{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## Filter compensation with the ripasso module\n",
    "\n",
    "The broadbean module gets a helping hand from the ripasso module when it needs to compensate for transfer functions of transmission lines.\n",
    "\n",
    "The ripasso module lets us apply filters and their inverses to signals.\n",
    "\n",
    "The module has two built-in types of filter, namely an RC-circuit high-pass and an RC-circuit low-pass. The transfer functions are\n",
    "\n",
    "$$\n",
    "H_n(f)=\\left(\\frac{2\\pi f\\mathrm{i}\\tau}{1+2\\pi f\\mathrm{i}\\tau }\\right)^{n},\n",
    "$$\n",
    "for the nth order high-pass and\n",
    "$$\n",
    "L_n(f)=\\left(\\frac{1}{1+2\\pi f\\mathrm{i}\\tau }\\right)^{n},\n",
    "$$\n",
    "for the nth order low-pass. The parameter $\\tau$ is one over the cut-off frequency.\n",
    "\n",
    "The inversion (filter compensation) is performed by mulitplying with the inverse transfer function in frequency space and transforming back to the time domain, e.g. for a given signal $s(t)$ and a high-pass filter of order n,\n",
    "\n",
    "$$\n",
    "    s_\\text{filtered}(t) = \\mathcal{F}^{-1}[\\mathcal{F}[s](f)\\cdot H_n(f)](t)\n",
    "$$\n",
    "and\n",
    "$$\n",
    "    s_\\text{compensated}(t) = \\mathcal{F}^{-1}[\\mathcal{F}[s](f)\\cdot H_{-n}(f)](t).\n",
    "$$\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {},
   "outputs": [],
   "source": [
    "%matplotlib notebook\n",
    "import matplotlib.pyplot as plt\n",
    "import numpy as np\n",
    "\n",
    "from broadbean.ripasso import (\n",
    "    applyCustomTransferFunction,\n",
    "    applyInverseRCFilter,\n",
    "    applyRCFilter,\n",
    ")"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "def squarewave(npts, periods=5):\n",
    "    periods = int(periods)\n",
    "    array = np.zeros(npts)\n",
    "\n",
    "    for n in range(periods):\n",
    "        array[int(n * npts / periods) : int((2 * n + 1) * npts / 2 / periods)] = 1\n",
    "\n",
    "    return array"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## RC Filters"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Let's make some signals!\n",
    "\n",
    "SR = int(10e3)\n",
    "npts = int(10e3)\n",
    "\n",
    "f_cut = 12  # filter cut-off frequency (Hz)\n",
    "\n",
    "time = np.linspace(0, npts / SR, npts)\n",
    "T = time[-1]\n",
    "\n",
    "signal1 = np.sin(2 * np.pi * 5 / T * time) + 0.7 * np.cos(2 * np.pi * 1 / T * time)\n",
    "signal2 = squarewave(npts, periods=4)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 4,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Then we may high-pass them or low-pass them\n",
    "\n",
    "filtertype = \"HP\"\n",
    "# filtertype = 'LP'\n",
    "\n",
    "signal1_filt = applyRCFilter(signal1, SR, filtertype, f_cut, order=1)\n",
    "signal2_filt = applyRCFilter(signal2, SR, filtertype, f_cut, order=1)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 5,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\n",
       "\n",
       "mpl.get_websocket_type = function() {\n",
       "    if (typeof(WebSocket) !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof(MozWebSocket) !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert('Your browser does not have WebSocket support.' +\n",
       "              'Please try Chrome, Safari or Firefox ≥ 6. ' +\n",
       "              'Firefox 4 and 5 are also supported but you ' +\n",
       "              'have to enable WebSockets in about:config.');\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure = function(figure_id, websocket, ondownload, parent_element) {\n",
       "    this.id = figure_id;\n",
       "\n",
       "    this.ws = websocket;\n",
       "\n",
       "    this.supports_binary = (this.ws.binaryType != undefined);\n",
       "\n",
       "    if (!this.supports_binary) {\n",
       "        var warnings = document.getElementById(\"mpl-warnings\");\n",
       "        if (warnings) {\n",
       "            warnings.style.display = 'block';\n",
       "            warnings.textContent = (\n",
       "                \"This browser does not support binary websocket messages. \" +\n",
       "                    \"Performance may be slow.\");\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.imageObj = new Image();\n",
       "\n",
       "    this.context = undefined;\n",
       "    this.message = undefined;\n",
       "    this.canvas = undefined;\n",
       "    this.rubberband_canvas = undefined;\n",
       "    this.rubberband_context = undefined;\n",
       "    this.format_dropdown = undefined;\n",
       "\n",
       "    this.image_mode = 'full';\n",
       "\n",
       "    this.root = $('<div/>');\n",
       "    this._root_extra_style(this.root)\n",
       "    this.root.attr('style', 'display: inline-block');\n",
       "\n",
       "    $(parent_element).append(this.root);\n",
       "\n",
       "    this._init_header(this);\n",
       "    this._init_canvas(this);\n",
       "    this._init_toolbar(this);\n",
       "\n",
       "    var fig = this;\n",
       "\n",
       "    this.waiting = false;\n",
       "\n",
       "    this.ws.onopen =  function () {\n",
       "            fig.send_message(\"supports_binary\", {value: fig.supports_binary});\n",
       "            fig.send_message(\"send_image_mode\", {});\n",
       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
       "            }\n",
       "            fig.send_message(\"refresh\", {});\n",
       "        }\n",
       "\n",
       "    this.imageObj.onload = function() {\n",
       "            if (fig.image_mode == 'full') {\n",
       "                // Full images could contain transparency (where diff images\n",
       "                // almost always do), so we need to clear the canvas so that\n",
       "                // there is no ghosting.\n",
       "                fig.context.clearRect(0, 0, fig.canvas.width, fig.canvas.height);\n",
       "            }\n",
       "            fig.context.drawImage(fig.imageObj, 0, 0);\n",
       "        };\n",
       "\n",
       "    this.imageObj.onunload = function() {\n",
       "        this.ws.close();\n",
       "    }\n",
       "\n",
       "    this.ws.onmessage = this._make_on_message_function(this);\n",
       "\n",
       "    this.ondownload = ondownload;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_header = function() {\n",
       "    var titlebar = $(\n",
       "        '<div class=\"ui-dialog-titlebar ui-widget-header ui-corner-all ' +\n",
       "        'ui-helper-clearfix\"/>');\n",
       "    var titletext = $(\n",
       "        '<div class=\"ui-dialog-title\" style=\"width: 100%; ' +\n",
       "        'text-align: center; padding: 3px;\"/>');\n",
       "    titlebar.append(titletext)\n",
       "    this.root.append(titlebar);\n",
       "    this.header = titletext[0];\n",
       "}\n",
       "\n",
       "\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = $('<div/>');\n",
       "\n",
       "    canvas_div.attr('style', 'position: relative; clear: both; outline: 0');\n",
       "\n",
       "    function canvas_keyboard_event(event) {\n",
       "        return fig.key_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    canvas_div.keydown('key_press', canvas_keyboard_event);\n",
       "    canvas_div.keyup('key_release', canvas_keyboard_event);\n",
       "    this.canvas_div = canvas_div\n",
       "    this._canvas_extra_style(canvas_div)\n",
       "    this.root.append(canvas_div);\n",
       "\n",
       "    var canvas = $('<canvas/>');\n",
       "    canvas.addClass('mpl-canvas');\n",
       "    canvas.attr('style', \"left: 0; top: 0; z-index: 0; outline: 0\")\n",
       "\n",
       "    this.canvas = canvas[0];\n",
       "    this.context = canvas[0].getContext(\"2d\");\n",
       "\n",
       "    var backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\n",
       "\n",
       "    var rubberband = $('<canvas/>');\n",
       "    rubberband.attr('style', \"position: absolute; left: 0; top: 0; z-index: 1;\")\n",
       "\n",
       "    var pass_mouse_events = true;\n",
       "\n",
       "    canvas_div.resizable({\n",
       "        start: function(event, ui) {\n",
       "            pass_mouse_events = false;\n",
       "        },\n",
       "        resize: function(event, ui) {\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "        stop: function(event, ui) {\n",
       "            pass_mouse_events = true;\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "    });\n",
       "\n",
       "    function mouse_event_fn(event) {\n",
       "        if (pass_mouse_events)\n",
       "            return fig.mouse_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    rubberband.mousedown('button_press', mouse_event_fn);\n",
       "    rubberband.mouseup('button_release', mouse_event_fn);\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband.mousemove('motion_notify', mouse_event_fn);\n",
       "\n",
       "    rubberband.mouseenter('figure_enter', mouse_event_fn);\n",
       "    rubberband.mouseleave('figure_leave', mouse_event_fn);\n",
       "\n",
       "    canvas_div.on(\"wheel\", function (event) {\n",
       "        event = event.originalEvent;\n",
       "        event['data'] = 'scroll'\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        mouse_event_fn(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.append(canvas);\n",
       "    canvas_div.append(rubberband);\n",
       "\n",
       "    this.rubberband = rubberband;\n",
       "    this.rubberband_canvas = rubberband[0];\n",
       "    this.rubberband_context = rubberband[0].getContext(\"2d\");\n",
       "    this.rubberband_context.strokeStyle = \"#000000\";\n",
       "\n",
       "    this._resize_canvas = function(width, height) {\n",
       "        // Keep the size of the canvas, canvas container, and rubber band\n",
       "        // canvas in synch.\n",
       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\n",
       "\n",
       "        rubberband.attr('width', width);\n",
       "        rubberband.attr('height', height);\n",
       "    }\n",
       "\n",
       "    // Set the figure to an initial 600x600px, this will subsequently be updated\n",
       "    // upon first draw.\n",
       "    this._resize_canvas(600, 600);\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    $(this.rubberband_canvas).bind(\"contextmenu\",function(e){\n",
       "        return false;\n",
       "    });\n",
       "\n",
       "    function set_focus () {\n",
       "        canvas.focus();\n",
       "        canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    window.setTimeout(set_focus, 100);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items) {\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) {\n",
       "            // put a spacer in here.\n",
       "            continue;\n",
       "        }\n",
       "        var button = $('<button/>');\n",
       "        button.addClass('ui-button ui-widget ui-state-default ui-corner-all ' +\n",
       "                        'ui-button-icon-only');\n",
       "        button.attr('role', 'button');\n",
       "        button.attr('aria-disabled', 'false');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "\n",
       "        var icon_img = $('<span/>');\n",
       "        icon_img.addClass('ui-button-icon-primary ui-icon');\n",
       "        icon_img.addClass(image);\n",
       "        icon_img.addClass('ui-corner-all');\n",
       "\n",
       "        var tooltip_span = $('<span/>');\n",
       "        tooltip_span.addClass('ui-button-text');\n",
       "        tooltip_span.html(tooltip);\n",
       "\n",
       "        button.append(icon_img);\n",
       "        button.append(tooltip_span);\n",
       "\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    var fmt_picker_span = $('<span/>');\n",
       "\n",
       "    var fmt_picker = $('<select/>');\n",
       "    fmt_picker.addClass('mpl-toolbar-option ui-widget ui-widget-content');\n",
       "    fmt_picker_span.append(fmt_picker);\n",
       "    nav_element.append(fmt_picker_span);\n",
       "    this.format_dropdown = fmt_picker[0];\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = $(\n",
       "            '<option/>', {selected: fmt === mpl.default_extension}).html(fmt);\n",
       "        fmt_picker.append(option)\n",
       "    }\n",
       "\n",
       "    // Add hover states to the ui-buttons\n",
       "    $( \".ui-button\" ).hover(\n",
       "        function() { $(this).addClass(\"ui-state-hover\");},\n",
       "        function() { $(this).removeClass(\"ui-state-hover\");}\n",
       "    );\n",
       "\n",
       "    var status_bar = $('<span class=\"mpl-message\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.request_resize = function(x_pixels, y_pixels) {\n",
       "    // Request matplotlib to resize the figure. Matplotlib will then trigger a resize in the client,\n",
       "    // which will in turn request a refresh of the image.\n",
       "    this.send_message('resize', {'width': x_pixels, 'height': y_pixels});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_message = function(type, properties) {\n",
       "    properties['type'] = type;\n",
       "    properties['figure_id'] = this.id;\n",
       "    this.ws.send(JSON.stringify(properties));\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_draw_message = function() {\n",
       "    if (!this.waiting) {\n",
       "        this.waiting = true;\n",
       "        this.ws.send(JSON.stringify({type: \"draw\", figure_id: this.id}));\n",
       "    }\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    var format_dropdown = fig.format_dropdown;\n",
       "    var format = format_dropdown.options[format_dropdown.selectedIndex].value;\n",
       "    fig.ondownload(fig, format);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_resize = function(fig, msg) {\n",
       "    var size = msg['size'];\n",
       "    if (size[0] != fig.canvas.width || size[1] != fig.canvas.height) {\n",
       "        fig._resize_canvas(size[0], size[1]);\n",
       "        fig.send_message(\"refresh\", {});\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function(fig, msg) {\n",
       "    var x0 = msg['x0'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\n",
       "    x0 = Math.floor(x0) + 0.5;\n",
       "    y0 = Math.floor(y0) + 0.5;\n",
       "    x1 = Math.floor(x1) + 0.5;\n",
       "    y1 = Math.floor(y1) + 0.5;\n",
       "    var min_x = Math.min(x0, x1);\n",
       "    var min_y = Math.min(y0, y1);\n",
       "    var width = Math.abs(x1 - x0);\n",
       "    var height = Math.abs(y1 - y0);\n",
       "\n",
       "    fig.rubberband_context.clearRect(\n",
       "        0, 0, fig.canvas.width, fig.canvas.height);\n",
       "\n",
       "    fig.rubberband_context.strokeRect(min_x, min_y, width, height);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_figure_label = function(fig, msg) {\n",
       "    // Updates the figure title.\n",
       "    fig.header.textContent = msg['label'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_cursor = function(fig, msg) {\n",
       "    var cursor = msg['cursor'];\n",
       "    switch(cursor)\n",
       "    {\n",
       "    case 0:\n",
       "        cursor = 'pointer';\n",
       "        break;\n",
       "    case 1:\n",
       "        cursor = 'default';\n",
       "        break;\n",
       "    case 2:\n",
       "        cursor = 'crosshair';\n",
       "        break;\n",
       "    case 3:\n",
       "        cursor = 'move';\n",
       "        break;\n",
       "    }\n",
       "    fig.rubberband_canvas.style.cursor = cursor;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_message = function(fig, msg) {\n",
       "    fig.message.textContent = msg['message'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_draw = function(fig, msg) {\n",
       "    // Request the server to send over a new figure.\n",
       "    fig.send_draw_message();\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_image_mode = function(fig, msg) {\n",
       "    fig.image_mode = msg['mode'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Called whenever the canvas gets updated.\n",
       "    this.send_message(\"ack\", {});\n",
       "}\n",
       "\n",
       "// A function to construct a web socket function for onmessage handling.\n",
       "// Called in the figure constructor.\n",
       "mpl.figure.prototype._make_on_message_function = function(fig) {\n",
       "    return function socket_on_message(evt) {\n",
       "        if (evt.data instanceof Blob) {\n",
       "            /* FIXME: We get \"Resource interpreted as Image but\n",
       "             * transferred with MIME type text/plain:\" errors on\n",
       "             * Chrome.  But how to set the MIME type?  It doesn't seem\n",
       "             * to be part of the websocket stream */\n",
       "            evt.data.type = \"image/png\";\n",
       "\n",
       "            /* Free the memory for the previous frames */\n",
       "            if (fig.imageObj.src) {\n",
       "                (window.URL || window.webkitURL).revokeObjectURL(\n",
       "                    fig.imageObj.src);\n",
       "            }\n",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                evt.data);\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "        else if (typeof evt.data === 'string' && evt.data.slice(0, 21) == \"data:image/png;base64\") {\n",
       "            fig.imageObj.src = evt.data;\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        var msg = JSON.parse(evt.data);\n",
       "        var msg_type = msg['type'];\n",
       "\n",
       "        // Call the  \"handle_{type}\" callback, which takes\n",
       "        // the figure and JSON message as its only arguments.\n",
       "        try {\n",
       "            var callback = fig[\"handle_\" + msg_type];\n",
       "        } catch (e) {\n",
       "            console.log(\"No handler for the '\" + msg_type + \"' message type: \", msg);\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        if (callback) {\n",
       "            try {\n",
       "                // console.log(\"Handling '\" + msg_type + \"' message: \", msg);\n",
       "                callback(fig, msg);\n",
       "            } catch (e) {\n",
       "                console.log(\"Exception inside the 'handler_\" + msg_type + \"' callback:\", e, e.stack, msg);\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "}\n",
       "\n",
       "// from http://stackoverflow.com/questions/1114465/getting-mouse-location-in-canvas\n",
       "mpl.findpos = function(e) {\n",
       "    //this section is from http://www.quirksmode.org/js/events_properties.html\n",
       "    var targ;\n",
       "    if (!e)\n",
       "        e = window.event;\n",
       "    if (e.target)\n",
       "        targ = e.target;\n",
       "    else if (e.srcElement)\n",
       "        targ = e.srcElement;\n",
       "    if (targ.nodeType == 3) // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "\n",
       "    // jQuery normalizes the pageX and pageY\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    // offset() returns the position of the element relative to the document\n",
       "    var x = e.pageX - $(targ).offset().left;\n",
       "    var y = e.pageY - $(targ).offset().top;\n",
       "\n",
       "    return {\"x\": x, \"y\": y};\n",
       "};\n",
       "\n",
       "/*\n",
       " * return a copy of an object with only non-object keys\n",
       " * we need this to avoid circular references\n",
       " * http://stackoverflow.com/a/24161582/3208463\n",
       " */\n",
       "function simpleKeys (original) {\n",
       "  return Object.keys(original).reduce(function (obj, key) {\n",
       "    if (typeof original[key] !== 'object')\n",
       "        obj[key] = original[key]\n",
       "    return obj;\n",
       "  }, {});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.mouse_event = function(event, name) {\n",
       "    var canvas_pos = mpl.findpos(event)\n",
       "\n",
       "    if (name === 'button_press')\n",
       "    {\n",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x * mpl.ratio;\n",
       "    var y = canvas_pos.y * mpl.ratio;\n",
       "\n",
       "    this.send_message(name, {x: x, y: y, button: event.button,\n",
       "                             step: event.step,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "\n",
       "    /* This prevents the web browser from automatically changing to\n",
       "     * the text insertion cursor when the button is pressed.  We want\n",
       "     * to control all of the cursor setting manually through the\n",
       "     * 'cursor' event from matplotlib */\n",
       "    event.preventDefault();\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    // Handle any extra behaviour associated with a key event\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.key_event = function(event, name) {\n",
       "\n",
       "    // Prevent repeat events\n",
       "    if (name == 'key_press')\n",
       "    {\n",
       "        if (event.which === this._key)\n",
       "            return;\n",
       "        else\n",
       "            this._key = event.which;\n",
       "    }\n",
       "    if (name == 'key_release')\n",
       "        this._key = null;\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.which != 17)\n",
       "        value += \"ctrl+\";\n",
       "    if (event.altKey && event.which != 18)\n",
       "        value += \"alt+\";\n",
       "    if (event.shiftKey && event.which != 16)\n",
       "        value += \"shift+\";\n",
       "\n",
       "    value += 'k';\n",
       "    value += event.which.toString();\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, {key: value,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onclick = function(name) {\n",
       "    if (name == 'download') {\n",
       "        this.handle_save(this, null);\n",
       "    } else {\n",
       "        this.send_message(\"toolbar_button\", {name: name});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onmouseover = function(tooltip) {\n",
       "    this.message.textContent = tooltip;\n",
       "};\n",
       "mpl.toolbar_items = [[\"Home\", \"Reset original view\", \"fa fa-home icon-home\", \"home\"], [\"Back\", \"Back to  previous view\", \"fa fa-arrow-left icon-arrow-left\", \"back\"], [\"Forward\", \"Forward to next view\", \"fa fa-arrow-right icon-arrow-right\", \"forward\"], [\"\", \"\", \"\", \"\"], [\"Pan\", \"Pan axes with left mouse, zoom with right\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the overriden (by mpl) onmessage function.\n",
       "        ws.onmessage(msg['content']['data'])\n",
       "    });\n",
       "    return ws;\n",
       "}\n",
       "\n",
       "mpl.mpl_figure_comm = function(comm, msg) {\n",
       "    // This is the function which gets called when the mpl process\n",
       "    // starts-up an IPython Comm through the \"matplotlib\" channel.\n",
       "\n",
       "    var id = msg.content.data.id;\n",
       "    // Get hold of the div created by the display call when the Comm\n",
       "    // socket was opened in Python.\n",
       "    var element = $(\"#\" + id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm)\n",
       "\n",
       "    function ondownload(figure, format) {\n",
       "        window.open(figure.imageObj.src);\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy,\n",
       "                           ondownload,\n",
       "                           element.get(0));\n",
       "\n",
       "    // Call onopen now - mpl needs it, as it is assuming we've passed it a real\n",
       "    // web socket which is closed, not our websocket->open comm proxy.\n",
       "    ws_proxy.onopen();\n",
       "\n",
       "    fig.parent_element = element.get(0);\n",
       "    fig.cell_info = mpl.find_output_cell(\"<div id='\" + id + \"'></div>\");\n",
       "    if (!fig.cell_info) {\n",
       "        console.error(\"Failed to find cell for figure\", id, fig);\n",
       "        return;\n",
       "    }\n",
       "\n",
       "    var output_index = fig.cell_info[2]\n",
       "    var cell = fig.cell_info[0];\n",
       "\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function(fig, msg) {\n",
       "    var width = fig.canvas.width/mpl.ratio\n",
       "    fig.root.unbind('remove')\n",
       "\n",
       "    // Update the output cell to use the data from the current canvas.\n",
       "    fig.push_to_output();\n",
       "    var dataURL = fig.canvas.toDataURL();\n",
       "    // Re-enable the keyboard manager in IPython - without this line, in FF,\n",
       "    // the notebook keyboard shortcuts fail.\n",
       "    IPython.keyboard_manager.enable()\n",
       "    $(fig.parent_element).html('<img src=\"' + dataURL + '\" width=\"' + width + '\">');\n",
       "    fig.close_ws(fig, msg);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.close_ws = function(fig, msg){\n",
       "    fig.send_message('closing', msg);\n",
       "    // fig.ws.close()\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.push_to_output = function(remove_interactive) {\n",
       "    // Turn the data on the canvas into data in the output cell.\n",
       "    var width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Tell IPython that the notebook contents must change.\n",
       "    IPython.notebook.set_dirty(true);\n",
       "    this.send_message(\"ack\", {});\n",
       "    var fig = this;\n",
       "    // Wait a second, then push the new image to the DOM so\n",
       "    // that it is saved nicely (might be nice to debounce this).\n",
       "    setTimeout(function () { fig.push_to_output() }, 1000);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items){\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) { continue; };\n",
       "\n",
       "        var button = $('<button class=\"btn btn-default\" href=\"#\" title=\"' + name + '\"><i class=\"fa ' + image + ' fa-lg\"></i></button>');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = $('<span class=\"mpl-message\" style=\"text-align:right; float: right;\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = $('<div class=\"btn-group inline pull-right\"></div>');\n",
       "    var button = $('<button class=\"btn btn-mini btn-primary\" href=\"#\" title=\"Stop Interaction\"><i class=\"fa fa-power-off icon-remove icon-large\"></i></button>');\n",
       "    button.click(function (evt) { fig.handle_close(fig, {}); } );\n",
       "    button.mouseover('Stop Interaction', toolbar_mouse_event);\n",
       "    buttongrp.append(button);\n",
       "    var titlebar = this.root.find($('.ui-dialog-titlebar'));\n",
       "    titlebar.prepend(buttongrp);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(el){\n",
       "    var fig = this\n",
       "    el.on(\"remove\", function(){\n",
       "\tfig.close_ws(fig, {});\n",
       "    });\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(el){\n",
       "    // this is important to make the div 'focusable\n",
       "    el.attr('tabindex', 0)\n",
       "    // reach out to IPython and tell the keyboard manager to turn it's self\n",
       "    // off when our div gets focus\n",
       "\n",
       "    // location in version 3\n",
       "    if (IPython.notebook.keyboard_manager) {\n",
       "        IPython.notebook.keyboard_manager.register_events(el);\n",
       "    }\n",
       "    else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    var manager = IPython.notebook.keyboard_manager;\n",
       "    if (!manager)\n",
       "        manager = IPython.keyboard_manager;\n",
       "\n",
       "    // Check for shift+enter\n",
       "    if (event.shiftKey && event.which == 13) {\n",
       "        this.canvas_div.blur();\n",
       "        // select the cell after this one\n",
       "        var index = IPython.notebook.find_cell_index(this.cell_info[0]);\n",
       "        IPython.notebook.select(index + 1);\n",
       "    }\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    fig.ondownload(fig, null);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.find_output_cell = function(html_output) {\n",
       "    // Return the cell and output element which can be found *uniquely* in the notebook.\n",
       "    // Note - this is a bit hacky, but it is done because the \"notebook_saving.Notebook\"\n",
       "    // IPython event is triggered only after the cells have been serialised, which for\n",
       "    // our purposes (turning an active figure into a static one), is too late.\n",
       "    var cells = IPython.notebook.get_cells();\n",
       "    var ncells = cells.length;\n",
       "    for (var i=0; i<ncells; i++) {\n",
       "        var cell = cells[i];\n",
       "        if (cell.cell_type === 'code'){\n",
       "            for (var j=0; j<cell.output_area.outputs.length; j++) {\n",
       "                var data = cell.output_area.outputs[j];\n",
       "                if (data.data) {\n",
       "                    // IPython >= 3 moved mimebundle to data attribute of output\n",
       "                    data = data.data;\n",
       "                }\n",
       "                if (data['text/html'] == html_output) {\n",
       "                    return [cell, data, j];\n",
       "                }\n",
       "            }\n",
       "        }\n",
       "    }\n",
       "}\n",
       "\n",
       "// Register the function which deals with the matplotlib target/channel.\n",
       "// The kernel may be null if the page has been refreshed.\n",
       "if (IPython.notebook.kernel != null) {\n",
       "    IPython.notebook.kernel.comm_manager.register_target('matplotlib', mpl.mpl_figure_comm);\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
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\" width=\"639.8499802953507\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "# And inspect the result\n",
    "\n",
    "fig, axs = plt.subplots(2, 1)\n",
    "axs[0].plot(time, signal1, label=\"Input signal\")\n",
    "axs[0].plot(time, signal1_filt, label=\"Filtered\")\n",
    "axs[0].set_xlabel(\"Time (s)\")\n",
    "axs[0].set_ylabel(\"Signal (a.u.)\")\n",
    "axs[0].legend()\n",
    "\n",
    "axs[1].plot(time, signal2, label=\"Input signal\")\n",
    "axs[1].plot(time, signal2_filt, label=\"Filtered\")\n",
    "axs[1].set_xlabel(\"Time (s)\")\n",
    "axs[1].set_ylabel(\"Signal (a.u.)\")\n",
    "axs[1].legend()\n",
    "\n",
    "plt.tight_layout()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": [
    "# Similarly, we may pre-compensate for the filters\n",
    "\n",
    "# Note that we specify a DC gain for the inverse filters. This is because it is not possible\n",
    "# to compensate for the true DC gain of zero of an RC high pass. Instead, we specify the\n",
    "# gain of the high-pass filter at DC. The compensated signal will have a mean value of 1/DCgain\n",
    "# times the mean of the input signal\n",
    "\n",
    "\n",
    "signal1_comp = applyInverseRCFilter(signal1, SR, filtertype, f_cut, order=1, DCgain=1)\n",
    "signal2_comp = applyInverseRCFilter(signal2, SR, filtertype, f_cut, order=1, DCgain=1)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\n",
       "\n",
       "mpl.get_websocket_type = function() {\n",
       "    if (typeof(WebSocket) !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof(MozWebSocket) !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert('Your browser does not have WebSocket support.' +\n",
       "              'Please try Chrome, Safari or Firefox ≥ 6. ' +\n",
       "              'Firefox 4 and 5 are also supported but you ' +\n",
       "              'have to enable WebSockets in about:config.');\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure = function(figure_id, websocket, ondownload, parent_element) {\n",
       "    this.id = figure_id;\n",
       "\n",
       "    this.ws = websocket;\n",
       "\n",
       "    this.supports_binary = (this.ws.binaryType != undefined);\n",
       "\n",
       "    if (!this.supports_binary) {\n",
       "        var warnings = document.getElementById(\"mpl-warnings\");\n",
       "        if (warnings) {\n",
       "            warnings.style.display = 'block';\n",
       "            warnings.textContent = (\n",
       "                \"This browser does not support binary websocket messages. \" +\n",
       "                    \"Performance may be slow.\");\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.imageObj = new Image();\n",
       "\n",
       "    this.context = undefined;\n",
       "    this.message = undefined;\n",
       "    this.canvas = undefined;\n",
       "    this.rubberband_canvas = undefined;\n",
       "    this.rubberband_context = undefined;\n",
       "    this.format_dropdown = undefined;\n",
       "\n",
       "    this.image_mode = 'full';\n",
       "\n",
       "    this.root = $('<div/>');\n",
       "    this._root_extra_style(this.root)\n",
       "    this.root.attr('style', 'display: inline-block');\n",
       "\n",
       "    $(parent_element).append(this.root);\n",
       "\n",
       "    this._init_header(this);\n",
       "    this._init_canvas(this);\n",
       "    this._init_toolbar(this);\n",
       "\n",
       "    var fig = this;\n",
       "\n",
       "    this.waiting = false;\n",
       "\n",
       "    this.ws.onopen =  function () {\n",
       "            fig.send_message(\"supports_binary\", {value: fig.supports_binary});\n",
       "            fig.send_message(\"send_image_mode\", {});\n",
       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
       "            }\n",
       "            fig.send_message(\"refresh\", {});\n",
       "        }\n",
       "\n",
       "    this.imageObj.onload = function() {\n",
       "            if (fig.image_mode == 'full') {\n",
       "                // Full images could contain transparency (where diff images\n",
       "                // almost always do), so we need to clear the canvas so that\n",
       "                // there is no ghosting.\n",
       "                fig.context.clearRect(0, 0, fig.canvas.width, fig.canvas.height);\n",
       "            }\n",
       "            fig.context.drawImage(fig.imageObj, 0, 0);\n",
       "        };\n",
       "\n",
       "    this.imageObj.onunload = function() {\n",
       "        this.ws.close();\n",
       "    }\n",
       "\n",
       "    this.ws.onmessage = this._make_on_message_function(this);\n",
       "\n",
       "    this.ondownload = ondownload;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_header = function() {\n",
       "    var titlebar = $(\n",
       "        '<div class=\"ui-dialog-titlebar ui-widget-header ui-corner-all ' +\n",
       "        'ui-helper-clearfix\"/>');\n",
       "    var titletext = $(\n",
       "        '<div class=\"ui-dialog-title\" style=\"width: 100%; ' +\n",
       "        'text-align: center; padding: 3px;\"/>');\n",
       "    titlebar.append(titletext)\n",
       "    this.root.append(titlebar);\n",
       "    this.header = titletext[0];\n",
       "}\n",
       "\n",
       "\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = $('<div/>');\n",
       "\n",
       "    canvas_div.attr('style', 'position: relative; clear: both; outline: 0');\n",
       "\n",
       "    function canvas_keyboard_event(event) {\n",
       "        return fig.key_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    canvas_div.keydown('key_press', canvas_keyboard_event);\n",
       "    canvas_div.keyup('key_release', canvas_keyboard_event);\n",
       "    this.canvas_div = canvas_div\n",
       "    this._canvas_extra_style(canvas_div)\n",
       "    this.root.append(canvas_div);\n",
       "\n",
       "    var canvas = $('<canvas/>');\n",
       "    canvas.addClass('mpl-canvas');\n",
       "    canvas.attr('style', \"left: 0; top: 0; z-index: 0; outline: 0\")\n",
       "\n",
       "    this.canvas = canvas[0];\n",
       "    this.context = canvas[0].getContext(\"2d\");\n",
       "\n",
       "    var backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\n",
       "\n",
       "    var rubberband = $('<canvas/>');\n",
       "    rubberband.attr('style', \"position: absolute; left: 0; top: 0; z-index: 1;\")\n",
       "\n",
       "    var pass_mouse_events = true;\n",
       "\n",
       "    canvas_div.resizable({\n",
       "        start: function(event, ui) {\n",
       "            pass_mouse_events = false;\n",
       "        },\n",
       "        resize: function(event, ui) {\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "        stop: function(event, ui) {\n",
       "            pass_mouse_events = true;\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "    });\n",
       "\n",
       "    function mouse_event_fn(event) {\n",
       "        if (pass_mouse_events)\n",
       "            return fig.mouse_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    rubberband.mousedown('button_press', mouse_event_fn);\n",
       "    rubberband.mouseup('button_release', mouse_event_fn);\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband.mousemove('motion_notify', mouse_event_fn);\n",
       "\n",
       "    rubberband.mouseenter('figure_enter', mouse_event_fn);\n",
       "    rubberband.mouseleave('figure_leave', mouse_event_fn);\n",
       "\n",
       "    canvas_div.on(\"wheel\", function (event) {\n",
       "        event = event.originalEvent;\n",
       "        event['data'] = 'scroll'\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        mouse_event_fn(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.append(canvas);\n",
       "    canvas_div.append(rubberband);\n",
       "\n",
       "    this.rubberband = rubberband;\n",
       "    this.rubberband_canvas = rubberband[0];\n",
       "    this.rubberband_context = rubberband[0].getContext(\"2d\");\n",
       "    this.rubberband_context.strokeStyle = \"#000000\";\n",
       "\n",
       "    this._resize_canvas = function(width, height) {\n",
       "        // Keep the size of the canvas, canvas container, and rubber band\n",
       "        // canvas in synch.\n",
       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\n",
       "\n",
       "        rubberband.attr('width', width);\n",
       "        rubberband.attr('height', height);\n",
       "    }\n",
       "\n",
       "    // Set the figure to an initial 600x600px, this will subsequently be updated\n",
       "    // upon first draw.\n",
       "    this._resize_canvas(600, 600);\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    $(this.rubberband_canvas).bind(\"contextmenu\",function(e){\n",
       "        return false;\n",
       "    });\n",
       "\n",
       "    function set_focus () {\n",
       "        canvas.focus();\n",
       "        canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    window.setTimeout(set_focus, 100);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items) {\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) {\n",
       "            // put a spacer in here.\n",
       "            continue;\n",
       "        }\n",
       "        var button = $('<button/>');\n",
       "        button.addClass('ui-button ui-widget ui-state-default ui-corner-all ' +\n",
       "                        'ui-button-icon-only');\n",
       "        button.attr('role', 'button');\n",
       "        button.attr('aria-disabled', 'false');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "\n",
       "        var icon_img = $('<span/>');\n",
       "        icon_img.addClass('ui-button-icon-primary ui-icon');\n",
       "        icon_img.addClass(image);\n",
       "        icon_img.addClass('ui-corner-all');\n",
       "\n",
       "        var tooltip_span = $('<span/>');\n",
       "        tooltip_span.addClass('ui-button-text');\n",
       "        tooltip_span.html(tooltip);\n",
       "\n",
       "        button.append(icon_img);\n",
       "        button.append(tooltip_span);\n",
       "\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    var fmt_picker_span = $('<span/>');\n",
       "\n",
       "    var fmt_picker = $('<select/>');\n",
       "    fmt_picker.addClass('mpl-toolbar-option ui-widget ui-widget-content');\n",
       "    fmt_picker_span.append(fmt_picker);\n",
       "    nav_element.append(fmt_picker_span);\n",
       "    this.format_dropdown = fmt_picker[0];\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = $(\n",
       "            '<option/>', {selected: fmt === mpl.default_extension}).html(fmt);\n",
       "        fmt_picker.append(option)\n",
       "    }\n",
       "\n",
       "    // Add hover states to the ui-buttons\n",
       "    $( \".ui-button\" ).hover(\n",
       "        function() { $(this).addClass(\"ui-state-hover\");},\n",
       "        function() { $(this).removeClass(\"ui-state-hover\");}\n",
       "    );\n",
       "\n",
       "    var status_bar = $('<span class=\"mpl-message\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.request_resize = function(x_pixels, y_pixels) {\n",
       "    // Request matplotlib to resize the figure. Matplotlib will then trigger a resize in the client,\n",
       "    // which will in turn request a refresh of the image.\n",
       "    this.send_message('resize', {'width': x_pixels, 'height': y_pixels});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_message = function(type, properties) {\n",
       "    properties['type'] = type;\n",
       "    properties['figure_id'] = this.id;\n",
       "    this.ws.send(JSON.stringify(properties));\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_draw_message = function() {\n",
       "    if (!this.waiting) {\n",
       "        this.waiting = true;\n",
       "        this.ws.send(JSON.stringify({type: \"draw\", figure_id: this.id}));\n",
       "    }\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    var format_dropdown = fig.format_dropdown;\n",
       "    var format = format_dropdown.options[format_dropdown.selectedIndex].value;\n",
       "    fig.ondownload(fig, format);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_resize = function(fig, msg) {\n",
       "    var size = msg['size'];\n",
       "    if (size[0] != fig.canvas.width || size[1] != fig.canvas.height) {\n",
       "        fig._resize_canvas(size[0], size[1]);\n",
       "        fig.send_message(\"refresh\", {});\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function(fig, msg) {\n",
       "    var x0 = msg['x0'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\n",
       "    x0 = Math.floor(x0) + 0.5;\n",
       "    y0 = Math.floor(y0) + 0.5;\n",
       "    x1 = Math.floor(x1) + 0.5;\n",
       "    y1 = Math.floor(y1) + 0.5;\n",
       "    var min_x = Math.min(x0, x1);\n",
       "    var min_y = Math.min(y0, y1);\n",
       "    var width = Math.abs(x1 - x0);\n",
       "    var height = Math.abs(y1 - y0);\n",
       "\n",
       "    fig.rubberband_context.clearRect(\n",
       "        0, 0, fig.canvas.width, fig.canvas.height);\n",
       "\n",
       "    fig.rubberband_context.strokeRect(min_x, min_y, width, height);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_figure_label = function(fig, msg) {\n",
       "    // Updates the figure title.\n",
       "    fig.header.textContent = msg['label'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_cursor = function(fig, msg) {\n",
       "    var cursor = msg['cursor'];\n",
       "    switch(cursor)\n",
       "    {\n",
       "    case 0:\n",
       "        cursor = 'pointer';\n",
       "        break;\n",
       "    case 1:\n",
       "        cursor = 'default';\n",
       "        break;\n",
       "    case 2:\n",
       "        cursor = 'crosshair';\n",
       "        break;\n",
       "    case 3:\n",
       "        cursor = 'move';\n",
       "        break;\n",
       "    }\n",
       "    fig.rubberband_canvas.style.cursor = cursor;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_message = function(fig, msg) {\n",
       "    fig.message.textContent = msg['message'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_draw = function(fig, msg) {\n",
       "    // Request the server to send over a new figure.\n",
       "    fig.send_draw_message();\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_image_mode = function(fig, msg) {\n",
       "    fig.image_mode = msg['mode'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Called whenever the canvas gets updated.\n",
       "    this.send_message(\"ack\", {});\n",
       "}\n",
       "\n",
       "// A function to construct a web socket function for onmessage handling.\n",
       "// Called in the figure constructor.\n",
       "mpl.figure.prototype._make_on_message_function = function(fig) {\n",
       "    return function socket_on_message(evt) {\n",
       "        if (evt.data instanceof Blob) {\n",
       "            /* FIXME: We get \"Resource interpreted as Image but\n",
       "             * transferred with MIME type text/plain:\" errors on\n",
       "             * Chrome.  But how to set the MIME type?  It doesn't seem\n",
       "             * to be part of the websocket stream */\n",
       "            evt.data.type = \"image/png\";\n",
       "\n",
       "            /* Free the memory for the previous frames */\n",
       "            if (fig.imageObj.src) {\n",
       "                (window.URL || window.webkitURL).revokeObjectURL(\n",
       "                    fig.imageObj.src);\n",
       "            }\n",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                evt.data);\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "        else if (typeof evt.data === 'string' && evt.data.slice(0, 21) == \"data:image/png;base64\") {\n",
       "            fig.imageObj.src = evt.data;\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        var msg = JSON.parse(evt.data);\n",
       "        var msg_type = msg['type'];\n",
       "\n",
       "        // Call the  \"handle_{type}\" callback, which takes\n",
       "        // the figure and JSON message as its only arguments.\n",
       "        try {\n",
       "            var callback = fig[\"handle_\" + msg_type];\n",
       "        } catch (e) {\n",
       "            console.log(\"No handler for the '\" + msg_type + \"' message type: \", msg);\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        if (callback) {\n",
       "            try {\n",
       "                // console.log(\"Handling '\" + msg_type + \"' message: \", msg);\n",
       "                callback(fig, msg);\n",
       "            } catch (e) {\n",
       "                console.log(\"Exception inside the 'handler_\" + msg_type + \"' callback:\", e, e.stack, msg);\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "}\n",
       "\n",
       "// from http://stackoverflow.com/questions/1114465/getting-mouse-location-in-canvas\n",
       "mpl.findpos = function(e) {\n",
       "    //this section is from http://www.quirksmode.org/js/events_properties.html\n",
       "    var targ;\n",
       "    if (!e)\n",
       "        e = window.event;\n",
       "    if (e.target)\n",
       "        targ = e.target;\n",
       "    else if (e.srcElement)\n",
       "        targ = e.srcElement;\n",
       "    if (targ.nodeType == 3) // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "\n",
       "    // jQuery normalizes the pageX and pageY\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    // offset() returns the position of the element relative to the document\n",
       "    var x = e.pageX - $(targ).offset().left;\n",
       "    var y = e.pageY - $(targ).offset().top;\n",
       "\n",
       "    return {\"x\": x, \"y\": y};\n",
       "};\n",
       "\n",
       "/*\n",
       " * return a copy of an object with only non-object keys\n",
       " * we need this to avoid circular references\n",
       " * http://stackoverflow.com/a/24161582/3208463\n",
       " */\n",
       "function simpleKeys (original) {\n",
       "  return Object.keys(original).reduce(function (obj, key) {\n",
       "    if (typeof original[key] !== 'object')\n",
       "        obj[key] = original[key]\n",
       "    return obj;\n",
       "  }, {});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.mouse_event = function(event, name) {\n",
       "    var canvas_pos = mpl.findpos(event)\n",
       "\n",
       "    if (name === 'button_press')\n",
       "    {\n",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x * mpl.ratio;\n",
       "    var y = canvas_pos.y * mpl.ratio;\n",
       "\n",
       "    this.send_message(name, {x: x, y: y, button: event.button,\n",
       "                             step: event.step,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "\n",
       "    /* This prevents the web browser from automatically changing to\n",
       "     * the text insertion cursor when the button is pressed.  We want\n",
       "     * to control all of the cursor setting manually through the\n",
       "     * 'cursor' event from matplotlib */\n",
       "    event.preventDefault();\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    // Handle any extra behaviour associated with a key event\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.key_event = function(event, name) {\n",
       "\n",
       "    // Prevent repeat events\n",
       "    if (name == 'key_press')\n",
       "    {\n",
       "        if (event.which === this._key)\n",
       "            return;\n",
       "        else\n",
       "            this._key = event.which;\n",
       "    }\n",
       "    if (name == 'key_release')\n",
       "        this._key = null;\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.which != 17)\n",
       "        value += \"ctrl+\";\n",
       "    if (event.altKey && event.which != 18)\n",
       "        value += \"alt+\";\n",
       "    if (event.shiftKey && event.which != 16)\n",
       "        value += \"shift+\";\n",
       "\n",
       "    value += 'k';\n",
       "    value += event.which.toString();\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, {key: value,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onclick = function(name) {\n",
       "    if (name == 'download') {\n",
       "        this.handle_save(this, null);\n",
       "    } else {\n",
       "        this.send_message(\"toolbar_button\", {name: name});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onmouseover = function(tooltip) {\n",
       "    this.message.textContent = tooltip;\n",
       "};\n",
       "mpl.toolbar_items = [[\"Home\", \"Reset original view\", \"fa fa-home icon-home\", \"home\"], [\"Back\", \"Back to  previous view\", \"fa fa-arrow-left icon-arrow-left\", \"back\"], [\"Forward\", \"Forward to next view\", \"fa fa-arrow-right icon-arrow-right\", \"forward\"], [\"\", \"\", \"\", \"\"], [\"Pan\", \"Pan axes with left mouse, zoom with right\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the overriden (by mpl) onmessage function.\n",
       "        ws.onmessage(msg['content']['data'])\n",
       "    });\n",
       "    return ws;\n",
       "}\n",
       "\n",
       "mpl.mpl_figure_comm = function(comm, msg) {\n",
       "    // This is the function which gets called when the mpl process\n",
       "    // starts-up an IPython Comm through the \"matplotlib\" channel.\n",
       "\n",
       "    var id = msg.content.data.id;\n",
       "    // Get hold of the div created by the display call when the Comm\n",
       "    // socket was opened in Python.\n",
       "    var element = $(\"#\" + id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm)\n",
       "\n",
       "    function ondownload(figure, format) {\n",
       "        window.open(figure.imageObj.src);\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy,\n",
       "                           ondownload,\n",
       "                           element.get(0));\n",
       "\n",
       "    // Call onopen now - mpl needs it, as it is assuming we've passed it a real\n",
       "    // web socket which is closed, not our websocket->open comm proxy.\n",
       "    ws_proxy.onopen();\n",
       "\n",
       "    fig.parent_element = element.get(0);\n",
       "    fig.cell_info = mpl.find_output_cell(\"<div id='\" + id + \"'></div>\");\n",
       "    if (!fig.cell_info) {\n",
       "        console.error(\"Failed to find cell for figure\", id, fig);\n",
       "        return;\n",
       "    }\n",
       "\n",
       "    var output_index = fig.cell_info[2]\n",
       "    var cell = fig.cell_info[0];\n",
       "\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function(fig, msg) {\n",
       "    var width = fig.canvas.width/mpl.ratio\n",
       "    fig.root.unbind('remove')\n",
       "\n",
       "    // Update the output cell to use the data from the current canvas.\n",
       "    fig.push_to_output();\n",
       "    var dataURL = fig.canvas.toDataURL();\n",
       "    // Re-enable the keyboard manager in IPython - without this line, in FF,\n",
       "    // the notebook keyboard shortcuts fail.\n",
       "    IPython.keyboard_manager.enable()\n",
       "    $(fig.parent_element).html('<img src=\"' + dataURL + '\" width=\"' + width + '\">');\n",
       "    fig.close_ws(fig, msg);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.close_ws = function(fig, msg){\n",
       "    fig.send_message('closing', msg);\n",
       "    // fig.ws.close()\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.push_to_output = function(remove_interactive) {\n",
       "    // Turn the data on the canvas into data in the output cell.\n",
       "    var width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Tell IPython that the notebook contents must change.\n",
       "    IPython.notebook.set_dirty(true);\n",
       "    this.send_message(\"ack\", {});\n",
       "    var fig = this;\n",
       "    // Wait a second, then push the new image to the DOM so\n",
       "    // that it is saved nicely (might be nice to debounce this).\n",
       "    setTimeout(function () { fig.push_to_output() }, 1000);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items){\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) { continue; };\n",
       "\n",
       "        var button = $('<button class=\"btn btn-default\" href=\"#\" title=\"' + name + '\"><i class=\"fa ' + image + ' fa-lg\"></i></button>');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = $('<span class=\"mpl-message\" style=\"text-align:right; float: right;\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = $('<div class=\"btn-group inline pull-right\"></div>');\n",
       "    var button = $('<button class=\"btn btn-mini btn-primary\" href=\"#\" title=\"Stop Interaction\"><i class=\"fa fa-power-off icon-remove icon-large\"></i></button>');\n",
       "    button.click(function (evt) { fig.handle_close(fig, {}); } );\n",
       "    button.mouseover('Stop Interaction', toolbar_mouse_event);\n",
       "    buttongrp.append(button);\n",
       "    var titlebar = this.root.find($('.ui-dialog-titlebar'));\n",
       "    titlebar.prepend(buttongrp);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(el){\n",
       "    var fig = this\n",
       "    el.on(\"remove\", function(){\n",
       "\tfig.close_ws(fig, {});\n",
       "    });\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(el){\n",
       "    // this is important to make the div 'focusable\n",
       "    el.attr('tabindex', 0)\n",
       "    // reach out to IPython and tell the keyboard manager to turn it's self\n",
       "    // off when our div gets focus\n",
       "\n",
       "    // location in version 3\n",
       "    if (IPython.notebook.keyboard_manager) {\n",
       "        IPython.notebook.keyboard_manager.register_events(el);\n",
       "    }\n",
       "    else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    var manager = IPython.notebook.keyboard_manager;\n",
       "    if (!manager)\n",
       "        manager = IPython.keyboard_manager;\n",
       "\n",
       "    // Check for shift+enter\n",
       "    if (event.shiftKey && event.which == 13) {\n",
       "        this.canvas_div.blur();\n",
       "        // select the cell after this one\n",
       "        var index = IPython.notebook.find_cell_index(this.cell_info[0]);\n",
       "        IPython.notebook.select(index + 1);\n",
       "    }\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    fig.ondownload(fig, null);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.find_output_cell = function(html_output) {\n",
       "    // Return the cell and output element which can be found *uniquely* in the notebook.\n",
       "    // Note - this is a bit hacky, but it is done because the \"notebook_saving.Notebook\"\n",
       "    // IPython event is triggered only after the cells have been serialised, which for\n",
       "    // our purposes (turning an active figure into a static one), is too late.\n",
       "    var cells = IPython.notebook.get_cells();\n",
       "    var ncells = cells.length;\n",
       "    for (var i=0; i<ncells; i++) {\n",
       "        var cell = cells[i];\n",
       "        if (cell.cell_type === 'code'){\n",
       "            for (var j=0; j<cell.output_area.outputs.length; j++) {\n",
       "                var data = cell.output_area.outputs[j];\n",
       "                if (data.data) {\n",
       "                    // IPython >= 3 moved mimebundle to data attribute of output\n",
       "                    data = data.data;\n",
       "                }\n",
       "                if (data['text/html'] == html_output) {\n",
       "                    return [cell, data, j];\n",
       "                }\n",
       "            }\n",
       "        }\n",
       "    }\n",
       "}\n",
       "\n",
       "// Register the function which deals with the matplotlib target/channel.\n",
       "// The kernel may be null if the page has been refreshed.\n",
       "if (IPython.notebook.kernel != null) {\n",
       "    IPython.notebook.kernel.comm_manager.register_target('matplotlib', mpl.mpl_figure_comm);\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
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\" width=\"639.8499802953507\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "fig, axs = plt.subplots(2, 1)\n",
    "axs[0].plot(time, signal1, label=\"Input signal\")\n",
    "axs[0].plot(time, signal1_comp, label=\"Compensated\")\n",
    "axs[0].set_xlabel(\"Time (s)\")\n",
    "axs[0].set_ylabel(\"Signal (a.u.)\")\n",
    "axs[0].legend()\n",
    "\n",
    "axs[1].plot(time, signal2, label=\"Input signal\")\n",
    "axs[1].plot(time, signal2_comp, label=\"Compensated\")\n",
    "axs[1].set_xlabel(\"Time (s)\")\n",
    "axs[1].set_ylabel(\"Signal (a.u.)\")\n",
    "axs[1].legend()\n",
    "\n",
    "plt.tight_layout()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 8,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\n",
       "\n",
       "mpl.get_websocket_type = function() {\n",
       "    if (typeof(WebSocket) !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof(MozWebSocket) !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert('Your browser does not have WebSocket support.' +\n",
       "              'Please try Chrome, Safari or Firefox ≥ 6. ' +\n",
       "              'Firefox 4 and 5 are also supported but you ' +\n",
       "              'have to enable WebSockets in about:config.');\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure = function(figure_id, websocket, ondownload, parent_element) {\n",
       "    this.id = figure_id;\n",
       "\n",
       "    this.ws = websocket;\n",
       "\n",
       "    this.supports_binary = (this.ws.binaryType != undefined);\n",
       "\n",
       "    if (!this.supports_binary) {\n",
       "        var warnings = document.getElementById(\"mpl-warnings\");\n",
       "        if (warnings) {\n",
       "            warnings.style.display = 'block';\n",
       "            warnings.textContent = (\n",
       "                \"This browser does not support binary websocket messages. \" +\n",
       "                    \"Performance may be slow.\");\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.imageObj = new Image();\n",
       "\n",
       "    this.context = undefined;\n",
       "    this.message = undefined;\n",
       "    this.canvas = undefined;\n",
       "    this.rubberband_canvas = undefined;\n",
       "    this.rubberband_context = undefined;\n",
       "    this.format_dropdown = undefined;\n",
       "\n",
       "    this.image_mode = 'full';\n",
       "\n",
       "    this.root = $('<div/>');\n",
       "    this._root_extra_style(this.root)\n",
       "    this.root.attr('style', 'display: inline-block');\n",
       "\n",
       "    $(parent_element).append(this.root);\n",
       "\n",
       "    this._init_header(this);\n",
       "    this._init_canvas(this);\n",
       "    this._init_toolbar(this);\n",
       "\n",
       "    var fig = this;\n",
       "\n",
       "    this.waiting = false;\n",
       "\n",
       "    this.ws.onopen =  function () {\n",
       "            fig.send_message(\"supports_binary\", {value: fig.supports_binary});\n",
       "            fig.send_message(\"send_image_mode\", {});\n",
       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
       "            }\n",
       "            fig.send_message(\"refresh\", {});\n",
       "        }\n",
       "\n",
       "    this.imageObj.onload = function() {\n",
       "            if (fig.image_mode == 'full') {\n",
       "                // Full images could contain transparency (where diff images\n",
       "                // almost always do), so we need to clear the canvas so that\n",
       "                // there is no ghosting.\n",
       "                fig.context.clearRect(0, 0, fig.canvas.width, fig.canvas.height);\n",
       "            }\n",
       "            fig.context.drawImage(fig.imageObj, 0, 0);\n",
       "        };\n",
       "\n",
       "    this.imageObj.onunload = function() {\n",
       "        this.ws.close();\n",
       "    }\n",
       "\n",
       "    this.ws.onmessage = this._make_on_message_function(this);\n",
       "\n",
       "    this.ondownload = ondownload;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_header = function() {\n",
       "    var titlebar = $(\n",
       "        '<div class=\"ui-dialog-titlebar ui-widget-header ui-corner-all ' +\n",
       "        'ui-helper-clearfix\"/>');\n",
       "    var titletext = $(\n",
       "        '<div class=\"ui-dialog-title\" style=\"width: 100%; ' +\n",
       "        'text-align: center; padding: 3px;\"/>');\n",
       "    titlebar.append(titletext)\n",
       "    this.root.append(titlebar);\n",
       "    this.header = titletext[0];\n",
       "}\n",
       "\n",
       "\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = $('<div/>');\n",
       "\n",
       "    canvas_div.attr('style', 'position: relative; clear: both; outline: 0');\n",
       "\n",
       "    function canvas_keyboard_event(event) {\n",
       "        return fig.key_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    canvas_div.keydown('key_press', canvas_keyboard_event);\n",
       "    canvas_div.keyup('key_release', canvas_keyboard_event);\n",
       "    this.canvas_div = canvas_div\n",
       "    this._canvas_extra_style(canvas_div)\n",
       "    this.root.append(canvas_div);\n",
       "\n",
       "    var canvas = $('<canvas/>');\n",
       "    canvas.addClass('mpl-canvas');\n",
       "    canvas.attr('style', \"left: 0; top: 0; z-index: 0; outline: 0\")\n",
       "\n",
       "    this.canvas = canvas[0];\n",
       "    this.context = canvas[0].getContext(\"2d\");\n",
       "\n",
       "    var backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\n",
       "\n",
       "    var rubberband = $('<canvas/>');\n",
       "    rubberband.attr('style', \"position: absolute; left: 0; top: 0; z-index: 1;\")\n",
       "\n",
       "    var pass_mouse_events = true;\n",
       "\n",
       "    canvas_div.resizable({\n",
       "        start: function(event, ui) {\n",
       "            pass_mouse_events = false;\n",
       "        },\n",
       "        resize: function(event, ui) {\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "        stop: function(event, ui) {\n",
       "            pass_mouse_events = true;\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "    });\n",
       "\n",
       "    function mouse_event_fn(event) {\n",
       "        if (pass_mouse_events)\n",
       "            return fig.mouse_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    rubberband.mousedown('button_press', mouse_event_fn);\n",
       "    rubberband.mouseup('button_release', mouse_event_fn);\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband.mousemove('motion_notify', mouse_event_fn);\n",
       "\n",
       "    rubberband.mouseenter('figure_enter', mouse_event_fn);\n",
       "    rubberband.mouseleave('figure_leave', mouse_event_fn);\n",
       "\n",
       "    canvas_div.on(\"wheel\", function (event) {\n",
       "        event = event.originalEvent;\n",
       "        event['data'] = 'scroll'\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        mouse_event_fn(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.append(canvas);\n",
       "    canvas_div.append(rubberband);\n",
       "\n",
       "    this.rubberband = rubberband;\n",
       "    this.rubberband_canvas = rubberband[0];\n",
       "    this.rubberband_context = rubberband[0].getContext(\"2d\");\n",
       "    this.rubberband_context.strokeStyle = \"#000000\";\n",
       "\n",
       "    this._resize_canvas = function(width, height) {\n",
       "        // Keep the size of the canvas, canvas container, and rubber band\n",
       "        // canvas in synch.\n",
       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\n",
       "\n",
       "        rubberband.attr('width', width);\n",
       "        rubberband.attr('height', height);\n",
       "    }\n",
       "\n",
       "    // Set the figure to an initial 600x600px, this will subsequently be updated\n",
       "    // upon first draw.\n",
       "    this._resize_canvas(600, 600);\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    $(this.rubberband_canvas).bind(\"contextmenu\",function(e){\n",
       "        return false;\n",
       "    });\n",
       "\n",
       "    function set_focus () {\n",
       "        canvas.focus();\n",
       "        canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    window.setTimeout(set_focus, 100);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items) {\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) {\n",
       "            // put a spacer in here.\n",
       "            continue;\n",
       "        }\n",
       "        var button = $('<button/>');\n",
       "        button.addClass('ui-button ui-widget ui-state-default ui-corner-all ' +\n",
       "                        'ui-button-icon-only');\n",
       "        button.attr('role', 'button');\n",
       "        button.attr('aria-disabled', 'false');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "\n",
       "        var icon_img = $('<span/>');\n",
       "        icon_img.addClass('ui-button-icon-primary ui-icon');\n",
       "        icon_img.addClass(image);\n",
       "        icon_img.addClass('ui-corner-all');\n",
       "\n",
       "        var tooltip_span = $('<span/>');\n",
       "        tooltip_span.addClass('ui-button-text');\n",
       "        tooltip_span.html(tooltip);\n",
       "\n",
       "        button.append(icon_img);\n",
       "        button.append(tooltip_span);\n",
       "\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    var fmt_picker_span = $('<span/>');\n",
       "\n",
       "    var fmt_picker = $('<select/>');\n",
       "    fmt_picker.addClass('mpl-toolbar-option ui-widget ui-widget-content');\n",
       "    fmt_picker_span.append(fmt_picker);\n",
       "    nav_element.append(fmt_picker_span);\n",
       "    this.format_dropdown = fmt_picker[0];\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = $(\n",
       "            '<option/>', {selected: fmt === mpl.default_extension}).html(fmt);\n",
       "        fmt_picker.append(option)\n",
       "    }\n",
       "\n",
       "    // Add hover states to the ui-buttons\n",
       "    $( \".ui-button\" ).hover(\n",
       "        function() { $(this).addClass(\"ui-state-hover\");},\n",
       "        function() { $(this).removeClass(\"ui-state-hover\");}\n",
       "    );\n",
       "\n",
       "    var status_bar = $('<span class=\"mpl-message\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.request_resize = function(x_pixels, y_pixels) {\n",
       "    // Request matplotlib to resize the figure. Matplotlib will then trigger a resize in the client,\n",
       "    // which will in turn request a refresh of the image.\n",
       "    this.send_message('resize', {'width': x_pixels, 'height': y_pixels});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_message = function(type, properties) {\n",
       "    properties['type'] = type;\n",
       "    properties['figure_id'] = this.id;\n",
       "    this.ws.send(JSON.stringify(properties));\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_draw_message = function() {\n",
       "    if (!this.waiting) {\n",
       "        this.waiting = true;\n",
       "        this.ws.send(JSON.stringify({type: \"draw\", figure_id: this.id}));\n",
       "    }\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    var format_dropdown = fig.format_dropdown;\n",
       "    var format = format_dropdown.options[format_dropdown.selectedIndex].value;\n",
       "    fig.ondownload(fig, format);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_resize = function(fig, msg) {\n",
       "    var size = msg['size'];\n",
       "    if (size[0] != fig.canvas.width || size[1] != fig.canvas.height) {\n",
       "        fig._resize_canvas(size[0], size[1]);\n",
       "        fig.send_message(\"refresh\", {});\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function(fig, msg) {\n",
       "    var x0 = msg['x0'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\n",
       "    x0 = Math.floor(x0) + 0.5;\n",
       "    y0 = Math.floor(y0) + 0.5;\n",
       "    x1 = Math.floor(x1) + 0.5;\n",
       "    y1 = Math.floor(y1) + 0.5;\n",
       "    var min_x = Math.min(x0, x1);\n",
       "    var min_y = Math.min(y0, y1);\n",
       "    var width = Math.abs(x1 - x0);\n",
       "    var height = Math.abs(y1 - y0);\n",
       "\n",
       "    fig.rubberband_context.clearRect(\n",
       "        0, 0, fig.canvas.width, fig.canvas.height);\n",
       "\n",
       "    fig.rubberband_context.strokeRect(min_x, min_y, width, height);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_figure_label = function(fig, msg) {\n",
       "    // Updates the figure title.\n",
       "    fig.header.textContent = msg['label'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_cursor = function(fig, msg) {\n",
       "    var cursor = msg['cursor'];\n",
       "    switch(cursor)\n",
       "    {\n",
       "    case 0:\n",
       "        cursor = 'pointer';\n",
       "        break;\n",
       "    case 1:\n",
       "        cursor = 'default';\n",
       "        break;\n",
       "    case 2:\n",
       "        cursor = 'crosshair';\n",
       "        break;\n",
       "    case 3:\n",
       "        cursor = 'move';\n",
       "        break;\n",
       "    }\n",
       "    fig.rubberband_canvas.style.cursor = cursor;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_message = function(fig, msg) {\n",
       "    fig.message.textContent = msg['message'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_draw = function(fig, msg) {\n",
       "    // Request the server to send over a new figure.\n",
       "    fig.send_draw_message();\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_image_mode = function(fig, msg) {\n",
       "    fig.image_mode = msg['mode'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Called whenever the canvas gets updated.\n",
       "    this.send_message(\"ack\", {});\n",
       "}\n",
       "\n",
       "// A function to construct a web socket function for onmessage handling.\n",
       "// Called in the figure constructor.\n",
       "mpl.figure.prototype._make_on_message_function = function(fig) {\n",
       "    return function socket_on_message(evt) {\n",
       "        if (evt.data instanceof Blob) {\n",
       "            /* FIXME: We get \"Resource interpreted as Image but\n",
       "             * transferred with MIME type text/plain:\" errors on\n",
       "             * Chrome.  But how to set the MIME type?  It doesn't seem\n",
       "             * to be part of the websocket stream */\n",
       "            evt.data.type = \"image/png\";\n",
       "\n",
       "            /* Free the memory for the previous frames */\n",
       "            if (fig.imageObj.src) {\n",
       "                (window.URL || window.webkitURL).revokeObjectURL(\n",
       "                    fig.imageObj.src);\n",
       "            }\n",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                evt.data);\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "        else if (typeof evt.data === 'string' && evt.data.slice(0, 21) == \"data:image/png;base64\") {\n",
       "            fig.imageObj.src = evt.data;\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        var msg = JSON.parse(evt.data);\n",
       "        var msg_type = msg['type'];\n",
       "\n",
       "        // Call the  \"handle_{type}\" callback, which takes\n",
       "        // the figure and JSON message as its only arguments.\n",
       "        try {\n",
       "            var callback = fig[\"handle_\" + msg_type];\n",
       "        } catch (e) {\n",
       "            console.log(\"No handler for the '\" + msg_type + \"' message type: \", msg);\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        if (callback) {\n",
       "            try {\n",
       "                // console.log(\"Handling '\" + msg_type + \"' message: \", msg);\n",
       "                callback(fig, msg);\n",
       "            } catch (e) {\n",
       "                console.log(\"Exception inside the 'handler_\" + msg_type + \"' callback:\", e, e.stack, msg);\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "}\n",
       "\n",
       "// from http://stackoverflow.com/questions/1114465/getting-mouse-location-in-canvas\n",
       "mpl.findpos = function(e) {\n",
       "    //this section is from http://www.quirksmode.org/js/events_properties.html\n",
       "    var targ;\n",
       "    if (!e)\n",
       "        e = window.event;\n",
       "    if (e.target)\n",
       "        targ = e.target;\n",
       "    else if (e.srcElement)\n",
       "        targ = e.srcElement;\n",
       "    if (targ.nodeType == 3) // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "\n",
       "    // jQuery normalizes the pageX and pageY\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    // offset() returns the position of the element relative to the document\n",
       "    var x = e.pageX - $(targ).offset().left;\n",
       "    var y = e.pageY - $(targ).offset().top;\n",
       "\n",
       "    return {\"x\": x, \"y\": y};\n",
       "};\n",
       "\n",
       "/*\n",
       " * return a copy of an object with only non-object keys\n",
       " * we need this to avoid circular references\n",
       " * http://stackoverflow.com/a/24161582/3208463\n",
       " */\n",
       "function simpleKeys (original) {\n",
       "  return Object.keys(original).reduce(function (obj, key) {\n",
       "    if (typeof original[key] !== 'object')\n",
       "        obj[key] = original[key]\n",
       "    return obj;\n",
       "  }, {});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.mouse_event = function(event, name) {\n",
       "    var canvas_pos = mpl.findpos(event)\n",
       "\n",
       "    if (name === 'button_press')\n",
       "    {\n",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x * mpl.ratio;\n",
       "    var y = canvas_pos.y * mpl.ratio;\n",
       "\n",
       "    this.send_message(name, {x: x, y: y, button: event.button,\n",
       "                             step: event.step,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "\n",
       "    /* This prevents the web browser from automatically changing to\n",
       "     * the text insertion cursor when the button is pressed.  We want\n",
       "     * to control all of the cursor setting manually through the\n",
       "     * 'cursor' event from matplotlib */\n",
       "    event.preventDefault();\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    // Handle any extra behaviour associated with a key event\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.key_event = function(event, name) {\n",
       "\n",
       "    // Prevent repeat events\n",
       "    if (name == 'key_press')\n",
       "    {\n",
       "        if (event.which === this._key)\n",
       "            return;\n",
       "        else\n",
       "            this._key = event.which;\n",
       "    }\n",
       "    if (name == 'key_release')\n",
       "        this._key = null;\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.which != 17)\n",
       "        value += \"ctrl+\";\n",
       "    if (event.altKey && event.which != 18)\n",
       "        value += \"alt+\";\n",
       "    if (event.shiftKey && event.which != 16)\n",
       "        value += \"shift+\";\n",
       "\n",
       "    value += 'k';\n",
       "    value += event.which.toString();\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, {key: value,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onclick = function(name) {\n",
       "    if (name == 'download') {\n",
       "        this.handle_save(this, null);\n",
       "    } else {\n",
       "        this.send_message(\"toolbar_button\", {name: name});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onmouseover = function(tooltip) {\n",
       "    this.message.textContent = tooltip;\n",
       "};\n",
       "mpl.toolbar_items = [[\"Home\", \"Reset original view\", \"fa fa-home icon-home\", \"home\"], [\"Back\", \"Back to  previous view\", \"fa fa-arrow-left icon-arrow-left\", \"back\"], [\"Forward\", \"Forward to next view\", \"fa fa-arrow-right icon-arrow-right\", \"forward\"], [\"\", \"\", \"\", \"\"], [\"Pan\", \"Pan axes with left mouse, zoom with right\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the overriden (by mpl) onmessage function.\n",
       "        ws.onmessage(msg['content']['data'])\n",
       "    });\n",
       "    return ws;\n",
       "}\n",
       "\n",
       "mpl.mpl_figure_comm = function(comm, msg) {\n",
       "    // This is the function which gets called when the mpl process\n",
       "    // starts-up an IPython Comm through the \"matplotlib\" channel.\n",
       "\n",
       "    var id = msg.content.data.id;\n",
       "    // Get hold of the div created by the display call when the Comm\n",
       "    // socket was opened in Python.\n",
       "    var element = $(\"#\" + id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm)\n",
       "\n",
       "    function ondownload(figure, format) {\n",
       "        window.open(figure.imageObj.src);\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy,\n",
       "                           ondownload,\n",
       "                           element.get(0));\n",
       "\n",
       "    // Call onopen now - mpl needs it, as it is assuming we've passed it a real\n",
       "    // web socket which is closed, not our websocket->open comm proxy.\n",
       "    ws_proxy.onopen();\n",
       "\n",
       "    fig.parent_element = element.get(0);\n",
       "    fig.cell_info = mpl.find_output_cell(\"<div id='\" + id + \"'></div>\");\n",
       "    if (!fig.cell_info) {\n",
       "        console.error(\"Failed to find cell for figure\", id, fig);\n",
       "        return;\n",
       "    }\n",
       "\n",
       "    var output_index = fig.cell_info[2]\n",
       "    var cell = fig.cell_info[0];\n",
       "\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function(fig, msg) {\n",
       "    var width = fig.canvas.width/mpl.ratio\n",
       "    fig.root.unbind('remove')\n",
       "\n",
       "    // Update the output cell to use the data from the current canvas.\n",
       "    fig.push_to_output();\n",
       "    var dataURL = fig.canvas.toDataURL();\n",
       "    // Re-enable the keyboard manager in IPython - without this line, in FF,\n",
       "    // the notebook keyboard shortcuts fail.\n",
       "    IPython.keyboard_manager.enable()\n",
       "    $(fig.parent_element).html('<img src=\"' + dataURL + '\" width=\"' + width + '\">');\n",
       "    fig.close_ws(fig, msg);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.close_ws = function(fig, msg){\n",
       "    fig.send_message('closing', msg);\n",
       "    // fig.ws.close()\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.push_to_output = function(remove_interactive) {\n",
       "    // Turn the data on the canvas into data in the output cell.\n",
       "    var width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Tell IPython that the notebook contents must change.\n",
       "    IPython.notebook.set_dirty(true);\n",
       "    this.send_message(\"ack\", {});\n",
       "    var fig = this;\n",
       "    // Wait a second, then push the new image to the DOM so\n",
       "    // that it is saved nicely (might be nice to debounce this).\n",
       "    setTimeout(function () { fig.push_to_output() }, 1000);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items){\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) { continue; };\n",
       "\n",
       "        var button = $('<button class=\"btn btn-default\" href=\"#\" title=\"' + name + '\"><i class=\"fa ' + image + ' fa-lg\"></i></button>');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = $('<span class=\"mpl-message\" style=\"text-align:right; float: right;\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = $('<div class=\"btn-group inline pull-right\"></div>');\n",
       "    var button = $('<button class=\"btn btn-mini btn-primary\" href=\"#\" title=\"Stop Interaction\"><i class=\"fa fa-power-off icon-remove icon-large\"></i></button>');\n",
       "    button.click(function (evt) { fig.handle_close(fig, {}); } );\n",
       "    button.mouseover('Stop Interaction', toolbar_mouse_event);\n",
       "    buttongrp.append(button);\n",
       "    var titlebar = this.root.find($('.ui-dialog-titlebar'));\n",
       "    titlebar.prepend(buttongrp);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(el){\n",
       "    var fig = this\n",
       "    el.on(\"remove\", function(){\n",
       "\tfig.close_ws(fig, {});\n",
       "    });\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(el){\n",
       "    // this is important to make the div 'focusable\n",
       "    el.attr('tabindex', 0)\n",
       "    // reach out to IPython and tell the keyboard manager to turn it's self\n",
       "    // off when our div gets focus\n",
       "\n",
       "    // location in version 3\n",
       "    if (IPython.notebook.keyboard_manager) {\n",
       "        IPython.notebook.keyboard_manager.register_events(el);\n",
       "    }\n",
       "    else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    var manager = IPython.notebook.keyboard_manager;\n",
       "    if (!manager)\n",
       "        manager = IPython.keyboard_manager;\n",
       "\n",
       "    // Check for shift+enter\n",
       "    if (event.shiftKey && event.which == 13) {\n",
       "        this.canvas_div.blur();\n",
       "        // select the cell after this one\n",
       "        var index = IPython.notebook.find_cell_index(this.cell_info[0]);\n",
       "        IPython.notebook.select(index + 1);\n",
       "    }\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    fig.ondownload(fig, null);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.find_output_cell = function(html_output) {\n",
       "    // Return the cell and output element which can be found *uniquely* in the notebook.\n",
       "    // Note - this is a bit hacky, but it is done because the \"notebook_saving.Notebook\"\n",
       "    // IPython event is triggered only after the cells have been serialised, which for\n",
       "    // our purposes (turning an active figure into a static one), is too late.\n",
       "    var cells = IPython.notebook.get_cells();\n",
       "    var ncells = cells.length;\n",
       "    for (var i=0; i<ncells; i++) {\n",
       "        var cell = cells[i];\n",
       "        if (cell.cell_type === 'code'){\n",
       "            for (var j=0; j<cell.output_area.outputs.length; j++) {\n",
       "                var data = cell.output_area.outputs[j];\n",
       "                if (data.data) {\n",
       "                    // IPython >= 3 moved mimebundle to data attribute of output\n",
       "                    data = data.data;\n",
       "                }\n",
       "                if (data['text/html'] == html_output) {\n",
       "                    return [cell, data, j];\n",
       "                }\n",
       "            }\n",
       "        }\n",
       "    }\n",
       "}\n",
       "\n",
       "// Register the function which deals with the matplotlib target/channel.\n",
       "// The kernel may be null if the page has been refreshed.\n",
       "if (IPython.notebook.kernel != null) {\n",
       "    IPython.notebook.kernel.comm_manager.register_target('matplotlib', mpl.mpl_figure_comm);\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
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\" width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "# As a sanity-check, we may filter and compensate and compare\n",
    "#\n",
    "# Do we recover the original signals?\n",
    "\n",
    "signal1_check1 = applyRCFilter(signal1_comp, SR, filtertype, f_cut, order=1)\n",
    "signal1_check2 = applyInverseRCFilter(signal1_filt, SR, filtertype, f_cut, order=1)\n",
    "\n",
    "signal2_check1 = applyRCFilter(signal2_comp, SR, filtertype, f_cut, order=1)\n",
    "signal2_check2 = applyInverseRCFilter(signal2_filt, SR, filtertype, f_cut, order=1)\n",
    "\n",
    "fig, axs = plt.subplots(2, 1)\n",
    "axs[0].set_title(\"Signal 1\")\n",
    "axs[0].plot(time, signal1_check1, label=\"Check 1\")\n",
    "axs[0].plot(time, signal1_check2, label=\"Check 2\")\n",
    "axs[0].legend()\n",
    "axs[0].set_xlabel(\"Time (s)\")\n",
    "axs[0].set_ylabel(\"Signal (a. u.)\")\n",
    "\n",
    "axs[1].set_title(\"Signal 2\")\n",
    "axs[1].plot(time, signal2_check1, label=\"Check 1\")\n",
    "axs[1].plot(time, signal2_check2, label=\"Check 2\")\n",
    "axs[1].legend()\n",
    "axs[1].set_xlabel(\"Time (s)\")\n",
    "axs[1].set_ylabel(\"Signal (a. u.)\")\n",
    "\n",
    "plt.tight_layout()"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "## User-supplied transfer function\n",
    "\n",
    "In an experimental situation, it is sometimes best to simply _measure_ the transfer function of the transmission line and then apply (the inverse of) that transfer function to the system.\n",
    "\n",
    "This is done with ripasso's `applyCustomTransferFunction`.\n",
    "\n",
    "In the following example, we invite the user to experiment with `tf_noise_amp` to see the drastic effect of low filter function values. In a real experiment, some care should be taken to provide a very smooth transfer function, either by heavy averaging or by curve fitting to a sane model (or both)."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 9,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\n",
       "\n",
       "mpl.get_websocket_type = function() {\n",
       "    if (typeof(WebSocket) !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof(MozWebSocket) !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert('Your browser does not have WebSocket support.' +\n",
       "              'Please try Chrome, Safari or Firefox ≥ 6. ' +\n",
       "              'Firefox 4 and 5 are also supported but you ' +\n",
       "              'have to enable WebSockets in about:config.');\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure = function(figure_id, websocket, ondownload, parent_element) {\n",
       "    this.id = figure_id;\n",
       "\n",
       "    this.ws = websocket;\n",
       "\n",
       "    this.supports_binary = (this.ws.binaryType != undefined);\n",
       "\n",
       "    if (!this.supports_binary) {\n",
       "        var warnings = document.getElementById(\"mpl-warnings\");\n",
       "        if (warnings) {\n",
       "            warnings.style.display = 'block';\n",
       "            warnings.textContent = (\n",
       "                \"This browser does not support binary websocket messages. \" +\n",
       "                    \"Performance may be slow.\");\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.imageObj = new Image();\n",
       "\n",
       "    this.context = undefined;\n",
       "    this.message = undefined;\n",
       "    this.canvas = undefined;\n",
       "    this.rubberband_canvas = undefined;\n",
       "    this.rubberband_context = undefined;\n",
       "    this.format_dropdown = undefined;\n",
       "\n",
       "    this.image_mode = 'full';\n",
       "\n",
       "    this.root = $('<div/>');\n",
       "    this._root_extra_style(this.root)\n",
       "    this.root.attr('style', 'display: inline-block');\n",
       "\n",
       "    $(parent_element).append(this.root);\n",
       "\n",
       "    this._init_header(this);\n",
       "    this._init_canvas(this);\n",
       "    this._init_toolbar(this);\n",
       "\n",
       "    var fig = this;\n",
       "\n",
       "    this.waiting = false;\n",
       "\n",
       "    this.ws.onopen =  function () {\n",
       "            fig.send_message(\"supports_binary\", {value: fig.supports_binary});\n",
       "            fig.send_message(\"send_image_mode\", {});\n",
       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
       "            }\n",
       "            fig.send_message(\"refresh\", {});\n",
       "        }\n",
       "\n",
       "    this.imageObj.onload = function() {\n",
       "            if (fig.image_mode == 'full') {\n",
       "                // Full images could contain transparency (where diff images\n",
       "                // almost always do), so we need to clear the canvas so that\n",
       "                // there is no ghosting.\n",
       "                fig.context.clearRect(0, 0, fig.canvas.width, fig.canvas.height);\n",
       "            }\n",
       "            fig.context.drawImage(fig.imageObj, 0, 0);\n",
       "        };\n",
       "\n",
       "    this.imageObj.onunload = function() {\n",
       "        this.ws.close();\n",
       "    }\n",
       "\n",
       "    this.ws.onmessage = this._make_on_message_function(this);\n",
       "\n",
       "    this.ondownload = ondownload;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_header = function() {\n",
       "    var titlebar = $(\n",
       "        '<div class=\"ui-dialog-titlebar ui-widget-header ui-corner-all ' +\n",
       "        'ui-helper-clearfix\"/>');\n",
       "    var titletext = $(\n",
       "        '<div class=\"ui-dialog-title\" style=\"width: 100%; ' +\n",
       "        'text-align: center; padding: 3px;\"/>');\n",
       "    titlebar.append(titletext)\n",
       "    this.root.append(titlebar);\n",
       "    this.header = titletext[0];\n",
       "}\n",
       "\n",
       "\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = $('<div/>');\n",
       "\n",
       "    canvas_div.attr('style', 'position: relative; clear: both; outline: 0');\n",
       "\n",
       "    function canvas_keyboard_event(event) {\n",
       "        return fig.key_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    canvas_div.keydown('key_press', canvas_keyboard_event);\n",
       "    canvas_div.keyup('key_release', canvas_keyboard_event);\n",
       "    this.canvas_div = canvas_div\n",
       "    this._canvas_extra_style(canvas_div)\n",
       "    this.root.append(canvas_div);\n",
       "\n",
       "    var canvas = $('<canvas/>');\n",
       "    canvas.addClass('mpl-canvas');\n",
       "    canvas.attr('style', \"left: 0; top: 0; z-index: 0; outline: 0\")\n",
       "\n",
       "    this.canvas = canvas[0];\n",
       "    this.context = canvas[0].getContext(\"2d\");\n",
       "\n",
       "    var backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\n",
       "\n",
       "    var rubberband = $('<canvas/>');\n",
       "    rubberband.attr('style', \"position: absolute; left: 0; top: 0; z-index: 1;\")\n",
       "\n",
       "    var pass_mouse_events = true;\n",
       "\n",
       "    canvas_div.resizable({\n",
       "        start: function(event, ui) {\n",
       "            pass_mouse_events = false;\n",
       "        },\n",
       "        resize: function(event, ui) {\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "        stop: function(event, ui) {\n",
       "            pass_mouse_events = true;\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "    });\n",
       "\n",
       "    function mouse_event_fn(event) {\n",
       "        if (pass_mouse_events)\n",
       "            return fig.mouse_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    rubberband.mousedown('button_press', mouse_event_fn);\n",
       "    rubberband.mouseup('button_release', mouse_event_fn);\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband.mousemove('motion_notify', mouse_event_fn);\n",
       "\n",
       "    rubberband.mouseenter('figure_enter', mouse_event_fn);\n",
       "    rubberband.mouseleave('figure_leave', mouse_event_fn);\n",
       "\n",
       "    canvas_div.on(\"wheel\", function (event) {\n",
       "        event = event.originalEvent;\n",
       "        event['data'] = 'scroll'\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        mouse_event_fn(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.append(canvas);\n",
       "    canvas_div.append(rubberband);\n",
       "\n",
       "    this.rubberband = rubberband;\n",
       "    this.rubberband_canvas = rubberband[0];\n",
       "    this.rubberband_context = rubberband[0].getContext(\"2d\");\n",
       "    this.rubberband_context.strokeStyle = \"#000000\";\n",
       "\n",
       "    this._resize_canvas = function(width, height) {\n",
       "        // Keep the size of the canvas, canvas container, and rubber band\n",
       "        // canvas in synch.\n",
       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\n",
       "\n",
       "        rubberband.attr('width', width);\n",
       "        rubberband.attr('height', height);\n",
       "    }\n",
       "\n",
       "    // Set the figure to an initial 600x600px, this will subsequently be updated\n",
       "    // upon first draw.\n",
       "    this._resize_canvas(600, 600);\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    $(this.rubberband_canvas).bind(\"contextmenu\",function(e){\n",
       "        return false;\n",
       "    });\n",
       "\n",
       "    function set_focus () {\n",
       "        canvas.focus();\n",
       "        canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    window.setTimeout(set_focus, 100);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items) {\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) {\n",
       "            // put a spacer in here.\n",
       "            continue;\n",
       "        }\n",
       "        var button = $('<button/>');\n",
       "        button.addClass('ui-button ui-widget ui-state-default ui-corner-all ' +\n",
       "                        'ui-button-icon-only');\n",
       "        button.attr('role', 'button');\n",
       "        button.attr('aria-disabled', 'false');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "\n",
       "        var icon_img = $('<span/>');\n",
       "        icon_img.addClass('ui-button-icon-primary ui-icon');\n",
       "        icon_img.addClass(image);\n",
       "        icon_img.addClass('ui-corner-all');\n",
       "\n",
       "        var tooltip_span = $('<span/>');\n",
       "        tooltip_span.addClass('ui-button-text');\n",
       "        tooltip_span.html(tooltip);\n",
       "\n",
       "        button.append(icon_img);\n",
       "        button.append(tooltip_span);\n",
       "\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    var fmt_picker_span = $('<span/>');\n",
       "\n",
       "    var fmt_picker = $('<select/>');\n",
       "    fmt_picker.addClass('mpl-toolbar-option ui-widget ui-widget-content');\n",
       "    fmt_picker_span.append(fmt_picker);\n",
       "    nav_element.append(fmt_picker_span);\n",
       "    this.format_dropdown = fmt_picker[0];\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = $(\n",
       "            '<option/>', {selected: fmt === mpl.default_extension}).html(fmt);\n",
       "        fmt_picker.append(option)\n",
       "    }\n",
       "\n",
       "    // Add hover states to the ui-buttons\n",
       "    $( \".ui-button\" ).hover(\n",
       "        function() { $(this).addClass(\"ui-state-hover\");},\n",
       "        function() { $(this).removeClass(\"ui-state-hover\");}\n",
       "    );\n",
       "\n",
       "    var status_bar = $('<span class=\"mpl-message\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.request_resize = function(x_pixels, y_pixels) {\n",
       "    // Request matplotlib to resize the figure. Matplotlib will then trigger a resize in the client,\n",
       "    // which will in turn request a refresh of the image.\n",
       "    this.send_message('resize', {'width': x_pixels, 'height': y_pixels});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_message = function(type, properties) {\n",
       "    properties['type'] = type;\n",
       "    properties['figure_id'] = this.id;\n",
       "    this.ws.send(JSON.stringify(properties));\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_draw_message = function() {\n",
       "    if (!this.waiting) {\n",
       "        this.waiting = true;\n",
       "        this.ws.send(JSON.stringify({type: \"draw\", figure_id: this.id}));\n",
       "    }\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    var format_dropdown = fig.format_dropdown;\n",
       "    var format = format_dropdown.options[format_dropdown.selectedIndex].value;\n",
       "    fig.ondownload(fig, format);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_resize = function(fig, msg) {\n",
       "    var size = msg['size'];\n",
       "    if (size[0] != fig.canvas.width || size[1] != fig.canvas.height) {\n",
       "        fig._resize_canvas(size[0], size[1]);\n",
       "        fig.send_message(\"refresh\", {});\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function(fig, msg) {\n",
       "    var x0 = msg['x0'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\n",
       "    x0 = Math.floor(x0) + 0.5;\n",
       "    y0 = Math.floor(y0) + 0.5;\n",
       "    x1 = Math.floor(x1) + 0.5;\n",
       "    y1 = Math.floor(y1) + 0.5;\n",
       "    var min_x = Math.min(x0, x1);\n",
       "    var min_y = Math.min(y0, y1);\n",
       "    var width = Math.abs(x1 - x0);\n",
       "    var height = Math.abs(y1 - y0);\n",
       "\n",
       "    fig.rubberband_context.clearRect(\n",
       "        0, 0, fig.canvas.width, fig.canvas.height);\n",
       "\n",
       "    fig.rubberband_context.strokeRect(min_x, min_y, width, height);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_figure_label = function(fig, msg) {\n",
       "    // Updates the figure title.\n",
       "    fig.header.textContent = msg['label'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_cursor = function(fig, msg) {\n",
       "    var cursor = msg['cursor'];\n",
       "    switch(cursor)\n",
       "    {\n",
       "    case 0:\n",
       "        cursor = 'pointer';\n",
       "        break;\n",
       "    case 1:\n",
       "        cursor = 'default';\n",
       "        break;\n",
       "    case 2:\n",
       "        cursor = 'crosshair';\n",
       "        break;\n",
       "    case 3:\n",
       "        cursor = 'move';\n",
       "        break;\n",
       "    }\n",
       "    fig.rubberband_canvas.style.cursor = cursor;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_message = function(fig, msg) {\n",
       "    fig.message.textContent = msg['message'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_draw = function(fig, msg) {\n",
       "    // Request the server to send over a new figure.\n",
       "    fig.send_draw_message();\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_image_mode = function(fig, msg) {\n",
       "    fig.image_mode = msg['mode'];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Called whenever the canvas gets updated.\n",
       "    this.send_message(\"ack\", {});\n",
       "}\n",
       "\n",
       "// A function to construct a web socket function for onmessage handling.\n",
       "// Called in the figure constructor.\n",
       "mpl.figure.prototype._make_on_message_function = function(fig) {\n",
       "    return function socket_on_message(evt) {\n",
       "        if (evt.data instanceof Blob) {\n",
       "            /* FIXME: We get \"Resource interpreted as Image but\n",
       "             * transferred with MIME type text/plain:\" errors on\n",
       "             * Chrome.  But how to set the MIME type?  It doesn't seem\n",
       "             * to be part of the websocket stream */\n",
       "            evt.data.type = \"image/png\";\n",
       "\n",
       "            /* Free the memory for the previous frames */\n",
       "            if (fig.imageObj.src) {\n",
       "                (window.URL || window.webkitURL).revokeObjectURL(\n",
       "                    fig.imageObj.src);\n",
       "            }\n",
       "\n",
       "            fig.imageObj.src = (window.URL || window.webkitURL).createObjectURL(\n",
       "                evt.data);\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "        else if (typeof evt.data === 'string' && evt.data.slice(0, 21) == \"data:image/png;base64\") {\n",
       "            fig.imageObj.src = evt.data;\n",
       "            fig.updated_canvas_event();\n",
       "            fig.waiting = false;\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        var msg = JSON.parse(evt.data);\n",
       "        var msg_type = msg['type'];\n",
       "\n",
       "        // Call the  \"handle_{type}\" callback, which takes\n",
       "        // the figure and JSON message as its only arguments.\n",
       "        try {\n",
       "            var callback = fig[\"handle_\" + msg_type];\n",
       "        } catch (e) {\n",
       "            console.log(\"No handler for the '\" + msg_type + \"' message type: \", msg);\n",
       "            return;\n",
       "        }\n",
       "\n",
       "        if (callback) {\n",
       "            try {\n",
       "                // console.log(\"Handling '\" + msg_type + \"' message: \", msg);\n",
       "                callback(fig, msg);\n",
       "            } catch (e) {\n",
       "                console.log(\"Exception inside the 'handler_\" + msg_type + \"' callback:\", e, e.stack, msg);\n",
       "            }\n",
       "        }\n",
       "    };\n",
       "}\n",
       "\n",
       "// from http://stackoverflow.com/questions/1114465/getting-mouse-location-in-canvas\n",
       "mpl.findpos = function(e) {\n",
       "    //this section is from http://www.quirksmode.org/js/events_properties.html\n",
       "    var targ;\n",
       "    if (!e)\n",
       "        e = window.event;\n",
       "    if (e.target)\n",
       "        targ = e.target;\n",
       "    else if (e.srcElement)\n",
       "        targ = e.srcElement;\n",
       "    if (targ.nodeType == 3) // defeat Safari bug\n",
       "        targ = targ.parentNode;\n",
       "\n",
       "    // jQuery normalizes the pageX and pageY\n",
       "    // pageX,Y are the mouse positions relative to the document\n",
       "    // offset() returns the position of the element relative to the document\n",
       "    var x = e.pageX - $(targ).offset().left;\n",
       "    var y = e.pageY - $(targ).offset().top;\n",
       "\n",
       "    return {\"x\": x, \"y\": y};\n",
       "};\n",
       "\n",
       "/*\n",
       " * return a copy of an object with only non-object keys\n",
       " * we need this to avoid circular references\n",
       " * http://stackoverflow.com/a/24161582/3208463\n",
       " */\n",
       "function simpleKeys (original) {\n",
       "  return Object.keys(original).reduce(function (obj, key) {\n",
       "    if (typeof original[key] !== 'object')\n",
       "        obj[key] = original[key]\n",
       "    return obj;\n",
       "  }, {});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.mouse_event = function(event, name) {\n",
       "    var canvas_pos = mpl.findpos(event)\n",
       "\n",
       "    if (name === 'button_press')\n",
       "    {\n",
       "        this.canvas.focus();\n",
       "        this.canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    var x = canvas_pos.x * mpl.ratio;\n",
       "    var y = canvas_pos.y * mpl.ratio;\n",
       "\n",
       "    this.send_message(name, {x: x, y: y, button: event.button,\n",
       "                             step: event.step,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "\n",
       "    /* This prevents the web browser from automatically changing to\n",
       "     * the text insertion cursor when the button is pressed.  We want\n",
       "     * to control all of the cursor setting manually through the\n",
       "     * 'cursor' event from matplotlib */\n",
       "    event.preventDefault();\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    // Handle any extra behaviour associated with a key event\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.key_event = function(event, name) {\n",
       "\n",
       "    // Prevent repeat events\n",
       "    if (name == 'key_press')\n",
       "    {\n",
       "        if (event.which === this._key)\n",
       "            return;\n",
       "        else\n",
       "            this._key = event.which;\n",
       "    }\n",
       "    if (name == 'key_release')\n",
       "        this._key = null;\n",
       "\n",
       "    var value = '';\n",
       "    if (event.ctrlKey && event.which != 17)\n",
       "        value += \"ctrl+\";\n",
       "    if (event.altKey && event.which != 18)\n",
       "        value += \"alt+\";\n",
       "    if (event.shiftKey && event.which != 16)\n",
       "        value += \"shift+\";\n",
       "\n",
       "    value += 'k';\n",
       "    value += event.which.toString();\n",
       "\n",
       "    this._key_event_extra(event, name);\n",
       "\n",
       "    this.send_message(name, {key: value,\n",
       "                             guiEvent: simpleKeys(event)});\n",
       "    return false;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onclick = function(name) {\n",
       "    if (name == 'download') {\n",
       "        this.handle_save(this, null);\n",
       "    } else {\n",
       "        this.send_message(\"toolbar_button\", {name: name});\n",
       "    }\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.toolbar_button_onmouseover = function(tooltip) {\n",
       "    this.message.textContent = tooltip;\n",
       "};\n",
       "mpl.toolbar_items = [[\"Home\", \"Reset original view\", \"fa fa-home icon-home\", \"home\"], [\"Back\", \"Back to  previous view\", \"fa fa-arrow-left icon-arrow-left\", \"back\"], [\"Forward\", \"Forward to next view\", \"fa fa-arrow-right icon-arrow-right\", \"forward\"], [\"\", \"\", \"\", \"\"], [\"Pan\", \"Pan axes with left mouse, zoom with right\", \"fa fa-arrows icon-move\", \"pan\"], [\"Zoom\", \"Zoom to rectangle\", \"fa fa-square-o icon-check-empty\", \"zoom\"], [\"\", \"\", \"\", \"\"], [\"Download\", \"Download plot\", \"fa fa-floppy-o icon-save\", \"download\"]];\n",
       "\n",
       "mpl.extensions = [\"eps\", \"pdf\", \"png\", \"ps\", \"raw\", \"svg\"];\n",
       "\n",
       "mpl.default_extension = \"png\";var comm_websocket_adapter = function(comm) {\n",
       "    // Create a \"websocket\"-like object which calls the given IPython comm\n",
       "    // object with the appropriate methods. Currently this is a non binary\n",
       "    // socket, so there is still some room for performance tuning.\n",
       "    var ws = {};\n",
       "\n",
       "    ws.close = function() {\n",
       "        comm.close()\n",
       "    };\n",
       "    ws.send = function(m) {\n",
       "        //console.log('sending', m);\n",
       "        comm.send(m);\n",
       "    };\n",
       "    // Register the callback with on_msg.\n",
       "    comm.on_msg(function(msg) {\n",
       "        //console.log('receiving', msg['content']['data'], msg);\n",
       "        // Pass the mpl event to the overriden (by mpl) onmessage function.\n",
       "        ws.onmessage(msg['content']['data'])\n",
       "    });\n",
       "    return ws;\n",
       "}\n",
       "\n",
       "mpl.mpl_figure_comm = function(comm, msg) {\n",
       "    // This is the function which gets called when the mpl process\n",
       "    // starts-up an IPython Comm through the \"matplotlib\" channel.\n",
       "\n",
       "    var id = msg.content.data.id;\n",
       "    // Get hold of the div created by the display call when the Comm\n",
       "    // socket was opened in Python.\n",
       "    var element = $(\"#\" + id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm)\n",
       "\n",
       "    function ondownload(figure, format) {\n",
       "        window.open(figure.imageObj.src);\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy,\n",
       "                           ondownload,\n",
       "                           element.get(0));\n",
       "\n",
       "    // Call onopen now - mpl needs it, as it is assuming we've passed it a real\n",
       "    // web socket which is closed, not our websocket->open comm proxy.\n",
       "    ws_proxy.onopen();\n",
       "\n",
       "    fig.parent_element = element.get(0);\n",
       "    fig.cell_info = mpl.find_output_cell(\"<div id='\" + id + \"'></div>\");\n",
       "    if (!fig.cell_info) {\n",
       "        console.error(\"Failed to find cell for figure\", id, fig);\n",
       "        return;\n",
       "    }\n",
       "\n",
       "    var output_index = fig.cell_info[2]\n",
       "    var cell = fig.cell_info[0];\n",
       "\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function(fig, msg) {\n",
       "    var width = fig.canvas.width/mpl.ratio\n",
       "    fig.root.unbind('remove')\n",
       "\n",
       "    // Update the output cell to use the data from the current canvas.\n",
       "    fig.push_to_output();\n",
       "    var dataURL = fig.canvas.toDataURL();\n",
       "    // Re-enable the keyboard manager in IPython - without this line, in FF,\n",
       "    // the notebook keyboard shortcuts fail.\n",
       "    IPython.keyboard_manager.enable()\n",
       "    $(fig.parent_element).html('<img src=\"' + dataURL + '\" width=\"' + width + '\">');\n",
       "    fig.close_ws(fig, msg);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.close_ws = function(fig, msg){\n",
       "    fig.send_message('closing', msg);\n",
       "    // fig.ws.close()\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.push_to_output = function(remove_interactive) {\n",
       "    // Turn the data on the canvas into data in the output cell.\n",
       "    var width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Tell IPython that the notebook contents must change.\n",
       "    IPython.notebook.set_dirty(true);\n",
       "    this.send_message(\"ack\", {});\n",
       "    var fig = this;\n",
       "    // Wait a second, then push the new image to the DOM so\n",
       "    // that it is saved nicely (might be nice to debounce this).\n",
       "    setTimeout(function () { fig.push_to_output() }, 1000);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items){\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) { continue; };\n",
       "\n",
       "        var button = $('<button class=\"btn btn-default\" href=\"#\" title=\"' + name + '\"><i class=\"fa ' + image + ' fa-lg\"></i></button>');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = $('<span class=\"mpl-message\" style=\"text-align:right; float: right;\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = $('<div class=\"btn-group inline pull-right\"></div>');\n",
       "    var button = $('<button class=\"btn btn-mini btn-primary\" href=\"#\" title=\"Stop Interaction\"><i class=\"fa fa-power-off icon-remove icon-large\"></i></button>');\n",
       "    button.click(function (evt) { fig.handle_close(fig, {}); } );\n",
       "    button.mouseover('Stop Interaction', toolbar_mouse_event);\n",
       "    buttongrp.append(button);\n",
       "    var titlebar = this.root.find($('.ui-dialog-titlebar'));\n",
       "    titlebar.prepend(buttongrp);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(el){\n",
       "    var fig = this\n",
       "    el.on(\"remove\", function(){\n",
       "\tfig.close_ws(fig, {});\n",
       "    });\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(el){\n",
       "    // this is important to make the div 'focusable\n",
       "    el.attr('tabindex', 0)\n",
       "    // reach out to IPython and tell the keyboard manager to turn it's self\n",
       "    // off when our div gets focus\n",
       "\n",
       "    // location in version 3\n",
       "    if (IPython.notebook.keyboard_manager) {\n",
       "        IPython.notebook.keyboard_manager.register_events(el);\n",
       "    }\n",
       "    else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    var manager = IPython.notebook.keyboard_manager;\n",
       "    if (!manager)\n",
       "        manager = IPython.keyboard_manager;\n",
       "\n",
       "    // Check for shift+enter\n",
       "    if (event.shiftKey && event.which == 13) {\n",
       "        this.canvas_div.blur();\n",
       "        // select the cell after this one\n",
       "        var index = IPython.notebook.find_cell_index(this.cell_info[0]);\n",
       "        IPython.notebook.select(index + 1);\n",
       "    }\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    fig.ondownload(fig, null);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.find_output_cell = function(html_output) {\n",
       "    // Return the cell and output element which can be found *uniquely* in the notebook.\n",
       "    // Note - this is a bit hacky, but it is done because the \"notebook_saving.Notebook\"\n",
       "    // IPython event is triggered only after the cells have been serialised, which for\n",
       "    // our purposes (turning an active figure into a static one), is too late.\n",
       "    var cells = IPython.notebook.get_cells();\n",
       "    var ncells = cells.length;\n",
       "    for (var i=0; i<ncells; i++) {\n",
       "        var cell = cells[i];\n",
       "        if (cell.cell_type === 'code'){\n",
       "            for (var j=0; j<cell.output_area.outputs.length; j++) {\n",
       "                var data = cell.output_area.outputs[j];\n",
       "                if (data.data) {\n",
       "                    // IPython >= 3 moved mimebundle to data attribute of output\n",
       "                    data = data.data;\n",
       "                }\n",
       "                if (data['text/html'] == html_output) {\n",
       "                    return [cell, data, j];\n",
       "                }\n",
       "            }\n",
       "        }\n",
       "    }\n",
       "}\n",
       "\n",
       "// Register the function which deals with the matplotlib target/channel.\n",
       "// The kernel may be null if the page has been refreshed.\n",
       "if (IPython.notebook.kernel != null) {\n",
       "    IPython.notebook.kernel.comm_manager.register_target('matplotlib', mpl.mpl_figure_comm);\n",
       "}\n"
      ],
      "text/plain": [
       "<IPython.core.display.Javascript object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
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width=\"640\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "# Lets first make some semi-realistic transfer function\n",
    "\n",
    "tf_points = 500\n",
    "\n",
    "tf_freq = np.linspace(0, 1000, tf_points)\n",
    "tf_amp = np.zeros(tf_points)\n",
    "tf_amp += np.hanning(2 * tf_points)[tf_points:][::-1]  # A high-pass\n",
    "tf_amp += (\n",
    "    0.1  # Note: a transfer function with very low values give unphysical compensation\n",
    ")\n",
    "tf_amp /= tf_amp.max()\n",
    "\n",
    "# and some experimental noise\n",
    "tf_noise_amp = 0.02\n",
    "tf_amp += (\n",
    "    np.convolve(0.02 * np.random.randn(tf_points), np.array([0.5, 1, 0.5]), mode=\"same\")\n",
    "    / 2\n",
    ")\n",
    "\n",
    "# And then our favourite signal: the square wave\n",
    "\n",
    "sig_points = 1000\n",
    "signal = squarewave(sig_points, periods=10) + 0.01 * np.random.randn(1000)\n",
    "SR = 2000  # We pretend that the signal was sampled with this sample rate\n",
    "time = np.linspace(0, sig_points / SR, sig_points)\n",
    "\n",
    "# Then we may apply the filter we made\n",
    "\n",
    "signal_filtered = applyCustomTransferFunction(signal, SR, tf_freq, tf_amp)\n",
    "\n",
    "# Or conversely, we may apply its inverse\n",
    "\n",
    "signal_compensated = applyCustomTransferFunction(\n",
    "    signal, SR, tf_freq, tf_amp, invert=True\n",
    ")\n",
    "\n",
    "# Finally, it's nice to visualise things\n",
    "\n",
    "fig, axs = plt.subplots(2, 2)\n",
    "axs[0, 0].plot(tf_freq, tf_amp)\n",
    "axs[0, 0].set_xlabel(\"Freq. (Hz)\")\n",
    "axs[0, 0].set_ylabel(\"Transfer func.\")\n",
    "\n",
    "axs[0, 1].plot(time, signal, color=\"#ff9900\")\n",
    "axs[0, 1].set_xlabel(\"Time (s)\")\n",
    "axs[0, 1].set_ylabel(\"Sig. ampl. (arb. un.)\")\n",
    "axs[0, 1].set_title(\"Input\")\n",
    "\n",
    "axs[1, 0].plot(time, signal_filtered, color=\"#339966\")\n",
    "axs[1, 0].set_xlabel(\"Time (s)\")\n",
    "axs[1, 0].set_ylabel(\"Sig. ampl. (arb. un.)\")\n",
    "axs[1, 0].set_title(\"Filtered\")\n",
    "\n",
    "axs[1, 1].plot(time, signal_compensated, color=\"#990033\")\n",
    "axs[1, 1].set_xlabel(\"Time (s)\")\n",
    "axs[1, 1].set_ylabel(\"Sig.ampl. (arb. un.)\")\n",
    "axs[1, 1].set_title(\"Compensated\")\n",
    "\n",
    "plt.tight_layout()"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {
    "collapsed": true
   },
   "outputs": [],
   "source": []
  }
 ],
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   "nbconvert_exporter": "python",
   "pygments_lexer": "ipython3",
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