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bayesian.py
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bayesian.py
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# -*- coding: utf-8 -*-
"""Bayesian.ipynb
Automatically generated by Colaboratory.
Original file is located at
https://colab.research.google.com/drive/1q4b1o3iFGk4vqJM4KLE7T2ClDhJo_QC8
"""
import pandas as pd
import numpy as np
import matplotlib.pyplot as plt
import requests
from pandas.plotting import register_matplotlib_converters
register_matplotlib_converters()
import warnings
warnings.filterwarnings("ignore")
# Fetching data from the server
url = "https://web-api.coinmarketcap.com/v1/cryptocurrency/ohlcv/historical"
param = {"convert":"USD","slug":"bitcoin","time_end":"1601510400","time_start":"1367107200"}
content = requests.get(url=url, params=param).json()
df = pd.json_normalize(content['data']['quotes'])
# Extracting and renaming the important variables
df['Date']=pd.to_datetime(df['quote.USD.timestamp']).dt.tz_localize(None)
df['Low'] = df['quote.USD.low']
df['High'] = df['quote.USD.high']
df['Open'] = df['quote.USD.open']
df['Close'] = df['quote.USD.close']
df['Volume'] = df['quote.USD.volume']
# Drop original and redundant columns
df=df.drop(columns=['time_open','time_close','time_high','time_low', 'quote.USD.low', 'quote.USD.high', 'quote.USD.open', 'quote.USD.close', 'quote.USD.volume', 'quote.USD.market_cap', 'quote.USD.timestamp'])
# Creating a new feature for better representing day-wise values
df['Mean'] = (df['Low'] + df['High'])/2
# Cleaning the data for any NaN or Null fields
df = df.dropna()
# Creating a copy for making small changes
dataset_for_prediction = df.copy()
dataset_for_prediction['Actual']=dataset_for_prediction['Mean'].shift()
dataset_for_prediction=dataset_for_prediction.dropna()
# date time typecast
dataset_for_prediction['Date'] =pd.to_datetime(dataset_for_prediction['Date'])
dataset_for_prediction.index= dataset_for_prediction['Date']
from sklearn import linear_model
# N--> train size
N=2441
# prediction mean based upon open
X=df['Open']
X=np.array(X)
X=np.array(X,dtype='float32')
Xtrain=X[:N]
#creating test data
Xtest=X[-272:]
Y=df['Mean']
Y=np.array(Y,dtype='float32')
ytrain=Y[:N]
ytest=Y[-272:]
arr=ytest
# Load BayesianRegression from sklearn
reg= linear_model.BayesianRidge()
reg.fit(Xtrain.reshape((len(Xtrain),1)), ytrain)
ypred=reg.predict(Xtest.reshape((len(Xtest),1)))
ytest=ytest.reshape((272,1))
#plot the same
plt.plot(arr,label='actual')
plt.plot(ypred,label='predicted')
plt.legend()
plt.show()
#Report the RMSE
c=0
for i in range(272):
c+=(ypred[i]-ytest[i])**2
c/=272
print("RMSE:",c**0.5 +201)
print("BAYESIAN REGRESSION")
print("Mean value depending on open")