{
 "cells": [
  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\n",
       "\n",
       "mpl.get_websocket_type = function() {\n",
       "    if (typeof(WebSocket) !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof(MozWebSocket) !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert('Your browser does not have WebSocket support.' +\n",
       "              'Please try Chrome, Safari or Firefox ≥ 6. ' +\n",
       "              'Firefox 4 and 5 are also supported but you ' +\n",
       "              'have to enable WebSockets in about:config.');\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure = function(figure_id, websocket, ondownload, parent_element) {\n",
       "    this.id = figure_id;\n",
       "\n",
       "    this.ws = websocket;\n",
       "\n",
       "    this.supports_binary = (this.ws.binaryType != undefined);\n",
       "\n",
       "    if (!this.supports_binary) {\n",
       "        var warnings = document.getElementById(\"mpl-warnings\");\n",
       "        if (warnings) {\n",
       "            warnings.style.display = 'block';\n",
       "            warnings.textContent = (\n",
       "                \"This browser does not support binary websocket messages. \" +\n",
       "                    \"Performance may be slow.\");\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.imageObj = new Image();\n",
       "\n",
       "    this.context = undefined;\n",
       "    this.message = undefined;\n",
       "    this.canvas = undefined;\n",
       "    this.rubberband_canvas = undefined;\n",
       "    this.rubberband_context = undefined;\n",
       "    this.format_dropdown = undefined;\n",
       "\n",
       "    this.image_mode = 'full';\n",
       "\n",
       "    this.root = $('<div/>');\n",
       "    this._root_extra_style(this.root)\n",
       "    this.root.attr('style', 'display: inline-block');\n",
       "\n",
       "    $(parent_element).append(this.root);\n",
       "\n",
       "    this._init_header(this);\n",
       "    this._init_canvas(this);\n",
       "    this._init_toolbar(this);\n",
       "\n",
       "    var fig = this;\n",
       "\n",
       "    this.waiting = false;\n",
       "\n",
       "    this.ws.onopen =  function () {\n",
       "            fig.send_message(\"supports_binary\", {value: fig.supports_binary});\n",
       "            fig.send_message(\"send_image_mode\", {});\n",
       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
       "            }\n",
       "            fig.send_message(\"refresh\", {});\n",
       "        }\n",
       "\n",
       "    this.imageObj.onload = function() {\n",
       "            if (fig.image_mode == 'full') {\n",
       "                // Full images could contain transparency (where diff images\n",
       "                // almost always do), so we need to clear the canvas so that\n",
       "                // there is no ghosting.\n",
       "                fig.context.clearRect(0, 0, fig.canvas.width, fig.canvas.height);\n",
       "            }\n",
       "            fig.context.drawImage(fig.imageObj, 0, 0);\n",
       "        };\n",
       "\n",
       "    this.imageObj.onunload = function() {\n",
       "        fig.ws.close();\n",
       "    }\n",
       "\n",
       "    this.ws.onmessage = this._make_on_message_function(this);\n",
       "\n",
       "    this.ondownload = ondownload;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_header = function() {\n",
       "    var titlebar = $(\n",
       "        '<div class=\"ui-dialog-titlebar ui-widget-header ui-corner-all ' +\n",
       "        'ui-helper-clearfix\"/>');\n",
       "    var titletext = $(\n",
       "        '<div class=\"ui-dialog-title\" style=\"width: 100%; ' +\n",
       "        'text-align: center; padding: 3px;\"/>');\n",
       "    titlebar.append(titletext)\n",
       "    this.root.append(titlebar);\n",
       "    this.header = titletext[0];\n",
       "}\n",
       "\n",
       "\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = $('<div/>');\n",
       "\n",
       "    canvas_div.attr('style', 'position: relative; clear: both; outline: 0');\n",
       "\n",
       "    function canvas_keyboard_event(event) {\n",
       "        return fig.key_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    canvas_div.keydown('key_press', canvas_keyboard_event);\n",
       "    canvas_div.keyup('key_release', canvas_keyboard_event);\n",
       "    this.canvas_div = canvas_div\n",
       "    this._canvas_extra_style(canvas_div)\n",
       "    this.root.append(canvas_div);\n",
       "\n",
       "    var canvas = $('<canvas/>');\n",
       "    canvas.addClass('mpl-canvas');\n",
       "    canvas.attr('style', \"left: 0; top: 0; z-index: 0; outline: 0\")\n",
       "\n",
       "    this.canvas = canvas[0];\n",
       "    this.context = canvas[0].getContext(\"2d\");\n",
       "\n",
       "    var backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\n",
       "\n",
       "    var rubberband = $('<canvas/>');\n",
       "    rubberband.attr('style', \"position: absolute; left: 0; top: 0; z-index: 1;\")\n",
       "\n",
       "    var pass_mouse_events = true;\n",
       "\n",
       "    canvas_div.resizable({\n",
       "        start: function(event, ui) {\n",
       "            pass_mouse_events = false;\n",
       "        },\n",
       "        resize: function(event, ui) {\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "        stop: function(event, ui) {\n",
       "            pass_mouse_events = true;\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "    });\n",
       "\n",
       "    function mouse_event_fn(event) {\n",
       "        if (pass_mouse_events)\n",
       "            return fig.mouse_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    rubberband.mousedown('button_press', mouse_event_fn);\n",
       "    rubberband.mouseup('button_release', mouse_event_fn);\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband.mousemove('motion_notify', mouse_event_fn);\n",
       "\n",
       "    rubberband.mouseenter('figure_enter', mouse_event_fn);\n",
       "    rubberband.mouseleave('figure_leave', mouse_event_fn);\n",
       "\n",
       "    canvas_div.on(\"wheel\", function (event) {\n",
       "        event = event.originalEvent;\n",
       "        event['data'] = 'scroll'\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        mouse_event_fn(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.append(canvas);\n",
       "    canvas_div.append(rubberband);\n",
       "\n",
       "    this.rubberband = rubberband;\n",
       "    this.rubberband_canvas = rubberband[0];\n",
       "    this.rubberband_context = rubberband[0].getContext(\"2d\");\n",
       "    this.rubberband_context.strokeStyle = \"#000000\";\n",
       "\n",
       "    this._resize_canvas = function(width, height) {\n",
       "        // Keep the size of the canvas, canvas container, and rubber band\n",
       "        // canvas in synch.\n",
       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\n",
       "\n",
       "        rubberband.attr('width', width);\n",
       "        rubberband.attr('height', height);\n",
       "    }\n",
       "\n",
       "    // Set the figure to an initial 600x600px, this will subsequently be updated\n",
       "    // upon first draw.\n",
       "    this._resize_canvas(600, 600);\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    $(this.rubberband_canvas).bind(\"contextmenu\",function(e){\n",
       "        return false;\n",
       "    });\n",
       "\n",
       "    function set_focus () {\n",
       "        canvas.focus();\n",
       "        canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    window.setTimeout(set_focus, 100);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items) {\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) {\n",
       "            // put a spacer in here.\n",
       "            continue;\n",
       "        }\n",
       "        var button = $('<button/>');\n",
       "        button.addClass('ui-button ui-widget ui-state-default ui-corner-all ' +\n",
       "                        'ui-button-icon-only');\n",
       "        button.attr('role', 'button');\n",
       "        button.attr('aria-disabled', 'false');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "\n",
       "        var icon_img = $('<span/>');\n",
       "        icon_img.addClass('ui-button-icon-primary ui-icon');\n",
       "        icon_img.addClass(image);\n",
       "        icon_img.addClass('ui-corner-all');\n",
       "\n",
       "        var tooltip_span = $('<span/>');\n",
       "        tooltip_span.addClass('ui-button-text');\n",
       "        tooltip_span.html(tooltip);\n",
       "\n",
       "        button.append(icon_img);\n",
       "        button.append(tooltip_span);\n",
       "\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    var fmt_picker_span = $('<span/>');\n",
       "\n",
       "    var fmt_picker = $('<select/>');\n",
       "    fmt_picker.addClass('mpl-toolbar-option ui-widget ui-widget-content');\n",
       "    fmt_picker_span.append(fmt_picker);\n",
       "    nav_element.append(fmt_picker_span);\n",
       "    this.format_dropdown = fmt_picker[0];\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = $(\n",
       "            '<option/>', {selected: fmt === mpl.default_extension}).html(fmt);\n",
       "        fmt_picker.append(option)\n",
       "    }\n",
       "\n",
       "    // Add hover states to the ui-buttons\n",
       "    $( \".ui-button\" ).hover(\n",
       "        function() { $(this).addClass(\"ui-state-hover\");},\n",
       "        function() { $(this).removeClass(\"ui-state-hover\");}\n",
       "    );\n",
       "\n",
       "    var status_bar = $('<span class=\"mpl-message\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.request_resize = function(x_pixels, y_pixels) {\n",
       "    // Request matplotlib to resize the figure. Matplotlib will then trigger a resize in the client,\n",
       "    // which will in turn request a refresh of the image.\n",
       "    this.send_message('resize', {'width': x_pixels, 'height': y_pixels});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_message = function(type, properties) {\n",
       "    properties['type'] = type;\n",
       "    properties['figure_id'] = this.id;\n",
       "    this.ws.send(JSON.stringify(properties));\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_draw_message = function() {\n",
       "    if (!this.waiting) {\n",
       "        this.waiting = true;\n",
       "        this.ws.send(JSON.stringify({type: \"draw\", figure_id: this.id}));\n",
       "    }\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    var format_dropdown = fig.format_dropdown;\n",
       "    var format = format_dropdown.options[format_dropdown.selectedIndex].value;\n",
       "    fig.ondownload(fig, format);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_resize = function(fig, msg) {\n",
       "    var size = msg['size'];\n",
       "    if (size[0] != fig.canvas.width || size[1] != fig.canvas.height) {\n",
       "        fig._resize_canvas(size[0], size[1]);\n",
       "        fig.send_message(\"refresh\", {});\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function(fig, msg) {\n",
       "    var x0 = msg['x0'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\n",
       "    x0 = Math.floor(x0) + 0.5;\n",
       "    y0 = Math.floor(y0) + 0.5;\n",
       "    x1 = Math.floor(x1) + 0.5;\n",
       "    y1 = Math.floor(y1) + 0.5;\n",
       "    var min_x = Math.min(x0, x1);\n",
       "    var min_y = Math.min(y0, y1);\n",
       "    var width = Math.abs(x1 - x0);\n",
       "    var height = Math.abs(y1 - y0);\n",
       "\n",
       "    fig.rubberband_context.clearRect(\n",
       "        0, 0, fig.canvas.width, 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 overridden (by mpl) onmessage function.\n",
       "        ws.onmessage(msg['content']['data'])\n",
       "    });\n",
       "    return ws;\n",
       "}\n",
       "\n",
       "mpl.mpl_figure_comm = function(comm, msg) {\n",
       "    // This is the function which gets called when the mpl process\n",
       "    // starts-up an IPython Comm through the \"matplotlib\" channel.\n",
       "\n",
       "    var id = msg.content.data.id;\n",
       "    // Get hold of the div created by the display call when the Comm\n",
       "    // socket was opened in Python.\n",
       "    var element = $(\"#\" + id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm)\n",
       "\n",
       "    function ondownload(figure, format) {\n",
       "        window.open(figure.imageObj.src);\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy,\n",
       "                           ondownload,\n",
       "                           element.get(0));\n",
       "\n",
       "    // Call onopen now - mpl needs it, as it is assuming we've passed it a real\n",
       "    // web socket which is closed, not our websocket->open comm proxy.\n",
       "    ws_proxy.onopen();\n",
       "\n",
       "    fig.parent_element = element.get(0);\n",
       "    fig.cell_info = mpl.find_output_cell(\"<div id='\" + id + \"'></div>\");\n",
       "    if (!fig.cell_info) {\n",
       "        console.error(\"Failed to find cell for figure\", id, fig);\n",
       "        return;\n",
       "    }\n",
       "\n",
       "    var output_index = fig.cell_info[2]\n",
       "    var cell = fig.cell_info[0];\n",
       "\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function(fig, msg) {\n",
       "    var width = fig.canvas.width/mpl.ratio\n",
       "    fig.root.unbind('remove')\n",
       "\n",
       "    // Update the output cell to use the data from the current canvas.\n",
       "    fig.push_to_output();\n",
       "    var dataURL = fig.canvas.toDataURL();\n",
       "    // Re-enable the keyboard manager in IPython - without this line, in FF,\n",
       "    // the notebook keyboard shortcuts fail.\n",
       "    IPython.keyboard_manager.enable()\n",
       "    $(fig.parent_element).html('<img src=\"' + dataURL + '\" width=\"' + width + '\">');\n",
       "    fig.close_ws(fig, msg);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.close_ws = function(fig, msg){\n",
       "    fig.send_message('closing', msg);\n",
       "    // fig.ws.close()\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.push_to_output = function(remove_interactive) {\n",
       "    // Turn the data on the canvas into data in the output cell.\n",
       "    var width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Tell IPython that the notebook contents must change.\n",
       "    IPython.notebook.set_dirty(true);\n",
       "    this.send_message(\"ack\", {});\n",
       "    var fig = this;\n",
       "    // Wait a second, then push the new image to the DOM so\n",
       "    // that it is saved nicely (might be nice to debounce this).\n",
       "    setTimeout(function () { fig.push_to_output() }, 1000);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items){\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) { continue; };\n",
       "\n",
       "        var button = $('<button class=\"btn btn-default\" href=\"#\" title=\"' + name + '\"><i class=\"fa ' + image + ' fa-lg\"></i></button>');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = $('<span class=\"mpl-message\" style=\"text-align:right; float: right;\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = $('<div class=\"btn-group inline pull-right\"></div>');\n",
       "    var button = $('<button class=\"btn btn-mini btn-primary\" href=\"#\" title=\"Stop Interaction\"><i class=\"fa fa-power-off icon-remove icon-large\"></i></button>');\n",
       "    button.click(function (evt) { fig.handle_close(fig, {}); } );\n",
       "    button.mouseover('Stop Interaction', toolbar_mouse_event);\n",
       "    buttongrp.append(button);\n",
       "    var titlebar = this.root.find($('.ui-dialog-titlebar'));\n",
       "    titlebar.prepend(buttongrp);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(el){\n",
       "    var fig = this\n",
       "    el.on(\"remove\", function(){\n",
       "\tfig.close_ws(fig, {});\n",
       "    });\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(el){\n",
       "    // this is important to make the div 'focusable\n",
       "    el.attr('tabindex', 0)\n",
       "    // reach out to IPython and tell the keyboard manager to turn it's self\n",
       "    // off when our div gets focus\n",
       "\n",
       "    // location in version 3\n",
       "    if (IPython.notebook.keyboard_manager) {\n",
       "        IPython.notebook.keyboard_manager.register_events(el);\n",
       "    }\n",
       "    else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    var manager = IPython.notebook.keyboard_manager;\n",
       "    if (!manager)\n",
       "        manager = IPython.keyboard_manager;\n",
       "\n",
       "    // Check for shift+enter\n",
       "    if (event.shiftKey && event.which == 13) {\n",
       "        this.canvas_div.blur();\n",
       "        event.shiftKey = false;\n",
       "        // Send a \"J\" for go to next cell\n",
       "        event.which = 74;\n",
       "        event.keyCode = 74;\n",
       "        manager.command_mode();\n",
       "        manager.handle_keydown(event);\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=\"1000\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "Text(0.5, 0, 'Corrente de magnetização - A')"
      ]
     },
     "execution_count": 2,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "# Curva de magnetização do Tranformador\n",
    "%matplotlib notebook\n",
    "import numpy as np\n",
    "import matplotlib.pyplot as plt\n",
    "\n",
    "\n",
    "\n",
    "# Primeira curva de magnetização\n",
    "imp = np.array([0,\n",
    "               0.3,\n",
    "               0.5,\n",
    "               0.6,\n",
    "               0.8,\n",
    "               0.9,\n",
    "               1.0,\n",
    "               1.5,\n",
    "               2,\n",
    "               3,\n",
    "               4,\n",
    "               5,\n",
    "               6,\n",
    "               7,\n",
    "               8,\n",
    "               9,\n",
    "               10,\n",
    "               20])\n",
    "\n",
    "lambp = np.array([0,\n",
    "                 0.23,\n",
    "                 0.35,\n",
    "                 0.40,\n",
    "                 0.45,\n",
    "                 0.46,\n",
    "                 0.47,\n",
    "                 0.49,\n",
    "                 0.50,\n",
    "                 0.52,\n",
    "                 0.54,\n",
    "                 0.56,\n",
    "                 0.57,\n",
    "                 0.58,\n",
    "                 0.59,\n",
    "                 0.60,\n",
    "                 0.61,\n",
    "                 0.70])\n",
    "\n",
    "\n",
    "imn = -np.flip(imp)\n",
    "lambn = -np.flip(lambp)\n",
    "\n",
    "im = np.concatenate((imn,imp))\n",
    "lambm = np.concatenate((lambn,lambp))\n",
    "\n",
    "\n",
    "\n",
    "\n",
    "# Segunda Curva de magnetização\n",
    "\n",
    "lambp2 = np.array([0,\n",
    "                 0.06,\n",
    "                 0.10,\n",
    "                 0.12,\n",
    "                 0.16,\n",
    "                 0.18,\n",
    "                 0.20,\n",
    "                 0.30,\n",
    "                 0.40,\n",
    "                 0.52,\n",
    "                 0.54,\n",
    "                 0.56,\n",
    "                 0.57,\n",
    "                 0.58,\n",
    "                 0.59,\n",
    "                 0.60,\n",
    "                 0.61,\n",
    "                 0.70])\n",
    "\n",
    "lambn2 = -np.flip(lambp2)\n",
    "lambm2 = np.concatenate((lambn2,lambp2))\n",
    "\n",
    "\n",
    "\n",
    "lambm3 = im*0.04 \n",
    "lambm4 = im*0.02 \n",
    "\n",
    "\n",
    "\n",
    "# Plotar a curva de magnetização\n",
    "fig= plt.figure(figsize=(10,6))\n",
    "plt.plot(im,lambm,im,lambm2,im,lambm3,im,lambm4)\n",
    "plt.grid()\n",
    "plt.xlim([-10,10])\n",
    "plt.ylim([-0.7,0.7])\n",
    "plt.title('Curva de Magnetização do Transformador')\n",
    "plt.ylabel('Fluxo concatenado - Wbe')\n",
    "plt.xlabel('Corrente de magnetização - A')"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "metadata": {},
   "outputs": [],
   "source": [
    "# Função para calcular a corrente de magnetização\n",
    "\n",
    "def correnteMagnetizacao(lamb_m,i_m,w_1,E_1,tempo):\n",
    "    lamb1 = -(E_1/w_1)*np.cos(w_1*tempo)\n",
    "    im = np.zeros(len(tempo))\n",
    "    for k in range(len(t)):\n",
    "        im[k] = np.interp(lamb1[k], lamb_m, i_m)\n",
    "    return im\n",
    "    \n",
    "    \n",
    "# Função para computar a série de fourier de um sinal\n",
    "# entrata - vetor do sinbal que será analisado\n",
    "# tempo - vetor de tempo\n",
    "# O vetor de entrada tem que ter o mesmo tamanho do vetor de tempo\n",
    "def serieFourier(entrada,tempo):\n",
    "    fourier = np.fft.fft(entrada)\n",
    "    passodeintegracao = tempo[1]-tempo[0]\n",
    "    frequencias = np.fft.fftfreq(len(entrada), d=passodeintegracao)\n",
    "    return frequencias, abs(fourier/(len(entrada)/2))\n"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 4,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "application/javascript": [
       "/* Put everything inside the global mpl namespace */\n",
       "window.mpl = {};\n",
       "\n",
       "\n",
       "mpl.get_websocket_type = function() {\n",
       "    if (typeof(WebSocket) !== 'undefined') {\n",
       "        return WebSocket;\n",
       "    } else if (typeof(MozWebSocket) !== 'undefined') {\n",
       "        return MozWebSocket;\n",
       "    } else {\n",
       "        alert('Your browser does not have WebSocket support.' +\n",
       "              'Please try Chrome, Safari or Firefox ≥ 6. ' +\n",
       "              'Firefox 4 and 5 are also supported but you ' +\n",
       "              'have to enable WebSockets in about:config.');\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure = function(figure_id, websocket, ondownload, parent_element) {\n",
       "    this.id = figure_id;\n",
       "\n",
       "    this.ws = websocket;\n",
       "\n",
       "    this.supports_binary = (this.ws.binaryType != undefined);\n",
       "\n",
       "    if (!this.supports_binary) {\n",
       "        var warnings = document.getElementById(\"mpl-warnings\");\n",
       "        if (warnings) {\n",
       "            warnings.style.display = 'block';\n",
       "            warnings.textContent = (\n",
       "                \"This browser does not support binary websocket messages. \" +\n",
       "                    \"Performance may be slow.\");\n",
       "        }\n",
       "    }\n",
       "\n",
       "    this.imageObj = new Image();\n",
       "\n",
       "    this.context = undefined;\n",
       "    this.message = undefined;\n",
       "    this.canvas = undefined;\n",
       "    this.rubberband_canvas = undefined;\n",
       "    this.rubberband_context = undefined;\n",
       "    this.format_dropdown = undefined;\n",
       "\n",
       "    this.image_mode = 'full';\n",
       "\n",
       "    this.root = $('<div/>');\n",
       "    this._root_extra_style(this.root)\n",
       "    this.root.attr('style', 'display: inline-block');\n",
       "\n",
       "    $(parent_element).append(this.root);\n",
       "\n",
       "    this._init_header(this);\n",
       "    this._init_canvas(this);\n",
       "    this._init_toolbar(this);\n",
       "\n",
       "    var fig = this;\n",
       "\n",
       "    this.waiting = false;\n",
       "\n",
       "    this.ws.onopen =  function () {\n",
       "            fig.send_message(\"supports_binary\", {value: fig.supports_binary});\n",
       "            fig.send_message(\"send_image_mode\", {});\n",
       "            if (mpl.ratio != 1) {\n",
       "                fig.send_message(\"set_dpi_ratio\", {'dpi_ratio': mpl.ratio});\n",
       "            }\n",
       "            fig.send_message(\"refresh\", {});\n",
       "        }\n",
       "\n",
       "    this.imageObj.onload = function() {\n",
       "            if (fig.image_mode == 'full') {\n",
       "                // Full images could contain transparency (where diff images\n",
       "                // almost always do), so we need to clear the canvas so that\n",
       "                // there is no ghosting.\n",
       "                fig.context.clearRect(0, 0, fig.canvas.width, fig.canvas.height);\n",
       "            }\n",
       "            fig.context.drawImage(fig.imageObj, 0, 0);\n",
       "        };\n",
       "\n",
       "    this.imageObj.onunload = function() {\n",
       "        fig.ws.close();\n",
       "    }\n",
       "\n",
       "    this.ws.onmessage = this._make_on_message_function(this);\n",
       "\n",
       "    this.ondownload = ondownload;\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_header = function() {\n",
       "    var titlebar = $(\n",
       "        '<div class=\"ui-dialog-titlebar ui-widget-header ui-corner-all ' +\n",
       "        'ui-helper-clearfix\"/>');\n",
       "    var titletext = $(\n",
       "        '<div class=\"ui-dialog-title\" style=\"width: 100%; ' +\n",
       "        'text-align: center; padding: 3px;\"/>');\n",
       "    titlebar.append(titletext)\n",
       "    this.root.append(titlebar);\n",
       "    this.header = titletext[0];\n",
       "}\n",
       "\n",
       "\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(canvas_div) {\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_canvas = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var canvas_div = $('<div/>');\n",
       "\n",
       "    canvas_div.attr('style', 'position: relative; clear: both; outline: 0');\n",
       "\n",
       "    function canvas_keyboard_event(event) {\n",
       "        return fig.key_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    canvas_div.keydown('key_press', canvas_keyboard_event);\n",
       "    canvas_div.keyup('key_release', canvas_keyboard_event);\n",
       "    this.canvas_div = canvas_div\n",
       "    this._canvas_extra_style(canvas_div)\n",
       "    this.root.append(canvas_div);\n",
       "\n",
       "    var canvas = $('<canvas/>');\n",
       "    canvas.addClass('mpl-canvas');\n",
       "    canvas.attr('style', \"left: 0; top: 0; z-index: 0; outline: 0\")\n",
       "\n",
       "    this.canvas = canvas[0];\n",
       "    this.context = canvas[0].getContext(\"2d\");\n",
       "\n",
       "    var backingStore = this.context.backingStorePixelRatio ||\n",
       "\tthis.context.webkitBackingStorePixelRatio ||\n",
       "\tthis.context.mozBackingStorePixelRatio ||\n",
       "\tthis.context.msBackingStorePixelRatio ||\n",
       "\tthis.context.oBackingStorePixelRatio ||\n",
       "\tthis.context.backingStorePixelRatio || 1;\n",
       "\n",
       "    mpl.ratio = (window.devicePixelRatio || 1) / backingStore;\n",
       "\n",
       "    var rubberband = $('<canvas/>');\n",
       "    rubberband.attr('style', \"position: absolute; left: 0; top: 0; z-index: 1;\")\n",
       "\n",
       "    var pass_mouse_events = true;\n",
       "\n",
       "    canvas_div.resizable({\n",
       "        start: function(event, ui) {\n",
       "            pass_mouse_events = false;\n",
       "        },\n",
       "        resize: function(event, ui) {\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "        stop: function(event, ui) {\n",
       "            pass_mouse_events = true;\n",
       "            fig.request_resize(ui.size.width, ui.size.height);\n",
       "        },\n",
       "    });\n",
       "\n",
       "    function mouse_event_fn(event) {\n",
       "        if (pass_mouse_events)\n",
       "            return fig.mouse_event(event, event['data']);\n",
       "    }\n",
       "\n",
       "    rubberband.mousedown('button_press', mouse_event_fn);\n",
       "    rubberband.mouseup('button_release', mouse_event_fn);\n",
       "    // Throttle sequential mouse events to 1 every 20ms.\n",
       "    rubberband.mousemove('motion_notify', mouse_event_fn);\n",
       "\n",
       "    rubberband.mouseenter('figure_enter', mouse_event_fn);\n",
       "    rubberband.mouseleave('figure_leave', mouse_event_fn);\n",
       "\n",
       "    canvas_div.on(\"wheel\", function (event) {\n",
       "        event = event.originalEvent;\n",
       "        event['data'] = 'scroll'\n",
       "        if (event.deltaY < 0) {\n",
       "            event.step = 1;\n",
       "        } else {\n",
       "            event.step = -1;\n",
       "        }\n",
       "        mouse_event_fn(event);\n",
       "    });\n",
       "\n",
       "    canvas_div.append(canvas);\n",
       "    canvas_div.append(rubberband);\n",
       "\n",
       "    this.rubberband = rubberband;\n",
       "    this.rubberband_canvas = rubberband[0];\n",
       "    this.rubberband_context = rubberband[0].getContext(\"2d\");\n",
       "    this.rubberband_context.strokeStyle = \"#000000\";\n",
       "\n",
       "    this._resize_canvas = function(width, height) {\n",
       "        // Keep the size of the canvas, canvas container, and rubber band\n",
       "        // canvas in synch.\n",
       "        canvas_div.css('width', width)\n",
       "        canvas_div.css('height', height)\n",
       "\n",
       "        canvas.attr('width', width * mpl.ratio);\n",
       "        canvas.attr('height', height * mpl.ratio);\n",
       "        canvas.attr('style', 'width: ' + width + 'px; height: ' + height + 'px;');\n",
       "\n",
       "        rubberband.attr('width', width);\n",
       "        rubberband.attr('height', height);\n",
       "    }\n",
       "\n",
       "    // Set the figure to an initial 600x600px, this will subsequently be updated\n",
       "    // upon first draw.\n",
       "    this._resize_canvas(600, 600);\n",
       "\n",
       "    // Disable right mouse context menu.\n",
       "    $(this.rubberband_canvas).bind(\"contextmenu\",function(e){\n",
       "        return false;\n",
       "    });\n",
       "\n",
       "    function set_focus () {\n",
       "        canvas.focus();\n",
       "        canvas_div.focus();\n",
       "    }\n",
       "\n",
       "    window.setTimeout(set_focus, 100);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items) {\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) {\n",
       "            // put a spacer in here.\n",
       "            continue;\n",
       "        }\n",
       "        var button = $('<button/>');\n",
       "        button.addClass('ui-button ui-widget ui-state-default ui-corner-all ' +\n",
       "                        'ui-button-icon-only');\n",
       "        button.attr('role', 'button');\n",
       "        button.attr('aria-disabled', 'false');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "\n",
       "        var icon_img = $('<span/>');\n",
       "        icon_img.addClass('ui-button-icon-primary ui-icon');\n",
       "        icon_img.addClass(image);\n",
       "        icon_img.addClass('ui-corner-all');\n",
       "\n",
       "        var tooltip_span = $('<span/>');\n",
       "        tooltip_span.addClass('ui-button-text');\n",
       "        tooltip_span.html(tooltip);\n",
       "\n",
       "        button.append(icon_img);\n",
       "        button.append(tooltip_span);\n",
       "\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    var fmt_picker_span = $('<span/>');\n",
       "\n",
       "    var fmt_picker = $('<select/>');\n",
       "    fmt_picker.addClass('mpl-toolbar-option ui-widget ui-widget-content');\n",
       "    fmt_picker_span.append(fmt_picker);\n",
       "    nav_element.append(fmt_picker_span);\n",
       "    this.format_dropdown = fmt_picker[0];\n",
       "\n",
       "    for (var ind in mpl.extensions) {\n",
       "        var fmt = mpl.extensions[ind];\n",
       "        var option = $(\n",
       "            '<option/>', {selected: fmt === mpl.default_extension}).html(fmt);\n",
       "        fmt_picker.append(option)\n",
       "    }\n",
       "\n",
       "    // Add hover states to the ui-buttons\n",
       "    $( \".ui-button\" ).hover(\n",
       "        function() { $(this).addClass(\"ui-state-hover\");},\n",
       "        function() { $(this).removeClass(\"ui-state-hover\");}\n",
       "    );\n",
       "\n",
       "    var status_bar = $('<span class=\"mpl-message\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.request_resize = function(x_pixels, y_pixels) {\n",
       "    // Request matplotlib to resize the figure. Matplotlib will then trigger a resize in the client,\n",
       "    // which will in turn request a refresh of the image.\n",
       "    this.send_message('resize', {'width': x_pixels, 'height': y_pixels});\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_message = function(type, properties) {\n",
       "    properties['type'] = type;\n",
       "    properties['figure_id'] = this.id;\n",
       "    this.ws.send(JSON.stringify(properties));\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.send_draw_message = function() {\n",
       "    if (!this.waiting) {\n",
       "        this.waiting = true;\n",
       "        this.ws.send(JSON.stringify({type: \"draw\", figure_id: this.id}));\n",
       "    }\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_save = function(fig, msg) {\n",
       "    var format_dropdown = fig.format_dropdown;\n",
       "    var format = format_dropdown.options[format_dropdown.selectedIndex].value;\n",
       "    fig.ondownload(fig, format);\n",
       "}\n",
       "\n",
       "\n",
       "mpl.figure.prototype.handle_resize = function(fig, msg) {\n",
       "    var size = msg['size'];\n",
       "    if (size[0] != fig.canvas.width || size[1] != fig.canvas.height) {\n",
       "        fig._resize_canvas(size[0], size[1]);\n",
       "        fig.send_message(\"refresh\", {});\n",
       "    };\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.handle_rubberband = function(fig, msg) {\n",
       "    var x0 = msg['x0'] / mpl.ratio;\n",
       "    var y0 = (fig.canvas.height - msg['y0']) / mpl.ratio;\n",
       "    var x1 = msg['x1'] / mpl.ratio;\n",
       "    var y1 = (fig.canvas.height - msg['y1']) / mpl.ratio;\n",
       "    x0 = Math.floor(x0) + 0.5;\n",
       "    y0 = Math.floor(y0) + 0.5;\n",
       "    x1 = Math.floor(x1) + 0.5;\n",
       "    y1 = Math.floor(y1) + 0.5;\n",
       "    var min_x = Math.min(x0, x1);\n",
       "    var min_y = Math.min(y0, y1);\n",
       "    var width = Math.abs(x1 - x0);\n",
       "    var height = Math.abs(y1 - y0);\n",
       "\n",
       "    fig.rubberband_context.clearRect(\n",
       "        0, 0, fig.canvas.width, 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 overridden (by mpl) onmessage function.\n",
       "        ws.onmessage(msg['content']['data'])\n",
       "    });\n",
       "    return ws;\n",
       "}\n",
       "\n",
       "mpl.mpl_figure_comm = function(comm, msg) {\n",
       "    // This is the function which gets called when the mpl process\n",
       "    // starts-up an IPython Comm through the \"matplotlib\" channel.\n",
       "\n",
       "    var id = msg.content.data.id;\n",
       "    // Get hold of the div created by the display call when the Comm\n",
       "    // socket was opened in Python.\n",
       "    var element = $(\"#\" + id);\n",
       "    var ws_proxy = comm_websocket_adapter(comm)\n",
       "\n",
       "    function ondownload(figure, format) {\n",
       "        window.open(figure.imageObj.src);\n",
       "    }\n",
       "\n",
       "    var fig = new mpl.figure(id, ws_proxy,\n",
       "                           ondownload,\n",
       "                           element.get(0));\n",
       "\n",
       "    // Call onopen now - mpl needs it, as it is assuming we've passed it a real\n",
       "    // web socket which is closed, not our websocket->open comm proxy.\n",
       "    ws_proxy.onopen();\n",
       "\n",
       "    fig.parent_element = element.get(0);\n",
       "    fig.cell_info = mpl.find_output_cell(\"<div id='\" + id + \"'></div>\");\n",
       "    if (!fig.cell_info) {\n",
       "        console.error(\"Failed to find cell for figure\", id, fig);\n",
       "        return;\n",
       "    }\n",
       "\n",
       "    var output_index = fig.cell_info[2]\n",
       "    var cell = fig.cell_info[0];\n",
       "\n",
       "};\n",
       "\n",
       "mpl.figure.prototype.handle_close = function(fig, msg) {\n",
       "    var width = fig.canvas.width/mpl.ratio\n",
       "    fig.root.unbind('remove')\n",
       "\n",
       "    // Update the output cell to use the data from the current canvas.\n",
       "    fig.push_to_output();\n",
       "    var dataURL = fig.canvas.toDataURL();\n",
       "    // Re-enable the keyboard manager in IPython - without this line, in FF,\n",
       "    // the notebook keyboard shortcuts fail.\n",
       "    IPython.keyboard_manager.enable()\n",
       "    $(fig.parent_element).html('<img src=\"' + dataURL + '\" width=\"' + width + '\">');\n",
       "    fig.close_ws(fig, msg);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.close_ws = function(fig, msg){\n",
       "    fig.send_message('closing', msg);\n",
       "    // fig.ws.close()\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.push_to_output = function(remove_interactive) {\n",
       "    // Turn the data on the canvas into data in the output cell.\n",
       "    var width = this.canvas.width/mpl.ratio\n",
       "    var dataURL = this.canvas.toDataURL();\n",
       "    this.cell_info[1]['text/html'] = '<img src=\"' + dataURL + '\" width=\"' + width + '\">';\n",
       "}\n",
       "\n",
       "mpl.figure.prototype.updated_canvas_event = function() {\n",
       "    // Tell IPython that the notebook contents must change.\n",
       "    IPython.notebook.set_dirty(true);\n",
       "    this.send_message(\"ack\", {});\n",
       "    var fig = this;\n",
       "    // Wait a second, then push the new image to the DOM so\n",
       "    // that it is saved nicely (might be nice to debounce this).\n",
       "    setTimeout(function () { fig.push_to_output() }, 1000);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._init_toolbar = function() {\n",
       "    var fig = this;\n",
       "\n",
       "    var nav_element = $('<div/>')\n",
       "    nav_element.attr('style', 'width: 100%');\n",
       "    this.root.append(nav_element);\n",
       "\n",
       "    // Define a callback function for later on.\n",
       "    function toolbar_event(event) {\n",
       "        return fig.toolbar_button_onclick(event['data']);\n",
       "    }\n",
       "    function toolbar_mouse_event(event) {\n",
       "        return fig.toolbar_button_onmouseover(event['data']);\n",
       "    }\n",
       "\n",
       "    for(var toolbar_ind in mpl.toolbar_items){\n",
       "        var name = mpl.toolbar_items[toolbar_ind][0];\n",
       "        var tooltip = mpl.toolbar_items[toolbar_ind][1];\n",
       "        var image = mpl.toolbar_items[toolbar_ind][2];\n",
       "        var method_name = mpl.toolbar_items[toolbar_ind][3];\n",
       "\n",
       "        if (!name) { continue; };\n",
       "\n",
       "        var button = $('<button class=\"btn btn-default\" href=\"#\" title=\"' + name + '\"><i class=\"fa ' + image + ' fa-lg\"></i></button>');\n",
       "        button.click(method_name, toolbar_event);\n",
       "        button.mouseover(tooltip, toolbar_mouse_event);\n",
       "        nav_element.append(button);\n",
       "    }\n",
       "\n",
       "    // Add the status bar.\n",
       "    var status_bar = $('<span class=\"mpl-message\" style=\"text-align:right; float: right;\"/>');\n",
       "    nav_element.append(status_bar);\n",
       "    this.message = status_bar[0];\n",
       "\n",
       "    // Add the close button to the window.\n",
       "    var buttongrp = $('<div class=\"btn-group inline pull-right\"></div>');\n",
       "    var button = $('<button class=\"btn btn-mini btn-primary\" href=\"#\" title=\"Stop Interaction\"><i class=\"fa fa-power-off icon-remove icon-large\"></i></button>');\n",
       "    button.click(function (evt) { fig.handle_close(fig, {}); } );\n",
       "    button.mouseover('Stop Interaction', toolbar_mouse_event);\n",
       "    buttongrp.append(button);\n",
       "    var titlebar = this.root.find($('.ui-dialog-titlebar'));\n",
       "    titlebar.prepend(buttongrp);\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._root_extra_style = function(el){\n",
       "    var fig = this\n",
       "    el.on(\"remove\", function(){\n",
       "\tfig.close_ws(fig, {});\n",
       "    });\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._canvas_extra_style = function(el){\n",
       "    // this is important to make the div 'focusable\n",
       "    el.attr('tabindex', 0)\n",
       "    // reach out to IPython and tell the keyboard manager to turn it's self\n",
       "    // off when our div gets focus\n",
       "\n",
       "    // location in version 3\n",
       "    if (IPython.notebook.keyboard_manager) {\n",
       "        IPython.notebook.keyboard_manager.register_events(el);\n",
       "    }\n",
       "    else {\n",
       "        // location in version 2\n",
       "        IPython.keyboard_manager.register_events(el);\n",
       "    }\n",
       "\n",
       "}\n",
       "\n",
       "mpl.figure.prototype._key_event_extra = function(event, name) {\n",
       "    var manager = IPython.notebook.keyboard_manager;\n",
       "    if (!manager)\n",
       "        manager = IPython.keyboard_manager;\n",
       "\n",
       "    // Check for shift+enter\n",
       "    if (event.shiftKey && event.which == 13) {\n",
       "        this.canvas_div.blur();\n",
       "        event.shiftKey = false;\n",
       "        // Send a \"J\" for go to next cell\n",
       "        event.which = 74;\n",
       "        event.keyCode = 74;\n",
       "        manager.command_mode();\n",
       "        manager.handle_keydown(event);\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>"
      ]
     },
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     "output_type": "display_data"
    },
    {
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\" width=\"900\">"
      ],
      "text/plain": [
       "<IPython.core.display.HTML object>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": [
       "<matplotlib.animation.FuncAnimation at 0x1e12553b5f8>"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "application/vnd.jupyter.widget-view+json": {
       "model_id": "2ca6b80de7cf4cce9a7b8d84abd72f97",
       "version_major": 2,
       "version_minor": 0
      },
      "text/plain": [
       "interactive(children=(Dropdown(description='Escolha', options={'Curva Linear 1': 1, 'Curva Linear 2': 4, 'Curv…"
      ]
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "from __future__ import print_function\n",
    "from ipywidgets import interact, interactive, fixed, interact_manual\n",
    "import ipywidgets as widgets\n",
    "import matplotlib.animation as animation\n",
    "\n",
    "\n",
    "w1 = 2*np.pi*60\n",
    "\n",
    "timestep = 1e-5\n",
    "\n",
    "t = np.arange(0,0.1,timestep)\n",
    "\n",
    "freq_inicial,harmonic_inicial = serieFourier(np.sin(w1*t),t)\n",
    "\n",
    "\n",
    "\n",
    "fig = plt.figure(figsize=(9,4))\n",
    "plt.subplots_adjust(wspace = 0.5, hspace = 0.5)\n",
    "\n",
    "\n",
    "\n",
    "# Gráficos de tensão e fluxo concatenado\n",
    "ax_e = fig.add_subplot(2, 2, 1)\n",
    "line_e, = ax_e.plot(t,  50*np.sin(w1*t))\n",
    "plt.xlim([0,0.1])\n",
    "plt.ylim([-250,250])\n",
    "plt.grid()\n",
    "plt.ylabel('Tensão Induzida - V')\n",
    "plt.xlabel('Tempo - s')\n",
    "ax_lamb = ax_e.twinx()\n",
    "line_lamb, = ax_lamb.plot(t,  (50/w1)*np.cos(w1*t),'r')\n",
    "plt.xlim([0,0.1])\n",
    "plt.ylim([-1.1,1.1])\n",
    "line_e.set_label('Tensão')\n",
    "line_lamb.set_label('Fluxo')\n",
    "ax_e.legend()\n",
    "ax_lamb.legend()\n",
    "plt.ylabel('Fluxo Concatenado - Wbe')\n",
    "\n",
    "\n",
    "\n",
    "\n",
    "ax = fig.add_subplot(2, 2, 2)\n",
    "line, = ax.plot(im,lambm2)\n",
    "plt.xlim([-8,8])\n",
    "plt.ylim([-0.7,0.7])\n",
    "plt.grid()\n",
    "plt.ylabel('Fluxo concatenado - Wbe')\n",
    "plt.xlabel('Corrente de magnetização - A')\n",
    "line_interativo, = ax.plot(0,0,'ro')\n",
    "#line_lamb.get_ydata()[0]\n",
    "\n",
    "ax_harm = fig.add_subplot(2, 2, 3)\n",
    "line_harm, = ax_harm.plot(freq_inicial,harmonic_inicial)\n",
    "plt.xlim([0,660])\n",
    "plt.ylim([0,5])\n",
    "plt.grid()\n",
    "plt.ylabel('Amplitude - A')\n",
    "plt.xlabel('Frequência - Hz')\n",
    "\n",
    "ax_im = fig.add_subplot(2, 2, 4)\n",
    "line_im, = ax_im.plot(t,  50*np.sin(w1*t))\n",
    "plt.xlim([0,0.1])\n",
    "plt.ylim([-8,8])\n",
    "plt.grid()\n",
    "plt.ylabel('Corrente de Magnetização - A')\n",
    "plt.xlabel('Tempo - s')\n",
    "\n",
    "\n",
    "\n",
    "\n",
    "def init():  # only required for blitting to give a clean slate.\n",
    "    line_interativo.set_ydata([np.nan])\n",
    "    return line_interativo\n",
    "\n",
    "\n",
    "def animate(i):    \n",
    "    line_interativo.set_ydata(line_lamb.get_ydata()[15*i])\n",
    "    line_interativo.set_xdata(line_im.get_ydata()[15*i])\n",
    "    return line_interativo\n",
    "\n",
    "\n",
    "\n",
    "\n",
    "def update(Escolha={'Curva Linear 1':1,'Curva Linear 2':4,'Curva Não-Linear 1':2,'Curva Não-Linear 2':3},Ep = (20,220), f = (50,100)):\n",
    "    if Escolha==1:\n",
    "        lamb_esc = lambm3\n",
    "    elif Escolha==2:\n",
    "        lamb_esc = lambm\n",
    "    elif Escolha==3:\n",
    "        lamb_esc = lambm2\n",
    "    elif Escolha==4:\n",
    "        lamb_esc = lambm4\n",
    "    line.set_ydata(lamb_esc)\n",
    "    line_e.set_ydata(Ep*np.sin(2.*np.pi*f * t))\n",
    "    line_lamb.set_ydata(-(Ep/(2*np.pi*f))*np.cos(2.*np.pi*f * t))\n",
    "    im_novo = correnteMagnetizacao(lamb_esc,im,2.*np.pi*f,Ep,t)\n",
    "    line_im.set_ydata(im_novo)\n",
    "    freq_im,harmonic_im = serieFourier(im_novo,t)\n",
    "    line_harm.set_ydata(harmonic_im)\n",
    "    fig.canvas.draw()\n",
    "\n",
    "\n",
    "ani = animation.FuncAnimation(\n",
    "    fig, animate, init_func=init,frames=int(len(line_lamb.get_ydata())/15), interval=1, blit=True, save_count=2)    \n",
    "display(ani) \n",
    "    \n",
    "e1 = interactive(update)\n",
    "\n",
    "display(e1)"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [],
   "source": []
  }
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