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{
"cells": [
{
"cell_type": "code",
"execution_count": 12,
"metadata": {},
"outputs": [],
"source": [
"import pandas as pd\n",
"import numpy as np\n",
"import seaborn as sns\n",
"import matplotlib.pyplot as plt\n",
"from collections import deque\n",
"from scipy import stats\n",
"import sys"
]
},
{
"cell_type": "code",
"execution_count": 21,
"metadata": {},
"outputs": [],
"source": [
"alpha = 11\n",
"_lambda = 13\n",
"B = 1\n",
"N = 100000 + B\n",
"epsilon = 0.01\n",
"L = 100\n",
"initial = np.full(1, 2.5)"
]
},
{
"cell_type": "code",
"execution_count": 22,
"metadata": {},
"outputs": [],
"source": [
"def leapfrog(theta, p, h_prime):\n",
" half_next_p = p - (epsilon * h_prime(theta)) / 2\n",
" next_theta = theta + epsilon * half_next_p\n",
" next_p = half_next_p - (epsilon * h_prime(next_theta)) / 2\n",
" return (next_p, next_theta)"
]
},
{
"cell_type": "code",
"execution_count": 23,
"metadata": {},
"outputs": [],
"source": [
"def hamiltonian(theta, p, h):\n",
" return (\n",
" h(theta)\n",
" + (\n",
" np.sum(p ** 2) # 各次元がもつ運動エネルギーの足し合わせ\n",
" / 2\n",
" )\n",
" )"
]
},
{
"cell_type": "code",
"execution_count": 24,
"metadata": {},
"outputs": [],
"source": [
"def r(theta1, p1, theta2, p2, h):\n",
" return (\n",
" np.exp(hamiltonian(theta1, p1, h) - hamiltonian(theta2, p2, h))\n",
" )"
]
},
{
"cell_type": "code",
"execution_count": 25,
"metadata": {},
"outputs": [],
"source": [
"def hmc(h, h_prime):\n",
" data = np.empty((N, len(initial)))\n",
" data[0] = initial\n",
" accept_count = 1 # data[0] は受容とみなす\n",
" for i in range(1, N):\n",
" if not i % 1000: # 進捗用\n",
" sys.stdout.write(\"%s / %s %s %% \\r\" % (i, N, np.round(100 * (i / N), decimals=2)))\n",
" \n",
" start_p = p = np.random.normal(0, 1, len(initial))\n",
" start_theta = theta = data[i - 1]\n",
"\n",
" for _ in range(L):\n",
" p, theta = leapfrog(theta, p, h_prime)\n",
"\n",
" if np.random.rand() < r(start_theta, start_p, theta, p, h):\n",
" data[i] = theta\n",
" accept_count = accept_count + 1\n",
" else:\n",
" data[i] = start_theta\n",
" \n",
" print(\"\\nacceptance ratio: %s \" % str(accept_count / N))\n",
" \n",
" return data"
]
},
{
"cell_type": "code",
"execution_count": 26,
"metadata": {},
"outputs": [
{
"name": "stdout",
"output_type": "stream",
"text": [
"100000 / 100001 100.0 % \n",
"acceptance ratio: 0.999810001899981 \n"
]
}
],
"source": [
"def h(x):\n",
" \"\"\"\n",
" 目標分布(事後確率)関数の対数関数のマイナス。必ずスカラー値を返却させる\n",
" \"\"\"\n",
" return (_lambda * x) - ((alpha - 1) * np.log(x))\n",
"\n",
"def h_prime(x):\n",
" \"\"\"\n",
" 目標分布関数の対数関数の微分のマイナス\n",
" \"\"\"\n",
" return _lambda - ((alpha - 1) / x)\n",
"\n",
"data = hmc(\n",
" h,\n",
" h_prime\n",
")"
]
},
{
"cell_type": "code",
"execution_count": 27,
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"<matplotlib.axes._subplots.AxesSubplot at 0x7fbac21509d0>"
]
},
"execution_count": 27,
"metadata": {},
"output_type": "execute_result"
},
{
"data": {
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\n",
"text/plain": [
"<Figure size 432x288 with 1 Axes>"
]
},
"metadata": {
"needs_background": "light"
},
"output_type": "display_data"
}
],
"source": [
"pd.DataFrame(data).plot()"
]
},
{
"cell_type": "code",
"execution_count": 28,
"metadata": {},
"outputs": [
{
"data": {
"text/plain": [
"<matplotlib.axes._subplots.AxesSubplot at 0x7fbac1e6be50>"
]
},
"execution_count": 28,
"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": [
"fig = plt.figure()\n",
"ax = fig.add_subplot(1,1,1)\n",
"sns.distplot(data[B:],bins=100, label='HMC', ax=ax)\n",
"arr = np.arange(0, 2.5, 0.01)\n",
"sns.lineplot(\n",
" data=pd.DataFrame(\n",
" data=stats.gamma.pdf(arr, alpha, scale=1/_lambda),\n",
" index=arr,\n",
" columns=['theoretical']\n",
" ),\n",
" ax=ax,\n",
" palette=['orange']\n",
")"
]
}
],
"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": "3.7.6"
}
},
"nbformat": 4,
"nbformat_minor": 4
}
|
