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September 11, 2022 13:04
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| from kiwisolver import strength | |
| import taichi as ti | |
| import numpy as np | |
| Category10_10 = ('#1f77b4', '#ff7f0e', '#2ca02c', '#d62728', '#9467bd', '#8c564b', '#e377c2', '#7f7f7f', '#bcbd22', '#17becf') | |
| ti.init(arch=ti.gpu) | |
| N = 5000 | |
| N_COLOR = 10 | |
| COLORS = [int(c[1:], 16) for c in Category10_10] | |
| window_size = 600 | |
| viscosity = 0.6 | |
| margin = 5 | |
| time_scale = 0.2 | |
| pos = ti.Vector.field(2, ti.f32, N) | |
| vel = ti.Vector.field(2, ti.f32, N) | |
| force = ti.Vector.field(2, ti.f32, N) | |
| color = ti.field(ti.i32, N) | |
| gravity = ti.field(ti.float32, (N_COLOR, N_COLOR)) | |
| radius = ti.field(ti.float32, (N_COLOR, N_COLOR)) | |
| gravity.from_numpy(np.random.uniform(-1, 1, (N_COLOR, N_COLOR)).astype(np.float32)) | |
| radius.from_numpy(np.random.uniform(40, 100, (N_COLOR, N_COLOR)).astype(np.float32)) | |
| #radius.from_numpy(np.full((N_COLOR, N_COLOR), 80, dtype=np.float32)) | |
| @ti.kernel | |
| def initialize(): | |
| for i in range(N): | |
| pos[i] = [ti.random() * window_size, ti.random() * window_size] | |
| vel[i] = [0, 0] | |
| force[i] = [0, 0] | |
| color[i] = ti.cast(ti.random() * N_COLOR, ti.i32) | |
| @ti.kernel | |
| def update(): | |
| for i in range(N): | |
| force[i] = [0.0, 0.0] | |
| for i in range(N): | |
| p = pos[i] | |
| for j in range(N): | |
| if i != j: | |
| diff = p - pos[j] | |
| r = radius[color[i], color[j]] | |
| d = diff.norm(1e-5) | |
| if d > 0 and d < r: | |
| g = gravity[color[i], color[j]] | |
| force[i] += (g / d) * diff | |
| strength = 1 | |
| if p[0] < margin: | |
| force[i][0] += (margin - p[0]) * strength | |
| elif p[0] > window_size - margin: | |
| force[i][0] += (window_size - margin - p[0]) * strength | |
| if p[1] < margin: | |
| force[i][1] += (margin - p[1]) * strength | |
| elif p[1] > window_size - margin: | |
| force[i][1] += (window_size - margin - p[1]) * strength | |
| for i in range(N): | |
| vel[i] = vel[i] * (1 - viscosity) + time_scale * force[i] | |
| pos[i] += vel[i] | |
| def main(): | |
| gui = ti.GUI('life', (window_size, window_size)) | |
| initialize() | |
| print(color.to_numpy().max()) | |
| while gui.running: | |
| update() | |
| gui.circles(pos.to_numpy() / window_size, palette=COLORS, palette_indices=color, radius=1.5) | |
| gui.show() | |
| if __name__ == '__main__': | |
| main() | |
| # import IPython | |
| # c = color.to_numpy() | |
| # p = pos.to_numpy() | |
| # v = vel.to_numpy() | |
| # IPython.embed() |
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