test/converters/pipeline/step2_extract.py

# -*- coding: utf-8 -*-
"""
extract_1_v2.py

PDF에서 텍스트(md)와 이미지(png)를 추출
- 하위 폴더 구조 유지
- 이미지 메타데이터 JSON 생성 (폴더경로, 파일명, 페이지, 위치, 캡션 등)
"""

import fitz  # PyMuPDF
import os
import re
import json
import numpy as np
from pathlib import Path
from datetime import datetime
from PIL import Image
import io

# ===== OCR 설정 (선택적) =====
try:
    import pytesseract
    pytesseract.pytesseract.tesseract_cmd = r"C:\Program Files\Tesseract-OCR\tesseract.exe"
    TESSERACT_AVAILABLE = True
except ImportError:
    TESSERACT_AVAILABLE = False
    print("[INFO] pytesseract 미설치 - 텍스트 잘림 필터 비활성화")

# ===== 경로 설정 =====
BASE_DIR = Path(r"D:\for python\survey_test\extract")        # PDF 원본 위치
OUTPUT_BASE = Path(r"D:\for python\survey_test\process")   # 출력 위치

CAPTION_PATTERN = re.compile(
    r'^\s*(?:[<\[\(\{]\s*)?(그림|figure|fig)\s*\.?\s*(?:[<\[\(\{]\s*)?0*\d+(?:\s*[-–]\s*\d+)?',
    re.IGNORECASE
)


def get_figure_rects(page):
    """
    Identifies figure regions based on '<그림 N>' captions and vector drawings.
    Returns a list of dicts: {'rect': fitz.Rect, 'caption_block': block_index}
    """
    drawings = page.get_drawings()

    blocks = page.get_text("blocks")
    captions = []
     
    for i, b in enumerate(blocks):
        text = b[4]
        if CAPTION_PATTERN.search(text):
            captions.append({'rect': fitz.Rect(b[:4]), 'index': i, 'text': text, 'drawings': []})

    if not captions:
        return []

    filtered_drawings_rects = []
    for d in drawings:
        r = d["rect"]
        if r.height > page.rect.height / 3 and r.width < 5:
            continue
        if r.width > page.rect.width * 0.9:
            continue
        filtered_drawings_rects.append(r)

    page_area = page.rect.get_area()
    img_rects = []
    for b in page.get_text("dict")["blocks"]:
        if b.get("type") == 1:
            ir = fitz.Rect(b["bbox"])
            if ir.get_area() < page_area * 0.01:
                continue
            img_rects.append(ir)

    remaining_drawings = filtered_drawings_rects + img_rects
    caption_clusters = {cap['index']: [cap['rect']] for cap in captions}
    
    def is_text_between(r1, r2, text_blocks):
        if r1.intersects(r2):
            return False
        union = r1 | r2
        for b in text_blocks:
            b_rect = fitz.Rect(b[:4])
            text_content = b[4]
            if len(text_content.strip()) < 20: 
                continue
            if not b_rect.intersects(union):
                continue
            if b_rect.intersects(r1) or b_rect.intersects(r2):
                continue
            return True
        return False

    changed = True
    while changed:
        changed = False
        to_remove = []
        
        for d_rect in remaining_drawings:
            best_cluster_key = None
            min_dist = float('inf')
            
            for cap_index, cluster_rects in caption_clusters.items():
                for r in cluster_rects:
                    dist = 0
                    if d_rect.intersects(r):
                        dist = 0
                    else:
                        x_dist = 0
                        if d_rect.x1 < r.x0: x_dist = r.x0 - d_rect.x1
                        elif d_rect.x0 > r.x1: x_dist = d_rect.x0 - r.x1
                        
                        y_dist = 0
                        if d_rect.y1 < r.y0: y_dist = r.y0 - d_rect.y1
                        elif d_rect.y0 > r.y1: y_dist = d_rect.y0 - r.y1
                        
                        if x_dist < 150 and y_dist < 150:
                            dist = max(x_dist, y_dist) + 0.1 
                        else:
                            dist = float('inf')
                    
                    if dist < min_dist:
                         if not is_text_between(r, d_rect, blocks):
                             min_dist = dist
                             best_cluster_key = cap_index
                
                if min_dist == 0: 
                    break
            
            if best_cluster_key is not None and min_dist < 150:
                caption_clusters[best_cluster_key].append(d_rect)
                to_remove.append(d_rect)
                changed = True
        
        for r in to_remove:
            remaining_drawings.remove(r)
            
    figure_regions = []
    
    for cap in captions:
        cluster_rects = caption_clusters[cap['index']]
        content_rects = cluster_rects[1:] 
        
        if not content_rects:
            continue
            
        union_rect = content_rects[0]
        for r in content_rects[1:]:
            union_rect = union_rect | r
            
        union_rect.x0 = max(0, union_rect.x0 - 5)
        union_rect.x1 = min(page.rect.width, union_rect.x1 + 5)
        union_rect.y0 = max(0, union_rect.y0 - 5)
        union_rect.y1 = min(page.rect.height, union_rect.y1 + 5)
        
        cap_rect = cap['rect']
        
        if cap_rect.y0 + cap_rect.height/2 < union_rect.y0 + union_rect.height/2:
             if union_rect.y0 < cap_rect.y1: union_rect.y0 = cap_rect.y1 + 2 
        else:
             if union_rect.y1 > cap_rect.y0: union_rect.y1 = cap_rect.y0 - 2 
             
        area = union_rect.get_area()
        page_area = page.rect.get_area()

        if area < page_area * 0.01:
            continue

        if union_rect.height < 20 and union_rect.width > page.rect.width * 0.6:
            continue
        if union_rect.width < 20 and union_rect.height > page.rect.height * 0.6:
            continue

        text_blocks = page.get_text("blocks")
        text_count = 0

        for b in text_blocks:
            b_rect = fitz.Rect(b[:4])
            if not b_rect.intersects(union_rect):
                continue
            text = b[4].strip()
            if len(text) < 5:
                continue
            text_count += 1

        if text_count < 0:
            continue

        figure_regions.append({
            'rect': union_rect,
            'caption_index': cap['index'],
            'caption_rect': cap['rect'],
            'caption_text': cap['text'].strip()  # ★ 캡션 텍스트 저장
        })

    return figure_regions


def pixmap_metrics(pix):
    arr = np.frombuffer(pix.samples, dtype=np.uint8)
    c = 4 if pix.alpha else 3
    arr = arr.reshape(pix.height, pix.width, c)[:, :, :3]
    gray = (0.299 * arr[:, :, 0] + 0.587 * arr[:, :, 1] + 0.114 * arr[:, :, 2]).astype(np.uint8)
    white = gray > 245
    nonwhite_ratio = float(1.0 - white.mean())
    gx = np.abs(np.diff(gray.astype(np.int16), axis=1))
    gy = np.abs(np.diff(gray.astype(np.int16), axis=0))
    edge = (gx[:-1, :] + gy[:, :-1]) > 40
    edge_ratio = float(edge.mean())
    var = float(gray.var())
    return nonwhite_ratio, edge_ratio, var


def keep_figure(pix):
    nonwhite_ratio, edge_ratio, var = pixmap_metrics(pix)
    if nonwhite_ratio < 0.004:
        return False, nonwhite_ratio, edge_ratio, var
    if nonwhite_ratio < 0.012 and edge_ratio < 0.004 and var < 20:
        return False, nonwhite_ratio, edge_ratio, var
    return True, nonwhite_ratio, edge_ratio, var


# ===== 추가 이미지 필터 함수들 (v2.1) =====

def pix_to_pil(pix):
    """PyMuPDF Pixmap을 PIL Image로 변환"""
    img_data = pix.tobytes("png")
    return Image.open(io.BytesIO(img_data))


def has_cut_text_at_boundary(pix, margin=5):
    """
    이미지 경계에서 텍스트가 잘렸는지 감지
    - 이미지 테두리 근처에 텍스트 박스가 있으면 잘린 것으로 판단
    
    Args:
        pix: PyMuPDF Pixmap
        margin: 경계로부터의 여유 픽셀 (기본 5px)
    
    Returns:
        bool: 텍스트가 잘렸으면 True
    """
    if not TESSERACT_AVAILABLE:
        return False  # OCR 없으면 필터 비활성화
    
    try:
        img = pix_to_pil(pix)
        width, height = img.size
        
        # OCR로 텍스트 위치 추출
        data = pytesseract.image_to_data(img, lang='kor+eng', output_type=pytesseract.Output.DICT)
        
        for i, text in enumerate(data['text']):
            text = str(text).strip()
            if len(text) < 2:  # 너무 짧은 텍스트는 무시
                continue
            
            x = data['left'][i]
            y = data['top'][i]
            w = data['width'][i]
            h = data['height'][i]
            
            # 텍스트가 이미지 경계에 너무 가까우면 = 잘린 것
            # 왼쪽 경계
            if x <= margin:
                return True
            # 오른쪽 경계
            if x + w >= width - margin:
                return True
            # 상단 경계 (헤더 제외를 위해 좀 더 여유)
            if y <= margin and h < height * 0.3:
                return True
            # 하단 경계
            if y + h >= height - margin:
                return True
        
        return False
        
    except Exception as e:
        # OCR 실패 시 필터 통과 (이미지 유지)
        return False


def is_decorative_background(pix, edge_threshold=0.02, color_var_threshold=500):
    """
    배경 패턴 + 텍스트만 있는 장식용 이미지인지 감지
    - 엣지가 적고 (복잡한 도표/사진이 아님)
    - 색상 다양성이 낮으면 (단순 그라데이션 배경)
    
    Args:
        pix: PyMuPDF Pixmap
        edge_threshold: 엣지 비율 임계값 (기본 0.02 = 2%)
        color_var_threshold: 색상 분산 임계값
    
    Returns:
        bool: 장식용 배경이면 True
    """
    try:
        nonwhite_ratio, edge_ratio, var = pixmap_metrics(pix)
        
        # 엣지가 거의 없고 (단순한 이미지)
        # 색상 분산도 낮으면 (배경 패턴)
        if edge_ratio < edge_threshold and var < color_var_threshold:
            # 추가 확인: 텍스트만 있는지 OCR로 체크
            if TESSERACT_AVAILABLE:
                try:
                    img = pix_to_pil(pix)
                    text = pytesseract.image_to_string(img, lang='kor+eng').strip()
                    
                    # 텍스트가 있고, 이미지가 단순하면 = 텍스트 배경
                    if len(text) > 3 and edge_ratio < 0.015:
                        return True
                except:
                    pass
            
            return True
        
        return False
        
    except Exception:
        return False


def is_header_footer_region(rect, page_rect, height_threshold=0.12):
    """
    헤더/푸터 영역에 있는 이미지인지 감지
    - 페이지 상단 12% 또는 하단 12%에 위치
    - 높이가 낮은 strip 형태
    
    Args:
        rect: 이미지 영역 (fitz.Rect)
        page_rect: 페이지 전체 영역 (fitz.Rect)
        height_threshold: 헤더/푸터 영역 비율 (기본 12%)
    
    Returns:
        bool: 헤더/푸터 영역이면 True
    """
    page_height = page_rect.height
    img_height = rect.height
    
    # 상단 영역 체크
    if rect.y0 < page_height * height_threshold:
        # 높이가 페이지의 15% 미만인 strip이면 헤더
        if img_height < page_height * 0.15:
            return True
    
    # 하단 영역 체크
    if rect.y1 > page_height * (1 - height_threshold):
        # 높이가 페이지의 15% 미만인 strip이면 푸터
        if img_height < page_height * 0.15:
            return True
    
    return False


def should_filter_image(pix, rect, page_rect):
    """
    이미지를 필터링해야 하는지 종합 판단
    
    Args:
        pix: PyMuPDF Pixmap
        rect: 이미지 영역
        page_rect: 페이지 전체 영역
    
    Returns:
        tuple: (필터링 여부, 필터링 사유)
    """
    # 1. 헤더/푸터 영역 체크
    if is_header_footer_region(rect, page_rect):
        return True, "header_footer"
    
    # 2. 텍스트 잘림 체크
    if has_cut_text_at_boundary(pix):
        return True, "cut_text"
    
    # 3. 장식용 배경 체크
    if is_decorative_background(pix):
        return True, "decorative_background"
    
    return False, None


def extract_pdf_content(pdf_path, output_md_path, img_dir, metadata):
    """
    PDF 내용 추출
    
    Args:
        pdf_path: PDF 파일 경로
        output_md_path: 출력 MD 파일 경로
        img_dir: 이미지 저장 폴더
        metadata: 메타데이터 딕셔너리 (폴더 경로, 파일명 등)
    
    Returns:
        image_metadata_list: 추출된 이미지들의 메타데이터 리스트
    """
    os.makedirs(img_dir, exist_ok=True)
    
    image_metadata_list = []  # ★ 이미지 메타데이터 수집
    
    doc = fitz.open(pdf_path)
    total_pages = len(doc)
    
    with open(output_md_path, "w", encoding="utf-8") as md_file:
        # ★ 메타데이터 헤더 추가
        md_file.write(f"---\n")
        md_file.write(f"source_pdf: {metadata['pdf_name']}\n")
        md_file.write(f"source_folder: {metadata['relative_folder']}\n")
        md_file.write(f"total_pages: {total_pages}\n")
        md_file.write(f"extracted_at: {datetime.now().isoformat()}\n")
        md_file.write(f"---\n\n")
        md_file.write(f"# {metadata['pdf_name']}\n\n")
        
        for page_num, page in enumerate(doc):
            md_file.write(f"\n## Page {page_num + 1}\n\n")
            img_rel_dir = os.path.basename(img_dir)
            
            figure_regions = get_figure_rects(page)
            
            kept_figures = []
            for i, fig in enumerate(figure_regions):
                rect = fig['rect']
                pix_preview = page.get_pixmap(clip=rect, dpi=100, colorspace=fitz.csRGB)
                ok, nonwhite_ratio, edge_ratio, var = keep_figure(pix_preview)
                if not ok:
                    continue

                pix = page.get_pixmap(clip=rect, dpi=150, colorspace=fitz.csRGB)
                
                # ★ 추가 필터 적용 (v2.1)
                should_filter, filter_reason = should_filter_image(pix, rect, page.rect)
                if should_filter:
                    continue
                
                img_name = f"p{page_num + 1:03d}_fig{len(kept_figures):02d}.png"
                img_path = os.path.join(img_dir, img_name)
                pix.save(img_path)

                fig['img_path'] = os.path.join(img_rel_dir, img_name).replace("\\", "/")
                fig['img_name'] = img_name
                kept_figures.append(fig)
                
                # ★ 이미지 메타데이터 수집
                image_metadata_list.append({
                    "image_file": img_name,
                    "image_path": str(Path(img_dir) / img_name),
                    "type": "figure",
                    "source_pdf": metadata['pdf_name'],
                    "source_folder": metadata['relative_folder'],
                    "full_path": metadata['full_path'],
                    "page": page_num + 1,
                    "total_pages": total_pages,
                    "caption": fig.get('caption_text', ''),
                    "rect": {
                        "x0": round(rect.x0, 2),
                        "y0": round(rect.y0, 2),
                        "x1": round(rect.x1, 2),
                        "y1": round(rect.y1, 2)
                    }
                })

            figure_regions = kept_figures

            caption_present = any(
                CAPTION_PATTERN.search((tb[4] or "")) for tb in page.get_text("blocks")
            )
            uncaptioned_idx = 0

            items = []

            def inside_any_figure(block_rect, figures):
                for fig in figures:
                    intersect = block_rect & fig["rect"]
                    if intersect.get_area() > 0.5 * block_rect.get_area():
                        return True
                return False

            def is_full_width_rect(r, page_rect):
                return r.width >= page_rect.width * 0.78

            def figure_anchor_rect(fig, page_rect):
                cap = fig["caption_rect"]
                rect = fig["rect"]
                if cap.y0 >= rect.y0:
                    y = max(0.0, cap.y0 - 0.02)
                else:
                    y = min(page_rect.height - 0.02, cap.y1 + 0.02)
                return fitz.Rect(cap.x0, y, cap.x1, y + 0.02)

            for fig in figure_regions:
                anchor = figure_anchor_rect(fig, page.rect)
                md = (
                    f"\n![{fig.get('caption_text', 'Figure')}]({fig['img_path']})\n"
                    f"*{fig.get('caption_text', '')}*\n\n"
                )
                items.append({
                    "kind": "figure",
                    "rect": anchor,
                    "kind_order": 0,
                    "md": md,
                })

            raw_blocks = page.get_text("dict")["blocks"]

            for block in raw_blocks:
                block_rect = fitz.Rect(block["bbox"])

                if block.get("type") == 0:
                    if inside_any_figure(block_rect, figure_regions):
                        continue
                    items.append({
                        "kind": "text",
                        "rect": block_rect,
                        "kind_order": 2,
                        "block": block,
                    })
                    continue

                if block.get("type") == 1:
                    if inside_any_figure(block_rect, figure_regions):
                        continue
                    if caption_present:
                        continue

                    page_area = page.rect.get_area()
                    if block_rect.get_area() < page_area * 0.005:
                        continue

                    ratio = block_rect.width / max(1.0, block_rect.height)
                    if ratio < 0.25 or ratio > 4.0:
                        continue

                    pix_preview = page.get_pixmap(
                        clip=block_rect, dpi=80, colorspace=fitz.csRGB
                    )
                    ok, nonwhite_ratio, edge_ratio, var = keep_figure(pix_preview)
                    if not ok:
                        continue

                    pix = page.get_pixmap(
                        clip=block_rect, dpi=150, colorspace=fitz.csRGB
                    )
                    
                    # ★ 추가 필터 적용 (v2.1)
                    should_filter, filter_reason = should_filter_image(pix, block_rect, page.rect)
                    if should_filter:
                        continue
                    
                    img_name = f"p{page_num + 1:03d}_photo{uncaptioned_idx:02d}.png"
                    img_path = os.path.join(img_dir, img_name)
                    pix.save(img_path)

                    rel = os.path.join(img_rel_dir, img_name).replace("\\", "/")
                    r = block_rect
                    md = (
                        f'\n![Photo]({rel})\n'
                        f'*Page {page_num + 1} Photo*\n\n'
                    )

                    items.append({
                        "kind": "raster",
                        "rect": block_rect,
                        "kind_order": 1,
                        "md": md,
                    })
                    
                    # ★ 캡션 없는 이미지 메타데이터
                    image_metadata_list.append({
                        "image_file": img_name,
                        "image_path": str(Path(img_dir) / img_name),
                        "type": "photo",
                        "source_pdf": metadata['pdf_name'],
                        "source_folder": metadata['relative_folder'],
                        "full_path": metadata['full_path'],
                        "page": page_num + 1,
                        "total_pages": total_pages,
                        "caption": "",
                        "rect": {
                            "x0": round(r.x0, 2),
                            "y0": round(r.y0, 2),
                            "x1": round(r.x1, 2),
                            "y1": round(r.y1, 2)
                        }
                    })

                    uncaptioned_idx += 1
                    continue

            # 읽기 순서 정렬
            text_items = [it for it in items if it["kind"] == "text"]
            page_w = page.rect.width
            mid = page_w / 2.0

            candidates = []
            for it in text_items:
                r = it["rect"]
                if is_full_width_rect(r, page.rect):
                    continue
                if r.width < page_w * 0.2:
                    continue
                candidates.append(it)

            left = [it for it in candidates if it["rect"].x0 < mid * 0.95]
            right = [it for it in candidates if it["rect"].x0 > mid * 1.05]
            two_cols = len(left) >= 3 and len(right) >= 3

            col_y0 = None
            col_y1 = None
            seps = []

            if two_cols and left and right:
                col_y0 = min(
                    min(it["rect"].y0 for it in left),
                    min(it["rect"].y0 for it in right),
                )
                col_y1 = max(
                    max(it["rect"].y1 for it in left),
                    max(it["rect"].y1 for it in right),
                )
                for it in text_items:
                    r = it["rect"]
                    if col_y0 < r.y0 < col_y1 and is_full_width_rect(r, page.rect):
                        seps.append(r.y0)
                seps = sorted(set(seps))

            def seg_index(y0, separators):
                if not separators:
                    return 0
                n = 0
                for s in separators:
                    if y0 >= s:
                        n += 1
                    else:
                        break
                return n

            def order_key(it):
                r = it["rect"]
                if not two_cols:
                    return (r.y0, r.x0, it["kind_order"])
                if col_y0 is not None and r.y1 <= col_y0:
                    return (0, r.y0, r.x0, it["kind_order"])
                if col_y1 is not None and r.y0 >= col_y1:
                    return (2, r.y0, r.x0, it["kind_order"])
                seg = seg_index(r.y0, seps)
                if is_full_width_rect(r, page.rect):
                    col = 2
                else:
                    col = 0 if r.x0 < mid else 1
                return (1, seg, col, r.y0, r.x0, it["kind_order"])

            items.sort(key=order_key)

            for it in items:
                if it["kind"] in ("figure", "raster"):
                    md_file.write(it["md"])
                    continue

                block = it["block"]
                for line in block.get("lines", []):
                    for span in line.get("spans", []):
                        md_file.write(span.get("text", "") + " ")
                    md_file.write("\n")
                md_file.write("\n")

    doc.close()
    return image_metadata_list


def process_all_pdfs():
    """
    BASE_DIR 하위의 모든 PDF를 재귀적으로 처리
    폴더 구조를 유지하면서 OUTPUT_BASE에 저장
    """
    # 출력 폴더 생성
    OUTPUT_BASE.mkdir(parents=True, exist_ok=True)
    
    # 전체 이미지 메타데이터 수집
    all_image_metadata = []
    
    # 처리 통계
    stats = {
        "total_pdfs": 0,
        "success": 0,
        "failed": 0,
        "total_images": 0
    }
    
    # 실패 로그
    failed_files = []
    
    print(f"=" * 60)
    print(f"PDF 추출 시작")
    print(f"원본 폴더: {BASE_DIR}")
    print(f"출력 폴더: {OUTPUT_BASE}")
    print(f"=" * 60)
    
    # 모든 PDF 파일 찾기
    pdf_files = list(BASE_DIR.rglob("*.pdf"))
    stats["total_pdfs"] = len(pdf_files)
    
    print(f"\n총 {len(pdf_files)}개 PDF 발견\n")
    
    for idx, pdf_path in enumerate(pdf_files, 1):
        try:
            # 상대 경로 계산
            relative_path = pdf_path.relative_to(BASE_DIR)
            relative_folder = str(relative_path.parent)
            if relative_folder == ".":
                relative_folder = ""
            
            pdf_name = pdf_path.name
            pdf_stem = pdf_path.stem
            
            # 출력 경로 설정 (폴더 구조 유지)
            output_folder = OUTPUT_BASE / relative_path.parent
            output_folder.mkdir(parents=True, exist_ok=True)
            
            output_md = output_folder / f"{pdf_stem}.md"
            img_folder = output_folder / f"{pdf_stem}_img"
            
            # 메타데이터 준비
            metadata = {
                "pdf_name": pdf_name,
                "pdf_stem": pdf_stem,
                "relative_folder": relative_folder,
                "full_path": str(relative_path),
            }
            
            print(f"[{idx}/{len(pdf_files)}] {relative_path}")
            
            # PDF 처리
            image_metas = extract_pdf_content(
                str(pdf_path),
                str(output_md),
                str(img_folder),
                metadata
            )
            
            all_image_metadata.extend(image_metas)
            stats["success"] += 1
            stats["total_images"] += len(image_metas)
            
            print(f"    ✓ 완료 (이미지 {len(image_metas)}개)")
            
        except Exception as e:
            stats["failed"] += 1
            failed_files.append({
                "file": str(pdf_path),
                "error": str(e)
            })
            print(f"    ✗ 실패: {e}")
    
    # 전체 이미지 메타데이터 저장
    meta_output_path = OUTPUT_BASE / "image_metadata.json"
    with open(meta_output_path, "w", encoding="utf-8") as f:
        json.dump(all_image_metadata, f, ensure_ascii=False, indent=2)
    
    # 처리 요약 저장
    summary = {
        "processed_at": datetime.now().isoformat(),
        "source_dir": str(BASE_DIR),
        "output_dir": str(OUTPUT_BASE),
        "statistics": stats,
        "failed_files": failed_files
    }
    
    summary_path = OUTPUT_BASE / "extraction_summary.json"
    with open(summary_path, "w", encoding="utf-8") as f:
        json.dump(summary, f, ensure_ascii=False, indent=2)
    
    # 결과 출력
    print(f"\n" + "=" * 60)
    print(f"추출 완료!")
    print(f"=" * 60)
    print(f"총 PDF: {stats['total_pdfs']}개")
    print(f"성공: {stats['success']}개")
    print(f"실패: {stats['failed']}개")
    print(f"추출된 이미지: {stats['total_images']}개")
    print(f"\n이미지 메타데이터: {meta_output_path}")
    print(f"처리 요약: {summary_path}")
    
    if failed_files:
        print(f"\n실패한 파일:")
        for f in failed_files:
            print(f"  - {f['file']}: {f['error']}")


if __name__ == "__main__":
    process_all_pdfs()