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Initialization
Browse files- app.py +164 -0
- requirements.txt +9 -0
app.py
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import pandas as pd
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import numpy as np
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import yfinance as yf
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import plotly.express as px
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import plotly.graph_objects as go
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from sklearn.preprocessing import MinMaxScaler
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from tensorflow.keras.models import Sequential
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from tensorflow.keras.layers import Activation, Dense, Dropout, LSTM
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from datetime import date, datetime, timedelta
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from stocknews import StockNews
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# --- SIDEBAR CODE
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ticker = st.sidebar.selectbox('Select your Crypto', ["BTC-USD", "ETH-USD"])
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start_date = st.sidebar.date_input('Start Date', date.today() - timedelta(days=365))
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end_date = st.sidebar.date_input('End Date')
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# --- MAIN PAGE
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st.header('Omdena Bahrain - Cryptocurrency Prediction')
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col1, col2, = st.columns([1,9])
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with col1:
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st.image('icons/'+ ticker +'.png', width=75)
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with col2:
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st.write(f" ## { ticker}")
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ticker_obj = yf.Ticker(ticker)
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# --- CODE
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model_data = ticker_obj.history(interval='1h', start=start_date, end=end_date)
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# Extract the 'close' column for prediction
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target_data = model_data["Close"].values.reshape(-1, 1)
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# Normalize the target data
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scaler = MinMaxScaler()
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target_data_normalized = scaler.fit_transform(target_data)
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# Normalize the input features
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input_features = ['Open', 'High', 'Low', 'Volume']
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input_data = model_data[input_features].values
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input_data_normalized = scaler.fit_transform(input_data)
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def build_lstm_model(input_data, output_size, neurons, activ_func='linear', dropout=0.2, loss='mse', optimizer='adam'):
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model = Sequential()
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model.add(LSTM(neurons, input_shape=(input_data.shape[1], input_data.shape[2])))
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model.add(Dropout(dropout))
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model.add(Dense(units=output_size))
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model.add(Activation(activ_func))
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model.compile(loss=loss, optimizer=optimizer)
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return model
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# Hyperparameters
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np.random.seed(245)
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window_len = 10
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split_ratio = 0.8 # Ratio of training set to total data
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zero_base = True
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lstm_neurons = 50
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epochs = 100
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batch_size = 128 #32
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loss = 'mean_squared_error'
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dropout = 0.24
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optimizer = 'adam'
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def extract_window_data(input_data, target_data, window_len):
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X = []
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y = []
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for i in range(len(input_data) - window_len):
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X.append(input_data[i : i + window_len])
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y.append(target_data[i + window_len])
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return np.array(X), np.array(y)
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X, y = extract_window_data(input_data_normalized, target_data_normalized, window_len)
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# Split the data into training and testing sets
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split_ratio = 0.8 # Ratio of training set to total data
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split_index = int(split_ratio * len(X))
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X_train, X_test = X[:split_index], X[split_index:]
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y_train, y_test = y[:split_index], y[split_index:]
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# Creating model
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model = build_lstm_model(X_train, output_size=1, neurons=lstm_neurons, dropout=dropout, loss=loss, optimizer=optimizer)
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# Saved Weights
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file_path = "models/LSTM_" + ticker + "_weights.h5"
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# Loads the weights
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model.load_weights(file_path)
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# Step 4: Make predictions
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preds = model.predict(X_test)
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y_test = y[split_index:]
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# Normalize the target data
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scaler = MinMaxScaler()
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target_data_normalized = scaler.fit_transform(target_data)
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# Inverse normalize the predictions
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preds = preds.reshape(-1, 1)
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y_test = y_test.reshape(-1, 1)
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preds = scaler.inverse_transform(preds)
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y_test = scaler.inverse_transform(y_test)
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fig = px.line(x=model_data.index[-len(y_test):],
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y=[y_test.flatten(), preds.flatten()])
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newnames = {'wide_variable_0':'Real Values', 'wide_variable_1': 'Predictions'}
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fig.for_each_trace(lambda t: t.update(name = newnames[t.name],
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legendgroup = newnames[t.name],
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hovertemplate = t.hovertemplate.replace(t.name, newnames[t.name])))
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fig.update_layout(
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xaxis_title="Date",
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yaxis_title=ticker+" Price",
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legend_title=" ")
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st.write(fig)
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# --- INFO BUBBLE
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about_data, news = st.tabs(["About", "News"])
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with about_data:
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# Candlestick
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raw_data = ticker_obj.history(start=start_date, end=end_date)
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fig = go.Figure(data=[go.Candlestick(x=raw_data.index,
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open=raw_data['Open'],
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high=raw_data['High'],
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low=raw_data['Low'],
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close=raw_data['Close'])])
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fig.update_layout(
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title=ticker + " candlestick : Open, High, Low and Close",
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yaxis_title=ticker + ' Price')
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st.plotly_chart(fig)
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# Table
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history_data = raw_data.copy()
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# Formating index Date
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history_data.index = pd.to_datetime(history_data.index, format='%Y-%m-%d %H:%M:%S').date
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history_data.index.name = "Date"
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history_data.sort_values(by='Date', ascending=False, inplace=True)
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st.write(history_data)
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with news:
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sNews = StockNews(ticker, save_news=False)
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sNews_df = sNews.read_rss()
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# Showing most recent news
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for i in range(10):
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st.subheader(f"{i+1} - {sNews_df['title'][i]}")
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st.write(sNews_df['summary'][i])
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date_object = datetime.strptime(sNews_df['published'][i], '%a, %d %b %Y %H:%M:%S %z')
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st.write(f"_{date_object.strftime('%A')}, {date_object.date()}_")
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requirements.txt
ADDED
@@ -0,0 +1,9 @@
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datetime==4.0.1
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numpy==1.22.4
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pandas==1.5.3
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plotly==5.13.1
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sklearn-pandas==2.2.0
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stocknews==0.9.11
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streamlit==1.24.1
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tensorflow==2.12.0
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yfinance==0.2.24
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