| import streamlit as st | |
| import numpy as np | |
| import matplotlib.pyplot as plt | |
| st.title('Plant Fractal') | |
| def generate_strange_attractor(num_points, a, b, c, d): | |
| x, y, z = 0.1, 0.0, 0.0 | |
| points = [] | |
| for i in range(num_points): | |
| x_dot = np.sin(y * a) - np.cos(x * b) | |
| y_dot = np.sin(z * c) - np.cos(y * a) | |
| z_dot = np.sin(x * d) - np.cos(z * c) | |
| x += 0.1 * x_dot | |
| y += 0.1 * y_dot | |
| z += 0.1 * z_dot | |
| points.append((x, y, z)) | |
| x, y, z = zip(*points) | |
| return (x, y, z) | |
| def generate_fractal_1(num_points, a, b, c, d): | |
| x, y, z = 0.0, 0.0, 0.0 | |
| points = [] | |
| for i in range(num_points): | |
| x_dot = np.sin(a * y) - np.sin(b * x) | |
| y_dot = np.sin(c * x) - np.sin(d * y) | |
| z_dot = 0.2 | |
| x += x_dot | |
| y += y_dot | |
| z += z_dot | |
| points.append((x, y, z)) | |
| x, y, z = zip(*points) | |
| return (x, y, z) | |
| def generate_fractal_2(num_points, a, b, c, d): | |
| x, y, z = 0.1, 0.0, 0.0 | |
| points = [] | |
| for i in range(num_points): | |
| x_dot = np.sin(y * a) - np.cos(x * b) | |
| y_dot = np.sin(z * c) - np.cos(y * a) | |
| z_dot = np.sin(x * d) - np.cos(z * c) | |
| x += 0.2 * x_dot | |
| y += 0.2 * y_dot | |
| z += 0.2 * z_dot | |
| points.append((x, y, z)) | |
| x, y, z = zip(*points) | |
| return (x, y, z) | |
| num_points = st.slider('How many points do you want to generate?', 1000, 100000, 10000) | |
| fractal_type = st.selectbox('Select a fractal type', ('Strange Attractor', 'Fractal 1', 'Fractal 2')) | |
| if fractal_type == 'Strange Attractor': | |
| a = st.slider('a', 0.0, 2.0, 1.2) | |
| b = st.slider('b', 0.0, 2.0, 0.6) | |
| c = st.slider('c', 0.0, 2.0, 1.7) | |
| d = st.slider('d', 0.0, 2.0, 1.5) | |
| x, y, z = generate_strange_attractor(num_points, a, b, c, d) | |
| fig = plt.figure() | |
| ax = fig.add_subplot(111, projection='3d') | |
| ax.plot(x, y, z, linewidth=1) | |
| ax.set_title('Strange Attractor Fractal') | |
| ax.set_xlabel('X') | |
| ax.set_ylabel('Y') | |
| ax.set_zlabel('Z') | |
| st.pyplot(fig) | |
| if fractal_type == 'Fractal 1': | |
| a = st.slider('a', 0.0, 2.0, 1.2) | |
| b = st.slider('b', 0.0, 2.0, 0.6) | |
| c = st.slider('c', 0.0, 2.0, 1.7) | |
| d = st.slider('d', 0.0, 2.0, 1.5) | |
| x, y, z = generate_fractal_1(num_points, a, b, c, d) | |
| fig = plt.figure() | |
| ax = fig.add_subplot(111, projection='3d') | |
| ax.plot(x, y, z, linewidth=1) | |
| ax.set_title('Fractal 1') | |
| ax.set_xlabel('X') | |
| ax.set_ylabel('Y') | |
| ax.set_zlabel('Z') | |
| st.pyplot(fig) | |
| if fractal_type == 'Fractal 2': | |
| a = st.slider('a', 0.0, 2.0, 1.2) | |
| b = st.slider('b', 0.0, 2.0, 0.6) | |
| c = st.slider('c', 0.0, 2.0, 1.7) | |
| d = st.slider('d', 0.0, 2.0, 1.5) | |
| x, y, z = generate_fractal_2(num_points, a, b, c, d) | |
| fig = plt.figure() | |
| ax = fig.add_subplot(111, projection='3d') | |
| ax.plot(x, y, z, linewidth=1) | |
| ax.set_title('Fractal 2') | |
| ax.set_xlabel('X') | |
| ax.set_ylabel('Y') | |
| ax.set_zlabel('Z') | |
| st.pyplot(fig) | |