{
 "cells": [
  {
   "cell_type": "markdown",
   "metadata": {},
   "source": [
    "Simple PLR\n",
    "==========\n",
    "\n",
    "This example demonstrates how to use the ``.light_stamper(...)`` and ``.pupil_grabber(...)`` methods to measure and plot a simple PLR relative to the onset of any light source detectable by the Pupil Core World Camera, which in this case was a light switched on and off in a dark room."
   ]
  },
  {
   "cell_type": "code",
   "execution_count": 1,
   "metadata": {},
   "outputs": [
    {
     "name": "stdout",
     "output_type": "stream",
     "text": [
      "> Waiting for a light to stamp...\n",
      "> Grabbing 10 seconds of pupil.1.3d\n",
      "Waiting for futures...\n",
      "Waiting for futures...\n",
      "> Light stamped on frame.world at 451747.552097\n",
      "Waiting for futures...\n",
      "Waiting for futures...\n",
      "Waiting for futures...\n",
      "Waiting for futures...\n",
      "Waiting for futures...\n",
      "Waiting for futures...\n",
      "Waiting for futures...\n",
      "Waiting for futures...\n",
      "> PupilGrabber done grabbing 10 seconds of pupil.1.3d\n"
     ]
    },
    {
     "data": {
      "text/plain": [
       "<matplotlib.lines.Line2D at 0x118240b90>"
      ]
     },
     "execution_count": 1,
     "metadata": {},
     "output_type": "execute_result"
    },
    {
     "data": {
      "image/png": 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\n",
      "text/plain": [
       "<Figure size 432x288 with 1 Axes>"
      ]
     },
     "metadata": {
      "needs_background": "light"
     },
     "output_type": "display_data"
    }
   ],
   "source": [
    "from time import sleep\n",
    "\n",
    "from pyplr.pupil import PupilCore\n",
    "from pyplr.utils import unpack_data_pandas\n",
    "\n",
    "# Connect to Pupil Core\n",
    "p = PupilCore()\n",
    "\n",
    "# Start a new recording called \"my_recording\"\n",
    "p.command('R my_recording')\n",
    "\n",
    "# Wait a few seconds\n",
    "sleep(2)\n",
    "\n",
    "# Make an annotation for when the light comes on\n",
    "annotation = p.new_annotation('LIGHT_ON')\n",
    "\n",
    "# Start the .light_stamper(...) and .pupil_grabber(...)\n",
    "lst_future = p.light_stamper(annotation=annotation, timeout=10)\n",
    "pgr_future = p.pupil_grabber(topic='pupil.1.3d', seconds=10)\n",
    "\n",
    "##################################\n",
    "# Administer light stimulus here #\n",
    "##################################\n",
    "\n",
    "# Wait for the futures\n",
    "while lst_future.running() or pgr_future.running():\n",
    "    print('Waiting for futures...')\n",
    "    sleep(1)\n",
    "\n",
    "# End recording\n",
    "p.command('r')\n",
    "\n",
    "# Get the timestamp and pupil data\n",
    "timestamp = lst_future.result()[1]\n",
    "data = unpack_data_pandas(pgr_future.result())\n",
    "\n",
    "# Plot the PLR\n",
    "ax = data['diameter_3d'].plot()\n",
    "ax.axvline(x=timestamp, color='k')"
   ]
  }
 ],
 "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": "3.7.7"
  }
 },
 "nbformat": 4,
 "nbformat_minor": 4
}