Datasets:

Nicole-Yi
/

GitTaskBench

	#!/usr/bin/env python3
	import os
	import sys
	import argparse
	import json
	import datetime
	import cv2
	import numpy as np
	import torch
	import lpips
	from torchvision import transforms
	import torch.nn.functional as F
	from PIL import Image, UnidentifiedImageError

	def verify_image(path, exts=('.png', '.jpg', '.jpeg', '.webp')):
	"""检查文件存在、非空、扩展名合法，并能被 PIL 打开。"""
	if not os.path.isfile(path):
	return False, f'文件不存在：{path}'
	if os.path.getsize(path) == 0:
	return False, f'文件为空：{path}'
	if not path.lower().endswith(exts):
	return False, f'不支持的格式：{path}'
	try:
	img = Image.open(path)
	img.verify()
	except (UnidentifiedImageError, Exception) as e:
	return False, f'无法读取图像：{path} （{e}）'
	return True, ''

	def load_tensor(path):
	"""按原脚本方式载入并归一化到 [-1,1] 的 Tensor"""
	img = cv2.imread(path, cv2.IMREAD_COLOR)
	if img is None:
	raise RuntimeError(f'cv2 读取失败：{path}')
	img = cv2.cvtColor(img, cv2.COLOR_BGR2RGB)
	t = transforms.ToTensor()(img) * 2 - 1
	return t.unsqueeze(0)

	def histogram_intersection(a, b, bins=256):
	"""计算两张图 RGB 通道直方图的平均交集比率"""
	inters = []
	for ch in range(3):
	h1 = cv2.calcHist([a], [ch], None, [bins], [0,256]).ravel()
	h2 = cv2.calcHist([b], [ch], None, [bins], [0,256]).ravel()
	if h1.sum() > 0:
	h1 = h1 / h1.sum()
	if h2.sum() > 0:
	h2 = h2 / h2.sum()
	inters.append(np.minimum(h1, h2).sum())
	return float(np.mean(inters))

	if __name__ == "__main__":
	p = argparse.ArgumentParser(description='自动化风格迁移效果检测脚本')
	p.add_argument('--groundtruth', required=True, help='真实值目录路径')
	p.add_argument('--output', required=True, help='风格化后图像路径')
	p.add_argument('--lpips-thresh', type=float, default=0.5, help='LPIPS 阈值 (>= 通过)')
	p.add_argument('--hi-thresh', type=float, default=0.6, help='HI(直方图交集) 阈值 (>= 通过)')
	p.add_argument('--result', required=True, help='结果 JSONL 文件路径，追加模式')
	args = p.parse_args()

	# 构建 content 和 style 的路径
	content_path = os.path.join(args.groundtruth, 'images.jpg')
	style_path = os.path.join(args.groundtruth, 'style.jpg')

	process = True
	comments = []

	# ——— 1. 检验所有文件 —
	for tag, path in [('content', content_path), ('style', style_path), ('output', args.output)]:
	ok, msg = verify_image(path)
	if not ok:
	process = False
	comments.append(f'[{tag}] {msg}')

	# ——— 2. 计算指标（仅当 process==True） —
	lpips_pass = hi_pass = False
	lpips_val = hi_val = None
	if process:
	try:
	# LPIPS between content 与 output
	img_c = load_tensor(content_path)
	img_o = load_tensor(args.output)
	# 对齐尺寸
	_, _, h0, w0 = img_c.shape
	_, _, h1, w1 = img_o.shape
	nh, nw = min(h0,h1), min(w0,w1)
	if (h0,w0)!=(nh,nw):
	img_c = F.interpolate(img_c, size=(nh,nw), mode='bilinear', align_corners=False)
	if (h1,w1)!=(nh,nw):
	img_o = F.interpolate(img_o, size=(nh,nw), mode='bilinear', align_corners=False)

	loss_fn = lpips.LPIPS(net='vgg').to(torch.device('cpu'))
	with torch.no_grad():
	lpips_val = float(loss_fn(img_c, img_o).item())
	lpips_pass = lpips_val >= args.lpips_thresh

	# HI between style 与 output
	img_s = cv2.imread(style_path, cv2.IMREAD_COLOR)
	img_o_cv = cv2.imread(args.output, cv2.IMREAD_COLOR)
	hi_val = histogram_intersection(img_s, img_o_cv)
	hi_pass = hi_val >= args.hi_thresh

	comments.append(f'LPIPS={lpips_val:.4f} (>= {args.lpips_thresh} → {"OK" if lpips_pass else "FAIL"})')
	comments.append(f'HI={hi_val:.4f} (>= {args.hi_thresh} → {"OK" if hi_pass else "FAIL"})')

	except Exception as e:
	process = False
	comments.append(f'指标计算出错：{e}')

	# ——— 3. 写入 JSONL —
	result_flag = (process and lpips_pass and hi_pass)
	entry = {
	"Process": process,
	"Result": result_flag,
	"TimePoint": datetime.datetime.now().isoformat(sep='T', timespec='seconds'),
	"comments": "; ".join(comments)
	}
	print(entry["comments"])
	os.makedirs(os.path.dirname(args.result) or '.', exist_ok=True)
	with open(args.result, 'a', encoding='utf-8') as f:
	f.write(json.dumps(entry, ensure_ascii=False, default=str) + "\n")