{
 "cells": [
  {
   "cell_type": "markdown",
   "source": [
    "# Python exercises: Plotting"
   ],
   "metadata": {
    "collapsed": false
   }
  },
  {
   "cell_type": "code",
   "execution_count": 5,
   "outputs": [],
   "source": [
    "from jupyterquiz import display_quiz"
   ],
   "metadata": {
    "collapsed": false
   }
  },
  {
   "cell_type": "markdown",
   "source": [
    "During the exercises in the dataframes module you learned how to import a dataset, and how to look at the dataframe from multiple angles. In the python lessons for this module you learned that you can use matplotlib in three different ways. From \"quick-and-rigid\" to \"slow-but-flexible\", these are:\n",
    "(1) Seaborn plotting\n",
    "(2) Pyplot procedural plotting\n",
    "(3) Object-oriented plotting\n",
    "\n",
    "For the exercises below we will load in the same dataframe as you used in dataframe_exercises. This dataframe contains data for a Stroop task. You can try out the Stroop task for yourself [here](https://www.psytoolkit.org/experiment-library/stroop.html). In the dataframe, there is \"congruency\" column which defines which condition the trial (row) was:\n",
    "- \"inc\" stands for \"incongruent\" (word and color do **not** match)\n",
    "- \"con\" stands for \"congruent\" (word and color match)\n",
    "- \"neutral\" stands for trials where there was no word, but only color\n",
    "\n",
    "See below for examples of each stimuli:\n",
    "![stroop](images/stroop_stimuli.png)"
   ],
   "metadata": {
    "collapsed": false
   },
   "outputs": []
  },
  {
   "cell_type": "code",
   "execution_count": 6,
   "outputs": [
    {
     "data": {
      "text/plain": "<IPython.core.display.HTML object>",
      "text/html": "<div id=\"hsBhwjUkfmAz\" data-shufflequestions=\"False\"\n               data-shuffleanswers=\"True\"\n               data-preserveresponses=\"false\"\n               data-numquestions=\"1000000\"> <style>:root {\n    --medium-slate-blue: #6f78ffff;\n    --orange-pantone: #f75c03ff;\n    --russian-violet: #392061ff;\n    --maximum-yellow-red: #ffc857ff;\n    --viridian-green: #119da4ff;\n    --incorrect-red: #c80202;\n    --correct-green: #009113;\n}\n\n.Quiz {\n    max-width: 600px;\n    margin-top: 15px;\n    margin-left: auto;\n    margin-right: auto;\n    margin-bottom: 15px;\n    padding-bottom: 4px;\n    padding-top: 4px;\n    line-height: 1.1;\n    font-size: 16pt;\n}\n\n.QuizCode {\n    font-size: 14pt;\n    margin-top: 10px;\n    margin-left: 20px;\n    margin-right: 20px;\n}\n\n.QuizCode>pre {\n    padding: 4px;\n}\n\n.Answer {\n    margin: 10px 0;\n    display: grid;\n    grid-template-columns: auto auto;\n    grid-gap: 10px;\n}\n\n.Feedback {\n    font-size: 16pt;\n    text-align: center;\n    min-height: 2em;\n}\n\n.Input {\n    align: left;\n    font-size: 20pt;\n}\n\n.Input-text {\n    display: block;\n    margin: 10px;\n    color: inherit;\n    width: 140px;\n    background-color: #c0c0c0;\n    color: #fff;\n    padding: 5px;\n    padding-left: 10px;\n    font-family: inherit;\n    font-size: 20px;\n    font-weight: inherit;\n    line-height: 20pt;\n    border: none;\n    border-radius: 0.2rem;\n    transition: box-shadow 0.1s);\n}\n\n.Input-text:focus {\n    outline: none;\n    background-color: #c0c0c0;\n    box-shadow: 0.6rem 0.8rem 1.4rem -0.5rem #999999;\n}\n\n.MCButton {\n    background: #fafafa;\n    border: 1px solid #eee;\n    border-radius: 10px;\n    padding: 10px;\n    font-size: 16px;\n    cursor: pointer;\n    text-align: center;\n}\n\n.MCButton p {\n    color: inherit;\n}\n\n.MultipleChoiceQn {\n    padding: 10px;\n    background: var(--medium-slate-blue);\n    color: #fafafa;\n    border-radius: 10px;\n}\n\n.ManyChoiceQn {\n    padding: 10px;\n    background: var(--orange-pantone);\n    color: #fafafa;\n    border-radius: 10px;\n}\n\n.NumericQn {\n    padding: 10px;\n    background: var(--russian-violet);\n    color: #fafafa;\n    border-radius: 10px;\n}\n\n.NumericQn p {\n    color: inherit;\n}\n\n.InpLabel {\n    line-height: 34px;\n    float: left;\n    margin-right: 10px;\n    color: #101010;\n    font-size: 15pt;\n}\n\n.incorrect {\n    color: var(--incorrect-red);\n}\n\n.correct {\n    color: var(--correct-green);\n}\n\n.correctButton {\n    /*\n    background: var(--correct-green);\n   */\n    animation: correct-anim 0.6s ease;\n    animation-fill-mode: forwards;\n    color: #fafafa;\n    box-shadow: inset 0px 0px 5px #555555;\n    outline: none;\n}\n\n.incorrectButton {\n    animation: incorrect-anim 0.8s ease;\n    animation-fill-mode: forwards;\n    color: #fafafa;\n    box-shadow: inset 0px 0px 5px #555555;\n    outline: none;\n}\n\n@keyframes incorrect-anim {\n    100% {\n        background-color: var(--incorrect-red);\n    }\n}\n\n@keyframes correct-anim {\n    100% {\n        background-color: var(--correct-green);\n    }\n}</style>"
     },
     "metadata": {},
     "output_type": "display_data"
    },
    {
     "data": {
      "text/plain": "<IPython.core.display.Javascript object>",
      "application/javascript": "var questionshsBhwjUkfmAz=[\n  {\n    \"question\": \"On which trial type will participants probably be the slowest\",\n    \"type\": \"multiple_choice\",\n    \"answers\": [\n      {\n        \"answer\": \"Incongruent trials\",\n        \"correct\": true,\n        \"feedback\": \"Correct!\"\n      },\n      {\n        \"answer\": \"Neutral trials\",\n        \"correct\": false,\n        \"feedback\": \"Try again!\"\n      },\n      {\n        \"answer\": \"Congruent trials\",\n        \"correct\": false,\n        \"feedback\": \"Try the Stroop task for yourself, which trialtype is easier?\"\n      }\n    ]\n  },\n  {\n    \"question\": \"And on which trial type will participants be the quickest\",\n    \"type\": \"multiple_choice\",\n    \"answers\": [\n      {\n        \"answer\": \"Incongruent trials\",\n        \"correct\": false,\n        \"feedback\": \"Try again!\"\n      },\n      {\n        \"answer\": \"Neutral trials\",\n        \"correct\": false,\n        \"feedback\": \"Try again!\"\n      },\n      {\n        \"answer\": \"Congruent trials\",\n        \"correct\": true,\n        \"feedback\": \"Correct!\"\n      }\n    ]\n  }\n];\n    // Make a random ID\nfunction makeid(length) {\n    var result = [];\n    var characters = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz';\n    var charactersLength = characters.length;\n    for (var i = 0; i < length; i++) {\n        result.push(characters.charAt(Math.floor(Math.random() * charactersLength)));\n    }\n    return result.join('');\n}\n\n// Choose a random subset of an array. Can also be used to shuffle the array\nfunction getRandomSubarray(arr, size) {\n    var shuffled = arr.slice(0), i = arr.length, temp, index;\n    while (i--) {\n        index = Math.floor((i + 1) * Math.random());\n        temp = shuffled[index];\n        shuffled[index] = shuffled[i];\n        shuffled[i] = temp;\n    }\n    return shuffled.slice(0, size);\n}\n\nfunction printResponses(responsesContainer) {\n    var responses=JSON.parse(responsesContainer.dataset.responses);\n    var stringResponses='<B>IMPORTANT!</B>To preserve this answer sequence for submission, when you have finalized your answers: <ol> <li> Copy the text in this cell below \"Answer String\"</li> <li> Double click on the cell directly below the Answer String, labeled \"Replace Me\"</li> <li> Select the whole \"Replace Me\" text</li> <li> Paste in your answer string and press shift-Enter.</li><li>Save the notebook using the save icon or File->Save Notebook menu item</li></ul><br><br><br><b>Answer String:</b><br> ';\n    console.log(responses);\n    responses.forEach((response, index) => {\n        if (response) {\n            console.log(index + ': ' + response);\n            stringResponses+= index + ': ' + response +\"<BR>\";\n        }\n    });\n    responsesContainer.innerHTML=stringResponses;\n}\nfunction check_mc() {\n    var id = this.id.split('-')[0];\n    //var response = this.id.split('-')[1];\n    //console.log(response);\n    //console.log(\"In check_mc(), id=\"+id);\n    //console.log(event.srcElement.id)           \n    //console.log(event.srcElement.dataset.correct)   \n    //console.log(event.srcElement.dataset.feedback)\n\n    var label = event.srcElement;\n    //console.log(label, label.nodeName);\n    var depth = 0;\n    while ((label.nodeName != \"LABEL\") && (depth < 20)) {\n        label = label.parentElement;\n        console.log(depth, label);\n        depth++;\n    }\n\n\n\n    var answers = label.parentElement.children;\n\n    //console.log(answers);\n\n\n    // Split behavior based on multiple choice vs many choice:\n    var fb = document.getElementById(\"fb\" + id);\n\n\n\n\n    if (fb.dataset.numcorrect == 1) {\n        // What follows is for the saved responses stuff\n        var outerContainer = fb.parentElement.parentElement;\n        var responsesContainer = document.getElementById(\"responses\" + outerContainer.id);\n        if (responsesContainer) {\n            //console.log(responsesContainer);\n            var response = label.firstChild.innerText;\n            if (label.querySelector(\".QuizCode\")){\n                response+= label.querySelector(\".QuizCode\").firstChild.innerText;\n            }\n            console.log(response);\n            //console.log(document.getElementById(\"quizWrap\"+id));\n            var qnum = document.getElementById(\"quizWrap\"+id).dataset.qnum;\n            console.log(\"Question \" + qnum);\n            //console.log(id, \", got numcorrect=\",fb.dataset.numcorrect);\n            var responses=JSON.parse(responsesContainer.dataset.responses);\n            console.log(responses);\n            responses[qnum]= response;\n            responsesContainer.setAttribute('data-responses', JSON.stringify(responses));\n            printResponses(responsesContainer);\n        }\n        // End code to preserve responses\n        \n        for (var i = 0; i < answers.length; i++) {\n            var child = answers[i];\n            //console.log(child);\n            child.className = \"MCButton\";\n        }\n\n\n\n        if (label.dataset.correct == \"true\") {\n            // console.log(\"Correct action\");\n            if (\"feedback\" in label.dataset) {\n                fb.textContent = jaxify(label.dataset.feedback);\n            } else {\n                fb.textContent = \"Correct!\";\n            }\n            label.classList.add(\"correctButton\");\n\n            fb.className = \"Feedback\";\n            fb.classList.add(\"correct\");\n\n        } else {\n            if (\"feedback\" in label.dataset) {\n                fb.textContent = jaxify(label.dataset.feedback);\n            } else {\n                fb.textContent = \"Incorrect -- try again.\";\n            }\n            //console.log(\"Error action\");\n            label.classList.add(\"incorrectButton\");\n            fb.className = \"Feedback\";\n            fb.classList.add(\"incorrect\");\n        }\n    }\n    else {\n        var reset = false;\n        var feedback;\n         if (label.dataset.correct == \"true\") {\n            if (\"feedback\" in label.dataset) {\n                feedback = jaxify(label.dataset.feedback);\n            } else {\n                feedback = \"Correct!\";\n            }\n            if (label.dataset.answered <= 0) {\n                if (fb.dataset.answeredcorrect < 0) {\n                    fb.dataset.answeredcorrect = 1;\n                    reset = true;\n                } else {\n                    fb.dataset.answeredcorrect++;\n                }\n                if (reset) {\n                    for (var i = 0; i < answers.length; i++) {\n                        var child = answers[i];\n                        child.className = \"MCButton\";\n                        child.dataset.answered = 0;\n                    }\n                }\n                label.classList.add(\"correctButton\");\n                label.dataset.answered = 1;\n                fb.className = \"Feedback\";\n                fb.classList.add(\"correct\");\n\n            }\n        } else {\n            if (\"feedback\" in label.dataset) {\n                feedback = jaxify(label.dataset.feedback);\n            } else {\n                feedback = \"Incorrect -- try again.\";\n            }\n            if (fb.dataset.answeredcorrect > 0) {\n                fb.dataset.answeredcorrect = -1;\n                reset = true;\n            } else {\n                fb.dataset.answeredcorrect--;\n            }\n\n            if (reset) {\n                for (var i = 0; i < answers.length; i++) {\n                    var child = answers[i];\n                    child.className = \"MCButton\";\n                    child.dataset.answered = 0;\n                }\n            }\n            label.classList.add(\"incorrectButton\");\n            fb.className = \"Feedback\";\n            fb.classList.add(\"incorrect\");\n        }\n        // What follows is for the saved responses stuff\n        var outerContainer = fb.parentElement.parentElement;\n        var responsesContainer = document.getElementById(\"responses\" + outerContainer.id);\n        if (responsesContainer) {\n            //console.log(responsesContainer);\n            var response = label.firstChild.innerText;\n            if (label.querySelector(\".QuizCode\")){\n                response+= label.querySelector(\".QuizCode\").firstChild.innerText;\n            }\n            console.log(response);\n            //console.log(document.getElementById(\"quizWrap\"+id));\n            var qnum = document.getElementById(\"quizWrap\"+id).dataset.qnum;\n            console.log(\"Question \" + qnum);\n            //console.log(id, \", got numcorrect=\",fb.dataset.numcorrect);\n            var responses=JSON.parse(responsesContainer.dataset.responses);\n            if (label.dataset.correct == \"true\") {\n                if (typeof(responses[qnum]) == \"object\"){\n                    if (!responses[qnum].includes(response))\n                        responses[qnum].push(response);\n                } else{\n                    responses[qnum]= [ response ];\n                }\n            } else {\n                responses[qnum]= response;\n            }\n            console.log(responses);\n            responsesContainer.setAttribute('data-responses', JSON.stringify(responses));\n            printResponses(responsesContainer);\n        }\n        // End save responses stuff\n\n\n\n        var numcorrect = fb.dataset.numcorrect;\n        var answeredcorrect = fb.dataset.answeredcorrect;\n        if (answeredcorrect >= 0) {\n            fb.textContent = feedback + \" [\" + answeredcorrect + \"/\" + numcorrect + \"]\";\n        } else {\n            fb.textContent = feedback + \" [\" + 0 + \"/\" + numcorrect + \"]\";\n        }\n\n\n    }\n\n    if (typeof MathJax != 'undefined') {\n        var version = MathJax.version;\n        console.log('MathJax version', version);\n        if (version[0] == \"2\") {\n            MathJax.Hub.Queue([\"Typeset\", MathJax.Hub]);\n        } else if (version[0] == \"3\") {\n            MathJax.typeset([fb]);\n        }\n    } else {\n        console.log('MathJax not detected');\n    }\n\n}\n\nfunction make_mc(qa, shuffle_answers, outerqDiv, qDiv, aDiv, id) {\n    var shuffled;\n    if (shuffle_answers == \"True\") {\n        //console.log(shuffle_answers+\" read as true\");\n        shuffled = getRandomSubarray(qa.answers, qa.answers.length);\n    } else {\n        //console.log(shuffle_answers+\" read as false\");\n        shuffled = qa.answers;\n    }\n\n\n    var num_correct = 0;\n\n\n\n    shuffled.forEach((item, index, ans_array) => {\n        //console.log(answer);\n\n        // Make input element\n        var inp = document.createElement(\"input\");\n        inp.type = \"radio\";\n        inp.id = \"quizo\" + id + index;\n        inp.style = \"display:none;\";\n        aDiv.append(inp);\n\n        //Make label for input element\n        var lab = document.createElement(\"label\");\n        lab.className = \"MCButton\";\n        lab.id = id + '-' + index;\n        lab.onclick = check_mc;\n        var aSpan = document.createElement('span');\n        aSpan.classsName = \"\";\n        //qDiv.id=\"quizQn\"+id+index;\n        if (\"answer\" in item) {\n            aSpan.innerHTML = jaxify(item.answer);\n            //aSpan.innerHTML=item.answer;\n        }\n        lab.append(aSpan);\n\n        // Create div for code inside question\n        var codeSpan;\n        if (\"code\" in item) {\n            codeSpan = document.createElement('span');\n            codeSpan.id = \"code\" + id + index;\n            codeSpan.className = \"QuizCode\";\n            var codePre = document.createElement('pre');\n            codeSpan.append(codePre);\n            var codeCode = document.createElement('code');\n            codePre.append(codeCode);\n            codeCode.innerHTML = item.code;\n            lab.append(codeSpan);\n            //console.log(codeSpan);\n        }\n\n        //lab.textContent=item.answer;\n\n        // Set the data attributes for the answer\n        lab.setAttribute('data-correct', item.correct);\n        if (item.correct) {\n            num_correct++;\n        }\n        if (\"feedback\" in item) {\n            lab.setAttribute('data-feedback', item.feedback);\n        }\n        lab.setAttribute('data-answered', 0);\n\n        aDiv.append(lab);\n\n    });\n\n    if (num_correct > 1) {\n        outerqDiv.className = \"ManyChoiceQn\";\n    } else {\n        outerqDiv.className = \"MultipleChoiceQn\";\n    }\n\n    return num_correct;\n\n}\nfunction check_numeric(ths, event) {\n\n    if (event.keyCode === 13) {\n        ths.blur();\n\n        var id = ths.id.split('-')[0];\n\n        var submission = ths.value;\n        if (submission.indexOf('/') != -1) {\n            var sub_parts = submission.split('/');\n            //console.log(sub_parts);\n            submission = sub_parts[0] / sub_parts[1];\n        }\n        //console.log(\"Reader entered\", submission);\n\n        if (\"precision\" in ths.dataset) {\n            var precision = ths.dataset.precision;\n            // console.log(\"1:\", submission)\n            submission = Math.round((1 * submission + Number.EPSILON) * 10 ** precision) / 10 ** precision;\n            // console.log(\"Rounded to \", submission, \" precision=\", precision  );\n        }\n\n\n        //console.log(\"In check_numeric(), id=\"+id);\n        //console.log(event.srcElement.id)           \n        //console.log(event.srcElement.dataset.feedback)\n\n        var fb = document.getElementById(\"fb\" + id);\n        fb.style.display = \"none\";\n        fb.textContent = \"Incorrect -- try again.\";\n\n        var answers = JSON.parse(ths.dataset.answers);\n        //console.log(answers);\n\n        var defaultFB = \"\";\n        var correct;\n        var done = false;\n        answers.every(answer => {\n            //console.log(answer.type);\n\n            correct = false;\n            // if (answer.type==\"value\"){\n            if ('value' in answer) {\n                if (submission == answer.value) {\n                    fb.textContent = jaxify(answer.feedback);\n                    correct = answer.correct;\n                    //console.log(answer.correct);\n                    done = true;\n                }\n                // } else if (answer.type==\"range\") {\n            } else if ('range' in answer) {\n                //console.log(answer.range);\n                if ((submission >= answer.range[0]) && (submission < answer.range[1])) {\n                    fb.textContent = jaxify(answer.feedback);\n                    correct = answer.correct;\n                    //console.log(answer.correct);\n                    done = true;\n                }\n            } else if (answer.type == \"default\") {\n                defaultFB = answer.feedback;\n            }\n            if (done) {\n                return false; // Break out of loop if this has been marked correct\n            } else {\n                return true; // Keep looking for case that includes this as a correct answer\n            }\n        });\n\n        if ((!done) && (defaultFB != \"\")) {\n            fb.innerHTML = jaxify(defaultFB);\n            //console.log(\"Default feedback\", defaultFB);\n        }\n\n        fb.style.display = \"block\";\n        if (correct) {\n            ths.className = \"Input-text\";\n            ths.classList.add(\"correctButton\");\n            fb.className = \"Feedback\";\n            fb.classList.add(\"correct\");\n        } else {\n            ths.className = \"Input-text\";\n            ths.classList.add(\"incorrectButton\");\n            fb.className = \"Feedback\";\n            fb.classList.add(\"incorrect\");\n        }\n\n        // What follows is for the saved responses stuff\n        var outerContainer = fb.parentElement.parentElement;\n        var responsesContainer = document.getElementById(\"responses\" + outerContainer.id);\n        if (responsesContainer) {\n            console.log(submission);\n            var qnum = document.getElementById(\"quizWrap\"+id).dataset.qnum;\n            //console.log(\"Question \" + qnum);\n            //console.log(id, \", got numcorrect=\",fb.dataset.numcorrect);\n            var responses=JSON.parse(responsesContainer.dataset.responses);\n            console.log(responses);\n            if (submission == ths.value){\n                responses[qnum]= submission;\n            } else {\n                responses[qnum]= ths.value + \"(\" + submission +\")\";\n            }\n            responsesContainer.setAttribute('data-responses', JSON.stringify(responses));\n            printResponses(responsesContainer);\n        }\n        // End code to preserve responses\n\n        if (typeof MathJax != 'undefined') {\n            var version = MathJax.version;\n            console.log('MathJax version', version);\n            if (version[0] == \"2\") {\n                MathJax.Hub.Queue([\"Typeset\", MathJax.Hub]);\n            } else if (version[0] == \"3\") {\n                MathJax.typeset([fb]);\n            }\n        } else {\n            console.log('MathJax not detected');\n        }\n        return false;\n    }\n\n}\n\nfunction isValid(el, charC) {\n    //console.log(\"Input char: \", charC);\n    if (charC == 46) {\n        if (el.value.indexOf('.') === -1) {\n            return true;\n        } else if (el.value.indexOf('/') != -1) {\n            var parts = el.value.split('/');\n            if (parts[1].indexOf('.') === -1) {\n                return true;\n            }\n        }\n        else {\n            return false;\n        }\n    } else if (charC == 47) {\n        if (el.value.indexOf('/') === -1) {\n            if ((el.value != \"\") && (el.value != \".\")) {\n                return true;\n            } else {\n                return false;\n            }\n        } else {\n            return false;\n        }\n    } else if (charC == 45) {\n        var edex = el.value.indexOf('e');\n        if (edex == -1) {\n            edex = el.value.indexOf('E');\n        }\n\n        if (el.value == \"\") {\n            return true;\n        } else if (edex == (el.value.length - 1)) { // If just after e or E\n            return true;\n        } else {\n            return false;\n        }\n    } else if (charC == 101) { // \"e\"\n        if ((el.value.indexOf('e') === -1) && (el.value.indexOf('E') === -1) && (el.value.indexOf('/') == -1)) {\n            // Prev symbol must be digit or decimal point:\n            if (el.value.slice(-1).search(/\\d/) >= 0) {\n                return true;\n            } else if (el.value.slice(-1).search(/\\./) >= 0) {\n                return true;\n            } else {\n                return false;\n            }\n        } else {\n            return false;\n        }\n    } else {\n        if (charC > 31 && (charC < 48 || charC > 57))\n            return false;\n    }\n    return true;\n}\n\nfunction numeric_keypress(evnt) {\n    var charC = (evnt.which) ? evnt.which : evnt.keyCode;\n\n    if (charC == 13) {\n        check_numeric(this, evnt);\n    } else {\n        return isValid(this, charC);\n    }\n}\n\n\n\n\n\nfunction make_numeric(qa, outerqDiv, qDiv, aDiv, id) {\n\n\n\n    //console.log(answer);\n\n\n    outerqDiv.className = \"NumericQn\";\n    aDiv.style.display = 'block';\n\n    var lab = document.createElement(\"label\");\n    lab.className = \"InpLabel\";\n    lab.textContent = \"Type numeric answer here:\";\n    aDiv.append(lab);\n\n    var inp = document.createElement(\"input\");\n    inp.type = \"text\";\n    //inp.id=\"input-\"+id;\n    inp.id = id + \"-0\";\n    inp.className = \"Input-text\";\n    inp.setAttribute('data-answers', JSON.stringify(qa.answers));\n    if (\"precision\" in qa) {\n        inp.setAttribute('data-precision', qa.precision);\n    }\n    aDiv.append(inp);\n    //console.log(inp);\n\n    //inp.addEventListener(\"keypress\", check_numeric);\n    //inp.addEventListener(\"keypress\", numeric_keypress);\n    /*\n    inp.addEventListener(\"keypress\", function(event) {\n        return numeric_keypress(this, event);\n    }\n                        );\n                        */\n    //inp.onkeypress=\"return numeric_keypress(this, event)\";\n    inp.onkeypress = numeric_keypress;\n    inp.onpaste = event => false;\n\n    inp.addEventListener(\"focus\", function (event) {\n        this.value = \"\";\n        return false;\n    }\n    );\n\n\n}\nfunction jaxify(string) {\n    var mystring = string;\n\n    var count = 0;\n    var loc = mystring.search(/([^\\\\]|^)(\\$)/);\n\n    var count2 = 0;\n    var loc2 = mystring.search(/([^\\\\]|^)(\\$\\$)/);\n\n    //console.log(loc);\n\n    while ((loc >= 0) || (loc2 >= 0)) {\n\n        /* Have to replace all the double $$ first with current implementation */\n        if (loc2 >= 0) {\n            if (count2 % 2 == 0) {\n                mystring = mystring.replace(/([^\\\\]|^)(\\$\\$)/, \"$1\\\\[\");\n            } else {\n                mystring = mystring.replace(/([^\\\\]|^)(\\$\\$)/, \"$1\\\\]\");\n            }\n            count2++;\n        } else {\n            if (count % 2 == 0) {\n                mystring = mystring.replace(/([^\\\\]|^)(\\$)/, \"$1\\\\(\");\n            } else {\n                mystring = mystring.replace(/([^\\\\]|^)(\\$)/, \"$1\\\\)\");\n            }\n            count++;\n        }\n        loc = mystring.search(/([^\\\\]|^)(\\$)/);\n        loc2 = mystring.search(/([^\\\\]|^)(\\$\\$)/);\n        //console.log(mystring,\", loc:\",loc,\", loc2:\",loc2);\n    }\n\n    //console.log(mystring);\n    return mystring;\n}\n\n\nfunction show_questions(json, mydiv) {\n    console.log('show_questions');\n    //var mydiv=document.getElementById(myid);\n    var shuffle_questions = mydiv.dataset.shufflequestions;\n    var num_questions = mydiv.dataset.numquestions;\n    var shuffle_answers = mydiv.dataset.shuffleanswers;\n\n    if (num_questions > json.length) {\n        num_questions = json.length;\n    }\n\n    var questions;\n    if ((num_questions < json.length) || (shuffle_questions == \"True\")) {\n        //console.log(num_questions+\",\"+json.length);\n        questions = getRandomSubarray(json, num_questions);\n    } else {\n        questions = json;\n    }\n\n    //console.log(\"SQ: \"+shuffle_questions+\", NQ: \" + num_questions + \", SA: \", shuffle_answers);\n\n    // Iterate over questions\n    questions.forEach((qa, index, array) => {\n        //console.log(qa.question); \n\n        var id = makeid(8);\n        //console.log(id);\n\n\n        // Create Div to contain question and answers\n        var iDiv = document.createElement('div');\n        //iDiv.id = 'quizWrap' + id + index;\n        iDiv.id = 'quizWrap' + id;\n        iDiv.className = 'Quiz';\n        iDiv.setAttribute('data-qnum', index);\n        mydiv.appendChild(iDiv);\n        // iDiv.innerHTML=qa.question;\n\n        var outerqDiv = document.createElement('div');\n        outerqDiv.id = \"OuterquizQn\" + id + index;\n\n        iDiv.append(outerqDiv);\n\n        // Create div to contain question part\n        var qDiv = document.createElement('div');\n        qDiv.id = \"quizQn\" + id + index;\n        //qDiv.textContent=qa.question;\n        qDiv.innerHTML = jaxify(qa.question);\n\n        outerqDiv.append(qDiv);\n\n        // Create div for code inside question\n        var codeDiv;\n        if (\"code\" in qa) {\n            codeDiv = document.createElement('div');\n            codeDiv.id = \"code\" + id + index;\n            codeDiv.className = \"QuizCode\";\n            var codePre = document.createElement('pre');\n            codeDiv.append(codePre);\n            var codeCode = document.createElement('code');\n            codePre.append(codeCode);\n            codeCode.innerHTML = qa.code;\n            outerqDiv.append(codeDiv);\n            //console.log(codeDiv);\n        }\n\n\n        // Create div to contain answer part\n        var aDiv = document.createElement('div');\n        aDiv.id = \"quizAns\" + id + index;\n        aDiv.className = 'Answer';\n        iDiv.append(aDiv);\n\n        //console.log(qa.type);\n\n        var num_correct;\n        if (qa.type == \"multiple_choice\") {\n            num_correct = make_mc(qa, shuffle_answers, outerqDiv, qDiv, aDiv, id);\n        } else if (qa.type == \"many_choice\") {\n            num_correct = make_mc(qa, shuffle_answers, outerqDiv, qDiv, aDiv, id);\n        } else if (qa.type == \"numeric\") {\n            //console.log(\"numeric\");\n            make_numeric(qa, outerqDiv, qDiv, aDiv, id);\n        }\n\n\n        //Make div for feedback\n        var fb = document.createElement(\"div\");\n        fb.id = \"fb\" + id;\n        //fb.style=\"font-size: 20px;text-align:center;\";\n        fb.className = \"Feedback\";\n        fb.setAttribute(\"data-answeredcorrect\", 0);\n        fb.setAttribute(\"data-numcorrect\", num_correct);\n        iDiv.append(fb);\n\n\n    });\n    var preserveResponses = mydiv.dataset.preserveresponses;\n    console.log(preserveResponses);\n    console.log(preserveResponses == \"true\");\n    if (preserveResponses == \"true\") {\n        console.log(preserveResponses);\n        // Create Div to contain record of answers\n        var iDiv = document.createElement('div');\n        iDiv.id = 'responses' + mydiv.id;\n        iDiv.className = 'JCResponses';\n        // Create a place to store responses as an empty array\n        iDiv.setAttribute('data-responses', '[]');\n\n        // Dummy Text\n        iDiv.innerHTML=\"<b>Select your answers and then follow the directions that will appear here.</b>\"\n        //iDiv.className = 'Quiz';\n        mydiv.appendChild(iDiv);\n    }\n//console.log(\"At end of show_questions\");\n    if (typeof MathJax != 'undefined') {\n        console.log(\"MathJax version\", MathJax.version);\n        var version = MathJax.version;\n        setTimeout(function(){\n            var version = MathJax.version;\n            console.log('After sleep, MathJax version', version);\n            if (version[0] == \"2\") {\n                MathJax.Hub.Queue([\"Typeset\", MathJax.Hub]);\n            } else if (version[0] == \"3\") {\n                MathJax.typeset([mydiv]);\n            }\n        }, 500);\nif (typeof version == 'undefined') {\n        } else\n        {\n            if (version[0] == \"2\") {\n                MathJax.Hub.Queue([\"Typeset\", MathJax.Hub]);\n            } else if (version[0] == \"3\") {\n                MathJax.typeset([mydiv]);\n            } else {\n                console.log(\"MathJax not found\");\n            }\n        }\n    }\n    return false;\n}\n\n        {\n        show_questions(questionshsBhwjUkfmAz,  hsBhwjUkfmAz);\n        }\n        "
     },
     "metadata": {},
     "output_type": "display_data"
    }
   ],
   "source": [
    "display_quiz(\"questions/question_1.json\")"
   ],
   "metadata": {
    "collapsed": false
   }
  },
  {
   "cell_type": "markdown",
   "source": [
    "\n",
    "## Exercise 1. Seaborn plotting\n",
    "\n",
    "Now, using seaborn, make a bar plot of the response time of each value in 'congruency'. Give the plot a title. Which value has the highest response times?"
   ],
   "metadata": {
    "collapsed": false
   }
  },
  {
   "cell_type": "code",
   "execution_count": 7,
   "outputs": [],
   "source": [
    "import pandas as pd\n",
    "import seaborn as sns\n",
    "import matplotlib.pyplot as plt\n",
    "\n",
    "df = pd.read_csv('https://raw.githubusercontent.com/JeshuaT/Experimentation1/main/content/10_dataframes/data/data_exercises/subject-1_IC.csv')\n",
    "\n",
    "# your code here"
   ],
   "metadata": {
    "collapsed": false
   }
  },
  {
   "cell_type": "markdown",
   "source": [
    "\n",
    "## Exercise 2: Matplotlib Procedural Plotting\n",
    "Now, make the same plot using the matplotlib procedural plotting approach (don't forget to include the title as well)."
   ],
   "metadata": {
    "collapsed": false
   }
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "outputs": [],
   "source": [
    "# your answer here"
   ],
   "metadata": {
    "collapsed": false
   }
  },
  {
   "cell_type": "markdown",
   "source": [
    "## Exercise 3: Matplotlib Object-Oriented Plotting\n",
    "Yes, you guessed it: now plot the same plot using the object-oriented approach (again, title!)."
   ],
   "metadata": {
    "collapsed": false
   }
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "outputs": [],
   "source": [
    "# your answer here"
   ],
   "metadata": {
    "collapsed": false
   }
  }
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