Datasets:

SignerX
/

SignVerse-2M

	import math
	import numpy as np
	import matplotlib
	import cv2
	import sys
	import os
	import _pickle as cPickle
	import gzip
	import subprocess
	import torch
	import colorsys
	from typing import List, Dict, Any, Optional, Tuple


	eps = 0.01

	RENDER_STYLES = {
	"bold": {"line_scale": 3.0, "point_scale": 2.0},
	"thin": {"line_scale": 1.0, "point_scale": 1.0},
	}


	def get_render_style(style: str = "bold") -> Dict[str, float]:
	"""Return named DWPose rendering style parameters."""
	if style not in RENDER_STYLES:
	raise ValueError(f"Unknown render style '{style}'. Choose from: {sorted(RENDER_STYLES)}")
	return RENDER_STYLES[style]


	def filter_pose_by_confidence(
	pose_data: Dict[str, Any],
	conf_threshold: float = 0.6,
	) -> Dict[str, Any]:
	"""Filter low-confidence joints before rendering."""
	filtered = {}
	for key, value in pose_data.items():
	if isinstance(value, np.ndarray):
	filtered[key] = value.copy()
	else:
	filtered[key] = value

	bodies = filtered.get("bodies")
	body_scores = filtered.get("body_scores")
	if bodies is not None:
	bodies = np.array(bodies, copy=True)
	min_valid = 1e-6
	coord_mask = (bodies[:, 0] > min_valid) & (bodies[:, 1] > min_valid)

	conf_mask = None
	if body_scores is not None:
	score_vec = np.asarray(body_scores).reshape(-1).astype(float)
	conf_mask = score_vec < conf_threshold
	if conf_mask.shape[0] < bodies.shape[0]:
	conf_mask = np.pad(
	conf_mask,
	(0, bodies.shape[0] - conf_mask.shape[0]),
	constant_values=False,
	)
	elif conf_mask.shape[0] > bodies.shape[0]:
	conf_mask = conf_mask[: bodies.shape[0]]

	valid_mask = coord_mask if conf_mask is None else coord_mask & (~conf_mask)
	bodies[~valid_mask, :] = 0
	filtered["bodies"] = bodies

	if body_scores is not None:
	subset = np.array(body_scores, copy=True)
	if subset.ndim == 1:
	subset = subset.reshape(1, -1)
	else:
	subset = np.arange(bodies.shape[0], dtype=float).reshape(1, -1)

	if subset.shape[1] < bodies.shape[0]:
	subset = np.pad(
	subset,
	((0, 0), (0, bodies.shape[0] - subset.shape[1])),
	constant_values=-1,
	)
	elif subset.shape[1] > bodies.shape[0]:
	subset = subset[:, : bodies.shape[0]]

	subset[:, ~valid_mask] = -1
	filtered["body_scores"] = subset

	hands = filtered.get("hands")
	hand_scores = filtered.get("hands_scores")
	if hands is not None and hand_scores is not None:
	hands = np.array(hands, copy=True)
	scores = np.array(hand_scores)
	if hands.ndim == 3 and scores.ndim in (2, 3):
	for h in range(hands.shape[0]):
	cur_scores = scores[h] if scores.ndim == 2 else scores[h]
	mask = (cur_scores < conf_threshold) \| (cur_scores <= 0)
	hands[h][mask, :] = 0
	elif hands.ndim == 2 and scores.ndim in (1, 2):
	cur_scores = scores if scores.ndim == 1 else scores.reshape(-1)
	mask = (cur_scores < conf_threshold) \| (cur_scores <= 0)
	hands[mask, :] = 0
	filtered["hands"] = hands

	faces = filtered.get("faces")
	face_scores = filtered.get("faces_scores")
	if faces is not None and face_scores is not None:
	faces = np.array(faces, copy=True)
	scores = np.array(face_scores)
	if faces.ndim == 3 and scores.ndim in (2, 3):
	for f in range(faces.shape[0]):
	cur_scores = scores[f] if scores.ndim == 2 else scores[f]
	mask = (cur_scores < conf_threshold) \| (cur_scores <= 0)
	faces[f][mask, :] = 0
	elif faces.ndim == 2 and scores.ndim in (1, 2):
	cur_scores = scores if scores.ndim == 1 else scores.reshape(-1)
	mask = (cur_scores < conf_threshold) \| (cur_scores <= 0)
	faces[mask, :] = 0
	filtered["faces"] = faces

	return filtered

	def alpha_blend_color(color, alpha):
	"""blend color according to point conf
	"""
	return [int(c * alpha) for c in color]

	def draw_bodypose(canvas, candidate, subset, score, transparent=False, line_scale=1.0, point_scale=1.0):
	"""Draw body pose on canvas
	Args:
	canvas: numpy array canvas to draw on
	candidate: pose candidate
	subset: pose subset
	score: confidence scores
	transparent: whether to use transparent background
	Returns:
	canvas: drawn canvas
	"""
	H, W, C = canvas.shape
	candidate = np.array(candidate)
	subset = np.array(subset)

	stickwidth = max(1, int(round(4 * line_scale)))

	limbSeq = [[2, 3], [2, 6], [3, 4], [4, 5], [6, 7], [7, 8], [2, 9], [9, 10],
	[10, 11], [2, 12], [12, 13], [13, 14], [2, 1], [1, 15], [15, 17],
	[1, 16], [16, 18], [3, 17], [6, 18]]

	colors = [[255, 0, 0], [255, 85, 0], [255, 170, 0], [255, 255, 0], [170, 255, 0], [85, 255, 0], [0, 255, 0],
	[0, 255, 85], [0, 255, 170], [0, 255, 255], [0, 170, 255], [0, 85, 255], [0, 0, 255], [85, 0, 255],
	[170, 0, 255], [255, 0, 255], [255, 0, 170], [255, 0, 85]]

	# Add alpha channel if transparent
	if transparent:
	colors = [color + [255] for color in colors]

	for i in range(17):
	for n in range(len(subset)):
	index = subset[n][np.array(limbSeq[i]) - 1]
	conf = score[n][np.array(limbSeq[i]) - 1]
	if conf[0] < 0.3 or conf[1] < 0.3:
	continue
	Y = candidate[index.astype(int), 0] * float(W)
	X = candidate[index.astype(int), 1] * float(H)
	mX = np.mean(X)
	mY = np.mean(Y)
	length = ((X[0] - X[1]) 2 + (Y[0] - Y[1]) 2) ** 0.5
	angle = math.degrees(math.atan2(X[0] - X[1], Y[0] - Y[1]))
	polygon = cv2.ellipse2Poly((int(mY), int(mX)), (int(length / 2), stickwidth), int(angle), 0, 360, 1)
	if transparent:
	color = colors[i][:-1] + [int(255 * conf[0] * conf[1])] # Adjust alpha based on confidence
	else:
	color = colors[i]
	cv2.fillConvexPoly(canvas, polygon, color)

	canvas = (canvas * 0.6).astype(np.uint8)

	for i in range(18):
	for n in range(len(subset)):
	index = int(subset[n][i])
	if index == -1:
	continue
	x, y = candidate[index][0:2]
	conf = score[n][i]
	x = int(x * W)
	y = int(y * H)
	if transparent:
	color = colors[i][:-1] + [int(255 * conf)] # Adjust alpha based on confidence
	else:
	color = colors[i]
	cv2.circle(canvas, (int(x), int(y)), max(1, int(round(4 * point_scale))), color, thickness=-1)

	return canvas

	def draw_handpose(canvas, all_hand_peaks, all_hand_scores, transparent=False, line_scale=1.0, point_scale=1.0):
	"""Draw hand pose on canvas"""
	H, W, C = canvas.shape

	edges = [[0, 1], [1, 2], [2, 3], [3, 4], [0, 5], [5, 6], [6, 7], [7, 8], [0, 9], [9, 10],
	[10, 11], [11, 12], [0, 13], [13, 14], [14, 15], [15, 16], [0, 17], [17, 18], [18, 19], [19, 20]]

	for peaks, scores in zip(all_hand_peaks, all_hand_scores):
	for ie, e in enumerate(edges):
	x1, y1 = peaks[e[0]]
	x2, y2 = peaks[e[1]]
	x1 = int(x1 * W)
	y1 = int(y1 * H)
	x2 = int(x2 * W)
	y2 = int(y2 * H)
	score = scores[e[0]] * scores[e[1]]
	if x1 > eps and y1 > eps and x2 > eps and y2 > eps:
	color = matplotlib.colors.hsv_to_rgb([ie / float(len(edges)), 1.0, 1.0])
	if transparent:
	color = tuple(int(c * 255) for c in color) + (int(score * 255),)
	else:
	color = tuple(int(c * score * 255) for c in color)
	cv2.line(canvas, (x1, y1), (x2, y2), color, thickness=max(1, int(round(2 * line_scale))))

	for i, keypoint in enumerate(peaks):
	x, y = keypoint
	x = int(x * W)
	y = int(y * H)
	if x > eps and y > eps:
	if transparent:
	color = (0, 0, 0, int(scores[i] * 255))
	else:
	color = (0, 0, int(scores[i] * 255))
	cv2.circle(canvas, (x, y), max(1, int(round(4 * point_scale))), color, thickness=-1)
	return canvas

	def draw_facepose(canvas, all_lmks, all_scores, transparent=False, point_scale=1.0):
	"""Draw face pose on canvas"""
	H, W, C = canvas.shape
	for lmks, scores in zip(all_lmks, all_scores):
	for lmk, score in zip(lmks, scores):
	x, y = lmk
	x = int(x * W)
	y = int(y * H)
	if x > eps and y > eps:
	if transparent:
	color = (255, 255, 255, int(score * 255)) # White with alpha
	else:
	conf = int(score * 255)
	color = (conf, conf, conf) # Original grayscale
	cv2.circle(canvas, (x, y), max(1, int(round(3 * point_scale))), color, thickness=-1)
	return canvas

	def draw_pose(
	pose,
	H,
	W,
	include_body=True,
	include_hand=True,
	include_face=True,
	ref_w=2160,
	transparent=False,
	line_scale=1.0,
	point_scale=1.0,
	):
	"""vis dwpose outputs with optional transparent background

	Args:
	pose (Dict): DWposeDetector outputs - 支持新的person_id格式和旧格式
	H (int): height
	W (int): width
	include_body (bool): whether to draw body keypoints
	include_hand (bool): whether to draw hand keypoints
	include_face (bool): whether to draw face keypoints
	ref_w (int, optional): reference width. Defaults to 2160.
	transparent (bool, optional): whether to use transparent background. Defaults to False.

	Returns:
	np.ndarray: image pixel value in RGBA mode if transparent=True, otherwise RGB mode
	"""
	sz = min(H, W)
	sr = (ref_w / sz) if sz != ref_w else 1

	# Create canvas - now with alpha channel if transparent
	if transparent:
	canvas = np.zeros(shape=(int(Hsr), int(Wsr), 4), dtype=np.uint8)
	else:
	canvas = np.zeros(shape=(int(Hsr), int(Wsr), 3), dtype=np.uint8)

	# 检查是否是新的person_id数据格式
	if 'num_persons' in pose and pose['num_persons'] > 0:
	# 使用新的多人数据结构
	processed_data = process_pose_data(pose, H, W)
	bodies = processed_data['bodies']
	faces = processed_data['faces']
	hands = processed_data['hands']
	candidate = bodies['candidate']
	subset = bodies['subset']

	if include_body:
	canvas = draw_bodypose(
	canvas,
	candidate,
	subset,
	score=bodies['score'],
	transparent=transparent,
	line_scale=line_scale,
	point_scale=point_scale,
	)

	if include_hand:
	canvas = draw_handpose(
	canvas,
	hands,
	processed_data['hands_score'],
	transparent=transparent,
	line_scale=line_scale,
	point_scale=point_scale,
	)

	if include_face:
	canvas = draw_facepose(
	canvas,
	faces,
	processed_data['faces_score'],
	transparent=transparent,
	point_scale=point_scale,
	)

	else:
	# 兼容旧的数据格式 - 作为备选方案
	try:
	processed_data = process_pose_data(pose, H, W)
	bodies = processed_data['bodies']
	faces = processed_data['faces']
	hands = processed_data['hands']
	candidate = bodies['candidate']
	subset = bodies['subset']

	if include_body:
	canvas = draw_bodypose(
	canvas,
	candidate,
	subset,
	score=bodies['score'],
	transparent=transparent,
	line_scale=line_scale,
	point_scale=point_scale,
	)

	if include_hand:
	canvas = draw_handpose(
	canvas,
	hands,
	processed_data['hands_score'],
	transparent=transparent,
	line_scale=line_scale,
	point_scale=point_scale,
	)

	if include_face:
	canvas = draw_facepose(
	canvas,
	faces,
	processed_data['faces_score'],
	transparent=transparent,
	point_scale=point_scale,
	)
	except Exception as e:
	print(f"绘制旧格式数据失败: {str(e)}")
	# 返回空画布
	pass

	if transparent:
	return cv2.cvtColor(cv2.resize(canvas, (W, H)), cv2.COLOR_BGRA2RGBA).transpose(2, 0, 1)
	else:
	return cv2.cvtColor(cv2.resize(canvas, (W, H)), cv2.COLOR_BGR2RGB).transpose(2, 0, 1)

	def process_pose_data(pose_data: Dict[str, Any], height: int, width: int) -> Dict[str, Any]:
	"""
	处理姿势数据，完全支持新的person_id数据结构
	"""
	processed_data = {}

	# 确保使用新的数据结构
	if 'num_persons' in pose_data and pose_data['num_persons'] > 0:
	num_persons = pose_data['num_persons']

	# 收集所有人的关键点数据
	all_bodies = []
	all_body_scores = []
	all_hands = []
	all_hand_scores = []
	all_faces = []
	all_face_scores = []

	for person_id in range(num_persons):
	person_key = f'person_{person_id}'
	if person_key in pose_data:
	person_data = pose_data[person_key]
	all_bodies.append(person_data['body_keypoints'])
	all_body_scores.append(person_data['body_scores'])
	all_hands.extend([person_data['left_hand_keypoints'], person_data['right_hand_keypoints']])
	all_hand_scores.extend([person_data['left_hand_scores'], person_data['right_hand_scores']])
	all_faces.append(person_data['face_keypoints'])
	all_face_scores.append(person_data['face_scores'])

	# 合并所有人的数据
	if all_bodies:
	bodies = np.vstack(all_bodies)
	body_scores = np.array(all_body_scores)

	# 创建subset - 为每个人创建独立的subset行
	subset = []
	for person_id in range(num_persons):
	person_subset = list(range(person_id * 18, (person_id + 1) * 18))
	subset.append(person_subset)
	subset = np.array(subset)

	# 创建scores - 基于body_scores中的有效性
	scores = np.ones_like(body_scores)
	for i in range(num_persons):
	for j in range(18):
	if body_scores[i, j] < 0: # 如果body_scores为负数，认为无效
	scores[i, j] = 0.0
	else:
	scores[i, j] = 1.0
	else:
	bodies = np.array([])
	subset = np.array([[]])
	scores = np.array([[]])

	hands = np.array(all_hands) if all_hands else np.array([])
	hand_scores = np.array(all_hand_scores) if all_hand_scores else np.array([])
	faces = np.array(all_faces) if all_faces else np.array([])
	face_scores = np.array(all_face_scores) if all_face_scores else np.array([])

	else:
	# 兼容旧的单人数据格式
	raw_bodies = np.array(pose_data.get('bodies', []), dtype=np.float32)
	raw_body_scores = np.array(pose_data.get('body_scores', []), dtype=np.float32)
	raw_hands = np.array(pose_data.get('hands', []), dtype=np.float32)
	raw_hand_scores = np.array(pose_data.get('hands_scores', []), dtype=np.float32)
	raw_faces = np.array(pose_data.get('faces', []), dtype=np.float32)
	raw_face_scores = np.array(pose_data.get('faces_scores', []), dtype=np.float32)

	if raw_bodies.size > 0:
	bodies = raw_bodies.reshape(-1, 2)
	subset = np.arange(bodies.shape[0], dtype=np.int32)[None, :]

	if raw_body_scores.size > 0:
	scores = raw_body_scores.reshape(1, -1)
	else:
	scores = np.ones((1, bodies.shape[0]), dtype=np.float32)
	else:
	bodies = np.array([])
	subset = np.array([[]])
	scores = np.array([[]])

	hands = raw_hands if raw_hands.size > 0 else np.array([])
	hand_scores = raw_hand_scores if raw_hand_scores.size > 0 else np.array([])
	faces = raw_faces if raw_faces.size > 0 else np.array([])
	face_scores = raw_face_scores if raw_face_scores.size > 0 else np.array([])

	processed_data['bodies'] = {
	'candidate': bodies,
	'subset': subset,
	'score': scores
	}

	processed_data['hands'] = hands
	processed_data['hands_score'] = hand_scores

	processed_data['faces'] = faces
	processed_data['faces_score'] = face_scores

	return processed_data