{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# Plot Interaction of Categorical Factors"
   ]
  },
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "In this example, we will visualize the interaction between categorical factors. First, we will create some categorical data. Then, we will plot it using the interaction_plot function, which internally re-codes the x-factor categories to integers."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {
    "collapsed": false
   },
   "outputs": [],
   "source": [
    "%matplotlib inline\n",
    "\n",
    "import numpy as np\n",
    "import matplotlib.pyplot as plt\n",
    "import pandas as pd\n",
    "from statsmodels.graphics.factorplots import interaction_plot"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {
    "collapsed": false
   },
   "outputs": [],
   "source": [
    "np.random.seed(12345)\n",
    "weight = pd.Series(np.repeat(['low', 'hi', 'low', 'hi'], 15), name='weight')\n",
    "nutrition = pd.Series(np.repeat(['lo_carb', 'hi_carb'], 30), name='nutrition')\n",
    "days = np.log(np.random.randint(1, 30, size=60))"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "metadata": {
    "collapsed": false
   },
   "outputs": [
    {
     "data": {
      "image/png": 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\n",
      "text/plain": [
       "<Figure size 432x432 with 1 Axes>"
      ]
     },
     "metadata": {
      "needs_background": "light"
     },
     "output_type": "display_data"
    }
   ],
   "source": [
    "fig, ax = plt.subplots(figsize=(6, 6))\n",
    "fig = interaction_plot(x=weight, trace=nutrition, response=days, \n",
    "                       colors=['red', 'blue'], markers=['D', '^'], ms=10, ax=ax)"
   ]
  }
 ],
 "metadata": {
  "kernelspec": {
   "display_name": "Python 3",
   "language": "python",
   "name": "python3"
  },
  "language_info": {
   "codemirror_mode": {
    "name": "ipython",
    "version": 3
   },
   "file_extension": ".py",
   "mimetype": "text/x-python",
   "name": "python",
   "nbconvert_exporter": "python",
   "pygments_lexer": "ipython3",
   "version": "3.7.5"
  }
 },
 "nbformat": 4,
 "nbformat_minor": 0
}