Spaces:
Running
Running
| import urllib | |
| from collections import namedtuple | |
| from math import cos, sin | |
| from typing import Any | |
| import gradio as gr | |
| import numpy as np | |
| import rerun as rr | |
| import rerun.blueprint as rrb | |
| from fastapi import FastAPI | |
| from fastapi.middleware.cors import CORSMiddleware | |
| CUSTOM_PATH = "/" | |
| app = FastAPI() | |
| origins = [ | |
| "https://app.rerun.io", | |
| ] | |
| app.add_middleware( | |
| CORSMiddleware, | |
| allow_origins=origins, | |
| ) | |
| ColorGrid = namedtuple("ColorGrid", ["positions", "colors"]) | |
| def build_color_grid(x_count: int = 10, y_count: int = 10, z_count: int = 10, twist: float = 0) -> ColorGrid: | |
| """ | |
| Create a cube of points with colors. | |
| The total point cloud will have x_count * y_count * z_count points. | |
| Parameters | |
| ---------- | |
| x_count, y_count, z_count: | |
| Number of points in each dimension. | |
| twist: | |
| Angle to twist from bottom to top of the cube | |
| """ | |
| grid = np.mgrid[ | |
| slice(-x_count, x_count, x_count * 1j), | |
| slice(-y_count, y_count, y_count * 1j), | |
| slice(-z_count, z_count, z_count * 1j), | |
| ] | |
| angle = np.linspace(-float(twist) / 2, float(twist) / 2, z_count) | |
| for z in range(z_count): | |
| xv, yv, zv = grid[:, :, :, z] | |
| rot_xv = xv * cos(angle[z]) - yv * sin(angle[z]) | |
| rot_yv = xv * sin(angle[z]) + yv * cos(angle[z]) | |
| grid[:, :, :, z] = [rot_xv, rot_yv, zv] | |
| positions = np.vstack([xyz.ravel() for xyz in grid]) | |
| colors = np.vstack([ | |
| xyz.ravel() | |
| for xyz in np.mgrid[ | |
| slice(0, 255, x_count * 1j), | |
| slice(0, 255, y_count * 1j), | |
| slice(0, 255, z_count * 1j), | |
| ] | |
| ]) | |
| return ColorGrid(positions.T, colors.T.astype(np.uint8)) | |
| def html_template(rrd: str, app_url: str = "https://app.rerun.io") -> str: | |
| encoded_url = urllib.parse.quote(rrd) | |
| return f"""<div style="width:100%; height:70vh;"><iframe style="width:100%; height:100%;" src="{app_url}?url={encoded_url}" frameborder="0" allowfullscreen=""></iframe></div>""" | |
| def show_cube(x: int, y: int, z: int) -> str: | |
| rr.init("my data") | |
| cube = build_color_grid(int(x), int(y), int(z), twist=0) | |
| rr.log("cube", rr.Points3D(cube.positions, colors=cube.colors, radii=0.5)) | |
| blueprint = rrb.Spatial3DView(origin="cube") | |
| rr.save("cube.rrd", default_blueprint=blueprint) | |
| return "cube.rrd" | |
| with gr.Blocks() as demo: | |
| with gr.Row(): | |
| x_count = gr.Number(minimum=1, maximum=10, value=5, precision=0, label="X Count") | |
| y_count = gr.Number(minimum=1, maximum=10, value=5, precision=0, label="Y Count") | |
| z_count = gr.Number(minimum=1, maximum=10, value=5, precision=0, label="Z Count") | |
| button = gr.Button("Show Cube") | |
| with gr.Row(): | |
| rrd = gr.File() | |
| with gr.Row(): | |
| viewer = gr.HTML() | |
| button.click(show_cube, inputs=[x_count, y_count, z_count], outputs=rrd) | |
| rrd.change( | |
| html_template, | |
| js="""(rrd) => { console.log(rrd.url); return rrd.url}""", | |
| inputs=[rrd], | |
| outputs=viewer, | |
| preprocess=False, | |
| ) | |
| app = gr.mount_gradio_app(app, demo, path=CUSTOM_PATH) | |
| # Run this from the terminal as you would normally start a FastAPI app: `uvicorn run:app` | |
| # and navigate to http://localhost:8000 in your browser. | |