| | import matplotlib.pyplot as plt |
| | import random |
| | import gradio as gr |
| |
|
| | def generate_random_walk(iters): |
| | directions = ['east', 'north', 'north', 'south'] |
| | start_point = [0, 0] |
| | |
| | def distance_from_start(final_coord, start_coord, round_to=2): |
| | return round(np.sqrt((final_coord[0] - start_coord[0])**2 + (final_coord[1] - start_coord[1])**2), round_to) |
| | |
| | def step_addition(old_coord, step): |
| | return [sum(x) for x in zip(old_coord, step)] |
| | |
| | def step_determination(): |
| | direction = random.choice(directions) |
| | if direction == 'east': |
| | return [1, 0] |
| | elif direction == 'west': |
| | return [-1, 0] |
| | elif direction == 'north': |
| | return [0, 1] |
| | elif direction == 'south': |
| | return [0, -1] |
| | |
| | coordinate_list = [start_point] |
| | |
| | for i in range(iters): |
| | new_step = step_determination() |
| | new_coordinate = step_addition(coordinate_list[-1], new_step) |
| | coordinate_list.append(new_coordinate) |
| | |
| | x = [i[0] for i in coordinate_list] |
| | y = [i[1] for i in coordinate_list] |
| | |
| | fig, ax = plt.subplots(1) |
| | |
| | base_marker_size = 10 |
| | markersize = base_marker_size / np.sqrt(iters) |
| | |
| | ax.plot(x, y, marker='o', markersize=markersize, linestyle='None') |
| | |
| | ax.plot(x[0], y[0], marker='o', markersize=5, color="red") |
| | ax.plot(x[-1], y[-1], marker='o', markersize=5, color="orange") |
| | |
| | ax.text(start_point[0], start_point[1], 'Start', color='red') |
| | ax.text(x[-1], y[-1], 'End', color='orange') |
| | |
| | x_max_index = x.index(max(x)) |
| | x_min_index = x.index(min(x)) |
| | y_max_index = y.index(max(y)) |
| | y_min_index = y.index(min(y)) |
| | |
| | info_text = 'Start point=' + str(start_point) + '\n' +'End point=' + str([x[-1],y[-1]]) + '\n' +'Displacement =' + str(distance_from_start([x[-1], y[-1]], start_point)) + '\n' +'Max x = ' + str(max(x)) + '\n' + 'Min x = ' + str(min(x)) + '\n' + 'Max y = ' + str(max(y)) + '\n' + 'Min y = ' + str(min(y)) |
| | ax.legend([info_text], loc='best', handlelength=0, handletextpad=0, fancybox=True, fontsize=8) |
| | |
| | plt.title('2D Random Walk, iterations = ' + str(iters)) |
| | plt.grid() |
| | |
| | |
| | buf = io.BytesIO() |
| | plt.savefig(buf, format='png') |
| | buf.seek(0) |
| | |
| | return buf.read() |
| | iters = gr.inputs.Textbox(label="Number of random steps") |
| |
|
| | |
| | iface = gr.Interface(fn=generate_random_walk, inputs=iters, outputs="image", title="Random Walk Plot") |
| | iface.launch() |
| |
|
