{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "# Dataset - Plotting\n",
    "\n",
    "For most plotting purposes the DataArray rather than the Dataset are used (see other other notebooks on how-to). \n",
    "\n",
    "But for comparison of different items, the Dataset.plot method can be useful. "
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {},
   "outputs": [],
   "source": [
    "import mikeio"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 2,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "text/plain": [
       "<mikeio.Dataset>\n",
       "Dimensions: (6, 958)\n",
       "Time: 2017-10-27 00:00:00 - 2017-10-27 05:00:00\n",
       "Items:\n",
       "  0:  Wind speed <Wind speed> (meter per sec)\n",
       "  1:  Wind direction <Wind Direction> (degree)"
      ]
     },
     "execution_count": 2,
     "metadata": {},
     "output_type": "execute_result"
    }
   ],
   "source": [
    "ds = mikeio.read(\"../tests/testdata/wind_north_sea.dfsu\")\n",
    "ds"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 3,
   "metadata": {},
   "outputs": [
    {
     "data": {
      "image/png": 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",
      "text/plain": [
       "<Figure size 432x288 with 1 Axes>"
      ]
     },
     "metadata": {
      "needs_background": "light"
     },
     "output_type": "display_data"
    }
   ],
   "source": [
    "ds.plot.scatter(x=\"Wind speed\", y=\"Wind direction\");"
   ]
  },
  {
   "cell_type": "code",
   "execution_count": null,
   "metadata": {},
   "outputs": [],
   "source": []
  }
 ],
 "metadata": {
  "interpreter": {
   "hash": "fa576ebcd40e010bdc0ae86b06ce09151f3424f9e9aed6893ff04f39a9299d89"
  },
  "kernelspec": {
   "display_name": "Python 3.8.10 64-bit ('base': conda)",
   "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": "3.8.10"
  },
  "orig_nbformat": 4
 },
 "nbformat": 4,
 "nbformat_minor": 2
}