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pgnd / gradio_utils.py

kywind

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f96995c 9 days ago

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	import gradio as gr
	import numpy as np
	from PIL import Image, ImageDraw


	def get_valid_mask(mask: np.ndarray):
	"""Convert mask from gr.Image(0 to 255, RGBA) to binary mask.
	"""
	if mask.ndim == 3:
	mask_pil = Image.fromarray(mask).convert('L')
	mask = np.array(mask_pil)
	if mask.max() == 255:
	mask = mask / 255
	return mask


	def draw_points_on_image(image, points, intr, extr, z, radius_scale=0.006):
	overlay_rgba = Image.new("RGBA", image.size, 0)
	overlay_draw = ImageDraw.Draw(overlay_rgba)
	for point_key, point in points.items():

	t_color = (255, 100, 100)
	o_color = (255, 50, 50)

	rad_draw = int(image.size[0] * radius_scale) + 2

	p_start = point["start"]
	p_target = point["target"]

	if p_start is not None and p_target is not None:
	p_draw = int(p_start[0]), int(p_start[1])
	t_draw = int(p_target[0]), int(p_target[1])

	pt = (p_target[0] - p_start[0], p_target[1] - p_start[1])
	pt_norm = np.linalg.norm(pt)
	pt_unit = (pt[0] / pt_norm, pt[1] / pt_norm)
	pt_tang = (pt_unit[1], -pt_unit[0])
	tt1 = (t_draw[0] + pt_tang[0] * 0.1 * pt_norm - pt_unit[0] * 0.1 * pt_norm,
	t_draw[1] + pt_tang[1] * 0.1 * pt_norm - pt_unit[1] * 0.1 * pt_norm)
	tt2 = (t_draw[0] - pt_tang[0] * 0.1 * pt_norm - pt_unit[0] * 0.1 * pt_norm,
	t_draw[1] - pt_tang[1] * 0.1 * pt_norm - pt_unit[1] * 0.1 * pt_norm)
	tt1_draw = int(tt1[0]), int(tt1[1])
	tt2_draw = int(tt2[0]), int(tt2[1])

	overlay_draw.line(
	(p_draw[0], p_draw[1], t_draw[0], t_draw[1]),
	fill=o_color,
	width=4,
	)

	overlay_draw.line(
	(t_draw[0], t_draw[1], tt1_draw[0], tt1_draw[1]),
	fill=o_color,
	width=4,
	)

	overlay_draw.line(
	(t_draw[0], t_draw[1], tt2_draw[0], tt2_draw[1]),
	fill=o_color,
	width=4,
	)

	if p_start is not None:
	p_draw = int(p_start[0]), int(p_start[1])
	overlay_draw.ellipse(
	(
	p_draw[0] - rad_draw,
	p_draw[1] - rad_draw,
	p_draw[0] + rad_draw,
	p_draw[1] + rad_draw,
	),
	fill=t_color,
	outline=o_color,
	width=2,
	)

	if p_target is not None:
	assert p_start is not None

	return Image.alpha_composite(image.convert("RGBA"),
	overlay_rgba).convert("RGB")


	def draw_raw_points_on_image(image,
	points,
	# curr_point=None,
	# highlight_all=True,
	radius_scale=0.002):
	overlay_rgba = Image.new("RGBA", image.size, 0)
	overlay_draw = ImageDraw.Draw(overlay_rgba)
	for p in range(points.shape[0]):
	point = points[p]
	t_color = (150, 150, 255)
	o_color = (50, 50, 255)

	rad_draw = int(image.size[0] * radius_scale)

	t_draw = int(point[0]), int(point[1])
	overlay_draw.ellipse(
	(
	t_draw[0] - rad_draw,
	t_draw[1] - rad_draw,
	t_draw[0] + rad_draw,
	t_draw[1] + rad_draw,
	),
	fill=t_color,
	outline=o_color,
	)
	return Image.alpha_composite(image.convert("RGBA"),
	overlay_rgba).convert("RGB")


	def draw_mask_on_image(image, mask):
	im_mask = np.uint8(mask * 255)
	im_mask_rgba = np.concatenate(
	(
	np.tile(im_mask[..., None], [1, 1, 3]),
	45 * np.ones(
	(im_mask.shape[0], im_mask.shape[1], 1), dtype=np.uint8),
	),
	axis=-1,
	)
	im_mask_rgba = Image.fromarray(im_mask_rgba).convert("RGBA")

	return Image.alpha_composite(image.convert("RGBA"),
	im_mask_rgba).convert("RGB")


	def on_change_single_global_state(keys,
	value,
	global_state,
	map_transform=None):
	if map_transform is not None:
	value = map_transform(value)

	curr_state = global_state
	if isinstance(keys, str):
	last_key = keys

	else:
	for k in keys[:-1]:
	curr_state = curr_state[k]

	last_key = keys[-1]

	curr_state[last_key] = value
	return global_state


	def get_latest_points_pair(points_dict):
	if not points_dict:
	return None
	point_idx = list(points_dict.keys())
	latest_point_idx = max(point_idx)
	return latest_point_idx