974IEHdP/993/PPiUl5chW4TXpmJkzZ2rIkCHHvLWiosKO/ZVXXtHPfvYzPf300zUpssb3MMDVmIobEUAAAQQQQAAB1wlUmMTtNzvyNHddruZm5mrRpj0nXOVsrWxuVv+ohHP9+G+Tzybp3KRenKfOKra2zy4oLjeJapPAPpS8LjBJaistbCXfrfOq7RTxUV9HmKRx1e/NZ/OF9bV936F77NsP33/Uc4fvt4ytZL5VDhcCCCCAAAIIIIAAAgggcLQA8/W8DwhUFyAhzRvhCgFfE9LWiufevXvbbRszZowmTpz4vXZaCeKMjAytWrXK3j57165dio6Ornbfrbfeqvz8/Bob3XXXXfaK6+9e1rZ/N910k55//nmNGjVKkyZNMhNX/j0vjgGuxt3EjQgggAACCCCAgCsErLOcreTzHJOEnmc+dheUVIu7Sd04sy10XXtl8+FVzoc/pyTEkih1RS8TJAIIIIAAAggggAACCHhRgPl6L/YqbaqNAAnp2ujxbNAEfE1I33vvvXrooYfs+BYsWKA+ffocM9YJEybYW3lbl7Ul+LBhw/zeJivxbSWjX3jhBV111VV6+eWX/XZu9NHBMsD5vesoEAEEEEAAAQQQCKqAtT31gg17TBI6x05Cb8gpqFZ/gjmbuG/bhhrYPkWDzEd6aqK9upcLAQQQQAABBBBAAAEEEEDAWQLM1zurP4gm9AIkpEPfB0RQAwFfE9KDBw/WnDlzlJCQoH379tnbdh/rmj9/vn3OtHVZW3ZbW3f78zo6GX3llVfq1VdfDUgy2oqZAc6fPUdZCCCAAAIIIIBA4AWsbaZXbN2nOWYVtLUSelnWPllnKh++rJ2gu7Wor0HtUkwSOlVnmq9jovy7y07gW0kNCCCAAAIIIIAAAggggED4CTBfH359TotPLEBCmjfEFQK+JqRTU1OVm5urbt26afny5cdt4969e5WcnGz/fuTIkZoyZYrfPKxk9I033qgXX3zRLvu11147bmLcH5UywPlDkTIQQAABBBBAAIHACVjHuGzMLbDPgbaS0AvW7zZnHpdVq7B1w3h7BfTAdqnql95Q9epUP1ImcNFRMgIIIIAAAggggAACCCCAgL8EmK/3lyTleEWAhLRXetLj7fAlIV1UVKQ6derYIhdddJGmTp16Qp3ExEQVFBSob9++slZM++saP368veLaKv/2228/ZjJ6xIgROvPMM2tUpTWAnejasWPHkXOzs7KylJaWVqNyuQkBBBBAAAEEEEAgcAJ7zLnPn5sEtLUC2kpEbzPnQh99WQnngfYKaCsJnaIWyfGBC4aSEUAAAQQQQAABBBBAAAEEgiJAQjoozFTiIgES0i7qrHAO1ZeEdE5Ojho1amRzWdtkT548+YR0jRs3VnZ2tjIyMrRy5Uq/MY8ePVqTJk06YXnWudLWfTW5fDkfkIR0TUS5BwEEEEAAAQQQCIxAqdmKe8bXu/Tygk1auHGPzMLoI1d05Gk6q1UDcwZ0qp2AzmheT5HW3txcCCCAAAIIIIAAAggggAACnhEgIe2ZrqQhfhIgIe0nSIoJrIAvCWkrGduyZUs7oGuvvVYvvfTSCYOz7rWeSU9P17p16wLbkFqUTkK6Fng8igACCCCAAAIIBEFgV16RXlu4Ra8v2qLs/OIjNXZsnFS1Atp89GmTrPiYqCBEQxUIIIAAAggggAACCCCAAAKhEiAhHSp56nWqAAlpp/YMcVUT8CUh7ZQV0v7uQrbs9rco5SGAAAIIIIAAArUXsM6FXrBhj70a+kOzKrq8omo5dEpirK7q3UI/6d1SzetXHSfDhQACCCCAAAIIIIAAAgggEB4CJKTDo59pZc0FSEjX3Io7QyjgS0LaKWdIB5uLAS7Y4tSHAAIIIIAAAuEscKC4TP9dutUkojdr7a4DRyh6tW6gUX1b6cKMpoqJighnItqOAAIIIIAAAggggAACCIStAPP1Ydv1NPw4AiSkeTVcIeBLQtpqUGpqqnJzc9WtWzctX778uG3cu3evkpOT7d+PHDlSU6ZMcYXHsYJkgHNt1xE4AggggAACCLhIIHNXvp2EfnvpNllJaeuqEx2pEd2b61qTiO7crK6LWkOoCCCAAAIIIIAAAggggAACgRBgvj4QqpTpZgES0m7uvTCK3deE9ODBgzVnzhwlJCRo3759ioo69jl98+fPV//+/W3J+++/Xw888IBrVRngXNt1BI4AAggggAACDhcoLa/QR9/s0kvzN9nbcx++2qYm2Enoy3qkqV6daIe3gvAQQAABBBBAAAEEEEAAAQSCJcB8fbCkqcctAiSk3dJTYR6nrwnpe+65Rw8//LCttmDBAvXp0+eYghMmTNDdd99t/+7DDz/U8OHDXSPdpUuXarGWlpYqMzPT/llWVpbS0tJc0xYCRQABBBBAAAEEnCiQnVek1xZt0evmY1desR1ixGnSsM6NdV2/1uqf3lDm/1A5MXRiQgABBBBAAAEEEEAAAQQQCKEACekQ4lO1IwVISDuyWwjquwK+JqQXLVp0JAk9ZswYTZw48XuoFRUVysjI0KpVq1S/fn1lZ2crOto9K1tISPPvBAEEEEAAAQQQ8L9AZWWlFm3co5fMttwffrVTZRWVdiUpiTH6Sa+WurpPSzWrX8f/FVMiAggggAACCCCAAAIIIICAZwRISHumK2mInwRISPsJkmICK+BrQtqK5vC23dZ23bNnz1a/fv2qBfnoo49q7Nix9s/GjRun8ePHB7YRAS6dAS7AwBSPAAIIIIAAAp4WsM6D/u+ybXpl/matMedEH756tmqga/u10oUZTRUTFeFpAxqHAAIIIIAAAggggAACCCDgHwHm6/3jSCneESAh7Z2+9FRL5s6dq3Xr1h1pU25uru688077+wEDBuimm26q1t7Ro0d/r/3Lli2z7z148KASExNlbeM9dOhQ+/vJkyfr6aeftp/p0KGDlixZoqSkJFcbMsC5uvsIHgEEEEAAAQRCJLAuO18vmyT0W0u3yUpKW1ed6EiN6N7cPh+6c7O6IYqMahFAAAEEEEAAAQQQQAABBNwqwHy9W3uOuAMlQEI6ULKUWysBK8E8adKkGpdhba14rOv999/XqFGjlJeXd8zfW8noadOmqV27djWuy6k3MsA5tWeICwEEEEAAAQScKLApt0B/+2it3l+x/Uh4bVMT7CT0ZT3SVK+Oe45ycaIvMSGAAAIIIIAAAggggAAC4SzAfH049z5tP5YACWneC0cK+CshbTVu8+bNevzxx+3EszUIxMTE2AnokSNH6pZbblF8fLwjDXwNigHOVzHuRwABBBBAAIFwFMjOK9ITn2Zq8qKsI+dDD+vcWNf3a63/Z+8+4LOq7sePf01CCCGsAAE07E0QUBRQqxUVrFJ/rop1j7q1tXW12r+rddVVR7UqLuqos27cVcCBKMgShERW2CshYYTM//0eeNInyZPkeZJ7n+eOz3m98gpJ7jjnfQ733ud87znnkH4dxfqAFEQWyowAAggggAACCCCAAAIIIGCjAP31NmJyKF8IEJD2RTVSCATEBNu7d+9uKPLz8yU7OxsWBBBAAAEEEEAAgT0CW3eWyeNTf5Knv1wmJWWV5reHD+ws1x49UHL2bocTAggggAACCCCAAAIIIIAAArYJ0F9vGyUH8okAAWmfVCTFCJ5ATk5OjUKXlZVJbm6u+R0B6eC1B0qMAAIIIIAAApEFSsoqZPJXy+XRz38SDUpr2r9He7nuF4NkTJ+OsCGAAAIIIIAAAggggAACCCBguwABadtJOaDHBQhIe7wCyX5wBQhIB7fuKTkCCCCAAAIINC5QXlEpr85aJQ98skTWF+0yOwzokmGNiB4kRw3OYmruxgnZAgEEEEAAAQQQQAABBBBAoIkCBKSbCMduvhUgIO3bqqVgQRPgBhe0Gqe8CCCAAAIIIBBJoKqqSqbMXyf3fbRYlm7abjbZp30r+cO4AXLifvtIchJrRNNyEEAAAQQQQAABBBBAAAEEnBWgv95ZX47uPQEC0t6rM3KMQEQBbnA0DAQQQAABBBCJCaeoAAAgAElEQVQIusAXuZvkbx/8KPNXbzUUma1T5Yqx/eSMMT2kZUpy0HkoPwIIIIAAAggggAACCCCAQJwE6K+PEzSn8YwAAWnPVBUZRaBhAW5wtBAEEEAAAQQQCKrA3PxCufvDH+XLvM2GoHVqslxwaB/rq7e0SWsRVBbKjQACCCCAAAIIIIAAAgggkCAB+usTBM9pXStAQNq1VUPGEIhNgBtcbF5sjQACCCCAAALeF8jbsM1Mzf3+gnWmMKnJSWY09OXWqOhOGS29X0BKgAACCCCAAAIIIIAAAggg4EkB+us9WW1k2kEBAtIO4nJoBOIpwA0untqcCwEEEEAAAQQSKbB260554ONceXVWvlRWiexlLQt90n7Z8vuj+kv3zPREZo1zI4AAAggggAACCCCAAAIIICD019MIEKgpQECaFoGATwS4wfmkIikGAggggAACCNQrULC9VP459Sd59qvlUlpeabY7anAXufbogTKwaxvkEEAAAQQQQAABBBBAAAEEEHCFAP31rqgGMuEiAQLSLqoMsoJALAI5OTk1Ni8rK5Pc3Fzzu/z8fMnOzo7lcGyLAAIIIIAAAgi4VmBHabk8/cUyeXzqUineVW7yOapXpvzxmIEysmema/NNxhBAAAEEEEAAAQQQQAABBIIpQEA6mPVOqesXICBN60DAowIEpD1acWQbAQQQQAABBKIWqLDm437lu3y5/+MlsrF4l9lvcLe2ct0vBsrhAzpbU3Vbc3WTEEAAAQQQQAABBBBAAAEEEHCZAAFpl1UI2Um4AAHphFcBGUDAHgFucPY4chQEEEAAAQQQcIfA1z9tlr+8u1AWrS0yGephrQ199fgBctywvSUpiUC0O2qJXCCAAAIIIIAAAggggAACCEQSoL+edoFATQEC0rQIBHwiwA3OJxVJMRBAAAEEEAi4wMrNO+SOKYvkgx/WGYm2aSly5VED5KwxPSU1JSngOhQfAQQQQAABBBBAAAEEEEDACwL013uhlshjPAUISMdTm3Mh4KAANzgHcTk0AggggAACCDgusM1aG/qRz/LkqenLpLSiUnQQ9Bmje8ofxg2QzNapjp+fEyCAAAIIIIAAAggggAACCCBglwD99XZJchy/CBCQ9ktNUo7AC3CDC3wTAAABBBBAAAFPClRa60S/NmuV3P3hYtm0bfc60T/r10lu/OUQGdi1jSfLRKYRQAABBBBAAAEEEEAAAQSCLUB/fbDrn9LXFSAgTatAwCcC3OB8UpEUAwEEEEAAgQAJzFy2xVon+gdZsHr3OtG9OqbL/5swRI4cnCXWB5UASVBUBBBAAAEEEEAAAQQQQAABPwnQX++n2qQsdggQkLZDkWMg4AIBbnAuqASygAACCCCAAAJRCeRv2SF3vf+jvDd/rdm+TcsU+d2R/eWcg3uxTnRUgmyEAAIIIIAAAggggAACCCDgZgH6691cO+QtEQIEpBOhzjkRcECAG5wDqBwSAQQQQAABBGwV2G6tE/3Pz3+SJ6YvldLy3etE/3pUD7nKWie6U0ZLW8/FwRBAAAEEEEAAAQQQQAABBBBIlAD99YmS57xuFSAg7daaIV8INCKQk5NTY4uysjLJzc01v8vPz5fs7GwMEUAAAQQQQAABVwjoOtH/+X613P3Bj7KhePc60Qf16Sg3HTdEBndr64o8kgkEEEAAAQQQQAABBBBAAAEE7BIgIG2XJMfxiwABab/UJOUInAAB6cBVOQVGAAEEEEDAkwKzVljrRL+zUOau2mry3yMzXW44drAcndOFdaI9WaNkGgEEEEAAAQQQQAABBBBAoDEBAtKNCfH3oAkQkA5ajVNe3wpwg/Nt1VIwBBBAAAEEPCmwunCn/M1aJ/rtuWtM/jOsdaKvOKKfnHdIL2mZkuzJMpFpBBBAAAEEEEAAAQQQQAABBKIRoL8+GiW2CZIAAekg1TZl9bUANzhfVy+FQwABBBBAwDMCO0rL5bGpS+WJaT9JSVmlNQpa5NQDusvV4wdK5zasE+2ZiiSjCCCAAAIIIIAAAggggAACTRagv77JdOzoUwEC0j6tWIoVPAFucMGrc0qMAAIIIICAmwR0nei35q62RkUvlnVFJSZro3pnyk2/HCJD92nnpqySFwQQQAABBBBAAAEEEEAAAQQcFaC/3lFeDu5BAQLSHqw0soxAJAFucLQLBBBAAAEEEEiUwNc/bZa7P/xRvl9ZaLKQ3aGV/NlaJ/oXQ7uyTnSiKoXzIoAAAggggAACCCCAAAIIJEyA/vqE0XNilwoQkHZpxZAtBGIV4AYXqxjbI4AAAggggEBzBKqqquTrpZvlgU9yZeayLeZQrVOT5bKx/eQ3P+staS1YJ7o5vuyLAAIIIIAAAggggAACCCDgXQH6671bd+TcGQEC0s64clQE4i7ADS7u5JwQAQQQQACBQAqYQLQ1ItoEopfvDkSnJifJr0d1lyusYHRW27RAulBoBBBAAAEEEEAAAQQQQAABBEIC9NfTFhCoKUBAmhaBgE8EuMH5pCIpBgIIIIAAAi4V0ED0VyYQvUS+XV5gcqmB6NOsQPQlh/eVbu1auTTnZAsBBBBAAAEEEEAAAQQQQACB+ArQXx9fb87mfgEC0u6vI3KIQFQC3OCiYmIjBBBAAAEEEIhRQAPRX+RtkgetEdHfrdgTiE5JktNH9ZBLft5XurZjRHSMpGyOAAIIIIAAAggggAACCCDgcwH6631ewRQvZgEC0jGTsQMC7hTgBufOeiFXCCCAAAIIeFVAA9HTc61A9Ke5MqtWIPpSa0R0F6bm9mrVkm8EEEAAAQQQQAABBBBAAAGHBeivdxiYw3tOgIC056qMDCOwWyAnJ6cGRVlZmeTm5prf5efnS3Z2NlQIIIAAAggggEDMAhqInqaBaGtq7tkrC83+LXVE9OjdI6IJRMdMyg4IIIAAAggggAACCCCAAAIBEyAgHbAKp7iNChCQbpSIDRBwpwABaXfWC7lCAAEEEEDAqwIaiJ66ZKMZEf19WCD6jNE9rUB0H8liRLRXq5Z8I4AAAggggAACCCCAAAIIxFmAgHScwTmd6wUISLu+isggAtEJcIOLzomtEEAAAQQQQKCmgAaiP9dAtLVG9Jz83SOi01okiQaiL9ZAdBvWiKbNIIAAAggggAACCCCAAAIIIBCLAP31sWixbRAECEgHoZYpYyAEuMEFopopJAIIIIAAArYJmED04o3ygDUiem5YIPpMKxB9EYFo25w5EAIIIIAAAggggAACCCCAQPAE6K8PXp1T4oYFCEjTQhDwiQA3OJ9UJMVAAAEEEEDAYQENRH+2eIM8YI2Inrdqqzmbjog+a4wViD6sr3Ru09LhHHB4BBBAAAEEEEAAAQQQQAABBPwtQH+9v+uX0sUuQEA6djP2QMCVAtzgXFktZAoBBBBAAAHXCOwqrzAjoh/5LK86EN2qRbKcfVBPufCwPtIpg0C0ayqLjCCAAAIIIIAAAggggAACCHhagP56T1cfmXdAgIC0A6gcEoFECHCDS4Q650QAAQQQQMDdAlt3lllB6A3y0cL1MtUKRm/bVW4ybALRB1uB6EMJRLu7BskdAggggAACCCCAAAIIIICAFwXor/dirZFnJwUISDupy7ERiKMAN7g4YnMqBBBAAAEEXCywpnCnfGwFoPVrxtLNUl5ZVZ1bnY775P2zrUB0b+nIiGgX1yJZQwABBBBAAAEEEEAAAQQQ8LIA/fVerj3y7oQAAWknVDkmAgkQ4AaXAHROiQACCCCAgAsEdE3oH9cVy0c/WEHoRetkweqiGrnqn5Uh44Z0MV/Ds9tLUtJeLsg1WUAAAQQQQAABBBBAAAEEEEDAvwL01/u3bilZ0wQISDfNjb0QcJ0ANzjXVQkZQgABBBBAwDGB8opKmbl8S/VI6FUFO6vPtZcVbz6gZ4c9Qeiu0rtTa8fywYERQAABBBBAAAEEEEAAAQQQQKCuAP31tAoEagoQkKZFIOATAW5wPqlIioEAAggggEA9Atut9Z+nLdlogtD/tdaFLtxRVr1ly5QkObR/ZxlvjYI+YnCWdGI6btoRAggggAACCCCAAAIIIIAAAgkToL8+YfSc2KUCBKRdWjFkC4FYBbjBxSrG9ggggAACCLhfYENxiXy6aIMJQn+Rt0lKyyurM90hvYUcObiLCUJrMLpVarL7C0QOEUAAAQQQQAABBBBAAAEEEAiAAP31AahkihiTAAHpmLjYGAH3CnCDc2/dkDMEEEAAAQQaE6isrJKCHaWyvmiXaBB60dpiKwi9Tr7PLxRriejq1LNjuozTIHROVxlpTcudzHrQjdHydwQQQAABBBBAAAEEEEAAAQTiLkB/fdzJOaHLBQhIu7yCyB4C9Qnk5OTU+FNZWZnk5uaa3+Xn50t2djZ4CCCAAAIIIJBggSormly0s1zWW0Hm9UX6tct83xD6t/X7DXuC0GUVYZHnsHwPz25nAtDjrJHQ/bMyxHqAT3CpOD0CCCCAAAIIIIAAAggggAACCDQkQECa9oFATQEC0rQIBDwqQEDaoxVHthFAAAEEjIAGarfuLLNGA++SjdaXjgo2363gbEl5hSRZQVcNu2rwVeOv//t597/1j6Hfme/6qz37hH7WwcPh+6dYv9ARxbu/J+35bv2cXM/vddvkpLB9dm8bvv8uawptE1w2Aec9wWZTjv/9rNtEmzq2TpWstmmyT/tWcvjAznKUNRq6a7u0aHdnOwQQQAABBBBAAAEEEEAAAQQQcIEAAWkXVAJZcJUAAWlXVQeZQaDpAtzgmm7HnggggAAC9gmUVVTKpm27A8u7A81hweY9wWf9vX6VWtsGJbW31nvu0ibNCja3lC5WwLnLnu9Z1u/03xqE7pzRUlJTkoJCQjkRQAABBBBAAAEEEEAAAQQQ8K0A/fW+rVoK1kQBAtJNhGM3BNwmwA3ObTVCfhBAAAH/CpSUVcj3Kwvl2+VbZPnm7Sa4HAo+b9leGlPB27VqIVltNCDb0gRkNTDbqkWy6OTVOopa10+u1O/Wz/pd/2F+Nt/1x7Btwratsa/1+wprB12nudz6qqjzvVLKremyI/4+tH2Nv1vb7/m9jriuDjBbweXOGmg2Qeb/BZ07W+VLs8pEQgABBBBAAAEEEEAAAQQQQACBYAjQXx+MeqaU0QsQkI7eii0RcLUANzhXVw+ZQwABBDwtUFRSJrNWFMjMZVvM17xVhVLfesdaUJ3SWoOw+qXB5t3/toK1e37+3+9aSssUArWebhxkHgEEEEAAAQQQQAABBBBAAAEE6gjQX0+jQKCmAAFpWgQCPhHgBueTiqQYCCCAgAsENltTbn+7fE8AevlmWbimyIxGDk9drRHAo3pnyuBubauDzqFRzh3SUyVJF3AmIYAAAggggAACCCCAAAIIIIAAAgEUoL8+gJVOkRsUICBNA0HAJwLc4HxSkRQDAQQQSIDA2q07zcjnb/aMgM7bsK1OLnp1TDcB6FG9O8po63t2h1ZiPUgmILecEgEEEEAAAQQQQAABBBBAAAEEEHC3AP317q4fchd/AQLS8TfnjAg4IsANzhFWDooAAgj4TkDXVl6xecf/AtDWCOj8LTvrlHNglzZ7AtAahM40ayKTEEAAAQQQQAABBBBAAAEEEEAAAQQaF6C/vnEjtgiWAAHpYNU3pfWxADc4H1cuRUMAAQSaKVBSViEfLVwvH/2wzgSiNxTvqnFEnV176D7tZFSv3cHnA63vHVqnNvOs7I4AAggggAACCCCAAAIIIIAAAggEU4D++mDWO6WuX4CANK0DAZ8IcIPzSUVSDAQQQMBGAV37+ZXv8uWN71fL1p1l1UdOTU6SEd3by4G9O5gpuEf27CAZLVNsPDOHQgABBBBAAAEEEEAAAQQQQAABBIIrQH99cOuekkcWICBNy0DAJwLc4HxSkRQDAQQQaKZAUUmZvD1njQlEz1u1tfpoe7dLk5P2z5ZD+3eS4VYwOq1FcjPPxO4IIIAAAggggAACCCCAAAIIIIAAApEE6K+nXSBQU4CANC0CAZ8IcIPzSUVSDAQQQKAJArou9DfWVNyvfJsvUxaslZKySnOUFsl7ybghXWTiAd2tQHRnSda5uUkIIIAAAggggAACCCCAAAIIIIAAAo4K0F/vKC8H96AAAWkPVhpZRiCSADc42gUCCCAQPIENRSXy2uxV8up3q2TZpu3VAAO6ZJgg9In77SMdM1oGD4YSI4AAAggggAACCCCAAAIIIIAAAgkUoL8+gfic2pUCBKRdWS1kCoHYBbjBxW7GHggggIAXBcorKuWzxRvl5W9Xmu8VlVWmGK1Tk+W44XvLxAO7y37WlNzWQ54Xi0eeEUAAAQQQQAABBBBAAAEEEEAAAc8L0F/v+SqkADYLEJC2GZTDIZAoAW5wiZLnvAgggEB8BJZu3GatC71KXrdGRG8s3lV90pE9O8ipVhB6wr7dpHXLlPhkhrMggAACCCCAAAIIIIAAAggggAACCNQrQH89jQOBmgIEpGkRCPhEgBucTyqSYiCAAAJhAjtLK2TK/LXWaOh8mbl8S/VfOmWkykn7Z1vTcmdLv6w2mCGAAAIIIIAAAggggAACCCCAAAIIuEiA/noXVQZZcYUAAWlXVAOZQKD5Atzgmm/IERBAAAG3CKzdulMen7pUXp+1Sop3lZtsJVkzcP98QGdrNHQPOXJwlrRITnJLdskHAggggAACCCCAAAIIIIAAAggggECYAP31NAcEagoQkKZFIOBRgZycnBo5Lysrk9zcXPO7/Px8yc7O9mjJyDYCCCAQXIHVhTvln5/nySvfrpJSa61oTT0y081I6JNHZku3dq2Ci0PJEUAAAQQQQAABBBBAAAEEEEAAAY8IEJD2SEWRzbgJEJCOGzUnQsBeAQLS9npyNAQQQCCRAvlbdsijViD6NWtEdFlFlcnKqN6ZcsXYfvKzfp0kSYdHkxBAAAEEEEAAAQQQQAABBBBAAAEEPCFAQNoT1UQm4yhAQDqO2JwKAScFuME5qcuxEUAAAWcElm/aLo98lif/+X61VFTuDkQf3Lej/O7I/jKmT0dnTspREUAAAQQQQAABBBBAAAEEEEAAAQQcFaC/3lFeDu5BAQLSHqw0soxAJAFucLQLBBBAwDsCP23cJo/8N0/enLNa9sSh5TBrfejfHdFPDuiV6Z2CkFMEEEAAAQQQQAABBBBAAAEEEEAAgToC9NfTKBCoKUBAmhaBgE8EuMH5pCIpBgII+FpgyfpiedgKRL87b41U7R4QLUcMypLfWoHo/Xp08HXZKRwCCCCAAAIIIIAAAggggAACCCAQFAH664NS05QzWgEC0tFKsR0CLhfgBufyCiJ7CCAQaIGFa4rkH5/lypT566odxg3pYo2I7i/7ZrcLtA2FRwABBBBAAAEEEEAAAQQQQAABBPwmQH+932qU8jRXgIB0cwXZHwGXCHCDc0lFkA0EEEAgTGDB6q3y0Ke58tHC9dW/PWZoV7nCGhGdszeBaBoLAggggAACCCCAAAIIIIAAAggg4EcB+uv9WKuUqTkCBKSbo8e+CLhIgBtc5MrI21Asd3+wWO7+1TBpn57qohojKwgg4GeBOfmF8rAViP70xw2mmHvtJTJh327W1Nz9ZWDXNn4uOmVDAAEEEEAAAQQQQAABBBBAAAEEAi9Af33gmwAAtQQISNMkEPCJADe4uhVZZS3Qetw/vpAFq4vkpP32kftPHeGT2qYYCCDgVoFZK7bIg5/mybQlG00Wk6xA9PEj9pHLx/aVflkEot1ab+QLAQQQQAABBBBAAAEEEEAAAQQQsFOA/no7NTmWHwQISPuhFikDApYAN7jIzWDWigL51WNfiRWblsfPGilH53SlvSCAAAK2C8y1RkTf+9FimZ67yRw72YpEn2i9CHP52H7Su1Nr28/HARFAAAEEEEAAAQQQQAABBBBAAAEE3CtAf71764acJUaAgHRi3DkrArYLcIOrn/TO9xfJ41OXSsfWqfL+lYdKVts02/05IAIIBFPgx3VFcv9HS6rXiE6xAtG/Gpktlx3eT3p0TA8mCqVGAAEEEEAAAQQQQAABBBBAAAEEAi5Af33AGwDFryNAQJpGgYBPBLjB1V+Ru8or5IRHvpJFa4tkVO9MefGC0ZKSnOSTmqcYCCCQCIFlm7bL3z9eIu/MW2NmYNCpuU+wRkT//sgBBKITUSGcEwEEEEAAAQQQQAABBBBAAAEEEHCRAP31LqoMsuIKAQLSrqgGMoFA8wW4wTVsuHTjNvm/f3wp23aVy6WH95U//mJQ89E5AgIIBE5gdeFOeeiTXHlt9iqpqLQi0VaasG83+cO4/qwRHbjWQIERQAABBBBAAAEEEEAAAQQQQACByAL019MyEKgpQECaFoGATwS4wTVeke/NWyuXvzjbbPjwafvJccP3bnwntkAAAQQsgQ3FJfLoZz/Ji9+slNKKSmNyxKAsuWrcABm6TzuMEEAAAQQQQAABBBBAAAEEEEAAAQQQqBagv57GgEBNAQLStAgEfCLADS66irzt3YXy5BfLJDUlyUzdfUCvzOh2ZCsEEAikQMH2Unls2k8y+avlUlK2OxB9UJ+Ocs3RA2RkT64fgWwUFBoBBBBAAAEEEEAAAQQQQAABBBBoRID+epoIAjUFCEjTIhDwiQA3uOgqUqfYveT5WfLxwvXSIb2FvHHZIdKrU+vodmYrBBAIjEBxSZk8Zb288tT0ZVJsTfWvaUT39nLt0QPlkH6dAuNAQRFAAAEEEEAAAQQQQAABBBBAAAEEYhegvz52M/bwtwABaX/XL6ULkAA3uOgre0dpufz6iRkyb9VW6W0Fo1+95CDplNEy+gOwJQII+FZgZ2mF/Ovr5fLY1J+kYEeZKefgbm3lmvEDzBTd1oOTb8tOwRBAAAEEEEAAAQQQQAABBBBAAAEE7BGgv94eR47iHwEC0v6pS0oScAFucLE1AF0P9sRHvpLVhTtlUNc28tJFY6R9empsB2FrBBDwjcCu8gp5aWa+/OOzPNlYvMuUq0/n1maN6GOHdpOkJALRvqlsCoIAAggggAACCCCAAAIIIIAAAgg4LEB/vcPAHN5zAgSkPVdlZBiByALc4GJvGcs2bZeJj39tgk/Ds9vJ89aa0m3SWsR+IPZAAAHPCpRXVMp/Zq+WBz/NNS+oaMru0EquPLK/nLjfPpKSnOTZspFxBBBAAAEEEEAAAQQQQAABBBBAAIHECNBfnxh3zupeAQLS7q0bcoZATALc4GLiqt54yfpiOdUKSuvUvKN6Zcqz5x8o6akpTTsYeyGAgGcEtlvrQr/yXb5ZJ3pVwe5AdJe2LeWKI/rLqQd0l9QUAtGeqUwyigACCCCAAAIIIIAAAggggAACCLhMgP56l1UI2Um4AAHphFcBGUDAHgFucE13XLB6q5w2aYYUl5TLz/p1kklnHyCtUpObfkD2RAAB1wpsKCqRZ79aLs/PWCFF1v95TZmtU+XSn/eVsw7qKWkt+L/v2sojYwgggAACCCCAAAIIIIAAAggggIBHBOiv90hFkc24CRCQjhs1J0LAWQFucM3znbWiQM566hvZUVohB/ftKE+dcyBB6eaRsjcCrhLQ2RCenL5U3vx+jZRa03Rr6tUxXS44tI+cvH82/99dVVtkBgEEEEAAAQQQQAABBBBAAAEEEPC2AP313q4/cm+/AAFp+005IgIJEeAG13z275ZvkXOeninbraD0mD6Z8vS5TN/dfFWOgEDiBKqqquTrpZtl0rSl8tnijdUZOaBnB7nwsD5y1OAukpy0V+IyyJkRQAABBBBAAAEEEEAAAQQQQAABBHwpQH+9L6uVQjVDgIB0M/DYFQE3CXCDs6c2Zq3QoPS3ss1aX3ZU70x5xgpKt27JmtL26HIUBOIjUGaNgJ4yf61MskZEL1hdZE66lxV3/kVOVzMieqQVkCYhgAACCCCAAAIIIIAAAggggAACCCDglAD99U7JclyvChCQ9mrNkW8Eaglwg7OvScxeWSDnPDVTiq2g9IG9Osgz542SDILS9gFzJAQcEtAXSV6auVKe+XK5rC7cac6S1iJJJh7QXc4/pLf06tTaoTNzWAQQQAABBBBAAAEEEEAAAQQQQAABBP4nQH89rQGBmgIEpGkRCHhUICcnp0bOy8rKJDc31/wuPz9fsrOzPVoyd2R7Tn6hWVO6uKTcjKZ89rwDpU1aC3dkjlwggEANgXVbS+SZr5bJi9+sNP9nNXXKSJVzDuolZ47pKR1apyKGAAIIIIAAAggggAACCCCAAAIIIIBA3AQISMeNmhN5RICAtEcqimwiUFuAgLTzbWLeqkI588lvpMgKcO3fo708e/4oaUtQ2nl4zoBAlAKL1haZabnfnrNGyiurzF59OreWC61puU/cbx9rdHRylEdiMwQQQAABBBBAAAEEEEAAAQQQQAABBOwTICBtnyVH8ocAAWl/1COlQEC4wTnTCBas3ipnWEHprTvLZET39vKv3xCUdkaaoyIQnYBOy/3povXy2qxVMj13U/VOuub7RVYg+ohBWZKUZC0YTUIAAQQQQAABBBBAAAEEEEAAAQQQQCBBAvTXJwie07pWgIC0a6uGjCEQmwA3uNi8Ytlag9JnWtN3F+4ok+HZ7ayg9Ghp14rpu2MxZFsEmiNQXFJmBaE3yHvz18rUJRultLzSHE7jzsfs282MiNYXRkgIIIAAAggggAACCCCAAAIIIIAAAgi4QYD+ejfUAnlwkwABaTfVBnlBoBkC3OCagRfFrgvXFFkjpWdIgRWUHmYFpZ873wpKpxOUjoKOTRBokkCRCUKvl/fmrZNpuf8LQuvB+nRqLcdagehTD+wu3TPTm3R8dkIAAQQQQAABBBBAAAEEEEAAAQQQQMApAfrrnZLluF4VICDt1Zoj3wjUEuAG53yT0PVqdfruLdtLZeg+beV5a6R0+/RU50/MGRAIiIAGoT9ZuF6mWCOhpy3ZJKUVu0dCa9K1oSdYQWgNRBgOoKgAACAASURBVA/q2kasB5iAqFBMBBBAAAEEEEAAAQQQQAABBBBAAAGvCdBf77UaI79OCxCQdlqY4yMQJwFucPGBXryuWE6fNEM2E5SODzhn8b2Ars8eCkLrmtDhQei+oSD0sG4ysAtBaN83BgqIAAIIIIAAAggggAACCCCAAAII+ESA/nqfVCTFsE2AgLRtlBwIgcQKcIOLn/+S9cVy2hMEpeMnzpn8JqBB6I/3jISebk3HXVZRVV3E/lkZZhT0BCsIPcAKQpMQQAABBBBAAAEEEEAAAQQQQAABBBDwmgD99V6rMfLrtAABaaeFOT4CcRLgBhcn6D2nISgdX2/O5m2B0vJKWWhNeT9rRYF8YQWgv8jbVCMIPaDLniC0FYjuTxDa25VN7hFAAAEEEEAAAQQQQAABBBBAAAEEhP56GgECNQUISNMiEPCJADe4+FckQen4m3NGbwhs3rZLZq8sNAHo2dbX3FWFsssKSocnnYJ790jortIvi5HQ3qhZcokAAggggAACCCCAAAIIIIAAAgggEI0A/fXRKLFNkAQISAeptimrrwW4wSWmeglKJ8ads7pHoLKySnI3bDPBZxOAXlkgyzZtr5PBDuktZGTPDtZXpowb0sUKQme4pxDkBAEEEEAAAQQQQAABBBBAAAEEEEAAARsF6K+3EZND+UKAgLQvqpFCICBMAZLARlA7KP3c+aOlQ+vUBOaIUyPgnEBxSZnMzd+6OwBtBZ+/t74X7yqvc0KdhlsD0Pv30CB0B+ndqbVYDx3OZYwjI4AAAggggAACCCCAAAIIIIAAAggg4BIBAtIuqQiy4RoBAtKuqQoygkDzBLjBNc+vuXuHB6V1KuLnLhglWW3SmntY9kcgoQI7Ssvlx3XFsnBNkVkD+ntrGu7F64rEGhRdI6WnJsuI7u13B6D1q3sHaWeNiCYhgAACCCCAAAIIIIAAAggggAACCCAQRAH664NY65S5IQEC0rQPBHwiwA0u8RWZt6FYTp/0jWwo3mVGg75wwWjZu32rxGeMHCDQiEBVVZVstNrtD1bQORR8XmT9W6fetv5UJ2V3aLVn+u3dI6AHdW0jKclJOCOAAAIIIIAAAggggAACCCCAAAIIIICAJUB/Pc0AgZoCBKRpEQj4RIAbnDsqcsXm7SYovbpwp+xjBaNfvHC09OzY2h2ZIxcIWALlFZUm0KwjnsODz5u2lUb06dympQzu1laGWF/DstuZQHSXtoz+pzEhgAACCCCAAAIIIIAAAggggAACCCBQnwD99bQNBAhI0wYQ8KUANzj3VOsaKxh9xpPfmKBfl7YtzUjpfllt3JNBchIYgZKyCjPl9vxVhfLDnmm3F1s/7yqvrGOQZC3v3Kdzhgk8D9m7rQlCD+7WhqnnA9NaKCgCCCCAAAIIIIAAAggggAACCCCAgF0C9NfbJclx/CLACGm/1CTlCLwANzh3NYENxSVy1pMzZfH6YunYOlX+9ZtRkrN3O3dlktz4SqDMGvmsweb5q7fKvFX6pes9F0t57QWfrVK3ttZ83h1w3h181iD0AGvt81bW70kIIIAAAggggAACCCCAAAIIIIAAAggg0DwB+uub58fe/hMgIO2/OqVEARXgBue+ii/YXipnPz3TBAjbpqXI5PNHyX7WerskBJorUGEFmX/auK068KwBaJ2CuzTCyGd9IWJfa6rtffdpVz31do/MdEnSIdEkBBBAAAEEEEAAAQQQQAABBBBAAAEEELBdgP5620k5oMcFCEh7vALJPgIhAW5w7mwLRSVlct4z38qsFQWSbo0+vX/iCPnF0K7uzCy5cqVAVVWVLN+8w4x41sDzfOtrwZqtsqO0ok5+9cWHYdntTQB6mBWAHta9vezdLk2sm70ry0amEEAAAQQQQAABBBBAAAEEEEAAAQQQ8KMA/fV+rFXK1BwBAtLN0WNfBFwkwA3ORZVRKys7Ssvl4udmyfTcTeYvvzuyv/ze+mKEqnvrLJE501HOP1gB52+Xb7G+CszLDFus0fa1k77gMFSDztaXBqCHW4Honh3TCT4nsvI4NwIIIIAAAggggAACCCCAAAIIIIAAApYA/fU0AwRqChCQpkUg4BMBbnDurshya33f26cskme+XG4yetTgLvL3U4dLm7QW7s44uXNcoNgaRT97ZaF8ZwLQW2ROfqGUlFXWOG9qSpK1Bnnb3aOercDzMCsA3adzhiQz7bbj9cMJEEAAAQQQQAABBBBAAAEEEEAAAQQQiFWA/vpYxdje7wIEpP1ew5QvMALc4LxR1a/NWiU3vDHfrPXbt3NrmXT2ASawSAqOwLqtJSbwvDsAXSA/risSa0noGql9egs5oGemHNirgxzYO1OG7t1ONChNQgABBBBAAAEEEEAAAQQQQAABBBBAAAH3C9Bf7/46IofxFSAgHV9vzoaAYwLc4Byjtf3Ac60RsDqF97qiEmnTMkUeOm0/GTsoy/bzcMDEC1RakebcDdvMtNsagJ5pfa0q2FknYz0y0+UADT732h2E7tMpgyndE1995AABBBBAAAEEEEAAAQQQQAABBBBAAIEmCdBf3yQ2dvKxAAFpH1cuRQuWADc4b9X3huISuez52fKdFajcay+Ra8YPlMsO78v6v96qxjq53b6rXPSFA61XDULPXlkgxSXlNbbTWbYHd2u7J/icaQLRXdqmebzkZB8BBBBAAAEEEEAAAQQQQAABBBBAAAEEQgL019MWEKgpQECaFoGATwS4wXmvInXa7lve+UFe/GalyfxRg7Pkxl8OkZ4dW3uvMAHMcVVVlayxpt/Wkc+zNQBtBZ8XrS2Wilrzb7dqkSwjurc3I58PsEZA79ejPWuHB7C9UGQEEEAAAQQQQAABBBBAAAEEEEAAgeAI0F8fnLqmpNEJEJCOzomtEHC9ADc411dRvRl84ZsVcsvbP0hZRZW0SN5LzhjdU357RD/pmNHSu4XyYc7LKiqtgHORFYDeHXyeZX3Xaddrp73bpclIK/A80go8j7TWgR7crY2kJLP+sw+bBEVCAAEEEEAAAQQQQAABBBBAAAEEEEAgogD99TQMBGoKEJCmRSDgEwFucN6uyB/XFcmdU36UqUs2moJkWGtLX2pN4X3+Ib2lVWqytwvnsdzrus+rC3fKkvXFZv1n8339NuvfxVJSVlmjNMnW/Ns5e7eV/Xt0sILPu7/2bt/KYyUmuwgggAACCCCAAAIIIIAAAggggAACCCBgpwD99XZqciw/CBCQ9kMtUgYELAFucP5oBl/kbpI7318kP6wpMgXq0ralXD1uoJw8Mls0+EmyTyAUeNZA8xINOO8JOudZQegdpRURT9Q2LaU68Kyjn4d3byfpqSn2ZYojIYAAAggggAACCCCAAAIIIIAAAggggIDnBeiv93wVUgCbBQhI2wzK4RBQgcLCQrnpppvk22+/lWXLlklBQYF06tRJBg4cKJdffrmcdNJJYv3nsxWLG5ytnAk9mAZK3567Ru75cLEZqatpQJcM+dMxg2TswCzb205CC+vQycut6bULd5bJlu2l1V+brX8XWF8rNu8wo50bCjynWlNs9+ncWvplZVj2bYx/f+t7b2t97yReDHCo1jgsAggggAACCCCAAAIIIIAAAggggAAC/hCgv94f9Ugp7BMgIG2fJUdCoFogLy9PRowYIWPGjJF+/fpJZmambNiwQd555x3z/cILL5QnnnjCVjFucLZyuuJgJWUV8vyMFfLwf/NkqxVc1dTJWld6TJ9M66uj+eprBU3tfrnBycJXWMF2XYu5XL+XV0pZpfVlrZ2tAWT9vf579/fG/73TGsUcCjiHgs3m5x2lxquqqvGS6JrdfTppsHl34Lm/FYDWwHOvjums+9w4H1sggAACCCCAAAIIIIAAAggggAACCCCAQAQB+utpFgjUFCAgTYtAwAGBiooKKxhWJSkpNafyLS4uNkHqhQsXyoIFCyQnJ8e2s3ODs43SdQfauqNMHv08TyZ/vbzOGsad22iAWoPTu4PUfTrZF6DeVV5hArtF+lVSLsXmq6z6+zbr59q/37arXPRrlxVML9VAsxVwLre+l2oQ2vqy4tBxTe3TW0hm61TJTLe+9Lv11a1dq+oRzz2twHMLazQ0CQEEEEAAAQQQQAABBBBAAAEEEEAAAQQQsEuA/nq7JDmOXwQISPulJimHZwSuuuoq+fvf/y5vvvmmHH/88bblmxucbZSuPZCOmJ6bXygzlm6xvjbLrJUFUmqNMg5PGqDWUb6pKUmi006b79ZXy1o/pyYnW8HhquqAswaeTfDZCjiH/l1SVvPYTsDozPUaEG5hTYPdwspj7X+nWL/X/OvvQ//W7/pzWovk6iBzKNis3ztaXx2sr/atWjDK2YlK45gIIIAAAggggAACCCCAAAIIIIAAAggg0KAA/fU0EARqChCQpkW4TkCntJ45c6b50jWY9Wvz5s0mn+ecc448++yzUed55cqV8tBDD8l7770n+u+WLVuaKbQnTpwol112maSnp0d9LDs2LCkpMSOk582bJ4sXL5b+/fvbcVhzDG5wtlF65kAaoJ5jAtSbzdfslYV1AtTNLYwGjNumtZA2aSnW1+7vbcP+ndHyf7/fvc3unzUAboLL1pTYKUnWd/15TyA5xfrd7r8lSTLrMTe3itgfAQQQQAABBBBAAAEEEEAAAQQQQAABBFwmQH+9yyqE7CRcgIB0wquADNQWaGg93FgC0hqEPuOMM2Tr1q0RkQcOHChTpkyRPn36OFYJhYWF8sADD0ilNW2xBtr1fPn5+XLzzTfLLbfcYut5ucHZyunJg4UC1OuLSkxgWqfJNt9DX3t+3rXnb1asWdpZo4hDX23D/q2/05/bWAHnJILGnmwPZBoBBBBAAAEEEEAAAQQQQAABBBBAAAEEEiNAf31i3DmrewUISLu3bgKbs/CAdPfu3WXw4MHy0UcfGY9oA9Jz586Vgw8+WHbs2CEZGRly/fXXy9ixY2Xnzp3y0ksvyaRJk8zxBg0aZEZg6zZOpOXLl0vv3r2rD92iRQu544475Oqrr5aGAu9NyQs3uKaosQ8CCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAvYK0F9vrydH874AAWnv16HvSqCjhw888EDz1aVLFwkP6kYbkNbg8+effy4pKSkybdo0Oeigg2o43XPPPXLdddeZ3916661y00031XHs1KlT9VTh0SB/9tlncvjhh0fctKKiwoyM1mC4lm/ChAnyyiuvmPzZlbjB2SXJcRBAAAEEEEAAAQQQQAABBBBAAAEEEEAAAQQQaLoA/fVNt2NPfwoQkPZnvfqqVLEGpHXE86hRo4zBxRdfLI899lgdD51Ce+jQobJo0SLp0KGDrF+/XnT0cnj67W9/K8XFxVFb/ulPfzIjrhtLoWD4o48+Kpdeemljm0f9d25wUVOxIQIIIIAAAggggAACCCCAAAIIIIAAAggggAACjgnQX+8YLQf2qAABaY9WXJCyHWtA+s9//rOZFlvTjBkzZPTo0RG57rrrLjOVtyadEnzcuHFxYdXpxEeMGCETJ06Ul19+2bZzcoOzjZIDIYAAAggggAACCCCAAAIIIIAAAggggAACCCDQZAH665tMx44+FSAg7dOK9VOxYg1IH3bYYTJ9+nRp3bq1FBYW1jst9tdff23WmdakU3br1N3xSO+//74ce+yxcvrpp8sLL7xg2ym5wdlGyYEQQAABBBBAAAEEEEAAAQQQQAABBBBAAAEEEGiyAP31TaZjR58KEJD2acX6qVixBqQ7d+4smzZtkuHDh8ucOXPqpSgoKJDMzEzz91NOOcWs6WxX0vP27t1b2rVrV+OQW7ZskSOPPNLk67nnnpMzzzzTrlMKNzjbKDkQAggggAACCCCAAAIIIIAAAggggAACCCCAAAJNFqC/vsl07OhTAQLSPq1YPxUrloB0SUmJtGrVyhR/woQJ8u677zZIkZGRIdu3b5cxY8aIjpi2K/3+97+XJ598UsaOHSs9e/Y0o7VXrFgh7733nmzbtk1OPvlkEwBPSkqK+pR6A2sorV27tnrt7Pz8fMnOzo762GyIAAIIIIAAAggggAACCCCAAAIIIIAAAggggAAC9ggQkLbHkaP4R4CAtH/q0rcliSUgvXHjRsnKyjIWp556qrz00ksNunTp0kU2bNggQ4cOlfnz59tm+MUXX8hTTz1l1rBes2aN7Nixw4zG3n///eXss8+WX//612L954vpfLFsT0A6Jlo2RgABBBBAAAEEEEAAAQQQQAABBBBAAAEEEEDANgEC0rZRciCfCBCQ9klF+rkYsQSkNRDbo0cPw3HWWWfJv/71rwZpdFvdp2/fvpKXl+dqRgLSrq4eMocAAggggAACCCCAAAIIIIAAAggggAACCCCAgBEgIE1DQKCmAAFpWoTrBWIJSLtlhLQTqEzZ7YQqx0QAAQQQQAABBBBAAAEEEEAAAQQQQAABBBBAwF4BAtL2enI07wsQkPZ+Hfq+BLEEpN2yhnQiKoUbXCLUOScCCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAjUF6K+nRSBQU4CANC3C9QKxBKS1MJ07d5ZNmzbJ8OHDZc6cOfWWr6CgwKzrrOmUU06RV155xfUWDWWQG5ynq4/MI4AAAggggAACCCCAAAIIIIAAAggggAACCPhEgP56n1QkxbBNgIC0bZQcyCmBWAPShx12mEyfPl1at24thYWFkpKSEjFrX3/9tRx88MHmbzfddJPceuutThUhLsflBhcXZk6CAAIIIIAAAggggAACCCCAAAIIIIAAAggggECDAvTX00AQqClAQJoW4XqBWAPSN9xwg9x5552mXDNmzJDRo0dHLONdd90l119/vfnbhx9+KOPHj3e9RXgGc3JyauS3rKxMcnNzze/y8/MlOzvbU+UhswgggAACCCCAAAIIIIAAAggggAACCCCAAAII+EGAgLQfapEy2ClAQNpOTY7liECsAemZM2dWB6Evvvhieeyxx+rkq7KyUoYOHSqLFi2S9u3by4YNG6RFixaO5N+pgxKQdkqW4yKAAAIIIIAAAggggAACCCCAAAIIIIAAAggg0HQBAtJNt2NPfwoQkPZnvfqqVLEGpLXwoWm7dbruadOmyUEHHVTD5J577pHrrrvO/O7mm2+WW265xfNm3OA8X4UUAAEEEEAAAQQQQAABBBBAAAEEEEAAAQQQQMAHAvTX+6ASKYKtAgSkbeXkYHYIfPHFF5KXl1d9qE2bNsm1115rfj7kkEPkggsuqHGac889t85pv//+e7Ptzp07JSMjQ3Qa77Fjx5qfX3rpJXniiSfMPgMGDJDvvvtO2rRpY0fWE3oMbnAJ5efkCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggYAfrraQgI1BQgIE2LcJ2ABpgnT54cdb6qqqoibvvOO+/ImWeeKUVFRRH/rsHo9957T/r16xf1udy8ITc4N9cOeUMAAQQQQAABBBBAAAEEEEAAAQQQQAABBBAIigD99UGpacoZrQAB6Wil2C5uAnYFpDXDK1askAcffNAEnvUGkJqaagLQp5xyilxxxRWSnp4et3I5fSJucE4Lc3wEEEAAAQQQQAABBBBAAAEEEEAAAQQQQAABBBoXoL++cSO2CJYAAelg1Tel9bEANzgfVy5FQwABBBBAAAEEEEAAAQQQQAABBBBAAAEEEPCMAP31nqkqMhonAQLScYLmNAjYLZCTk1PjkGVlZZKbm2t+l5+fL9nZ2XafkuMhgAACCCCAAAIIIIAAAggggAACCCCAAAIIIIBAIwIEpGkiCNQUICBNi0DAowIEpD1acWQbAQQQQAABBBBAAAEEEEAAAQQQQAABBBBAwNcCBKR9Xb0UrgkCBKSbgMYuCLhRgBucG2uFPCGAAAIIIIAAAggggAACCCCAAAIIIIAAAggETYD++qDVOOVtTICAdGNC/B0Bjwhwg/NIRZFNBBBAAAEEEEAAAQQQQAABBBBAAAEEEEAAAV8L0F/v6+qlcE0QICDdBDR2QcCNAtzg3Fgr5AkBBBBAAAEEEEAAAQQQQAABBBBAAAEEEEAgaAL01wetxilvYwIEpBsT4u8IeESAG5xHKopsIoAAAggggAACCCCAAAIIIIAAAggggAACCPhagP56X1cvhWuCAAHpJqCxCwJuFOAG58ZaIU8IIIAAAggggAACCCCAAAIIIIAAAggggAACQROgvz5oNU55GxMgIN2YEH9HwCMC3OA8UlFkEwEEEEAAAQQQQAABBBBAAAEEEEAAAQQQQMDXAvTX+7p6KVwTBAhINwGNXRBwg0BOTk6NbJSVlUlubq75XX5+vmRnZ7shm+QBAQQQQAABBBBAAAEEEEAAAQQQQAABBBBAAIFACRCQDlR1U9goBAhIR4HEJgi4UaB2QLq0tFTy8vJMVmfOnCndunVzY7bJEwIIIIAAAggggAACCCCAAAIIIIAAAggggAACvhZYu3atjBo1ypRx2bJl0qtXL1+Xl8Ih0JgAAenGhPg7Ah4R+Pbbb6tvcB7JMtlEAAEEEEAAAQQQQAABBBBAAAEEEEAAAQQQQMDXAjqA7MADD/R1GSkcAo0JEJBuTIi/I+ARAQLSHqkosokAAggggAACCCCAAAIIIIAAAggggAACCCAQGAEC0oGpagragAABaZoHAj4RKCkpkfnz55vSdO7cWVJSUnxSsqYXI3xaFKYxb7oje8ZPgDYbP2vO1HwB2mvzDTlC/ARor/Gz5kzNF6C9Nt+QI8RXgDYbX2/O1jwB2mvz/Ng7vgK01/h6c7bmCdBe6/qVl5fLxo0bzR/23XdfSUtLax4yeyPgcQEC0h6vQLKPAAL1C6xatUq6d+9uNsjPz5fs7Gy4EHC1AG3W1dVD5moJ0F5pEl4SoL16qbbIK+2VNuA1Adqs12os2PmlvQa7/r1Wetqr12os2PmlvQa7/ik9AtEIEJCORoltEEDAkwI8CHmy2gKdadpsoKvfc4WnvXquygKdYdproKvfc4WnvXquygKfYdps4JuApwBor56qrsBnlvYa+CbgKQDaq6eqi8wikBABAtIJYeekCCAQDwEehOKhzDnsFKDN2qnJsZwWoL06Lczx7RSgvdqpybGcFqC9Oi3M8e0WoM3aLcrxnBSgvTqpy7HtFqC92i3K8ZwUoL06qcuxEfCHAAFpf9QjpUAAgQgCPAjRLLwmQJv1Wo0FO7+012DXv9dKT3v1Wo0FO7+012DXvxdLT5v1Yq0FN8+01+DWvRdLTnv1Yq0FN8+01+DWPSVHIFoBAtLRSrEdAgh4ToAHIc9VWeAzTJsNfBPwFADt1VPVFfjM0l4D3wQ8BUB79VR1kVlLgDZLM/CSAO3VS7VFXmmvtAEvCdBevVRb5BWBxAgQkE6MO2dFAIE4CPAgFAdkTmGrAG3WVk4O5rAA7dVhYA5vqwDt1VZODuawAO3VYWAOb7sAbdZ2Ug7ooADt1UFcDm27AO3VdlIO6KAA7dVBXA6NgE8ECEj7pCIpBgII1BXgQYhW4TUB2qzXaizY+aW9Brv+vVZ62qvXaizY+aW9Brv+vVh62qwXay24eaa9BrfuvVhy2qsXay24eaa9BrfuKTkC0QoQkI5Wiu0QQMBzAjwIea7KAp9h2mzgm4CnAGivnqquwGeW9hr4JuApANqrp6qLzFoCtFmagZcEaK9eqi3ySnulDXhJgPbqpdoirwgkRoCAdGLcOSsCCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCDgewEC0r6vYgqIAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIJEaAgHRi3DkrAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggg4HsBAtK+r2IKiAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCRGgIB0Ytw5KwIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIOB7AQLSvq9iCogAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggkRoCAdGLcOSsCCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCDgewEC0r6vYgqIAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIJEaAgHRi3DkrAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggg4HsBAtK+r2IKiAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCRGgIB0Ytw5KwIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIOB7AQLSvq9iCoiA9wW2bdsms2fPlpkzZ5qvb7/9VpYvX24K1rNnz+p/21nSr7/+Wh599FGZPn26rFu3Tjp06CDDhw+Xc889V379619Hdary8nJ56qmn5IUXXpBFixaJlmOfffaRo446Sn73u9/JkCFDojoOG3lTYMeOHfLII4/Iq6++Knl5eVJaWirdu3eXCRMmmPrv0aNHswpm3cBj3r+qqqrOPtqmJ0+eHNWxli1bJr169YpqWzbyloDT7fXzzz+XsWPHRoVy8803yy233NLgtlxfo6L09UZOt1ltY5999pl89NFHMmPGDPnxxx+lsLBQWrduLX369JEjjjhCLr30Uunbt2+Dzlxj/dsMV65cKQ899JC89957ov9u2bKl9OvXTyZOnCiXXXaZpKen21L4l156SZ555hmZN2+eFBQUSNeuXeXQQw+Vyy+/XMaMGRPVOTZv3mzy+uabb5rnZn0e6N27t5xwwgnmmaRjx45RHYeNvC3gZJstKiqSKVOmyKeffiqzZs2SpUuXil6n27VrJzk5OfLLX/5SLrjgAmnfvn2DiPqcuWLFikahnfoM2OiJ2SBuAk62V33OvPXWW6Mqiz4LHH744Q1uyzU2Kkpfb+RUe43lM1QI+khAzQAAIABJREFU+Oc//7nofrUT11dfN8GoCrdhw4Ya/arat6rXL03nnHOOPPvss1EdJ5aNeI6NRYttEQiGAAHpYNQzpUTA0wIaxIj0QK2FcqIz4i9/+Yv5gFpZWRnR7bjjjpNXXnlF0tLS6nXVhzoNPH7zzTcRt9FOSw14n3/++Z6uGzIfWeCnn34y9b948eKIG2jn3IsvvijHHntskwljDUgPGDAgYn4IljS5CnyzYzzaayydKY0FpLm++qbpNbkgTrfZjRs3yuDBg6s7aOrLaGpqqtx9991y5ZVX1lsWrrFNrmZX76hB6DPOOEO2bt0aMZ8DBw40wTl9eaGpqaSkRE455RR59913Ix4iKSnJvLxz4403NngK7Ww8/vjjZe3atRG323vvveWtt96SAw44oKlZZT8PCDjZZt9//3058cQTZdeuXQ1KdOnSRf797383+IIaARMPNKY4ZNHJ9qrZtzMgzTU2Dg3C5adwsr3G8hkqxHTRRRfJ448/XkeN66vLG1IcstdQH5LdAWmeY+NQoZwCAY8KEJD2aMWRbQSCJKBvJE+dOtUUWUcqa4eZjmDWEcd2B6SffPJJufDCC825dNTTDTfcIPvuu6+sWbNGHnzwQTNaSpN2Qj7//PMRq6GiosKMnJo2bZr5+0knnWSOmZmZaQLUt912m+ibicnJyWZUzdFHHx2k6vR9WbVdHnjggWY0nSatex1V36pVK9N+7rzzTtN2deSUtuNhw4Y1yWTBggWN7qcjn++9916z3e23327ac+0UCpZoh/SHH37Y4DG1g71FixaNnpcNvCMQr/Ya3pny9NNPm/8j9aWsrCzRr0iJ66t32pZTOY1Hm121apWZ0ULTiBEjTDBv9OjRosEUDUBq8OXhhx8W7WjRpJ1+2vkXKXGNdaolJO64c+fOlYMPPtiM/szIyJDrr7/eBNh27twpOgpk0qRJJnODBg0ys/roNk1J+qypL69p0uPriw96r54/f77ccccdoi9maNLz6cjTSGn16tUycuRIWb9+vaSkpMhVV11lRqpq0kD3/fffLzobgLZtHdWqM/mQ/CfgdJvVz0RnnXWW6EsS48aNk1/84hdmZikdDa3XU50t6uWXXzaw+vz75ZdfmmtrpBQKmOh1Vz8z1Zf0hSB92ZLkPwGn26uKhQek9ZraUNLZJHR2FK6x/mtrdpTI6fa6fft20VnKGktXXHFFdZ+ZXmP1OaV24vramKL//x4ekNbPOvoCrs4GpcnugDTPsf5vT5QQgaYKEJBuqhz7IYBA3ASeeOIJ05k3atQoMxWiptDDtJ0BaZ2KUz9w6nedTlk75jp16lRdTg2E6Nv/77zzjvmdBskPO+ywOg46zc15551nfq9TNuq0zeFJp2/WzkGd2q5///6ycOFC00lI8odAeAeHjpy79tpraxRMg9DabrQDWDuY//vf/zpWcA2g6DT3+sFDp+iMNE14KFhi5/8lxwrEgW0XiFd7DQ9IRzP1YX0F5fpqexPw3AHj0WY1iKf3cZ0xpb4pkfUFs1AQUme9yM/PlzZt2tTx5BrruSbWaIZDM/fos5u+fHjQQQfV2Oeee+6R6667zvxOZ9y56aabGj1m7Q30GTM0RazOzPPGG2+YFxlDadOmTeZZUqcI1Zc1dXrkSFMhh4/Q19l9dMR1eNJlRXSKcU3a5vWFIZL/BJxusxps1nu7vvhY35I0+hKPTg+vSV/c1am9I6XQZzy7O8b9V6v+LZHT7VXlwp8lIi1pFK0u19hopfy7XTzaa2N62n+ly3noLBXaX5abm8v1tTG0gP5dZyLTF8P1S19G1D4i7QPVZOd9l+fYgDYwio1AlAIEpKOEYjMEEHCXgBMB6fAORJ1OLtJa0fqWv55bg9M6wiQUnA7X0XXSNMisHYS6faQ1BO+66y4zokbTa6+9JieffLK7gMlNkwTKysrMyE79UKhvm+ooZh0tUjtdcskl1dNofffdd6ZT2e6k04Xr6CxNDQW+CZbYLe+d48WzvdoVkOb66p325URO49lmo8n/NddcI/fdd5/Z9D//+Y95aa124hobjaR3ttERz/qCpKaLL75YHnvssTqZ1yVfhg4dKosWLTLPgjo6OdbZRXTZD53yW4PQ2lmYnZ1d5zw6Gvu0004zv9fZUK6++uoa2+h5dcSzPrPqbDwffPBBRGgdzaozpOi59GUM7aAk+UcgXm02GjHtANfnXn021tmiIq1dTkA6Gkn/bhOv9mpHQJprrH/bYbQli1d7bSw/OlOP9i9oauhFOK6vjUkG7+9OBaR5jg1eW6LECMQiQEA6Fi22RQAB1wg4EZA+5JBD5KuvvpK2bduKrh+pU8FFSqGOO10HWkeohE/FqG+jhqaP0w8F//znPyMeY926ddKtWzfzt9NPP91MZUfyvsDHH38s48ePNwXRlw7++Mc/RizUjBkzqkdU6WgSnU7b7vTnP//ZTOmpSUeV6huvkRLBErvlvXO8eLZXOwLSXF+907acymk822w0ZdBlN0LTH+tLbRqgrp24xkYj6Z1twu+tei/XmUgipfAXD3UqRJ3GONqk09LrDD060kmfOXWK+EiptLRUOnfubGbc0ak5dYrO8KRTeYemktfg9amnnhrxOOGBbZ2VKLR0TbT5ZTt3C8SjzUYroLMGhZaS0UBOpHXLCZhEq+nP7eLVXu0ISHON9WcbjKVU8WqvjeUp1I+ls6Lpch6hEa+19+P62phk8P7uRECa59jgtSNKjECsAgSkYxVjewQQcIWA3QFp7dTTtaF0GuWGRpFo4XUN4NBavDrdso4+DSWd6vA3v/mN+bG+UdahbXU93iVLlpip7VasWOEKVzLRPAGdlvOvf/2rOYhOzV3fVK/aznRqTV0TSqfvDq2R3ryz/29vnXpOP4hqu9J2rS9A1LeGJcESu9S9d5x4tlc7AtJcX73XxuzOcTzbbDR511HRoRlOdKS0rs9bO3GNjUbSO9voPXv69Onm3qqzodS35Io+A4TWb9R2qyOWok36bHnkkUeazfWZ809/+lO9u+ozqwa8NR+6pnX4SOyzzz5bnnvuObPv2rVrzXSekZL+Tdem1qT7TJ48Odqssp0HBOLRZqNl0Cm7depuTbo00v77719nVwIm0Wr6c7t4tVc7AtJcY/3ZBmMpVbzaa0N50gB0aFm7xvoVuL7GUrvB2NaJgDTPscFoO5QSgeYIEJBujh77IoBAwgTsDkj/8MMPZnpFTVdeeaU88MAD9ZZN1/E76aSTzN91fWhdJzqUwt/8//7772XEiBH1Huf444+Xt99+26zvW1xcbDo3Sd4W0LUZdQp2TQUFBRHXcwyVcPjw4TJv3jwzukmnLbQz6Tp+uj6fprPOOkv+9a9/1Xv4ULBEA9baXufPny87d+6UzMxMGTZsmOjaleeff37EqeftzDPHir9APNtreEBa11vVdU+13et1T6/nulbqpZdeWj3DRCQNrq/xbyNuO2M822w0ZdfnhYceeshsqqOljz322Dq7cY2NRtI72+g9W2fH0Xv4nDlz6s24PgPofVSTtltdvznapM+WV1xxhdlcnzlPOOGEencNb4P6LDtkyJDqbUPTI+sa5xo8byjpNjrSWveZOXNmtFllOw8IxKPNRssQevbVFyg2b95sZqWqnUKf8fTFSn021WCLvmipU8nrdPk6Tb1+htLPTyT/CcSrvYYHpI866iiZPXu2+TyuLwzrdVRnp9BlGXTZhfoS11j/tb9YSxSv9tpQvnRN4L/85S9mk6eeesp8bq8vcX2NtYb9v70TAWmeY/3fbighAs0VICDdXEH2RwCBhAjYHZDWdfWOOeYYU5b6pt0MFVTXPtMPoJp01IqOXgklXXf65ZdfNj/qtN865WJ9STsb9WFN048//ig6YprkbQEdEf3NN9+YIJtOVdRQ0mleNYChqaSkRHQKeLvSeeedZ6bp1qRT3GpHS30pFCxp6Ny6BqV2podGe9mVT46TWIF4ttfwgHR9pdY1JW+88UbRjpVIHc1cXxPbXtxw9ni22cbKq6NK9b6tHdh6r9eXLFq1alVnN66xjUl65+96rw7Vsa6N9+677zaYeQ2m6Uwo2m51xHS0SZ8t//a3v5nN65vWOHQsnf5YX9bRpM+yOmI6lHREtK5xmpOTIwsWLGjw9PpSpga0dR9t2yR/CMSrzUajFb7EQUP/f0Kf8Ro6pk5Pq5+39PmU5B+BeLbX8IB0fYIanNbPU/oCRKTENdY/ba8pJYlne20of3379pWlS5ea5xOdFS3Siz6h/bm+NqWm/b2PEwFpnmP93WYoHQJ2CBCQtkORYyCAQNwF7A5Iv/rqqzJx4kRTDl33Wdd/ri8tWrSoegSKBpVDU8/p9trBMmXKFLOrjjJNS0ur9zi6vvDdd99t/q5B7pEjR8bdkRPaK6CdvgsXLjSjOPQDYUNJ13IMjZjS0VYdO3a0JTM6Zad2kGiQJDs720zbrYG++pIGr/WFCB0JrVMnat71A7aOlNa3rEMjpTTIrtOU7rfffrbkk4MkXiCe7VUD0qeffrqZXeJnP/uZ9OnTx0wxq0G8d955x0wrW1ZWZlCuv/766vXPw5W4via+zSQ6B/Fssw2VVUfr6ahVneVE04MPPig6FW2kxDU20a3GvvPri4ZZWVnmgHoP17WXG0p6P9WZIDTYq/fUaNPll18ujz76qNlcnzkHDRpU7676zBqaqUdnaAlNIa876H1bnwl0nWtd77qhpNvo/V6D6Pr8QPKHQLzabGNaW7ZsMc+Y+kyanJxsXrSo73lywIABMnjwYBk/frz5vxMa4a8vdWh7z8/PN6fTbfR3+neSPwTi2V41IK3Lbui9XEfe67IF+hy6ePFieeGFF8xSCJq0vepzaujF9XBprrH+aHdNLUU822t9edTP5jpNtyb9nKVtt6HE9bWpte3f/ZwISPMc69/2QskQsEuAgLRdkhwHAQTiKmB3QFqDIboOlKbGpjrSN1D1TVRNul70k08+WV12XfNP10zRVFFR0WAgMHwtTP0woUEakrcFQm8od+/e3QTaGkrh645p55oGj+1IL774opxxxhnmULVH8Ec6vk7jqSMAIiUNuvy///f/qoOD2pmoL08wTaIdNZX4Y8SzveoowdTU1Brrm4YLaCBEO5+3bt1q2pdOnVh7yQOur4lvM4nOQTzbbENlvf322821UdPYsWPlk08+qfd+zzU20a3GvvPrvbpHjx7mgI0th6Hb6La6j7bbvLy8qDOiz5ZPP/202V6nK9YXeOpLup1ur0mfZc8888zqTTWQUllZKYceeqhMmzatwfOH1sHUfcrLy6POKxu6WyBebbYhBf08pLMC6Qh+TToLigYD60sNXTP1ZYlf/epX1cHCP/zhD3L//fe7uxLIXdQC8WyvDbUzzfDjjz9e/YK6Bqv1Gl57FhSusVFXrS83jGd7rQ/woosukkmTJpk/154lJdI+XF992RSbVSgnAtI8xzarStgZgUAIEJAORDVTSAScF9DOqxYtWjT7RM8884zo9JaNJbsD0oyQbkzcX393qr26YfSernn24YcfmgrT0do6gqS5ady4cSbgoumLL74QnSqRFD8BP7fXcEV9qz8UTLnggguqO1hC2zBCOn5trrln8nOb1XaqwUh9YUefRXSEns5K0ZzENbY5evHbN16joRhZEr869fuZ4tVmG3LUdXifeOIJs4nex9966y0z6rSpSV9c05c8dA1qHaGqo6/1hTeS9wXc0F7DFS+88MLqF8+ff/756hd+Q9swQtr7ba45JUh0e921a5d5/tQgs740oS/DN+faqhZcX5vTIry5rxMBaZ5jvdkWyDUC8RQgIB1Pbc6FgI8FnOp8ro/M7oA0a0j7uHFGKJpT7TXR65vquo86OltHo+g656HptptbuzoN6CmnnGIOoyMDb7jhhuYekv1jEPBre61NoOXUtXi1M6R///6yZMmSGpuwhnQMjSbBm/q1zeoaqCeeeKKZ1lOnY9YXdPr169dsba6xzSaMywHitV4ka+/FpToDcZJ4tdn6MHUJjrvuusv8WWeC0mmQa48ybUpF6JJJjzzyiNn1yy+/lIMPPrgph2Eflwkkur3W5tBZofTzlCYNToderAhtxxrSLmtAcc5OoturLv2ly4douvbaa6uXgmsuA9fX5gp6a38nAtI8x3qrDZBbBBIhQEA6EeqcEwGfCug6tM1N3bp1i2otMLsD0gsWLJB9993XZP/KK6+UBx54oN6ivPHGG2YdVE3aGRJau09/vuaaa+S+++4zf/v+++/rTDkbftDjjz/erD+p09PqFHT6ljUpfgJOtFedRvD11183hSgoKKh3Kmz9+/Dhw2XevHnSuXNns8akHenee+81H0g16drm+oHSjqQjrXX0tyZt76FOQDuOzTGiE/Bje41Ucl3HT9eWTE9PF53mOzxxfY2urbhlK7+1WV0HXdeQ1A7IDh06iP48bNgwW7i5xtrCGJeD6D1706ZN5h4+Z86ces+pzwCZmZnm7/pCl3YcR5v+8Y9/yG9/+1uzuT5z6hqn9SV9Zn3ooYfMn3/44QcZMmRI9aYHHHCAzJo1q3oN3obOr+vwFhUV2foyW7TlZTtnBeLRZiOV4G9/+5tZOkaTLvmiSxrZtd6zrrGuI7A06f+t0EuTzkpy9HgIJKq9Rirbjh07qj+fH3vssaIvpYUnrrHxaBHuPkci26suhRBqk/Pnz5ehQ4fagsX11RZGzxzEiYA0z7GeqX4yikDCBAhIJ4yeEyOAQHME7A5Il5aWmgCIjiw9+uijq9c5i5THO++8s3qEqHau6PqRoRS+lt+///1v0RF99aWBAweaEYC6xuCKFSuaw8G+LhEIXxdcp3HVEdORko4e1HWbNeCm6zZOnTrVlhKEgtw6fb6Olu7YsaMtx9VO7tCHXALStpC64iCJbq+REHQkio5IiRSQ5vrqimaT0Ewkqs3qbBO6hvm2bdskIyPDLGEwevRo2yy4xtpG6fiBQmst60uEOk1mSkpKxHPqM0Bo1Ka221tvvTXqvOmzpbY3TfrMGQrqRTqAPrPqqFPNhz5ThE9dfPbZZ5t1pTXpM0F9U8vr33S6T026z+TJk6POKxu6XyAebba2QnhAQ5eO0TXMdQYUu5K+GBl66ZKAtF2q7jhOItprfSXXa6re8zVFCkhzjXVHm0lkLhLVXvVl9n322Ue0T0Ff+NGXz+xKXF/tkvTGcZwISPMc6426J5cIJFKAgHQi9Tk3Agg0WcDugLRmRDsOtQOxbdu2omsC1bceWWiN3pYtW5rt2rRpU10ODTBroFnTJZdcIv/85z8jlnHdunWio8E1nXbaafLiiy822YId3SOgncLaOaxJpyj84x//GDFzM2bMkIMOOsj8TaczvOOOO5pdCB2ptd9++5nj6GgqHVVlVwpfY/22226TP//5z3YdmuMkUCCR7TVSsbVTRV+i0FF6Og1ybm5ujc24viawsbjk1IloszqTxeGHH25mvUhLS5P333/f/Gxn4hprp6azx9IlKzRIrEnv5fW9mKDPAHp/1/Thhx/K+PHjo86YzpqjwTt9WVKfObXNRUr6dx2dpddMfab46quvamym08vq+r2aXnrppeqpPWsfS/+mz6KaHn/8cbnooouizisbul8gHm02XEFfgjjnnHOkqqpK+vTpI9OnT69+4cEurfD1KXXphEMOOcSuQ3OcBAvEu702VFydsUdn7tF0wQUXyKRJk7jGJrh9uO30iWqvOpvfH/7wB8Oh/9bZUuxKXF/tkvTGcZwISPMc6426J5cIJFKAgHQi9Tk3Agg0WcCJgPTdd99dHUCsb3TzqlWrRM+tI6kjvSmtBdLpEhctWmSmaszPzzcj/Wqn8I5K3uxvcjNw3Y7aOZyVlWXWwNURITrqTadkr530ZQXt9NWkI+9C65M1p0BXXXWV/P3vfzeHaGyKz1jPc9RRR8mnn35qdtOORV0HkOR9gUS210h6zz//vJx11lnmT7/5zW/kySefrLMZ11fvt7vmlCDebVZfgtDRL+vXrxedeeLNN9809367E9dYu0WdO57es0NBaA32PvbYY3VOVllZaWYV0WdBnQ1FRzJp+4klaTvTQLSOfF62bJlkZ2fX2T08kKzPsKElO0Ib6suPOoJK89PQ7D+hFy2TkpJk9erV9Y6kjiX/bOsegXi1WS3xf/7zH5k4caL5nKRtVp8Z9XOTnUmfsfv27SubN282n7G2bNki+pIwyR8C8WyvjYlpEPqpp54ym+mLFmeeeWaNXbjGNibo/78nqr3qqGhdHk6fEdasWWNeTrMjcX21Q9Fbx3AiIK0CPMd6qx2QWwTiLUBAOt7inA8BBGwRiDUgHf6g9fOf/9ys/Vg7aYeGvsmvD+I9e/Y0Ux+FT3msnSsnnniivPPOO2bX2tN1h44XPq2svmGqa6iEp59++slMraQjWrRDRdfZrG/KR1uwOEhcBcKnlI3UQayj8DXAoaNB62uL0bTX8EKFOv60Y0TbrE6/GU3nt47u0rYeGq1fG0pHt9x4441y++23mz/plOD64TdSkD2uyJzMNoF4tFcdWTp37twGR5Vqh44GTHQKXG1f+rOuzVc7cX21reo9e6B4tFnFWblypXn5Rl8sS05ONiNMf/WrX8XkxjU2Ji7PbByaolOf3XQq4tCMJ6EC3HPPPXLdddeZH2+++Wa55ZZbapTt2WeflfPOO6/ev4eeMUPTdv/f//2fCfRpOwwlXcd65MiRpp1q0Hvp0qVmbfPaKXxKWR2JX7sNh4/O11GtmjeS/wTi0WZ1BovjjjvOjOzXlzP1/0Zo1qhoRT/44APzbNyqVauIu+ioK23Dei5NutZ6aA31aM/Bdu4XcLq96nq72sZ0Np76kr44rC8Qa9LlDvLy8qrXkw7fh2us+9uT0zl0ur3Wzn/4Mi96zX377bejKiLX16iYArdRUwLSPMcGrplQYARsFyAgbTspB0QAAbsF9AOgTscWnq655hrzZrwG3+69994af9ORHrXXyYs2wBf+4VODxTo18b777mvePNXpkD777DNzroam2dbgoHamfPnll2bbk08+WS688ELTUahBlr/+9a9mtIyORHn33XflmGOOsZuM4yVQQDvLNJCmI+s06dSXupa4dnxo+9HpuXUdUv1Zp9ccMWJEndxG215DO06ZMkUmTJhgftQ19R5++OGoBLSTXEfr6/+ZcePGmdH92rG9a9cu0WlqdVSAtllNOgpFX+SwYzR3VJljo7gIxKO9htrzsGHDzHTyGkTRlyA0uKLBFH3JR0eelJWVmTLrKD99mSNS4voal2bh6pPEo83q84UGGUPTxmtwMTR6vz4cvcfraNTwxDXW1U2pyZnTF7N0iuCdO3ea9UV1ys6xY8ean/XFBZ0qW9OAAQPku+++q7G0i/4+mo483U6fNfV4mvT4v//9783UxxpM0RfF9AVHTTpKOzQ1d+1C6QsVes3VJWY0gH711VfLL3/5S7OZPoPed9995gU5HV01e/bsiCOxmwzFjq4RcLrN6ss3+gLFjh07zAuR2sb1nt9Q0hHU+swZnnQ5BG3fJ510knkhSD+L6f8xfVlNX+jUpZC0TWvSYLc+R+uMVCR/CTjdXrV96uhnva7q53D9rK99Cnot1BfFdcaejz/+2KDqs6q+EKQvBkVKXGP91faaUhqn22vtPOkzqb74pum1114zfU3RJK6v0Sj5fxvtV9X+1VDSFxxDM+zos61eG8PTueeeWweF51j/txNKiIDTAgSknRbm+Agg0GyB8AeeaA6mQb/a6zvGEuDT0SwaNNbRoZGSTj/z+uuvm7Uk60v6YKfb6dpTkZKuT60jpzVQTfKfgD7ka/3XXgM3VFJdp/yFF16o7hSuLRBLe9V9NeD98ssvm8PEMgW4BktuvfXWRiugR48eZp1z1uhrlMqTGzjdXsPbc0NA2umnI/J1BGxDo/C5vnqymdmaaafbrL58ox3VsaRIo0u5xsYi6K1t9UUanb5VZ7uJlDQY/d5770UcgRdtR54GuHU0qL50Finpi416zaw9Arv2tt988415GUhnUYmU9CVOnY6+vvWwvVUz5LY+ASfbbLTXuvC8PfPMM1K7o1s/v02dOrXRStQRifpcWvsloEZ3ZAPPCDjZXqPtW9Agtb6ce/zxxzfoxjXWM83KsYw62V7DM61LcOjncl1eQ1+E1FnRol2ygOurY9XvqQPrfXfy5MlR5zlSnyjPsVHzsSECCNQjQECapoEAAq4XiPZDY6ggzQ1I63H0jftHHnnErH2ma0fqG/w6XbFOsagjVqJJ+pb1pEmTTIeJriO4fft2M7JFRxBceeWVkpOTE81h2MajAlrf2oZ0OkwNnugUht27dzeBaq1/nSq7vhRLQFo7w7UzWTuuBw0aZNpatGnFihWmo1tHneiIaB25ryMDdRRVp06dzNTyOhXY6aef3uALGNGej+3cK+Bke9W2r9PJaTvTFya0E0WDyiUlJdKuXTszykk7SfSN7GjXmuT66t62FK+cOdlm7QpIc42NV2tIzHm0fh988EETeF61apXoy4Y6Bewpp5xiZivRmUUipWg78kL76nOk7qNLH+hI0S5dusihhx5qzlF7uvD6JPSaq3nVwLM+Y2jq3bu3CbToyOvwJWoSo8lZ4yHgVJu1KyCtMwp8+umn5nlh8eLF5llB27z+X9LPUPrShH4OGz9+PMvHxKPBJPgcTrVX/byjM0RoO9PRrfpZXz//aOBFR9zrZ36dPUoDN/oScTSJa2w0Sv7exqn2Gq6mI/f1+qdJp5TXWSOiTVxfo5Xy93bxDEjzHOvvtkTpEGiOAAHp5uixLwIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIBAvQIEpGkcCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAKOCBCQdoSVgyKAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAC7LzD3AAAgAElEQVQCCCCAAAIIEJCmDSCAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIOCJAQNoRVg6KAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIEBAmjaAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIOCIAAFpR1g5KAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAWnaAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIICAIwIEpB1h5aAIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAgSkaQMIIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAo4IEJB2hJWDIoAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggQkKYNIIAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAgg4IkBA2hFWDooAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAgggQECaNoAAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggg4IgAAWlHWDkoAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAABadoAAggggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggggIAjAgSkHWHloAgggAACCCCAAAIIIIAAAggggAACCCCAAAIIIIAAAggggAACBKRpAwgggAACCCCAAAIIIICASwTOPfdcmTx5svTs2VOWL1/uklwlPhsrV66U22+/XT755BNZvXq17Nq1y2TqjTfekBNOOCHxGSQHMQvccsstcuutt5r9qqqqYt6fHeIj8Oyzz8p5551nTrZs2TLp1atXfE7MWRBAAAEEEEAAAQQQQMBXAgSkfVWdFAYBBBBAAAEEEEAAAQTKysrk9ddfl/fff19mzpwpGzZskKKiImnXrp0J9I4aNUpOPvlkOeKIIyQpKclVYASk61aHBqNHjhwpmzZtqvPHpgSkc3NzZdKkSfL5559LXl6eFBcXm7aRlZUl2dnZcvDBB8vhhx8uY8aMkbS0NFe1Dz9lJggB6dtuu01uvPFGU20ZGRmyfv16SU9P91Q1EpD2VHWRWQQQQAABBBBAAAEEXCtAQNq1VUPGEEAAAQQQQAABBBBAIFaBt956S6666ipZunRpo7sOGDBA7r//fpkwYUKj28ZrAwLSdaUvuuii/9/euQBbWZUNeI0haIl5wRAZMZVS8oJ4q7xAGKCWSF5IE7VBMUkxSRMjLcdbqGGlpVamjakpKaYoAmom5XUgLSRJKg21BCTjZjet/p41/zrznY99+fY5Z+M+Zz/vjKOn/V3Wetbae6Z51vu+USB369YtZkkPHjw4yj2CAwY9e/YsvDzcjwh96623qt5z7rnnhssuu6zqdev7AjJUlyxZEj796U8HZGGl+N//4Y8fX3DBBXHejRTNIKR32mmnsHjx4hbsN998czj++OMbaRmqjkUhXRWRF0hAAhKQgAQkIAEJSEACBQgopAtA8hIJSEACEpCABCQgAQlIoPEJTJkyJZx33nkt5X+HDRsWRo0aFT7wgQ+EzTbbLLz++uvh+eefD/fee2948MEHw3/+858wcODA8Ktf/arxJ9fEI9xhhx1iqeCjjz463HHHHW0m8bWvfS1MmjQp3k9G9KmnnhqGDBkS+vTpE/71r3+FV155JTz11FNxf/z2t78NCuk2o/bG/xF48sknw4c//OHIggMUa9euDcOHDw8PPPBAp+KjkO5Uy+VgJSABCUhAAhKQgAQk0LAEFNINuzQOTAISkIAEJCABCUhAAhIoSoDMwxNPPDFevtVWW4Vp06aFoUOHlr392WefDRMnTgx/+ctfFNJFIb9N1/Xo0SMK4y996UsxQ7otwTpvu+224e9//3ssy/3444/Hv8sFpd6559BDD23L6+p6T1fJkK4rpAZ4+GmnnRauu+660KtXr3DOOefEAw60CKAEfd++fRtghMWGoJAuxsmrJCABCUhAAhKQgAQkIIHKBBTS7hAJSEACEpCABCQgAQlIoFMT+POf/xwov/3GG2/E/qzz5s2LWdHVggzpH/3oR52uhG61eXW1zzui7PRtt90WjjvuuIjm29/+djj99NM7LSaFdOMvHQcoyLynKgNimj7SHIT497//HS6//PKWTP3Gn0mIZeHHjh0bh0qlAvafIQEJSEACEpCABCQgAQlIoFYCCulaiXm9BCQgAQlIQAISkIAEJNBQBMg+nDp1ahwTZZm/8IUvdMj4Hn300fDd7343/OIXvwhLly4NG220Udh+++1jz+kzzzwzZmKXi3/84x/he9/7XrjrrrvCwoULw6pVq2Kv4/e85z2BEtSU7j3iiCPWkTvVekjn5SzynT7YjPG1116L2ZgHHXRQzCYeMGBAVQ6UML/mmmvCT3/601iyOok0SlmfccYZYc8996z6jGoXJPGP/H/66aejpKNk9q677hpGjx4dxo0bF7p3797qMVkJVu75RXoop3vpBT158uT45+zZs8PBBx9cbdhVP//jH/8YM2AfeuihwH9zIAIJibA77LDD4tz69evX6jlcc99998WS8fPnz4+C729/+1ssKc8hipEjR4bx48e39MjO3vyRj3wkzJ07t+K4WLdHHnkkjoE+05WiHD/2AXtizpw5cXxklbNvKT/N2MpVHoAB3w/iBz/4QWAvs/+///3vxyoEy5cvDwcccEAcH1Gth3RevFNG/corr4zsXn311chsv/32i5nHH/rQhyrO9c033wzXXnttuOWWW2I59ne84x2hf//+YcyYMfFwAoda8mOvugEqXDB9+vRYYp4gGx92I0aMiGPfZZdd4m9CpUhrndbzT3/6U5z7jBkzAv/NwZu99947VnmolsX/3//+N/zwhz8MN9xwQ6AyBCyYK/uT+zfddNNQ6dBHUSHNe5g3hz+oMMDv0cYbbxze9773xX3N7wlrZkhAAhKQgAQkIAEJSEACzUlAId2c6+6sJSABCUhAAhKQgAQk0CUIIEF69+4d5ce73vWuKJYQLO0JBOrnPve5KOXKBUKVfsaI5Xwgy+hf/dxzz1Ucxtlnn90i0tOFtQhp5PPnP//58NZbb63zHoTVrFmzwuDBg8uO4eKLLw4XXXRRyfu5CUlFZueFF17YZpzI58MPPzw89thjZZ+BOGes2223Xcs1HS2kkfbwJr7xjW9EEdee4AAE0h+5Vy6STMx+XkQqIwvvv//+sPPOO7d6dJF72yukkZaIQyR0uTj55JPDd77zndCtW7dWl2SF9I033hh+9rOfBUrpZyPLpBYhzR464YQTorzPB3L51ltvDcccc0zJIa9cuTIeQECSlop99903HjwZNGhQ/DjJ9PbsD3rXI4933HHH8Pvf/z4+CinMIQDil7/8ZcXDHlkhfckll4RPfOITsYR8qah0CIcDJkcddVQ8BFEqkMVI8pT1fMEFF8SDAtkoIqT5/eWATaXvOb/T99xzT/jgBz/YHrTeKwEJSEACEpCABCQgAQl0UgIK6U66cA5bAhKQgAQkIAEJSEACEgjhN7/5Tcy0JQ455JAoNtsbkyZNipnWBHKQDEwyhcluRTJR8hkRSVYvkmvgwIGtXklmJJmCxPHHHx+OPPLIsM0228SszGXLlkUZdffdd8dM5pTZnR5QVEiTEfrUU0+F3XffPWZr77bbblEi/uQnPwlXXXVVQKqTnfu73/1unexj3vWVr3wlIKQJskxPOumkmLm54YYbBrKmmeMTTzwRP7/66qujpKw1KE984IEHtjwHGTlhwoTIlIMDSEs4EIg7smg32WST+DcSkUxdgrkRn/3sZ2P54xSbb7554V68yFF4E4h8sprz61Z0fnCDH0HGJ2Mia3jLLbeM4yYLnHWAJe/NBhnCq1evjpKeDFf2BYcqyGbmnh//+Mdx7XbaaafIg6z8FGQrsweRq/BDeiIrs8GhDPguXrw4ZruXY8c9eX6sB7KZ4Dt16qmnRknL4QbejaxGlBNnnXVWzNjNRlZIsy8XLFgQ1591o6Q+bLgmvaOokGYMixYtitnnHCqAG8zI4CbznWoEHEJB/JaqWsDvAtcSZCpz2AQRi0QlYxqZjSTl+0S0V0ivWLEiriu/EeyTdKBj7dq18fAMUp3v7De/+c2yWy4JabhxqIPe0zBn//C7Q/UGDpPAlIMB7BW+v/lgDanUQJCBT/UI9gR7kP1Ghv8+++wTnnzyyXhNW4Q0e5JnsEaMjfLeH/vYx2KPdj77+c9/Hqs4INTZc88880yrwydlIfiBBCQgAQlIQAISkIAEJNClCCiku9RyOhkJSEACEpCABCQgAQk0FwHKQFN2lyBj9dJLL20XAEra7rHHHlEKIuUohZ0vM0vJZ8p2cw3ZlUlk8eIkx5BRpTKgs4NDNG2xxRatxltUSHMT0geplC93DYPzzz8/PpeSyWQuZoMy3whtxs91SUxnr+EzsjkRdpQaf+mll2out0uGOQKaOPHEE2Mv2lQaOL3rvPPOC1/96lfjnxwEoL9uPjqihzTzQWwiSQmeSfY4meysIf8UKSeMbEa+8TxkIaXO6Q1cKhDq+c84IIAMLReIcoQzz6fUdZK32evr0UP65ZdfjhnZyFLWnXfnM6AZQ1ovBCkCEgYpskK60pqn64sKaa7fa6+9ImsqE2QDmcyhDwLpScWAbPD94EAIgcDnoAgHQ7KBWM+W+W+vkOYAB8KZ4GBAdr3pY05Ja0qgU3q7FGPuy2bDUzmAzOO+ffu2GjdSmj2MnEeycxAlG+zVJO/Z3xyO4HBBNu68885YujtFW4Q0h1U4wMLasH95Zz44cMFhAKpHsF75zPl1bvB/kIAEJCABCUhAAhKQgAS6HAGFdJdbUickAQlIQAISkIAEJCCB5iGQlT8IGcRMe4JsV7IGCTKEy/WmPeWUU6K0I8iSRlISZK4mcUR5WjJha4miQprMWSQPYisfa9asiVnAZMgi6BB12UgZ3Eg+5HReEqdryb7ceuutwz//+c9w/fXXx17PtQQZmUhLxvLCCy9EsZ0PsqgR//T1JXsSYdWjR49Wl3WEkOaBZNDSbzeVUM6+hHcwDj5HAmdFa/a6T33qU+H222+PzMh0T2Wea+FS7VoOEJA5Th/qe++9d53L6yGkEbKIWTJ7//CHP7TKzM4OgPLwvB+ZipzOZmhnhTRyn0MMpdY8Pa8WIf3rX/86VgPIBzIW6c/3Dm4cwMhGyo7m+8L4yFAu9QwkKgKXaK+Q5lnsjfxhFZ5NhjmHWQjWljUuFVkhTVUGejCXCiQv2c3swzT+dB39vilFTpTjx2cIe8Q9UauQJhucTGgO4lT7/eV3ld9XKgfw25KX49W+F34uAQlIQAISkIAEJCABCXRuAgrpzr1+jl4CEpCABCQgAQlIQAJNTSCbDVwuo7QWQIhIsliRqZQDLxdI6NQLlQzfyZMnx0uRt5QPRgYjfsmGLJcFWerZRYU0ggpRVS6Qq4yfrNBUFptrydxGFpIJO2XKlPDFL36xIh5E+/z582NJb0o2F42smEdCVerHfcUVV8Sy6MTjjz8eMymz0VFCmmdSQphsTgQ74rVUkEFLhivZ2tm1I2s5leVGGObLcRdlk72OstHIOfZNCg5ZMD5EH1I3H/UQ0mTxIuop8Ux/6EpBRi2ZtZRAJ2s5RVZI0++ZnsmVoqiQpsR0ymwv9Tyk7syZM2MJdkpXp0Ce812klD09mJN0LfUMymen7Or2CGn6xqfS2aVK3TMmDqwsX748fPKTnwzTpk0riSgJab6rlLomI71UUIGA7xbZyeyjbKQ1peIDZbLLBb8PqYpCrUI6m6HOYRIOsJSLbHsFynhTzt2QgAQkIAEJSEACEpCABJqHgEK6edbamUpAAhKQgAQkIAEJSKDLEejIDGmkYOrZSx9UeuqWC8Qu/Xr5N2V4ETMpKE+dStJSbhfxhGDaf//91yk5nH9+USF9zjnnBERuuaCUL+XG89KQTEkEVa1BeXCkX9F44IEHYulp4qabboolu8vF3LlzIx+Cfrdkn2ejI4V09rn0ykaAIzHJMkW8I51TULqaMuMpENj9+/ePf2Z7Axdlkq6j/DL7lvLGlG0vFxtvvHE8OJCPjhbSq1atKlSuPD+O/KGNrJCmB3u2DHapORYV0ghwemuXi/R922GHHVodMmB9KUNOUJY+lbEv9RzKXydB2h4hzcEKvpccZOBQRqme1lRx+Na3vhV/a5YuXVryNyEJaQ6EcPilXKRe8Ahrqg2kIGOZ/UOQ8Z+qOZR6DqXlOfxA1CqkkfiVemGXGzfrmS0VXut3yOslIAEJSEACEpCABCQggc5HQCHd+dbMEUtAAhKQgAQkIAEJSEAC/0+gI3tII4f69OkTn0zmMBnElYJruYeywLNmzWq5dPXq1bFPar7cMpm3e+65ZxTUn/nMZ2L2Zj6KCulS4ij7rCS0hgwZEh555JGWjx588MEwYsSImvdPrRnBlLWmvDVBz+0kp0u9OCsOL7vsspZs6XRtvYR0fiyUoUaSZuUdUv+AAw6Il9IrPJVwp/wwJZFrjayELXIvJanz0dFCmooA5UqUVxoj43jxxRdbLskK6SLVCooK6fzBgKLfGQ4ZpGx7SlfznSsX2T3YViHNYYZ+/frFcuaVDnBkqyuUOoDBGMt9f/PjL8cw+1tG9YbUp73U/LMHcWoV0mPGjAn8BtcaHPRgXQ0JSEACEpCABCQgAQlIoHkIKKSbZ62dqQQkIAEJSEACEpCABLocgWwZ2LwYrnWytUgcnk152mXLlq0jpNN7EU9kAlLamczkbAYjvZ8plZsvT11vIY0cpk8yQRYrzIoE2eDbb799kUvjNVkhPWfOnIoSnP7RAwYMiPe9nUI6TS71ieZvslnpjUtkhTRlrSlvXUtQ3nrYsGHxFrJ5ySBGdiMxN9lkk8CBBSJlvfLf60NIZ/lPnDgxZtQWie7du7cS2VkhXUTqdjUh3ZbDHqw/hx7ysT6FNO0FUt/2WoX0scceG8uOsxfom1006PtNOXJDAhKQgAQkIAEJSEACEmgeAgrp5llrZyoBCUhAAhKQgAQkIIEuRwBhh9xdsWJFLKFNmdxSmcdFJl5LyW56wb7zne8sWbK71LvWrFkTM5URdamXLRnWlIFOpXW5r95Cet68eWHfffeNQ8z2vi7Cp5ZrOkPJ7nLzefjhh8NHP/rR+HE207W9JbuTvEPEkZHLvi0VZ5xxRuxzTawPIU0f6zQWsojJJm5LNJqQXt8lu6mKkC3dX4Qh2f/07uaAQjbaK6TXV8nu008/PVx77bVx6Pz2pgoTRebuNRKQgAQkIAEJSEACEpBAcxFQSDfXejtbCUhAAhKQgAQkIAEJdDkC9FOeOnVqnNeVV14ZzjrrrDbPkdLFlDDO98fNP7A9YvfMM8+MPYQJxO3w4cNbHl9vIU1P4s033zyQFVlrGe5aoCKn+vbtG2857bTTwjXXXFP2djK1J02aFD+np3M+a3x9lexOA8xmDB922GEtpdcpydyrV6/w17/+tU3sdtttt7Bw4cJw5JFHhunTp5flwfwpN02UEtJkqiN/q5Wy5v6i7MhYpdQ0YhRBmu6rZc0bTUhzaKRnz54BOTtq1KhYkaBc0AeZfshEkezu/HPWrl0bevfuHXt+c5hh3LhxFdG98cYbLdeQKU5mcjbaK6R5Fv3OOUQxcODA2Ce9XMDliCOOiB/XmiFNafbU890y3LV8W7xWAhKQgAQkIAEJSEACzUdAId18a+6MJSABCUhAAhKQgAQk0KUIINIQycggsqTnz58fdt5556pzRDDS/5TMxhTIU/oDE0888URLz+D8wyjXTP9XgtLc++yzT9X3pQtmzJgRBRnB+1OvZf6ut5DmHWT9pp7XlKFOGdOFJ1DwQqT+okWLwlZbbRXFGHIwH5Qx33333cNzzz0XRfmrr77aUj44XVtUqlYaFmK3qGS95ZZbwgknnBAfR7ZyOjzA3ykLlmdRonjQoEEFaYRYlhzZXam0POIw+8xSQjo9h4zr2267reL7yb5HyFbriZ7d95SZHz16dOF5pQsbTUgzLnqXc+hjo402ihIfaZwPGO+9997h6aefjh+1RUgjY8eOHRvvv/POO8NRRx1VlR/vZA/tuOOO8RBANjpCSGd/o2gZwPesVHBAIlVtqFVI89vLAYk333wzim9+e7t161Z17l4gAQlIQAISkIAEJCABCTQfAYV08625M5aABCQgAQlIQAISkECXI4BEOumkk+K8KD+MVBsyZEjZeSJAyVSmXHE2e/DZZ58Ne+yxR0BWk9FKf9d3v/vdrZ6D4ELqIlORuUjdFC+88EJ4+eWXK757woQJLRnDeem9PoT0Y489Fg488MCYfYtMovctUqxUMEd6xA4ePDiQRVtLkBXNXAmyeVmjvBTO9ksmS/ryyy9f5xUdIaQ5PIAs4x1kjpaLJUuWxLm+9NJL8ZKHHnqopXw3f7NX9tprr7g/OARBX+hyXF555ZVWnx1++OEx25p+0QjCfJlm9uLQoUMDfdFTlBLSBx10UOxLziEIDkNUCt7x4osvRsHMd6JccA2im7L1W2yxRaDvN8K0XNx///1xblnJ2YhC+q677mqRwxwCITM99epOc6OqAv28U7RFSKc1oYw/68i/qwX90idPnhwve/TRR8P+++/fcktHCGlkN3uEPcTvFHsmPy54HH300S3vrVVIc2NWfPMbTMn3clJ6+fLlgQM51TLIq7HzcwlIQAISkIAEJCABCUig8xFQSHe+NXPEEpCABCQgAQlIQAISkEAJAhdffHFAcKYYMWJEzERGtNG39/XXXw+LFy8OM2fODLNnz45CuVQ5W6QlZaQJhN65554bs1bJwEYokjFLRmD37t2jjEZgp6BPNFKR7GDK4CL1UulqRDVyN4lBnok0ykra9SGkGStlgi+88MI4bATpySefHOBFD1ikJHIRWU62J+W3EfW77rprTfsOvohvnkMg2eg5C1MyoW+88caAMCQQ4shexpKPjhDS9GQm25nYb7/9YuYsYpmM2Q022CCWq0bYUYKYft8EAvmee+5ZZzyXXHJJ+PKXvxz/d/YVc2LNt9xyy7By5co4D+aF+OSZKWCZMo+RuewrxoAwpFT517/+9bB06dKYlZ+YlRLS559/frj00kvjY6dMmRIOPfTQWBmAICM67Tf+ThndPXr0CFdddVWUnmQLE/Raz/axzmb5srfJEqdkeb9+/QLlrxHsCHDmQcY73wU+T9GIQpqxpSxp/pty6BMnToyHEhDHZMPzD8I2yf1aS09zeOG9731vXEcyo+FTJGgNwKEGIt+7uyOENM/NymJ+k2hvwEGb1atXx6xo+j+zB9PcS5UPz+4LDi4w12xQrhyulKMneA/z4bl8n/lOcMiCwx0cZOD9HA4xJCABCUhAAhKQgAQkIIHmIqCQbq71drYSkIAEJCABCUhAAhLo0gQQgWeffXYUqtVil112iRIQEZsNsl+Rl8iackHWNGI5f28S0tXejSRHzuTlzvoS0oyPvrmUckZAVwrkJEKpUmZxufs5BIDYJSu7XMCCEuLbbbddyUs6QkizVghWemcXieOOOy7KaQRvqUAEc/gBUVsuyNBnP2SDDFIycEsFAptsXXpUp8MCpYQ08pzMZNjmI/9O5DiCu9Qal+pBzYEJZCLCslIg8RGMiPgUjSqkEaJI6XLZ5BwMuf7661sywm+//fZwzDHHFNkm8RoOB3BIgKCEOqXUiwYHYhYsWBAPNnAYgYMDREcJafY7kvy+++4rOaRUISF9t8na5qBENqoJaa5lL44ZMyYe9KkW7JmHH3642mV+LgEJSEACEpCABCQgAQl0MQIK6S62oE5HAhKQgAQkIAEJSEACzU4ACUOWIpJz3rx5gTKxZL2SEYoARtAhaRAjlfoKU66b8rP8e9myZVEWkd1LuW6yLOmNnA+ygnknZbCRkWRPci99fCmFjIDi3YhnRG8+1qeQ5t3ITebIeOlji7xjnmTZksk4fPjwON5evXq1eVulXt233npreOaZZ6K8Yi14PuWCTznllJIs0gs7QkjzrFWrVsV+wnPnzo39gimvjvwlGA9SjkxPxBrZndWCDFcOLSBmWWf23TbbbBPLoI8cOTJKza233nqdx5CRSwlxZDH3cA1lwilvTqZuNnu9lJDmgWQoI8WZC5nL7C+ilASHORn/HApgLyY5XUpI8wyYMD7kIqXt+XvDDTeM4+QQB98b1m3bbbdtNbdGFdIMkooGrNXNN98cnn/++fi9JyufNeK7TG/v1Lub3w36fBcN+tXzTL43ZF2X6pVe7lkXXXRRoEw2ke3d3VFCmueyh2666aZwww03xEoHsODwBxUcKFUOC/q3E9ddd10YP358q+EWEdLpBkQz+5sS5FRBYF/y3YI1e/vjH/94PMSTL5telLXXSUACEpCABCQgAQlIQAKdl4BCuvOunSOXgAQkIAEJSEACEpCABCQgAQlIoJ0EkKhk0BMczCjXU72dr2nI25HHlNYn8j3TG3LADkoCEpCABCQgAQlIQAIS6JQEFNKdctkctAQkIAEJSEACEpCABCQgAQlIQAIdQYDMXUroU/WALPJKlRM64n2N9Ax6oJM9ThY81SQoH25IQAISkIAEJCABCUhAAhLoaAIK6Y4m6vMkIAEJSEACEpCABCQgAQlIQAISaAgClKWnXH65fuCUsh43blwcK/3np06d2hDj7ohBrFixInTr1q2sZJ4zZ04so02rAUrz0+rAkIAEJCABCUhAAhKQgAQkUA8CCul6UPWZEpCABCQgAQlIQAISkIAEJCABCbztBOiBPGnSpHDssccGejPTP5m+5vThnjZtWrj77rvjGHv37h0WLlzYrn7pb/tkcwOgj/2oUaPC6HaToboAAAP5SURBVNGjw7Bhw2Ip8g022CAsWbIkzJgxI/Z7RkYj6+lp/v73v7/RpuB4JCABCUhAAhKQgAQkIIEuQkAh3UUW0mlIQAISkIAEJCABCUhAAhKQgAQk0JoAQnrs2LEVsfTp0yfMnDkzDBo0qEvhQ0gPHTq04pw23XTTcMcdd4QRI0Z0qbk7GQlIQAISkIAEJCABCUigsQgopBtrPRyNBCQgAQlIQAISkIAEJCABCUhAAh1EgLLVlKKePXt2WLRoUXjttdfCmjVrYhnrAQMGhJEjR4bx48eHnj17dtAbG+cxa9euDdOnTw+zZs0KCxYsiHNfuXJlQEL3798/HHLIIWHChAmxd7YhAQlIQAISkIAEJCABCUigngQU0vWk67MlIAEJSEACEpCABCQgAQlIQAISkIAEJCABCUhAAhKQgAQkIAEJNDEBhXQTL75Tl4AEJCABCUhAAhKQgAQkIAEJSEACEpCABCQgAQlIQAISkIAEJFBPAgrpetL12RKQgAQkIAEJSEACEpCABCQgAQlIQAISkIAEJCABCUhAAhKQgASamIBCuokX36lLQAISkIAEJCABCUhAAhKQgAQkIAEJSEACEpCABCQgAQlIQAISqCcBhXQ96fpsCUhAAhKQgAQkIAEJSEACEpCABCQgAQlIQAISkIAEJCABCUhAAk1MQCHdxIvv1CUgAQlIQAISkIAEJCABCUhAAhKQgAQkIAEJSEACEpCABCQgAQnUk4BCup50fbYEJCABCUhAAhKQgAQkIAEJSEACEpCABCQgAQlIQAISkIAEJCCBJiagkG7ixXfqEpCABCQgAQlIQAISkIAEJCABCUhAAhKQgAQkIAEJSEACEpCABOpJQCFdT7o+WwISkIAEJCABCUhAAhKQgAQkIAEJSEACEpCABCQgAQlIQAISkEATE1BIN/HiO3UJSEACEpCABCQgAQlIQAISkIAEJCABCUhAAhKQgAQkIAEJSEAC9SSgkK4nXZ8tAQlIQAISkIAEJCABCUhAAhKQgAQkIAEJSEACEpCABCQgAQlIoIkJKKSbePGdugQkIAEJSEACEpCABCQgAQlIQAISkIAEJCABCUhAAhKQgAQkIIF6ElBI15Ouz5aABCQgAQlIQAISkIAEJCABCUhAAhKQgAQkIAEJSEACEpCABCTQxAQU0k28+E5dAhKQgAQkIAEJSEACEpCABCQgAQlIQAISkIAEJCABCUhAAhKQQD0JKKTrSddnS0ACEpCABCQgAQlIQAISkIAEJCABCUhAAhKQgAQkIAEJSEACEmhiAgrpJl58py4BCUhAAhKQgAQkIAEJSEACEpCABCQgAQlIQAISkIAEJCABCUigngQQ0v8H0EsP9wFzRh8AAAAASUVORK5CYII=\" width=\"978\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "elastic_ad = elastic.angle_distribution()\n",
    "angular_law = elastic_ad.law(elastic_ad.size()-1)\n",
    "law_energy = elastic_ad.energy(elastic_ad.size()-1)\n",
    "\n",
    "if isinstance(angular_law, AngleTable):\n",
    "    plt.plot(angular_law.cosines(), angular_law.pdf(), linewidth=0.75)\n",
    "    plt.yscale('log')\n",
    "    plt.xlabel('Cosine of Scattering Angle')\n",
    "    plt.title('Elastic Scattering Angular PDF at %.1f MeV' %law_energy)\n",
    "    plt.show()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 19,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "/* global mpl */\n",
       "window.mpl = {};\n",
       "\n",
       "mpl.get_websocket_type = function () {\n",
       "    if (typeof WebSocket !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof MozWebSocket !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert(\n",
       "            '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",
       "\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 = document.createElement('div');\n",
       "    this.root.setAttribute('style', 'display: inline-block');\n",
       "    this._root_extra_style(this.root);\n",
       "\n",
       "    parent_element.appendChild(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 (fig.ratio !== 1) {\n",
       "            fig.send_message('set_device_pixel_ratio', {\n",
       "                device_pixel_ratio: fig.ratio,\n",
       "            });\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 = document.createElement('div');\n",
       "    titlebar.classList =\n",
       "        'ui-dialog-titlebar ui-widget-header ui-corner-all ui-helper-clearfix';\n",
       "    var titletext = document.createElement('div');\n",
       "    titletext.classList = 'ui-dialog-title';\n",
       "    titletext.setAttribute(\n",
       "        'style',\n",
       "        'width: 100%; text-align: center; padding: 3px;'\n",
       "    );\n",
       "    titlebar.appendChild(titletext);\n",
       "    this.root.appendChild(titlebar);\n",
       "    this.header = titletext;\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function (_canvas_div) {};\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function (_canvas_div) {};\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function () {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = (this.canvas_div = document.createElement('div'));\n",
       "    canvas_div.setAttribute(\n",
       "        'style',\n",
       "        'border: 1px solid #ddd;' +\n",
       "            'box-sizing: content-box;' +\n",
       "            'clear: both;' +\n",
       "            'min-height: 1px;' +\n",
       "            'min-width: 1px;' +\n",
       "            'outline: 0;' +\n",
       "            'overflow: hidden;' +\n",
       "            'position: relative;' +\n",
       "            'resize: both;'\n",
       "    );\n",
       "\n",
       "    function on_keyboard_event_closure(name) {\n",
       "        return function (event) {\n",
       "            return fig.key_event(event, name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    canvas_div.addEventListener(\n",
       "        'keydown',\n",
       "        on_keyboard_event_closure('key_press')\n",
       "    );\n",
       "    canvas_div.addEventListener(\n",
       "        'keyup',\n",
       "        on_keyboard_event_closure('key_release')\n",
       "    );\n",
       "\n",
       "    this._canvas_extra_style(canvas_div);\n",
       "    this.root.appendChild(canvas_div);\n",
       "\n",
       "    var canvas = (this.canvas = document.createElement('canvas'));\n",
       "    canvas.classList.add('mpl-canvas');\n",
       "    canvas.setAttribute('style', 'box-sizing: content-box;');\n",
       "\n",
       "    this.context = canvas.getContext('2d');\n",
       "\n",
       "    var backingStore =\n",
       "        this.context.backingStorePixelRatio ||\n",
       "        this.context.webkitBackingStorePixelRatio ||\n",
       "        this.context.mozBackingStorePixelRatio ||\n",
       "        this.context.msBackingStorePixelRatio ||\n",
       "        this.context.oBackingStorePixelRatio ||\n",
       "        this.context.backingStorePixelRatio ||\n",
       "        1;\n",
       "\n",
       "    this.ratio = (window.devicePixelRatio || 1) / backingStore;\n",
       "\n",
       "    var rubberband_canvas = (this.rubberband_canvas = document.createElement(\n",
       "        'canvas'\n",
       "    ));\n",
       "    rubberband_canvas.setAttribute(\n",
       "        'style',\n",
       "        'box-sizing: content-box; position: absolute; left: 0; top: 0; z-index: 1;'\n",
       "    );\n",
       "\n",
       "    // Apply a ponyfill if ResizeObserver is not implemented by browser.\n",
       "    if (this.ResizeObserver === undefined) {\n",
       "        if (window.ResizeObserver !== undefined) {\n",
       "            this.ResizeObserver = window.ResizeObserver;\n",
       "        } else {\n",
       "            var obs = _JSXTOOLS_RESIZE_OBSERVER({});\n",
       "            this.ResizeObserver = obs.ResizeObserver;\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.resizeObserverInstance = new this.ResizeObserver(function (entries) {\n",
       "        var nentries = entries.length;\n",
       "        for (var i = 0; i < nentries; i++) {\n",
       "            var entry = entries[i];\n",
       "            var width, height;\n",
       "            if (entry.contentBoxSize) {\n",
       "                if (entry.contentBoxSize instanceof Array) {\n",
       "                    // Chrome 84 implements new version of spec.\n",
       "                    width = entry.contentBoxSize[0].inlineSize;\n",
       "                    height = entry.contentBoxSize[0].blockSize;\n",
       "                } else {\n",
       "                    // Firefox implements old version of spec.\n",
       "                    width = entry.contentBoxSize.inlineSize;\n",
       "                    height = entry.contentBoxSize.blockSize;\n",
       "                }\n",
       "            } else {\n",
       "                // Chrome <84 implements even older version of spec.\n",
       "                width = entry.contentRect.width;\n",
       "                height = entry.contentRect.height;\n",
       "            }\n",
       "\n",
       "            // Keep the size of the canvas and rubber band canvas in sync with\n",
       "            // the canvas container.\n",
       "            if (entry.devicePixelContentBoxSize) {\n",
       "                // Chrome 84 implements new version of spec.\n",
       "                canvas.setAttribute(\n",
       "                    'width',\n",
       "                    entry.devicePixelContentBoxSize[0].inlineSize\n",
       "                );\n",
       "                canvas.setAttribute(\n",
       "                    'height',\n",
       "                    entry.devicePixelContentBoxSize[0].blockSize\n",
       "                );\n",
       "            } else {\n",
       "                canvas.setAttribute('width', width * fig.ratio);\n",
       "                canvas.setAttribute('height', height * fig.ratio);\n",
       "            }\n",
       "            canvas.setAttribute(\n",
       "                'style',\n",
       "                'width: ' + width + 'px; height: ' + height + 'px;'\n",
       "            );\n",
       "\n",
       "            rubberband_canvas.setAttribute('width', width);\n",
       "            rubberband_canvas.setAttribute('height', height);\n",
       "\n",
       "            // And update the size in Python. We ignore the initial 0/0 size\n",
       "            // that occurs as the element is placed into the DOM, which should\n",
       "            // otherwise not happen due to the minimum size styling.\n",
       "            if (fig.ws.readyState == 1 && width != 0 && height != 0) {\n",
       "                fig.request_resize(width, height);\n",
       "            }\n",
       "        }\n",
       "    });\n",
       "    this.resizeObserverInstance.observe(canvas_div);\n",
       "\n",
       "    function on_mouse_event_closure(name) {\n",
       "        return function (event) {\n",
       "            return fig.mouse_event(event, name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mousedown',\n",
       "        on_mouse_event_closure('button_press')\n",
       "    );\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mouseup',\n",
       "        on_mouse_event_closure('button_release')\n",
       "    );\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'dblclick',\n",
       "        on_mouse_event_closure('dblclick')\n",
       "    );\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mousemove',\n",
       "        on_mouse_event_closure('motion_notify')\n",
       "    );\n",
       "\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mouseenter',\n",
       "        on_mouse_event_closure('figure_enter')\n",
       "    );\n",
       "    rubberband_canvas.addEventListener(\n",
       "        'mouseleave',\n",
       "        on_mouse_event_closure('figure_leave')\n",
       "    );\n",
       "\n",
       "    canvas_div.addEventListener('wheel', function (event) {\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        on_mouse_event_closure('scroll')(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.appendChild(canvas);\n",
       "    canvas_div.appendChild(rubberband_canvas);\n",
       "\n",
       "    this.rubberband_context = rubberband_canvas.getContext('2d');\n",
       "    this.rubberband_context.strokeStyle = '#000000';\n",
       "\n",
       "    this._resize_canvas = function (width, height, forward) {\n",
       "        if (forward) {\n",
       "            canvas_div.style.width = width + 'px';\n",
       "            canvas_div.style.height = height + 'px';\n",
       "        }\n",
       "    };\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    this.rubberband_canvas.addEventListener('contextmenu', function (_e) {\n",
       "        event.preventDefault();\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 toolbar = document.createElement('div');\n",
       "    toolbar.classList = 'mpl-toolbar';\n",
       "    this.root.appendChild(toolbar);\n",
       "\n",
       "    function on_click_closure(name) {\n",
       "        return function (_event) {\n",
       "            return fig.toolbar_button_onclick(name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    function on_mouseover_closure(tooltip) {\n",
       "        return function (event) {\n",
       "            if (!event.currentTarget.disabled) {\n",
       "                return fig.toolbar_button_onmouseover(tooltip);\n",
       "            }\n",
       "        };\n",
       "    }\n",
       "\n",
       "    fig.buttons = {};\n",
       "    var buttonGroup = document.createElement('div');\n",
       "    buttonGroup.classList = 'mpl-button-group';\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",
       "            /* Instead of a spacer, we start a new button group. */\n",
       "            if (buttonGroup.hasChildNodes()) {\n",
       "                toolbar.appendChild(buttonGroup);\n",
       "            }\n",
       "            buttonGroup = document.createElement('div');\n",
       "            buttonGroup.classList = 'mpl-button-group';\n",
       "            continue;\n",
       "        }\n",
       "\n",
       "        var button = (fig.buttons[name] = document.createElement('button'));\n",
       "        button.classList = 'mpl-widget';\n",
       "        button.setAttribute('role', 'button');\n",
       "        button.setAttribute('aria-disabled', 'false');\n",
       "        button.addEventListener('click', on_click_closure(method_name));\n",
       "        button.addEventListener('mouseover', on_mouseover_closure(tooltip));\n",
       "\n",
       "        var icon_img = document.createElement('img');\n",
       "        icon_img.src = '_images/' + image + '.png';\n",
       "        icon_img.srcset = '_images/' + image + '_large.png 2x';\n",
       "        icon_img.alt = tooltip;\n",
       "        button.appendChild(icon_img);\n",
       "\n",
       "        buttonGroup.appendChild(button);\n",
       "    }\n",
       "\n",
       "    if (buttonGroup.hasChildNodes()) {\n",
       "        toolbar.appendChild(buttonGroup);\n",
       "    }\n",
       "\n",
       "    var fmt_picker = document.createElement('select');\n",
       "    fmt_picker.classList = 'mpl-widget';\n",
       "    toolbar.appendChild(fmt_picker);\n",
       "    this.format_dropdown = fmt_picker;\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = document.createElement('option');\n",
       "        option.selected = fmt === mpl.default_extension;\n",
       "        option.innerHTML = fmt;\n",
       "        fmt_picker.appendChild(option);\n",
       "    }\n",
       "\n",
       "    var status_bar = document.createElement('span');\n",
       "    status_bar.classList = 'mpl-message';\n",
       "    toolbar.appendChild(status_bar);\n",
       "    this.message = status_bar;\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",
       "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",
       "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], msg['forward']);\n",
       "        fig.send_message('refresh', {});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function (fig, msg) {\n",
       "    var x0 = msg['x0'] / fig.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / fig.ratio;\n",
       "    var x1 = msg['x1'] / fig.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / fig.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,\n",
       "        0,\n",
       "        fig.canvas.width / fig.ratio,\n",
       "        fig.canvas.height / fig.ratio\n",
       "    );\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",
       "    fig.rubberband_canvas.style.cursor = msg['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.handle_history_buttons = function (fig, msg) {\n",
       "    for (var key in msg) {\n",
       "        if (!(key in fig.buttons)) {\n",
       "            continue;\n",
       "        }\n",
       "        fig.buttons[key].disabled = !msg[key];\n",
       "        fig.buttons[key].setAttribute('aria-disabled', !msg[key]);\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_navigate_mode = function (fig, msg) {\n",
       "    if (msg['mode'] === 'PAN') {\n",
       "        fig.buttons['Pan'].classList.add('active');\n",
       "        fig.buttons['Zoom'].classList.remove('active');\n",
       "    } else if (msg['mode'] === 'ZOOM') {\n",
       "        fig.buttons['Pan'].classList.remove('active');\n",
       "        fig.buttons['Zoom'].classList.add('active');\n",
       "    } else {\n",
       "        fig.buttons['Pan'].classList.remove('active');\n",
       "        fig.buttons['Zoom'].classList.remove('active');\n",
       "    }\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",
       "            var img = evt.data;\n",
       "            if (img.type !== 'image/png') {\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",
       "                img.type = 'image/png';\n",
       "            }\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",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                img\n",
       "            );\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        } else if (\n",
       "            typeof evt.data === 'string' &&\n",
       "            evt.data.slice(0, 21) === 'data:image/png;base64'\n",
       "        ) {\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(\n",
       "                \"No handler for the '\" + msg_type + \"' message type: \",\n",
       "                msg\n",
       "            );\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(\n",
       "                    \"Exception inside the 'handler_\" + msg_type + \"' callback:\",\n",
       "                    e,\n",
       "                    e.stack,\n",
       "                    msg\n",
       "                );\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "};\n",
       "\n",
       "// from https://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",
       "    }\n",
       "    if (e.target) {\n",
       "        targ = e.target;\n",
       "    } else if (e.srcElement) {\n",
       "        targ = e.srcElement;\n",
       "    }\n",
       "    if (targ.nodeType === 3) {\n",
       "        // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "    }\n",
       "\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    var boundingRect = targ.getBoundingClientRect();\n",
       "    var x = e.pageX - (boundingRect.left + document.body.scrollLeft);\n",
       "    var y = e.pageY - (boundingRect.top + document.body.scrollTop);\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",
       " * https://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",
       "        }\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",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x * this.ratio;\n",
       "    var y = canvas_pos.y * this.ratio;\n",
       "\n",
       "    this.send_message(name, {\n",
       "        x: x,\n",
       "        y: y,\n",
       "        button: event.button,\n",
       "        step: event.step,\n",
       "        guiEvent: simpleKeys(event),\n",
       "    });\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",
       "    // Prevent repeat events\n",
       "    if (name === 'key_press') {\n",
       "        if (event.key === this._key) {\n",
       "            return;\n",
       "        } else {\n",
       "            this._key = event.key;\n",
       "        }\n",
       "    }\n",
       "    if (name === 'key_release') {\n",
       "        this._key = null;\n",
       "    }\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.key !== 'Control') {\n",
       "        value += 'ctrl+';\n",
       "    }\n",
       "    else if (event.altKey && event.key !== 'Alt') {\n",
       "        value += 'alt+';\n",
       "    }\n",
       "    else if (event.shiftKey && event.key !== 'Shift') {\n",
       "        value += 'shift+';\n",
       "    }\n",
       "\n",
       "    value += 'k' + event.key;\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, { key: value, 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",
       "\n",
       "///////////////// REMAINING CONTENT GENERATED BY embed_js.py /////////////////\n",
       "// prettier-ignore\n",
       "var _JSXTOOLS_RESIZE_OBSERVER=function(A){var t,i=new WeakMap,n=new WeakMap,a=new WeakMap,r=new WeakMap,o=new Set;function s(e){if(!(this instanceof s))throw new TypeError(\"Constructor requires 'new' operator\");i.set(this,e)}function h(){throw new TypeError(\"Function is not a constructor\")}function c(e,t,i,n){e=0 in arguments?Number(arguments[0]):0,t=1 in arguments?Number(arguments[1]):0,i=2 in arguments?Number(arguments[2]):0,n=3 in arguments?Number(arguments[3]):0,this.right=(this.x=this.left=e)+(this.width=i),this.bottom=(this.y=this.top=t)+(this.height=n),Object.freeze(this)}function d(){t=requestAnimationFrame(d);var s=new WeakMap,p=new Set;o.forEach((function(t){r.get(t).forEach((function(i){var r=t instanceof window.SVGElement,o=a.get(t),d=r?0:parseFloat(o.paddingTop),f=r?0:parseFloat(o.paddingRight),l=r?0:parseFloat(o.paddingBottom),u=r?0:parseFloat(o.paddingLeft),g=r?0:parseFloat(o.borderTopWidth),m=r?0:parseFloat(o.borderRightWidth),w=r?0:parseFloat(o.borderBottomWidth),b=u+f,F=d+l,v=(r?0:parseFloat(o.borderLeftWidth))+m,W=g+w,y=r?0:t.offsetHeight-W-t.clientHeight,E=r?0:t.offsetWidth-v-t.clientWidth,R=b+v,z=F+W,M=r?t.width:parseFloat(o.width)-R-E,O=r?t.height:parseFloat(o.height)-z-y;if(n.has(t)){var k=n.get(t);if(k[0]===M&&k[1]===O)return}n.set(t,[M,O]);var S=Object.create(h.prototype);S.target=t,S.contentRect=new c(u,d,M,O),s.has(i)||(s.set(i,[]),p.add(i)),s.get(i).push(S)}))})),p.forEach((function(e){i.get(e).call(e,s.get(e),e)}))}return s.prototype.observe=function(i){if(i instanceof window.Element){r.has(i)||(r.set(i,new Set),o.add(i),a.set(i,window.getComputedStyle(i)));var n=r.get(i);n.has(this)||n.add(this),cancelAnimationFrame(t),t=requestAnimationFrame(d)}},s.prototype.unobserve=function(i){if(i instanceof window.Element&&r.has(i)){var n=r.get(i);n.has(this)&&(n.delete(this),n.size||(r.delete(i),o.delete(i))),n.size||r.delete(i),o.size||cancelAnimationFrame(t)}},A.DOMRectReadOnly=c,A.ResizeObserver=s,A.ResizeObserverEntry=h,A}; // eslint-disable-line\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\", \"Left button pans, Right button zooms\\nx/y fixes axis, CTRL fixes aspect\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\\nx/y fixes axis\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"jpeg\", \"pgf\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\", \"tif\"];\n",
       "\n",
       "mpl.default_extension = \"png\";/* global mpl */\n",
       "\n",
       "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.binaryType = comm.kernel.ws.binaryType;\n",
       "    ws.readyState = comm.kernel.ws.readyState;\n",
       "    function updateReadyState(_event) {\n",
       "        if (comm.kernel.ws) {\n",
       "            ws.readyState = comm.kernel.ws.readyState;\n",
       "        } else {\n",
       "            ws.readyState = 3; // Closed state.\n",
       "        }\n",
       "    }\n",
       "    comm.kernel.ws.addEventListener('open', updateReadyState);\n",
       "    comm.kernel.ws.addEventListener('close', updateReadyState);\n",
       "    comm.kernel.ws.addEventListener('error', updateReadyState);\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",
       "        var data = msg['content']['data'];\n",
       "        if (data['blob'] !== undefined) {\n",
       "            data = {\n",
       "                data: new Blob(msg['buffers'], { type: data['blob'] }),\n",
       "            };\n",
       "        }\n",
       "        // Pass the mpl event to the overridden (by mpl) onmessage function.\n",
       "        ws.onmessage(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 = document.getElementById(id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm);\n",
       "\n",
       "    function ondownload(figure, _format) {\n",
       "        window.open(figure.canvas.toDataURL());\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy, ondownload, element);\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;\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",
       "    fig.cell_info[0].output_area.element.on(\n",
       "        'cleared',\n",
       "        { fig: fig },\n",
       "        fig._remove_fig_handler\n",
       "    );\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function (fig, msg) {\n",
       "    var width = fig.canvas.width / fig.ratio;\n",
       "    fig.cell_info[0].output_area.element.off(\n",
       "        'cleared',\n",
       "        fig._remove_fig_handler\n",
       "    );\n",
       "    fig.resizeObserverInstance.unobserve(fig.canvas_div);\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.innerHTML =\n",
       "        '<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 / this.ratio;\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] =\n",
       "        '<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 () {\n",
       "        fig.push_to_output();\n",
       "    }, 1000);\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function () {\n",
       "    var fig = this;\n",
       "\n",
       "    var toolbar = document.createElement('div');\n",
       "    toolbar.classList = 'btn-toolbar';\n",
       "    this.root.appendChild(toolbar);\n",
       "\n",
       "    function on_click_closure(name) {\n",
       "        return function (_event) {\n",
       "            return fig.toolbar_button_onclick(name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    function on_mouseover_closure(tooltip) {\n",
       "        return function (event) {\n",
       "            if (!event.currentTarget.disabled) {\n",
       "                return fig.toolbar_button_onmouseover(tooltip);\n",
       "            }\n",
       "        };\n",
       "    }\n",
       "\n",
       "    fig.buttons = {};\n",
       "    var buttonGroup = document.createElement('div');\n",
       "    buttonGroup.classList = 'btn-group';\n",
       "    var button;\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",
       "            /* Instead of a spacer, we start a new button group. */\n",
       "            if (buttonGroup.hasChildNodes()) {\n",
       "                toolbar.appendChild(buttonGroup);\n",
       "            }\n",
       "            buttonGroup = document.createElement('div');\n",
       "            buttonGroup.classList = 'btn-group';\n",
       "            continue;\n",
       "        }\n",
       "\n",
       "        button = fig.buttons[name] = document.createElement('button');\n",
       "        button.classList = 'btn btn-default';\n",
       "        button.href = '#';\n",
       "        button.title = name;\n",
       "        button.innerHTML = '<i class=\"fa ' + image + ' fa-lg\"></i>';\n",
       "        button.addEventListener('click', on_click_closure(method_name));\n",
       "        button.addEventListener('mouseover', on_mouseover_closure(tooltip));\n",
       "        buttonGroup.appendChild(button);\n",
       "    }\n",
       "\n",
       "    if (buttonGroup.hasChildNodes()) {\n",
       "        toolbar.appendChild(buttonGroup);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = document.createElement('span');\n",
       "    status_bar.classList = 'mpl-message pull-right';\n",
       "    toolbar.appendChild(status_bar);\n",
       "    this.message = status_bar;\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = document.createElement('div');\n",
       "    buttongrp.classList = 'btn-group inline pull-right';\n",
       "    button = document.createElement('button');\n",
       "    button.classList = 'btn btn-mini btn-primary';\n",
       "    button.href = '#';\n",
       "    button.title = 'Stop Interaction';\n",
       "    button.innerHTML = '<i class=\"fa fa-power-off icon-remove icon-large\"></i>';\n",
       "    button.addEventListener('click', function (_evt) {\n",
       "        fig.handle_close(fig, {});\n",
       "    });\n",
       "    button.addEventListener(\n",
       "        'mouseover',\n",
       "        on_mouseover_closure('Stop Interaction')\n",
       "    );\n",
       "    buttongrp.appendChild(button);\n",
       "    var titlebar = this.root.querySelector('.ui-dialog-titlebar');\n",
       "    titlebar.insertBefore(buttongrp, titlebar.firstChild);\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._remove_fig_handler = function (event) {\n",
       "    var fig = event.data.fig;\n",
       "    if (event.target !== this) {\n",
       "        // Ignore bubbled events from children.\n",
       "        return;\n",
       "    }\n",
       "    fig.close_ws(fig, {});\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function (el) {\n",
       "    el.style.boxSizing = 'content-box'; // override notebook setting of border-box.\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function (el) {\n",
       "    // this is important to make the div 'focusable\n",
       "    el.setAttribute('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",
       "    } else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function (event, _name) {\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",
       "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(\n",
       "        'matplotlib',\n",
       "        mpl.mpl_figure_comm\n",
       "    );\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=\"978\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "if isinstance(angular_law, AngleTable):\n",
    "    plt.plot(angular_law.cosines(), angular_law.cdf(), linewidth=0.75)\n",
    "    plt.yscale('log')\n",
    "    plt.xlabel('Cosine of Scattering Angle')\n",
    "    plt.title('Elastic Scattering Angular CDF at %.1f MeV' %law_energy)\n",
    "    plt.show()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "By default, PapillonNDL will use the Sample Velocity of Target (SVT) method to sample elastic scattering. This approximation is also refered to as the Constant Cross Section (CXS) approximation. While used ubiquitously in Monte Carlo codes, it is known to give inaccurate results when used for large nucleids which have resonances at low energies. If desired, you can manally change the approximation, by giving the `Elastic` instance a new `ElasticDopplerBroadener`. The two possible broadeners are `ElasticSVT` (the default), or `ElasticDBRC`, which applied the Doppler Broadening Rejection Correction (DBRC). This method requires the 0 Kelvin elastic scattering cross section, so we will load that, and the apply DBRC to U235."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 20,
   "metadata": {},
   "outputs": [],
   "source": [
    "U235_0K = lib.load_STNeutron(\"U235\", 0.)\n",
    "elastic.set_elastic_doppler_broadener(ElasticDBRC(U235_0K.elastic_xs()))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Since the `Elastic` instance is returned by reference, chaning the Doppler Broadener in `Elastic` also changes it in the `U235` instance as well. We can verify this, as both have\n",
    "the same address in memory:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 21,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "<pyPapillonNDL.Elastic object at 0x7f36d6f85730>\n",
      "<pyPapillonNDL.Elastic object at 0x7f36d6f85730>\n"
     ]
    }
   ],
   "source": [
    "print(elastic)\n",
    "print(U235.elastic())"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Another approximation we can change is the use of the Target at Rest (TAR) approximation. By default, TAR is used for all nuclides when the incident energy $E_{in}$ is larger than $400kT$, where $k$ is the Boltzmann constant, and $T$ is the nuclide temperature. It is generally a good idea to use this approximation when $E_{in} > 400kT$, as it does not significantly change results, and speeds up calculations. Most codes however do not use TAR for Hydrogen-1, as it is lighter than a neutron, and using this approximation can lead to inaccurate energy transfers. You can turn off TAR with"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 22,
   "metadata": {},
   "outputs": [],
   "source": [
    "elastic.set_use_tar(False)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Fission Data and Delayed Families\n",
    "Data related to fission, such as the average number of neutrons emitted per fission, the number of delayed families, and the delayed family information are held in the `Fission` class."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 23,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Total   nu at 0.005 MeV = 2.422\n",
      "Prompt  nu at 0.005 MeV = 2.406\n",
      "Delayed nu at 0.005 MeV = 0.016\n"
     ]
    }
   ],
   "source": [
    "fission = U235.fission()\n",
    "nu_tot = fission.nu_total()\n",
    "nu_prmpt = fission.nu_prompt()\n",
    "nu_delyd = fission.nu_delayed()\n",
    "\n",
    "print(\"Total   nu at 0.005 MeV = %.3f\" %nu_tot(0.005))\n",
    "print(\"Prompt  nu at 0.005 MeV = %.3f\" %nu_prmpt(0.005))\n",
    "print(\"Delayed nu at 0.005 MeV = %.3f\" %nu_delyd(0.005))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 24,
   "metadata": {},
   "outputs": [
    {
     "data": {
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       "    canvas_div.setAttribute(\n",
       "        'style',\n",
       "        'border: 1px solid #ddd;' +\n",
       "            'box-sizing: content-box;' +\n",
       "            'clear: both;' +\n",
       "            'min-height: 1px;' +\n",
       "            'min-width: 1px;' +\n",
       "            'outline: 0;' +\n",
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       "        return function (event) {\n",
       "            return fig.key_event(event, name);\n",
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       "        'keydown',\n",
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       "    this.root.appendChild(canvas_div);\n",
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       "    canvas.setAttribute('style', 'box-sizing: content-box;');\n",
       "\n",
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       "\n",
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       "        this.context.webkitBackingStorePixelRatio ||\n",
       "        this.context.mozBackingStorePixelRatio ||\n",
       "        this.context.msBackingStorePixelRatio ||\n",
       "        this.context.oBackingStorePixelRatio ||\n",
       "        this.context.backingStorePixelRatio ||\n",
       "        1;\n",
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       "        'canvas'\n",
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       "\n",
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       "            rubberband_canvas.setAttribute('height', height);\n",
       "\n",
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       "    this.resizeObserverInstance.observe(canvas_div);\n",
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       "\n",
       "    this._resize_canvas = function (width, height, forward) {\n",
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       "            canvas_div.style.width = width + 'px';\n",
       "            canvas_div.style.height = height + 'px';\n",
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       "};\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function () {\n",
       "    var fig = this;\n",
       "\n",
       "    var toolbar = document.createElement('div');\n",
       "    toolbar.classList = 'mpl-toolbar';\n",
       "    this.root.appendChild(toolbar);\n",
       "\n",
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       "            return fig.toolbar_button_onclick(name);\n",
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       "    }\n",
       "\n",
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       "            if (!event.currentTarget.disabled) {\n",
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       "            }\n",
       "        };\n",
       "    }\n",
       "\n",
       "    fig.buttons = {};\n",
       "    var buttonGroup = document.createElement('div');\n",
       "    buttonGroup.classList = 'mpl-button-group';\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",
       "            /* Instead of a spacer, we start a new button group. */\n",
       "            if (buttonGroup.hasChildNodes()) {\n",
       "                toolbar.appendChild(buttonGroup);\n",
       "            }\n",
       "            buttonGroup = document.createElement('div');\n",
       "            buttonGroup.classList = 'mpl-button-group';\n",
       "            continue;\n",
       "        }\n",
       "\n",
       "        var button = (fig.buttons[name] = document.createElement('button'));\n",
       "        button.classList = 'mpl-widget';\n",
       "        button.setAttribute('role', 'button');\n",
       "        button.setAttribute('aria-disabled', 'false');\n",
       "        button.addEventListener('click', on_click_closure(method_name));\n",
       "        button.addEventListener('mouseover', on_mouseover_closure(tooltip));\n",
       "\n",
       "        var icon_img = document.createElement('img');\n",
       "        icon_img.src = '_images/' + image + '.png';\n",
       "        icon_img.srcset = '_images/' + image + '_large.png 2x';\n",
       "        icon_img.alt = tooltip;\n",
       "        button.appendChild(icon_img);\n",
       "\n",
       "        buttonGroup.appendChild(button);\n",
       "    }\n",
       "\n",
       "    if (buttonGroup.hasChildNodes()) {\n",
       "        toolbar.appendChild(buttonGroup);\n",
       "    }\n",
       "\n",
       "    var fmt_picker = document.createElement('select');\n",
       "    fmt_picker.classList = 'mpl-widget';\n",
       "    toolbar.appendChild(fmt_picker);\n",
       "    this.format_dropdown = fmt_picker;\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = document.createElement('option');\n",
       "        option.selected = fmt === mpl.default_extension;\n",
       "        option.innerHTML = fmt;\n",
       "        fmt_picker.appendChild(option);\n",
       "    }\n",
       "\n",
       "    var status_bar = document.createElement('span');\n",
       "    status_bar.classList = 'mpl-message';\n",
       "    toolbar.appendChild(status_bar);\n",
       "    this.message = status_bar;\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",
       "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",
       "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], msg['forward']);\n",
       "        fig.send_message('refresh', {});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function (fig, msg) {\n",
       "    var x0 = msg['x0'] / fig.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / fig.ratio;\n",
       "    var x1 = msg['x1'] / fig.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / fig.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,\n",
       "        0,\n",
       "        fig.canvas.width / fig.ratio,\n",
       "        fig.canvas.height / fig.ratio\n",
       "    );\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",
       "    fig.rubberband_canvas.style.cursor = msg['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.handle_history_buttons = function (fig, msg) {\n",
       "    for (var key in msg) {\n",
       "        if (!(key in fig.buttons)) {\n",
       "            continue;\n",
       "        }\n",
       "        fig.buttons[key].disabled = !msg[key];\n",
       "        fig.buttons[key].setAttribute('aria-disabled', !msg[key]);\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_navigate_mode = function (fig, msg) {\n",
       "    if (msg['mode'] === 'PAN') {\n",
       "        fig.buttons['Pan'].classList.add('active');\n",
       "        fig.buttons['Zoom'].classList.remove('active');\n",
       "    } else if (msg['mode'] === 'ZOOM') {\n",
       "        fig.buttons['Pan'].classList.remove('active');\n",
       "        fig.buttons['Zoom'].classList.add('active');\n",
       "    } else {\n",
       "        fig.buttons['Pan'].classList.remove('active');\n",
       "        fig.buttons['Zoom'].classList.remove('active');\n",
       "    }\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",
       "            var img = evt.data;\n",
       "            if (img.type !== 'image/png') {\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",
       "                img.type = 'image/png';\n",
       "            }\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",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                img\n",
       "            );\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        } else if (\n",
       "            typeof evt.data === 'string' &&\n",
       "            evt.data.slice(0, 21) === 'data:image/png;base64'\n",
       "        ) {\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(\n",
       "                \"No handler for the '\" + msg_type + \"' message type: \",\n",
       "                msg\n",
       "            );\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(\n",
       "                    \"Exception inside the 'handler_\" + msg_type + \"' callback:\",\n",
       "                    e,\n",
       "                    e.stack,\n",
       "                    msg\n",
       "                );\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "};\n",
       "\n",
       "// from https://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",
       "    }\n",
       "    if (e.target) {\n",
       "        targ = e.target;\n",
       "    } else if (e.srcElement) {\n",
       "        targ = e.srcElement;\n",
       "    }\n",
       "    if (targ.nodeType === 3) {\n",
       "        // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "    }\n",
       "\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    var boundingRect = targ.getBoundingClientRect();\n",
       "    var x = e.pageX - (boundingRect.left + document.body.scrollLeft);\n",
       "    var y = e.pageY - (boundingRect.top + document.body.scrollTop);\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",
       " * https://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",
       "        }\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",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x * this.ratio;\n",
       "    var y = canvas_pos.y * this.ratio;\n",
       "\n",
       "    this.send_message(name, {\n",
       "        x: x,\n",
       "        y: y,\n",
       "        button: event.button,\n",
       "        step: event.step,\n",
       "        guiEvent: simpleKeys(event),\n",
       "    });\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",
       "    // Prevent repeat events\n",
       "    if (name === 'key_press') {\n",
       "        if (event.key === this._key) {\n",
       "            return;\n",
       "        } else {\n",
       "            this._key = event.key;\n",
       "        }\n",
       "    }\n",
       "    if (name === 'key_release') {\n",
       "        this._key = null;\n",
       "    }\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.key !== 'Control') {\n",
       "        value += 'ctrl+';\n",
       "    }\n",
       "    else if (event.altKey && event.key !== 'Alt') {\n",
       "        value += 'alt+';\n",
       "    }\n",
       "    else if (event.shiftKey && event.key !== 'Shift') {\n",
       "        value += 'shift+';\n",
       "    }\n",
       "\n",
       "    value += 'k' + event.key;\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, { key: value, 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",
       "\n",
       "///////////////// REMAINING CONTENT GENERATED BY embed_js.py /////////////////\n",
       "// prettier-ignore\n",
       "var _JSXTOOLS_RESIZE_OBSERVER=function(A){var t,i=new WeakMap,n=new WeakMap,a=new WeakMap,r=new WeakMap,o=new Set;function s(e){if(!(this instanceof s))throw new TypeError(\"Constructor requires 'new' operator\");i.set(this,e)}function h(){throw new TypeError(\"Function is not a constructor\")}function c(e,t,i,n){e=0 in arguments?Number(arguments[0]):0,t=1 in arguments?Number(arguments[1]):0,i=2 in arguments?Number(arguments[2]):0,n=3 in arguments?Number(arguments[3]):0,this.right=(this.x=this.left=e)+(this.width=i),this.bottom=(this.y=this.top=t)+(this.height=n),Object.freeze(this)}function d(){t=requestAnimationFrame(d);var s=new WeakMap,p=new Set;o.forEach((function(t){r.get(t).forEach((function(i){var r=t instanceof window.SVGElement,o=a.get(t),d=r?0:parseFloat(o.paddingTop),f=r?0:parseFloat(o.paddingRight),l=r?0:parseFloat(o.paddingBottom),u=r?0:parseFloat(o.paddingLeft),g=r?0:parseFloat(o.borderTopWidth),m=r?0:parseFloat(o.borderRightWidth),w=r?0:parseFloat(o.borderBottomWidth),b=u+f,F=d+l,v=(r?0:parseFloat(o.borderLeftWidth))+m,W=g+w,y=r?0:t.offsetHeight-W-t.clientHeight,E=r?0:t.offsetWidth-v-t.clientWidth,R=b+v,z=F+W,M=r?t.width:parseFloat(o.width)-R-E,O=r?t.height:parseFloat(o.height)-z-y;if(n.has(t)){var k=n.get(t);if(k[0]===M&&k[1]===O)return}n.set(t,[M,O]);var S=Object.create(h.prototype);S.target=t,S.contentRect=new c(u,d,M,O),s.has(i)||(s.set(i,[]),p.add(i)),s.get(i).push(S)}))})),p.forEach((function(e){i.get(e).call(e,s.get(e),e)}))}return s.prototype.observe=function(i){if(i instanceof window.Element){r.has(i)||(r.set(i,new Set),o.add(i),a.set(i,window.getComputedStyle(i)));var n=r.get(i);n.has(this)||n.add(this),cancelAnimationFrame(t),t=requestAnimationFrame(d)}},s.prototype.unobserve=function(i){if(i instanceof window.Element&&r.has(i)){var n=r.get(i);n.has(this)&&(n.delete(this),n.size||(r.delete(i),o.delete(i))),n.size||r.delete(i),o.size||cancelAnimationFrame(t)}},A.DOMRectReadOnly=c,A.ResizeObserver=s,A.ResizeObserverEntry=h,A}; // eslint-disable-line\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\", \"Left button pans, Right button zooms\\nx/y fixes axis, CTRL fixes aspect\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\\nx/y fixes axis\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"jpeg\", \"pgf\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\", \"tif\"];\n",
       "\n",
       "mpl.default_extension = \"png\";/* global mpl */\n",
       "\n",
       "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.binaryType = comm.kernel.ws.binaryType;\n",
       "    ws.readyState = comm.kernel.ws.readyState;\n",
       "    function updateReadyState(_event) {\n",
       "        if (comm.kernel.ws) {\n",
       "            ws.readyState = comm.kernel.ws.readyState;\n",
       "        } else {\n",
       "            ws.readyState = 3; // Closed state.\n",
       "        }\n",
       "    }\n",
       "    comm.kernel.ws.addEventListener('open', updateReadyState);\n",
       "    comm.kernel.ws.addEventListener('close', updateReadyState);\n",
       "    comm.kernel.ws.addEventListener('error', updateReadyState);\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",
       "        var data = msg['content']['data'];\n",
       "        if (data['blob'] !== undefined) {\n",
       "            data = {\n",
       "                data: new Blob(msg['buffers'], { type: data['blob'] }),\n",
       "            };\n",
       "        }\n",
       "        // Pass the mpl event to the overridden (by mpl) onmessage function.\n",
       "        ws.onmessage(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 = document.getElementById(id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm);\n",
       "\n",
       "    function ondownload(figure, _format) {\n",
       "        window.open(figure.canvas.toDataURL());\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy, ondownload, element);\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;\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",
       "    fig.cell_info[0].output_area.element.on(\n",
       "        'cleared',\n",
       "        { fig: fig },\n",
       "        fig._remove_fig_handler\n",
       "    );\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function (fig, msg) {\n",
       "    var width = fig.canvas.width / fig.ratio;\n",
       "    fig.cell_info[0].output_area.element.off(\n",
       "        'cleared',\n",
       "        fig._remove_fig_handler\n",
       "    );\n",
       "    fig.resizeObserverInstance.unobserve(fig.canvas_div);\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.innerHTML =\n",
       "        '<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 / this.ratio;\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] =\n",
       "        '<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 () {\n",
       "        fig.push_to_output();\n",
       "    }, 1000);\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function () {\n",
       "    var fig = this;\n",
       "\n",
       "    var toolbar = document.createElement('div');\n",
       "    toolbar.classList = 'btn-toolbar';\n",
       "    this.root.appendChild(toolbar);\n",
       "\n",
       "    function on_click_closure(name) {\n",
       "        return function (_event) {\n",
       "            return fig.toolbar_button_onclick(name);\n",
       "        };\n",
       "    }\n",
       "\n",
       "    function on_mouseover_closure(tooltip) {\n",
       "        return function (event) {\n",
       "            if (!event.currentTarget.disabled) {\n",
       "                return fig.toolbar_button_onmouseover(tooltip);\n",
       "            }\n",
       "        };\n",
       "    }\n",
       "\n",
       "    fig.buttons = {};\n",
       "    var buttonGroup = document.createElement('div');\n",
       "    buttonGroup.classList = 'btn-group';\n",
       "    var button;\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",
       "            /* Instead of a spacer, we start a new button group. */\n",
       "            if (buttonGroup.hasChildNodes()) {\n",
       "                toolbar.appendChild(buttonGroup);\n",
       "            }\n",
       "            buttonGroup = document.createElement('div');\n",
       "            buttonGroup.classList = 'btn-group';\n",
       "            continue;\n",
       "        }\n",
       "\n",
       "        button = fig.buttons[name] = document.createElement('button');\n",
       "        button.classList = 'btn btn-default';\n",
       "        button.href = '#';\n",
       "        button.title = name;\n",
       "        button.innerHTML = '<i class=\"fa ' + image + ' fa-lg\"></i>';\n",
       "        button.addEventListener('click', on_click_closure(method_name));\n",
       "        button.addEventListener('mouseover', on_mouseover_closure(tooltip));\n",
       "        buttonGroup.appendChild(button);\n",
       "    }\n",
       "\n",
       "    if (buttonGroup.hasChildNodes()) {\n",
       "        toolbar.appendChild(buttonGroup);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = document.createElement('span');\n",
       "    status_bar.classList = 'mpl-message pull-right';\n",
       "    toolbar.appendChild(status_bar);\n",
       "    this.message = status_bar;\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = document.createElement('div');\n",
       "    buttongrp.classList = 'btn-group inline pull-right';\n",
       "    button = document.createElement('button');\n",
       "    button.classList = 'btn btn-mini btn-primary';\n",
       "    button.href = '#';\n",
       "    button.title = 'Stop Interaction';\n",
       "    button.innerHTML = '<i class=\"fa fa-power-off icon-remove icon-large\"></i>';\n",
       "    button.addEventListener('click', function (_evt) {\n",
       "        fig.handle_close(fig, {});\n",
       "    });\n",
       "    button.addEventListener(\n",
       "        'mouseover',\n",
       "        on_mouseover_closure('Stop Interaction')\n",
       "    );\n",
       "    buttongrp.appendChild(button);\n",
       "    var titlebar = this.root.querySelector('.ui-dialog-titlebar');\n",
       "    titlebar.insertBefore(buttongrp, titlebar.firstChild);\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._remove_fig_handler = function (event) {\n",
       "    var fig = event.data.fig;\n",
       "    if (event.target !== this) {\n",
       "        // Ignore bubbled events from children.\n",
       "        return;\n",
       "    }\n",
       "    fig.close_ws(fig, {});\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function (el) {\n",
       "    el.style.boxSizing = 'content-box'; // override notebook setting of border-box.\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function (el) {\n",
       "    // this is important to make the div 'focusable\n",
       "    el.setAttribute('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",
       "    } else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function (event, _name) {\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",
       "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(\n",
       "        'matplotlib',\n",
       "        mpl.mpl_figure_comm\n",
       "    );\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/html": [
       "<img src=\"data:image/png;base64,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\" width=\"978\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "if isinstance(nu_tot, Tabulated1D):\n",
    "    plt.plot(nu_tot.x(), nu_tot.y(), linewidth=0.75)\n",
    "    plt.xlabel('Incident Energy [MeV]')\n",
    "    plt.ylabel('Average Number of Neutrons per Fission')\n",
    "    plt.xscale('log')\n",
    "    plt.show()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "The promp spectrum can be easily sampled as well."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 25,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Prompt Fission Energy: 0.3256 MeV\n"
     ]
    }
   ],
   "source": [
    "prompt_ae = fission.prompt_spectrum().sample_angle_energy(0.0625E-6, rng)\n",
    "print(\"Prompt Fission Energy: %.4f MeV\" %prompt_ae.energy)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "A `DelayedFamily` contains the decay constant for precursors, and the probability that a precursor is born into that delayed family for a given incident neutron energy. This is also where you will find the energy distributions for delayed neutrons. Delayed neutrons are always isotropic, and therefore, only the energy is sampled, and not the angle."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 26,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "U235 has 6 delayed neutron families.\n"
     ]
    }
   ],
   "source": [
    "print(\"U235 has %i delayed neutron families.\" %fission.n_delayed_families())"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 27,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Probability of being in group 1: 0.18070\n",
      "Decay Constant for group 1: 0.03274 [1/s]\n",
      "Sampled delayed neutron energy: 0.41347 MeV\n"
     ]
    }
   ],
   "source": [
    "E = 1.E-8\n",
    "df1 = fission.delayed_family(1)\n",
    "print(\"Probability of being in group 1: %.5f\" %df1.probability()(E))\n",
    "print(\"Decay Constant for group 1: %.5f [1/s]\" %df1.decay_constant())\n",
    "print(\"Sampled delayed neutron energy: %.5f MeV\" %df1.sample_energy(E, rng))"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Unresolved Resonance Region Probability Tables\n",
    "\n",
    "At high energies, it becomes impossible to determine resonanace parameters. This region is called the Unresolved Resonance Region (URR). To correctly treat this portion of the energy spectrum, probability tables can be used. This information is stored in the `URRPTables` class. If the result of `URRPTables.is_valid()` is True, then URR data is provided, and can be used in transport."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 28,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "True"
      ]
     },
     "execution_count": 28,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "urrptables = U235.urr_ptables()\n",
    "urrptables.is_valid()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "We can check the energy range of the URR with the following methods:"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 29,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "URR Min Energy: 0.00225 MeV\n",
      "URR Max Energy: 0.02500 MeV\n"
     ]
    }
   ],
   "source": [
    "print(\"URR Min Energy: %.5f MeV\" %urrptables.min_energy())\n",
    "print(\"URR Max Energy: %.5f MeV\" %urrptables.max_energy())"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "For a given energy and nuclide, a random number $\\xi \\in [0,1)$ must be sampled. This same random value must be used for the given nuclide, no matter the temperature, until the neutron has undergone a collision."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 30,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "Total XS = 15.926382285095999\n",
      "Elastic XS = 11.874071171199999\n",
      "Inelastic XS = 1.729501e-05\n",
      "Absorption XS = 4.052293818886\n",
      "Fission XS = 2.969815052686\n"
     ]
    }
   ],
   "source": [
    "xi = rng()\n",
    "urr_xs = urrptables.evaluate_xs(0.01, xi)\n",
    "print(\"Total XS =\", urr_xs.total)\n",
    "print(\"Elastic XS =\", urr_xs.elastic)\n",
    "print(\"Inelastic XS =\", urr_xs.inelastic)\n",
    "print(\"Absorption XS =\", urr_xs.absorption)\n",
    "print(\"Fission XS =\", urr_xs.fission)"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Conclusions\n",
    "Here, only a small taste of the PapillonNDL Python binds have been demonstrated. If you are interested in learning more, I encourage you to look at the Library API documentation. This is generated from the C++ header files, but all of the class names and methods are the same (with the exception of the C++ `STReaction` method `yield` which is called `multiplicity` in Python, as yield is a keyword in the language). It will provide more information about all of the options available for each distribution type, and how to access it."
   ]
  }
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