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actions/stimulus-response-fwhm/
2021-03-10 12:31:15 +00:00
{
"cells": [
{
"cell_type": "markdown",
"metadata": {},
"source": [
"# Compute FWHM of PSTHs for 11 and 30Hz\n",
"\n",
"Only PSTHs with a significance level below 0.05 are used"
]
},
{
"cell_type": "code",
"execution_count": 1,
"metadata": {},
"outputs": [],
"source": [
"%load_ext autoreload\n",
"%autoreload 2"
]
},
{
"cell_type": "code",
"execution_count": 2,
"metadata": {},
"outputs": [
{
"name": "stderr",
"output_type": "stream",
"text": [
"/home/mikkel/.virtualenvs/expipe/lib/python3.6/site-packages/ipykernel_launcher.py:21: TqdmDeprecationWarning: This function will be removed in tqdm==5.0.0\n",
"Please use `tqdm.notebook.*` instead of `tqdm._tqdm_notebook.*`\n"
]
}
],
"source": [
"import matplotlib.pyplot as plt\n",
"%matplotlib inline\n",
"import spatial_maps as sp\n",
"import septum_mec.analysis.data_processing as dp\n",
"import septum_mec.analysis.registration\n",
"import expipe\n",
"import os\n",
"import pathlib\n",
"import numpy as np\n",
"import exdir\n",
"import pandas as pd\n",
"import optogenetics as og\n",
"import quantities as pq\n",
"import shutil\n",
"from distutils.dir_util import copy_tree\n",
"import seaborn as sns\n",
"from functools import reduce\n",
"from septum_mec.analysis.stimulus_response import stimulus_response_latency, compute_response\n",
"import scipy.stats\n",
"from tqdm import tqdm_notebook as tqdm\n",
"from tqdm._tqdm_notebook import tqdm_notebook\n",
"from septum_mec.analysis.statistics import load_data_frames, make_paired_tables, make_statistics_table \n",
"tqdm_notebook.pandas()\n",
"\n",
"%matplotlib widget"
]
},
{
"cell_type": "code",
"execution_count": 3,
"metadata": {},
"outputs": [],
"source": [
"std_gaussian_kde = 0.04\n",
"window_size = 0.03\n",
"tmin = 0. # delay to compute FWHM after stimulus onset"
]
},
{
"cell_type": "code",
"execution_count": 4,
"metadata": {},
"outputs": [],
"source": [
"data_loader = dp.Data()\n",
"actions = data_loader.actions\n",
"project = data_loader.project"
]
},
{
"cell_type": "code",
"execution_count": 5,
"metadata": {},
"outputs": [],
"source": [
"output = pathlib.Path('output/stimulus-response-fwhm')\n",
"(output / 'data').mkdir(parents=True, exist_ok=True)\n",
"(output / 'figures').mkdir(parents=True, exist_ok=True)\n",
"(output / 'statistics').mkdir(parents=True, exist_ok=True)"
]
},
{
"cell_type": "code",
"execution_count": 6,
"metadata": {},
"outputs": [],
"source": [
"colors = ['#d95f02','#e7298a']\n",
"labels = [\n",
" '11 Hz', \n",
" '30 Hz'\n",
"]\n",
"queries = [\n",
" 'frequency==11 and stim_location==\"ms\"',\n",
" 'frequency==30 and stim_location==\"ms\"']"
]
},
{
"cell_type": "code",
"execution_count": 7,
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"Number of sessions above threshold 194\n",
"Number of animals 4\n",
"Number of individual gridcells 139\n",
"Number of gridcell recordings 230\n"
]
}
],
"source": [
"data, labels, colors, queries = load_data_frames(queries, labels, colors)"
]
},
{
"cell_type": "code",
"execution_count": 8,
"metadata": {},
"outputs": [],
"source": [
"# use baseline==False and p_e_peak < 0.05\n",
"session_units_sig = data.query('p_e_peak == p_e_peak')"
]
},
{
"cell_type": "code",
"execution_count": 9,
"metadata": {},
"outputs": [
{
"data": {
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"<div>\n",
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" <tr style=\"text-align: right;\">\n",
" <th></th>\n",
" <th>action</th>\n",
" <th>baseline</th>\n",
" <th>entity</th>\n",
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" <th>cell_type</th>\n",
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" <th>13</th>\n",
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" <td>bs_not_gridcell</td>\n",
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" <td>#e7298a</td>\n",
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" <th>15</th>\n",
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" <td>1.0</td>\n",
" <td>frequency==30 and stim_location==\"ms\"</td>\n",
" <td>#e7298a</td>\n",
" <td>ns_inhibited</td>\n",
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" <th>16</th>\n",
" <td>1839-120619-4</td>\n",
" <td>False</td>\n",
" <td>1839</td>\n",
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" <td>False</td>\n",
" <td>True</td>\n",
" <td>4</td>\n",
" <td>ms</td>\n",
" <td>True</td>\n",
" <td>stim ii</td>\n",
" <td>...</td>\n",
" <td>NaN</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>True</td>\n",
" <td>30 Hz</td>\n",
" <td>1.0</td>\n",
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" <td>#e7298a</td>\n",
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" <td>...</td>\n",
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" <th>1279</th>\n",
" <td>1833-010719-2</td>\n",
" <td>False</td>\n",
" <td>1833</td>\n",
" <td>11.0</td>\n",
" <td>True</td>\n",
" <td>False</td>\n",
" <td>2</td>\n",
" <td>ms</td>\n",
" <td>True</td>\n",
" <td>stim i</td>\n",
" <td>...</td>\n",
" <td>NaN</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>True</td>\n",
" <td>11 Hz</td>\n",
" <td>0.0</td>\n",
" <td>frequency==11 and stim_location==\"ms\"</td>\n",
" <td>#d95f02</td>\n",
" <td>bs_not_gridcell</td>\n",
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" <tr>\n",
" <th>1280</th>\n",
" <td>1833-010719-2</td>\n",
" <td>False</td>\n",
" <td>1833</td>\n",
" <td>11.0</td>\n",
" <td>True</td>\n",
" <td>False</td>\n",
" <td>2</td>\n",
" <td>ms</td>\n",
" <td>True</td>\n",
" <td>stim i</td>\n",
" <td>...</td>\n",
" <td>NaN</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>True</td>\n",
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" <td>0.0</td>\n",
" <td>frequency==11 and stim_location==\"ms\"</td>\n",
" <td>#d95f02</td>\n",
" <td>bs_not_gridcell</td>\n",
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" <th>1281</th>\n",
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" <td>False</td>\n",
" <td>1833</td>\n",
" <td>11.0</td>\n",
" <td>True</td>\n",
" <td>False</td>\n",
" <td>2</td>\n",
" <td>ms</td>\n",
" <td>True</td>\n",
" <td>stim i</td>\n",
" <td>...</td>\n",
" <td>NaN</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>True</td>\n",
" <td>11 Hz</td>\n",
" <td>0.0</td>\n",
" <td>frequency==11 and stim_location==\"ms\"</td>\n",
" <td>#d95f02</td>\n",
" <td>bs_not_gridcell</td>\n",
" </tr>\n",
" <tr>\n",
" <th>1282</th>\n",
" <td>1833-010719-2</td>\n",
" <td>False</td>\n",
" <td>1833</td>\n",
" <td>11.0</td>\n",
" <td>True</td>\n",
" <td>False</td>\n",
" <td>2</td>\n",
" <td>ms</td>\n",
" <td>True</td>\n",
" <td>stim i</td>\n",
" <td>...</td>\n",
" <td>NaN</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>True</td>\n",
" <td>11 Hz</td>\n",
" <td>0.0</td>\n",
" <td>frequency==11 and stim_location==\"ms\"</td>\n",
" <td>#d95f02</td>\n",
" <td>bs_not_gridcell</td>\n",
" </tr>\n",
" <tr>\n",
" <th>1283</th>\n",
" <td>1833-010719-2</td>\n",
" <td>False</td>\n",
" <td>1833</td>\n",
" <td>11.0</td>\n",
" <td>True</td>\n",
" <td>False</td>\n",
" <td>2</td>\n",
" <td>ms</td>\n",
" <td>True</td>\n",
" <td>stim i</td>\n",
" <td>...</td>\n",
" <td>NaN</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>False</td>\n",
" <td>True</td>\n",
" <td>11 Hz</td>\n",
" <td>0.0</td>\n",
" <td>frequency==11 and stim_location==\"ms\"</td>\n",
" <td>#d95f02</td>\n",
" <td>bs_not_gridcell</td>\n",
" </tr>\n",
" </tbody>\n",
"</table>\n",
"<p>647 rows × 68 columns</p>\n",
"</div>"
],
"text/plain": [
" action baseline entity frequency i ii session \\\n",
"13 1839-120619-4 False 1839 30.0 False True 4 \n",
"14 1839-120619-4 False 1839 30.0 False True 4 \n",
"15 1839-120619-4 False 1839 30.0 False True 4 \n",
"16 1839-120619-4 False 1839 30.0 False True 4 \n",
"17 1839-120619-4 False 1839 30.0 False True 4 \n",
"... ... ... ... ... ... ... ... \n",
"1279 1833-010719-2 False 1833 11.0 True False 2 \n",
"1280 1833-010719-2 False 1833 11.0 True False 2 \n",
"1281 1833-010719-2 False 1833 11.0 True False 2 \n",
"1282 1833-010719-2 False 1833 11.0 True False 2 \n",
"1283 1833-010719-2 False 1833 11.0 True False 2 \n",
"\n",
" stim_location stimulated tag ... bs_ctrl ns_inhibited \\\n",
"13 ms True stim ii ... NaN False \n",
"14 ms True stim ii ... NaN True \n",
"15 ms True stim ii ... NaN True \n",
"16 ms True stim ii ... NaN False \n",
"17 ms True stim ii ... NaN False \n",
"... ... ... ... ... ... ... \n",
"1279 ms True stim i ... NaN False \n",
"1280 ms True stim i ... NaN False \n",
"1281 ms True stim i ... NaN False \n",
"1282 ms True stim i ... NaN False \n",
"1283 ms True stim i ... NaN False \n",
"\n",
" ns_not_inhibited gridcell bs_not_gridcell label label_num \\\n",
"13 False False True 30 Hz 1.0 \n",
"14 False True False 30 Hz 1.0 \n",
"15 False False False 30 Hz 1.0 \n",
"16 False False True 30 Hz 1.0 \n",
"17 False False True 30 Hz 1.0 \n",
"... ... ... ... ... ... \n",
"1279 False False True 11 Hz 0.0 \n",
"1280 False False True 11 Hz 0.0 \n",
"1281 False False True 11 Hz 0.0 \n",
"1282 False False True 11 Hz 0.0 \n",
"1283 False False True 11 Hz 0.0 \n",
"\n",
" query color cell_type \n",
"13 frequency==30 and stim_location==\"ms\" #e7298a bs_not_gridcell \n",
"14 frequency==30 and stim_location==\"ms\" #e7298a gridcell \n",
"15 frequency==30 and stim_location==\"ms\" #e7298a ns_inhibited \n",
"16 frequency==30 and stim_location==\"ms\" #e7298a bs_not_gridcell \n",
"17 frequency==30 and stim_location==\"ms\" #e7298a bs_not_gridcell \n",
"... ... ... ... \n",
"1279 frequency==11 and stim_location==\"ms\" #d95f02 bs_not_gridcell \n",
"1280 frequency==11 and stim_location==\"ms\" #d95f02 bs_not_gridcell \n",
"1281 frequency==11 and stim_location==\"ms\" #d95f02 bs_not_gridcell \n",
"1282 frequency==11 and stim_location==\"ms\" #d95f02 bs_not_gridcell \n",
"1283 frequency==11 and stim_location==\"ms\" #d95f02 bs_not_gridcell \n",
"\n",
"[647 rows x 68 columns]"
]
},
"execution_count": 9,
"metadata": {},
"output_type": "execute_result"
}
],
"source": [
"session_units_sig"
]
},
{
"cell_type": "code",
"execution_count": 10,
"metadata": {},
"outputs": [],
"source": [
"def compute_fwhm(psth, times, t_min=None):\n",
" \"\"\"\n",
" Compute PSTH. The function handles a single peak or multiple peaks. In the latter case, the peak containing the max peak is used\n",
" \"\"\"\n",
" times_accepted = times > tmin\n",
" max_idx = np.argmax(psth[times_accepted])\n",
" idxs_greater = np.where(psth[times_accepted] > 0.5 * np.ptp(psth[times_accepted]))[0]\n",
" \n",
" if np.all(np.diff(idxs_greater) == 1):\n",
" fwhm = times[times_accepted][idxs_greater[-1]] - times[times_accepted][idxs_greater[0]]\n",
" else:\n",
" # deal with multiple peaks. when multiple peaks are found, the one containing max_idx is used\n",
" diff_splits = np.where((np.diff(idxs_greater) == 1) == False)[0]\n",
" idxs_list = []\n",
" for i, ds in enumerate(diff_splits):\n",
" if i == 0:\n",
" idxs_list.append(idxs_greater[:ds+1])\n",
" elif i < len(diff_splits):\n",
" idxs_list.append(idxs_greater[diff_splits[i-1]+1:ds+1])\n",
" idxs_list.append(idxs_greater[ds+1:])\n",
" \n",
" for idxs in idxs_list:\n",
" if max_idx in idxs:\n",
" fwhm = times[times_accepted][idxs[-1]] - times[times_accepted][idxs[0]]\n",
" \n",
" return fwhm, psth[times_accepted][max_idx]"
]
},
{
"cell_type": "code",
"execution_count": 11,
"metadata": {},
"outputs": [],
"source": [
"times = np.arange(-0.005, window_size, 1e-4)\n",
"tmin = 0.005\n",
"psths = []\n",
"def process(row):\n",
" action_id = row['action']\n",
" channel_group = row['channel_group']\n",
" unit_name = row['unit_name']\n",
" name = f'{action_id}_{channel_group}_{unit_name}'\n",
" spike_times = data_loader.spike_train(action_id, channel_group, unit_name)\n",
" \n",
" spike_times = np.array(spike_times)\n",
" \n",
" stim_times = data_loader.stim_times(action_id) \n",
" \n",
" stim_times = np.array(stim_times)\n",
" \n",
" _, spikes, kernel, p_e, p_i = stimulus_response_latency(\n",
" spike_times, stim_times, window_size, std_gaussian_kde)\n",
" \n",
" psths.append(kernel(times))\n",
" fwhm, peak = compute_fwhm(kernel(times), times, tmin)\n",
" return pd.Series({\n",
" 'fwhm': fwhm,\n",
" 'peak': peak\n",
" })"
]
},
{
"cell_type": "code",
"execution_count": 12,
"metadata": {},
"outputs": [
{
"data": {
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"HBox(children=(IntProgress(value=0, max=647), HTML(value='')))"
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{
"name": "stdout",
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"text": [
"\n"
]
}
],
"source": [
"session_units_sig = session_units_sig.merge(\n",
" session_units_sig.progress_apply(process, axis=1), \n",
" left_index=True, right_index=True)"
]
},
{
"cell_type": "code",
"execution_count": 13,
"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": [
"# Quality control\n",
"fig = plt.figure()\n",
"for psth in psths:\n",
" plt.plot(times, psth, color='C0', alpha=0.3)"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"keys = [\n",
" 'fwhm',\n",
" 'peak'\n",
"]\n",
"\n",
"results, labels = make_paired_tables(session_units_sig, keys, queries=queries, labels=labels, cell_types=['gridcell', 'ns_inhibited', 'ns_not_inhibited'])"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"## Plot FWHM grouped by stimulation frequency"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"plt.rc('axes', titlesize=12)\n",
"plt.rcParams.update({\n",
" 'font.size': 12,\n",
" 'figure.figsize': (1.7, 3),\n",
" 'figure.dpi': 150\n",
"})"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"def violinplot2(data, xticks, colors):\n",
" pos = [i * 0.6 for i in range(len(data))]\n",
" print(pos)\n",
" violins = plt.violinplot(data, pos, showmeans=True, showextrema=False)\n",
" \n",
" for i, b in enumerate(violins['bodies']):\n",
" b.set_color(colors[i])\n",
" b.set_alpha (0.8)\n",
"\n",
" \n",
"\n",
" # for i, body in enumerate(violins['cbars']):\n",
" # body.set_color('C{}'.format(i))\n",
"\n",
" \n",
"\n",
" for category in ['cbars', 'cmins', 'cmaxes', 'cmedians', 'cmeans']:\n",
" if category in violins:\n",
" violins[category].set_color(['k', 'k'])\n",
" violins[category].set_linewidth(2.0)\n",
" plt.xticks(pos, xticks, rotation=45)\n",
" plt.gca().spines['top'].set_visible(False)\n",
" plt.gca().spines['right'].set_visible(False)"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"[0.0, 0.6]\n",
"[0.0, 0.6]\n",
"[0.0, 0.6]\n"
]
},
{
"data": {
"image/png": "iVBORw0KGgoAAAANSUhEUgAAATAAAAHnCAYAAAA/wAFkAAAABHNCSVQICAgIfAhkiAAAAAlwSFlzAAAXEQAAFxEByibzPwAAADh0RVh0U29mdHdhcmUAbWF0cGxvdGxpYiB2ZXJzaW9uMy4xLjIsIGh0dHA6Ly9tYXRwbG90bGliLm9yZy8li6FKAAAgAElEQVR4nOy9eZxkRZmv/8TJzNqrt+puZOlm6zGUQXEUZQC9MOM6vxkZ+eHGAI4LOqjAvXgdxWUE5iroHR0V3GdAsBUVAdFhGRVQ9n2naQIa6H2ppbv2XM+J+0ecU5VdXZmVmZVZWVn5Pp9P96nMc84bkZWZ33rfN96IUNZaBEEQGhGv3h0QBEGoFBEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAalni9OyAIlaC1PhH4Y/gwYYzJlXjfB4EfA9uMMQfVpndF2z+Rafqttb4S+EfgZ8aY0+e6X42KeGCCIDQs4oEJjcqDwCsBSvW+hIWHCJjQkBhjxoFn690Pob5ICCkIQsMiHpgwZ2itjwY+A/wlsALYBKwFvg4Y4GDgUGPMxryk9seBAPgisBLYAnw0NFkwia+1Phk4GzgKaAUeAS4uoY9HAZ8E3gwcCCSBR4HvG2Ouneb6VuAs4P3AEUALsBm4Cfg3Y8yOmdoUKkc8MGFOCEf/7gfeA3QBTwPLgS8DtwNtBW49HfghoIDngf2Bx2do67vA9cBfA1Go+QbgdzhRLHTfJ4CHcAK5IuzjaGjnV1rrr0y5fv/wNX0LOAbYDTwDrAbOA57WWh9frK/C7BABE2qO1voI4D+AGHAJ8DJjzOuBlwFfAI4F9itw+/HAd4BDjDGvwnlog0XaOg34BJABTjPGrA7bOgD4FXBigfuOAy4DEsBXgZXGmKONMauAD+O8wM9rrd8aXq+Aa4HXAHcDrzTGHGqMeV34uq4AlgE3aK1fNvNvSagEETBhLrgAl6641hjzeWNMBtzooTHmYuAHRe5NAecbY/zwnr4Z2vpCeLzYGHN19GQoeqfjQtXp+Bfc9+EaY8znjDGpvHt/DFwePvxweDwJOA7YDrzDGGPyrh8CzgQewHmZ583QZ6FCRMCEmqK1bgH+v/Dh9wtc9q0iJh4zxoyV2NZhhKUVwJVTz4fCefnU57XWHbgwEVy4Oh1fBDTwgfDxyeHxhun6Z4yxwE/Dh+8softCBUgSX6g1h+ByXgBPTHeBMeY5rfUI0D3N6XKS4Do8jhhjNhW4Zrr82Wpc8r1YH3uB3rynjgyP7wwT/9OxNDy+XGutQlETqogImFBrluf9PFrkumGmF7BkGW1FglHMY9szzXM9eT8X62M+i8PjqvBfMWK41zZcom2hRETAhFqTLyaLgEI5rOnEq1wGSrDVPs1z+X3sBtIltBXdc44x5jslXC/UABEwodYY3IhgC/Bq4LapF2itD8GJWzXaAujUWr/cGPPcNNf8+TTPvQD4OE/pSOBP0/TxaFyu7nlcIt/gasymsxfdswpXS7bZGLO99JchlIok8YWaEo7m3RI+/EiBy/6pSm1txBWdgiuA3QuttcfkKGL+fSO4UgimOx/yD7iSjkPDXNZ/hc+/X2u9ssA9VwD3AT8vpf9C+YiACXPB/8F5OKdqrf9Fa50AV0ultT4L+HQV2/pceDxXa/2/QtGKRhp/BLy+SB8tcIbW+vNa64noRGv9j8C54cP/Gx5/CTwFLAF+p7X+87zru7XW3wPeEtq8pCqvTNgHETCh5hhjHsEJgAX+FdiptX4AN8L4fdw0n4hZrSxhjPk98Flc5f43ge1a6weBnTgP8NcF7rsNV68VAF8BerXWD2mtd+JKMmLAvxpjbg6vzwLvAp7DFbM+rbV+Vmv9aPi6Ig/wPGPMf8/mNQmFEQET5gRjzPeAE4AbcSLxGtyI4GeB9+VdOl6Ftv4v8FdMhnlH4nJWpwL/XuS+b+Pmaf4cN/p5FK4y/2bgrcaYC6Zc/yLwWuCfcUWr+wOvwo02XgucENoUaoSyVkpThPoShl9P40b/2qVeSigVGYUUao7W+r9x9WBfLBBORZX6j4t4CeUgIaQwFzwDvA74htb68OjJMIn/LtxcSYDv1qNzQuMiIaRQc7TWK4B7gTW4/NcGXJ5oNW6NL4BLjTH/sz49FBoVETBhTtBad+FqrE4FDsWVH/Ti1rb/UTh6KAhlIQImCELDIjkwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhEwQRAaFhGwOURr/Vut9W/r3Q9BWCjIVKK55fA1a9YcgVuVQRCESVQlN4kHJghCwyICJghCwyICJghCwyICJghCwyICJghCw1K1Uchw04TPAO/HrTYwglvr/FvGmFuK3VvE5mrgS8A7cMuu9OG25brEGLO+yH1vAz4BHIPbtHQUt+Pyj4G10y2ap7U+EfjjDF36jTHmXeW/EkEQakFVPDCtdSdwO25husOAdbiNP98G3Ky1vqDI7YVsatwWWR/BbU3/BNAGnAE8qrV+e4H7vgH8Dvh7oDPsSw44EbgKuCHaFWcK0fbwO4B7Cvx7ptzXIQhC7aiWB/ZdnLfzOHCSMWYLgNb6DNzeeBdqre8xxtxairFwS6sbcd7TWuCfjDFJrXUL8A3gbOAXWus1xpiBvPtOAz6F28Lrn4FvG2OC8Ny7w76chNsZ53PsTSRg3zbGfK3cX4AgCHPPrD2wcIng03ErbZ4WiReAMWYt8NXw4YVlmD0dt3rnZuBMY0wytJfBbc91F25BvPOm3PfP4fF7xphvRuIV3nstTtwAztFat065NxKwp8ropyAIdaQaIeQZuD3z7jPGTBdi/SA8Hh/mtErhg+FxbShaE4T5qx+GD0+NntdaL2NShArthHxDeOwEjsi7N87kFvFPl9hHQRDqTDUE7NjwePd0J40x24BN4cMTZjIW7qT8hmI2cfkogMO01qvCn1PAO3EbihYSofzpCrH8ZoFWYMgYs3mmPgqCMD+oRg5sTXh8ocg1G4GDgZeXYO9AoH0Gm1twea5YaHOLMWYclzcrxnvCYxZ4Pu/5yHNbp7V+LS6EPTJsYx1wlTFGQktBmGdUwwOLdpXpK3JNlGhfXoa9gjaNMT4wVIZNtNb7AxeFD39jjBnKOx0J2KtxpR/nAW/FlW/8b+BxrfWXS2lHEIS5oxoC1hEeU0WuSU65thR7VbOptV6M886W42rCCo1AtgFfwZWCtAJ/BnwLF3p+QWv9mZnaEgRh7qhGCOlTuhCWsoyMX2b7RW1qrZcDtwCvDa/9kDFmw5TLbgS2AzcZY67Le34DcJ7Wuh/4MnCB1voKY0x/mX1cMKS3PMnADRcRpMeJda9g5WnfJNbVU+9uCU1KNQRsFFiK814KEeW0xku0F9FGYS9sRpta6zXATbg8WQB8LCyn2AtjzHdm6NPXgfNxBbVvA66e4foFy/izd5Da/ATB6G7iS/YntekxOv/8LfXultCkVCOEjLyRYn+GozxVbxn2CtoMyx4WF7OptX4jcD9OvDLAqcaYy0tofx+MMWkmq/APrcTGgiLwsX4W2VNUqDfVELBoTuIhRa6Jzj03kzFjzHYmE/SFbK5isgxiH5ta6/cBt+IEcDfwVmPMNcXa1VoX8yBh8neVneG6pkKpihbSFISqUA0BeyA8HjvdSa31QUBUwHpviTYfLGYTOC48bgoFL7+99+NCvFbgJeA4Y8ydhRrSWr9aaz0EJMMSiumuaWOy8LW550OqvI+MmvhPEOpCNQTsV+HxxHAC9lTOCo93GGM2lmgz8pY+FM5/LGTzyvwntdbHAD/Bva6ncOJlZmjL4PJjMDkDYCpn40Y7+3GrYTQtSnlMipYCL1bsckGoKbMWMGPM8ziPJwZcHybOAdBanw58Nny4Tx2V1vpwrfUrwhqtfH6KK2I9DLhaa90dXt+itb4UeCMuzLwsz1YMJ14JXF7sHcaYnSX0Pw38e/jwbK31ueFsALTWntb6E8Al4fnzo3mZTYtSE/qloseCUCeqtRrFucCrwn/Paq2fwo1
"text/plain": [
"<Figure size 255x450 with 1 Axes>"
]
},
"metadata": {
"needs_background": "light"
},
"output_type": "display_data"
},
{
"data": {
"image/png": "iVBORw0KGgoAAAANSUhEUgAAATAAAAHnCAYAAAA/wAFkAAAABHNCSVQICAgIfAhkiAAAAAlwSFlzAAAXEQAAFxEByibzPwAAADh0RVh0U29mdHdhcmUAbWF0cGxvdGxpYiB2ZXJzaW9uMy4xLjIsIGh0dHA6Ly9tYXRwbG90bGliLm9yZy8li6FKAAAgAElEQVR4nOy9eXwlV3Xv+911Jk3dbbttg/GE7YYNBHDC5BibizMBSR7c8EgCDjYPEsLNgP0uCQHy4MV2HpNfIICBhISLwRgcYmICwRPGA57n2W337m73bPeoVks60pmqat8/dpUkyzrSGap0Bq3v59NdOjpVq/aRdH5nrbXXXltZaxEEQehFvE4PQBAEoVVEwARB6FlEwARB6FlEwARB6FlEwARB6FlEwARB6FlEwARB6FlEwARB6FlEwARB6FlEwARB6FlEwARB6FlEwARB6FlEwARB6FlEwARB6FmynR6AICyE1jru8/Rbxpgb27R1IXABcKcx5sx2r9NabwNOBP7UGPO/mrBX9zVprYeAo40x2xq11ypa67OAW6KHOWOMn/Y900I8MEHoMFrrPwI2Ar/Z6bH0GuKBCd3Ky6Pjjg6O4WvAD4DphOzVe02fBY5N6B4rChEwoSsxxmzogjEcAA4kaK/jr6nfkBBSEISeRTywFYrW+v3At4F/B/4E+ATwh7jk9BRwF/D/G2Nun3fdy4CPAb8OvAgoAVuAa4GvGGP2JTS+5yW8Wx3zPLtHAn8L/HfgeGAMuAP4vDHmgXnnXsgSyX+t9VuB/wd4LeADDwHfMMZcudRrmmM/5pta628CFxljLpxz3QuAvwb+D+DFQABswIW3XzfGlOuM7Szgr4DXA2uAJ4AvAbsXOr8XEQ9MOAy4B/gUMAI8CQzj3iy3aK1/Nz5Ra3068ADwAWbfEM8Ar8K9iR/SWh/fTWOex4uAh3FvanCJ8yOAdwF3aa1/o8lxvA+4HngDTlCKwK8B/661vrSB63cAdwKV6PHm6PFMjkxrfQawHvgbYB3uw2IHTjC/ANyjtX7hfMNa648DNwNvx73P1wMvBa7guaLZ04iACW8FjgTeaow51hjzGuAk4DEgA3xmzrlfwgnFJcALjTGvMca8AvfG2IRLRH+yy8Y8l5NwXtJpxph1xphXARonZDlcMr0Z3gRcAxxnjHmdMeY4nGfoAx/QWv/xYhcbYy6NPLs90bcuNsacaYy5FEBrfSzwE2At8E1cmcUrjTG/BLwEuBc4FXiOtxeJ3uejhx8FjjHGvB54IfBV4KwmX2fXIgImAPylMeaG+IExZjdwUfTwVK31SPx1dPy2MaYy5/wtuBDnamD7MowXGh/zfN5rjLlvznVb51z3eq31QBNjeBr4fWPM6Bx7lzIrHn/bhK2F+ChOvP7LGPMhY8yhOfd5GhcGTwBv0lr/9pzr4g+Ry4wxXzTGhNE1ZWPM+TjPrC8QARMC4LoFvv/UnK/XRMdN0fEbWuvf0Frn4hOMMT81xrzdGPO5lMY5l2bGPJc9xpi7Fvj+Y9FR4QSjUb5VJ//0zei4Tmutm7A3n3dGx+8t9KQxZi/w8+jh22GmIPbXo+99p47db7Qxpq5CkvjCQWNMaYHvz/1e/HfyMeCnwGnAjUBRa30b7k10jTFmE8tDM2OeyzN17BXnfD3YxDgeWuibxpgdWutxnIi+HDBN2AQg8iBPjB7+ndb6/65z6ouj48ui44lAIfr6iTrXPNLseLoVETCh2sA5CsAYc73W+vXAx4HfBVYBvxP9+5LW+g7gfxhjnkxrsBENj3keC87WtcHkEs+tAYZatD3Xg3xlA+cfFh0Pn/O94kIn4mZe+wIRMKEpjDGPAGdH4eOv4hLCvwWcAZwJ3Ki1fokxZqpzo1w26uXZYFaAWhWLuT+/Vxlj6nlT8xmd8/VqYP8C5zTjZXY1kgMTGkJrndFar9Na/zcAY0zNGHO7Meb/M8b8N9yMnAWOYeWs6XvZQt/UWq/DeacAj7diOErY740e/lK987TWr9Ja/7LWOva8djDraf5Kncvq2us1RMCERnklLol/80J1R8DdzIZUmWUbVWd5n9Z6odd6XnR82BizqwE7YXScH/ZeHR0/rLV+3ntVa70G11XiYeB/AkS5wWujU/68zv3+tIEx9QQiYEJDGGMexXkTGeDftNbHxc9prfO42qvVuNDnto4Mcvl5LfAtrfUwgNba01p/hFkB+1SDduJc1Ynzvv/56Lkzge9FqwiI7nUirgZtLTAOfH3OdRfg8oS/p7W+OPr9oLXOaa3/Hvg/GxxX1yMCJjTDe3BvlrOALVrrDVrrh3Chzt/iyhs+FC2CXgn8B/B/Abu11vcDzwL/GD33MWPMtXWvfC4PR8ePa60f1lp/CsAYsxm3VGoSOBt4Nnp+Pa5q/wzcB8bvzF3CFeXL/hgnYh8D9mit78MtIfp/gf9s9QV3GyJgQsNEs4uvAf4Z2IrzGF6BS1RfCpxqjLmicyNcdr4IvBtXJvFLuPKFa4A3G2P+oQk7HwWuwomRZrbtDsaY6yLbX8KJlsYtKdoG/BMuwf+82jZjzPdx5S7/hmsH9Gpcxf95QL2SjJ5DWWuXPksQBKELEQ9MEISeRQRMEISeRQpZhVSIqvJb4VpjTLNdIYQVigiYkBZntHjd5kRHIfQ1ksQXBKFnkRyYIAg9iwiYIAg9iwiYIAg9iwiYIAg9iwiYIAg9iwjYMqK1/i+t9X91ehyC0C9IHdjycsq6detegWv8JwjCLAu1AF8S8cAEQehZRMAEQehZEgsho/3oPoZrencSrgnbg8CXo55Grdg8Afg74G3A0bgNCm4CPmeMeWqR694C/AWuH9JaXFfLR4FvA5cbY54Xwmmtz8K1512Mnxhjfq/5VyIIQhok4oFFLXVvxrWyPRlYj2vO9hbgWq31BS3Y1Lh99/4Et/vLo8AAcC7wkNb6rXWu+yLwM9yuxcPRWHxcF9HLgB/P3ZB1DvGu07uBO+v8S3u7MEEQmiApD+zrOG/nEeAdxpidAFrrc3GdOi/UWt9pjLmxEWNa6yxuQ4O1wOW4vQZLUW/vLwIfBn6gtV43d1t3rfV7gb/CtTb+G+Ar8bbqWuvfj8byDuDvef6277GAfcUYc3GzPwBBEJaftj0wrfUpwDm4nVXeG4sXgDHmctzGBAAXNmH2HFzb3B3AB+NdmI0xVeB84HbcRp4fmXfd30THfzLGfCkWr+ja/8CJG8B5WuvCvGtjAWtpGyxBEJafJELIc3E71dxdZ0fmb0THM6KcViO8PzpeHonWDFH+6l+ih2fH39daH8GsCP1bHbs/jo7DuF7u8bVZZvfKa3QDUUEQOkwSAnZ6dFywgZ0x5hlge/TwzUsZi/a/e8NiNnH5KICTtdbHR1+Xgbfj9sKrJ0Jza03m7uencRsyjBtjdiw1RkEQuoMkcmDrouPTi5yzDbeDzUsbsHcss1uf17O5E5fnykQ2dxpjppndCLQefxAda7hNWmNiz2291vo1uBD2ldE91gOXGWMktBSELiMJD+zo6Lh/kXPiRPuRi5wz315dm8aYALc/YaM20VofA1wUPfyJMWZ8ztOxgL0aV/rxEeC3cOUbfw08orX+dCP3EQRh+UhCwIaiY3mRc0rzzm3EXmI2oy3Yr8aJXZH6M5ADuB2mT8aFlC8BvowLPT+ptf7YUvcSBGH5SCKEDGhcCBtZAxg0ef9FbUbbsV+H25DVAh+Idjyey9W4XZWvMcZcNef7m4GPaK0PAJ8GLtBaX7qCdp4WhK4mCQErAofjvJd6xDmt6QbtxQxQ3wtb0qbWeh1up+SX4so8PhSVUzwHY8zXlhjTF4BP4Apq3wKspN2nBaFrSSKEjL2RtYucE+ep9jVhr67NqOxhzWI2tdZnAvfgxKsKnG2M+VYD938expgKs1X4J7ViQxCE5EnCA3sKlyt68SLnxM9tXMqYMeZZrfU4TqBezMIzkcczWwbxPJta63fjlg0VgIPAO40xty12X631gDFmsZxbLPa1RV+AICTA9JWPUr5xE0l0XlLZDEPvey2FXz2x/YF1GUkI2L245TmnL/Sk1vo4IC5gvat
"text/plain": [
"<Figure size 255x450 with 1 Axes>"
]
},
"metadata": {
"needs_background": "light"
},
"output_type": "display_data"
},
{
"data": {
"image/png": "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
"text/plain": [
"<Figure size 255x450 with 1 Axes>"
]
},
"metadata": {
"needs_background": "light"
},
"output_type": "display_data"
}
],
"source": [
"for cell_type, result, in results.items():\n",
" fig = plt.figure()\n",
" violinplot2(\n",
" [result['fwhm']['11 Hz'].dropna().values, result['fwhm']['30 Hz'].dropna().values], \n",
" colors=colors,\n",
" xticks=[\"11 Hz \", \" 30 Hz\"],\n",
" )\n",
" plt.title(cell_type)\n",
" figname = f'{cell_type}-stim-response-fwhm-11-30Hz'\n",
" fig.savefig(\n",
" output / 'figures' / f'{figname}.png', \n",
" bbox_inches='tight', transparent=True)\n",
" fig.savefig(\n",
" output / 'figures' / f'{figname}.svg', \n",
" bbox_inches='tight', transparent=True)"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"[0.0, 0.6]\n",
"[0.0, 0.6]\n",
"[0.0, 0.6]\n"
]
},
{
"data": {
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"text/plain": [
"<Figure size 255x450 with 1 Axes>"
]
},
"metadata": {
"needs_background": "light"
},
"output_type": "display_data"
},
{
"data": {
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"text/plain": [
"<Figure size 255x450 with 1 Axes>"
]
},
"metadata": {
"needs_background": "light"
},
"output_type": "display_data"
},
{
"data": {
"image/png": "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
"text/plain": [
"<Figure size 255x450 with 1 Axes>"
]
},
"metadata": {
"needs_background": "light"
},
"output_type": "display_data"
}
],
"source": [
"for cell_type, result, in results.items():\n",
" fig = plt.figure()\n",
" violinplot2(\n",
" [result['peak']['11 Hz'].dropna().values, result['peak']['30 Hz'].dropna().values], \n",
" colors=colors,\n",
" xticks=[\"11 Hz \", \" 30 Hz\"],\n",
" )\n",
" plt.title(cell_type)\n",
" figname = f'{cell_type}-stim-response-peak-11-30Hz'\n",
" fig.savefig(\n",
" output / 'figures' / f'{figname}.png', \n",
" bbox_inches='tight', transparent=True)\n",
" fig.savefig(\n",
" output / 'figures' / f'{figname}.svg', \n",
" bbox_inches='tight', transparent=True)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"# stats"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"stats = {}\n",
"for cell_type, result in results.items():\n",
" stats[cell_type], _ = make_statistics_table(result, labels)"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"stats['gridcell']"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"for cell_type, stat in stats.items():\n",
" stat.to_latex(output / \"statistics\" / f\"statistics_{cell_type}.tex\")\n",
" stat.to_csv(output / \"statistics\" / f\"statistics_{cell_type}.csv\")"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"# Save to expipe"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"action = project.require_action(\"stimulus-response-fwhm\")"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"action.modules['parameters'] = {\n",
" 'window_size': window_size,\n",
" 'std_gaussian_kde': std_gaussian_kde,\n",
" 'tmin': tmin\n",
"}"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"action.data['results'] = 'results.csv'\n",
"session_units_sig.to_csv(action.data_path('results'), index=False)"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"copy_tree(output, str(action.data_path()))"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": [
"septum_mec.analysis.registration.store_notebook(action, \"10-calculate-stimulus-response-fwhm.ipynb\")"
]
},
{
"cell_type": "code",
"execution_count": null,
"metadata": {},
"outputs": [],
"source": []
}
],
"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": "3.6.8"
}
},
"nbformat": 4,
"nbformat_minor": 4
}