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import matplotlib.pyplot as plt |
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import numpy as np |
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import pandas as pd |
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import streamlit as st |
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from Data_Generation.Dataset_Generation_Functions import make_boxes |
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from Data_Generation.Piecewise_Box_Functions import basic_box_array, forward_slash_array, combine_arrays, add_thickness |
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image_size = st.slider('Select a value for the image size', min_value=9, max_value=28) |
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density_selection = st.slider('Select a value for the number of equally spaced density values (0, 1]', min_value=1, max_value=10) |
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densities = np.linspace(0, 1, num=density_selection+1)[1:] |
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sample_basic_box = basic_box_array(image_size, 1) |
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sample_forward_slash_box = forward_slash_array(image_size, 1) |
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sample_combined = combine_arrays([sample_forward_slash_box, sample_basic_box]) |
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sample_density = np.array([sample_combined * density_value for density_value in densities]) |
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sample_thickness = [] |
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for i in [1, 2, 3, 4]: |
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copy = sample_combined |
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test = add_thickness(copy, i) |
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sample_thickness.append(test) |
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st.write("Click 'Generate Samples' to show some density values that would exist in your dataset:") |
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if st.button('Generate Samples'): |
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plt.figure(1) |
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st.header("Sample Density Figures:") |
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max_figures = min(density_selection, 5) |
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for i in range(max_figures): |
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plt.subplot(1, max_figures+1, i+1), plt.imshow(sample_density[i], cmap='gray', vmin=0, vmax=1) |
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if i != 0: |
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plt.tick_params(left=False, labelleft=False) |
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plt.title("Density: " + str(round(densities[i], 4)), fontsize=6) |
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plt.figure(1) |
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st.pyplot(plt.figure(1)) |
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st.header("Sample Thickness Figures:") |
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plt.figure(2) |
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for i in range(len(sample_thickness)): |
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plt.subplot(1, 5, i+1), plt.imshow(sample_thickness[i], cmap='gray', vmin=0, vmax=1) |
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if i != 0: |
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plt.tick_params(left=False, labelleft=False) |
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plt.title("Thickness: " + str(i+1), fontsize=6) |
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plt.figure(2) |
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st.pyplot(plt.figure(2)) |
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st.write("Click 'Generate Dataset' to generate the dataset based on the conditions set previously:") |
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if st.button('Generate Dataset'): |
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boxes = make_boxes(image_size, densities) |
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box_arrays, box_density, basic_box_thickness, forward_slash_box_thickness, back_slash_box_thickness,hot_dog_box_thickness, hamburger_box_thickness\ |
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= list(zip(*boxes))[0], list(zip(*boxes))[1], list(zip(*boxes))[2], list(zip(*boxes))[3], list(zip(*boxes))[4], list(zip(*boxes))[5], list(zip(*boxes))[6] |
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dataframe = (pd.DataFrame((box_arrays, box_density, basic_box_thickness, forward_slash_box_thickness, back_slash_box_thickness,hot_dog_box_thickness, hamburger_box_thickness)).T).astype(str) |
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dataframe = dataframe.rename(columns={0: "Array", 1: "Density", 2:"Basic Box Thickness", 3:"Forward Slash Strut Thickness", 4:"Back Slash Strut Thickness", 5:"Vertical Strut Thickness", 6:"Horizontal Strut Thickness"}) |
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csv = dataframe.to_csv() |
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st.write("Here is what the generated data looks like (double click on the 'Array' cells to view the full array):") |
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st.write(dataframe) |
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st.write("Click 'Download' to download a CSV file of the dataset:") |
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st.download_button("Download Dataset", csv, file_name='2D_Lattice.csv') |
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