#!/usr/bin/env python3 # © 2015 James R. Barlow: github.com/jbarlow83 from contextlib import suppress from tempfile import mkdtemp import sys import os import re import shutil import warnings import multiprocessing import atexit import textwrap import img2pdf import PyPDF2 as pypdf from PIL import Image from functools import partial from ruffus import transform, suffix, merge, active_if, regex, jobs_limit, \ formatter, follows, split, collate, check_if_uptodate import ruffus.ruffus_exceptions as ruffus_exceptions import ruffus.cmdline as cmdline from .hocrtransform import HocrTransform from .pageinfo import pdf_get_all_pageinfo from .pdfa import generate_pdfa_def from . import ghostscript from . import tesseract from . import qpdf from . import ExitCode import pkg_resources VERSION = pkg_resources.get_distribution('ocrmypdf').version warnings.simplefilter('ignore', pypdf.utils.PdfReadWarning) BASEDIR = os.path.dirname(os.path.realpath(__file__)) # ------------- # External dependencies MINIMUM_TESS_VERSION = '3.02.02' def complain(message): print(*textwrap.wrap(message), file=sys.stderr) if tesseract.version() < MINIMUM_TESS_VERSION: complain( "Please install tesseract {0} or newer " "(currently installed version is {1})".format( MINIMUM_TESS_VERSION, tesseract.version())) sys.exit(ExitCode.missing_dependency) try: import PIL.features check_codec = PIL.features.check_codec except (ImportError, AttributeError): def check_codec(codec_name): if codec_name == 'jpg': return 'jpeg_encoder' in dir(Image.core) elif codec_name == 'zlib': return 'zip_encoder' in dir(Image.core) raise NotImplementedError(codec_name) def check_pil_encoder(codec_name, friendly_name): try: if check_codec(codec_name): return except Exception: pass complain( "ERROR: Your version of the Python imaging library (Pillow) was " "compiled without support for " + friendly_name + " encoding/decoding." "\n" "You will need to uninstall Pillow and reinstall it with PNG and JPEG " "support (libjpeg and zlib)." "\n" "See installation instructions for your platform here:\n" " https://pillow.readthedocs.org/installation.html" ) sys.exit(ExitCode.missing_dependency) check_pil_encoder('jpg', 'JPEG') check_pil_encoder('zlib', 'PNG') # ------------- # Parser parser = cmdline.get_argparse( prog="ocrmypdf", description="Generate searchable PDF file from an image-only PDF file.", version=VERSION, fromfile_prefix_chars='@', ignored_args=[ 'touch_files_only', 'recreate_database', 'checksum_file_name', 'key_legend_in_graph', 'draw_graph_horizontally', 'flowchart_format', 'forced_tasks', 'target_tasks', 'use_threads', 'jobs']) parser.add_argument( 'input_file', help="PDF file containing the images to be OCRed") parser.add_argument( 'output_file', help="output searchable PDF file") parser.add_argument( '-l', '--language', action='append', help="languages of the file to be OCRed") parser.add_argument( '-j', '--jobs', metavar='N', type=int, help="Use up to N CPU cores simultaneously (default: use all)") metadata = parser.add_argument_group( "Metadata options", "Set output PDF/A metadata (default: use input document's title)") metadata.add_argument( '--title', type=str, help="set document title (place multiple words in quotes)") metadata.add_argument( '--author', type=str, help="set document author") metadata.add_argument( '--subject', type=str, help="set document") metadata.add_argument( '--keywords', type=str, help="set document keywords") preprocessing = parser.add_argument_group( "Preprocessing options", "Improve OCR quality and final image") preprocessing.add_argument( '-d', '--deskew', action='store_true', help="deskew each page before performing OCR") preprocessing.add_argument( '-c', '--clean', action='store_true', help="clean pages from scanning artifacts before performing OCR") preprocessing.add_argument( '-i', '--clean-final', action='store_true', help="incorporate the cleaned image in the final PDF file") preprocessing.add_argument( '--oversample', metavar='DPI', type=int, default=0, help="oversample images to at least the specified DPI, to improve OCR " "results slightly") parser.add_argument( '-f', '--force-ocr', action='store_true', help="rasterize any fonts or vector images on each page and apply OCR") parser.add_argument( '-s', '--skip-text', action='store_true', help="skip OCR on any pages that already contain text, but include the" " page in final output") parser.add_argument( '--skip-big', type=float, metavar='MPixels', help="skip OCR on pages larger than the specified amount of megapixels, " "but include skipped pages in final output") advanced = parser.add_argument_group( "Advanced", "Advanced options for power users") advanced.add_argument( '--tesseract-config', action='append', metavar='CFG', default=[], help="additional Tesseract configuration files") advanced.add_argument( '--tesseract-pagesegmode', action='store', type=int, metavar='PSM', help="set Tesseract page segmentation mode (see tesseract --help)") advanced.add_argument( '--pdf-renderer', choices=['auto', 'tesseract', 'hocr'], default='auto', help='choose OCR PDF renderer') advanced.add_argument( '--tesseract-timeout', default=180.0, type=float, metavar='SECONDS', help='give up on OCR after the timeout, but copy the preprocessed page ' 'into the final output') debugging = parser.add_argument_group( "Debugging", "Arguments to help with troubleshooting and debugging") debugging.add_argument( '-k', '--keep-temporary-files', action='store_true', help="keep temporary files (helpful for debugging)") debugging.add_argument( '-g', '--debug-rendering', action='store_true', help="render each page twice with debug information on second page") options = parser.parse_args() # ---------- # Languages if not options.language: options.language = ['eng'] # Enforce English hegemony # Support v2.x "eng+deu" language syntax if '+' in options.language[0]: options.language = options.language[0].split('+') if not set(options.language).issubset(tesseract.languages()): complain( "The installed version of tesseract does not have language " "data for the following requested languages: ") for lang in (set(options.language) - tesseract.languages()): complain(lang) sys.exit(ExitCode.bad_args) # ---------- # Arguments if options.pdf_renderer == 'auto': options.pdf_renderer = 'hocr' if any((options.deskew, options.clean, options.clean_final)): try: from . import unpaper except ImportError: complain( "Install the 'unpaper' program to use --deskew or --clean.") sys.exit(ExitCode.bad_args) else: unpaper = None if options.debug_rendering and options.pdf_renderer == 'tesseract': complain( "Ignoring --debug-rendering because it is not supported with" "--pdf-renderer=tesseract.") if options.force_ocr and options.skip_text: complain( "Error: --force-ocr and --skip-text are mutually incompatible.") sys.exit(ExitCode.bad_args) if options.clean and not options.clean_final \ and options.pdf_renderer == 'tesseract': complain( "Tesseract PDF renderer cannot render --clean pages without " "also performing --clean-final, so --clean-final is assumed.") lossless_reconstruction = False if options.pdf_renderer == 'hocr': if not options.deskew and not options.clean_final and not options.force_ocr: lossless_reconstruction = True # ---------- # Logging _logger, _logger_mutex = cmdline.setup_logging(__name__, options.log_file, options.verbose) class WrappedLogger: def __init__(self, my_logger, my_mutex): self.logger = my_logger self.mutex = my_mutex def log(self, *args, **kwargs): with self.mutex: self.logger.log(*args, **kwargs) def debug(self, *args, **kwargs): with self.mutex: self.logger.debug(*args, **kwargs) def info(self, *args, **kwargs): with self.mutex: self.logger.info(*args, **kwargs) def warning(self, *args, **kwargs): with self.mutex: self.logger.warning(*args, **kwargs) def error(self, *args, **kwargs): with self.mutex: self.logger.error(*args, **kwargs) def critical(self, *args, **kwargs): with self.mutex: self.logger.critical(*args, **kwargs) _log = WrappedLogger(_logger, _logger_mutex) def re_symlink(input_file, soft_link_name, log=_log): """ Helper function: relinks soft symbolic link if necessary """ # Guard against soft linking to oneself if input_file == soft_link_name: log.debug("Warning: No symbolic link made. You are using " + "the original data directory as the working directory.") return # Soft link already exists: delete for relink? if os.path.lexists(soft_link_name): # do not delete or overwrite real (non-soft link) file if not os.path.islink(soft_link_name): raise Exception("%s exists and is not a link" % soft_link_name) try: os.unlink(soft_link_name) except: log.debug("Can't unlink %s" % (soft_link_name)) if not os.path.exists(input_file): raise Exception("trying to create a broken symlink to %s" % input_file) log.debug("os.symlink(%s, %s)" % (input_file, soft_link_name)) # Create symbolic link using absolute path os.symlink( os.path.abspath(input_file), soft_link_name ) # ------------- # The Pipeline manager = multiprocessing.Manager() _pdfinfo = manager.list() _pdfinfo_lock = manager.Lock() work_folder = mkdtemp(prefix="com.github.ocrmypdf.") @atexit.register def cleanup_working_files(*args): if options.keep_temporary_files: print("Temporary working files saved at:") print(work_folder) else: with suppress(FileNotFoundError): shutil.rmtree(work_folder) @transform( input=options.input_file, filter=formatter('(?i)\.pdf'), output=work_folder + '{basename[0]}.repaired.pdf', extras=[_log, _pdfinfo, _pdfinfo_lock]) def repair_pdf( input_file, output_file, log, pdfinfo, pdfinfo_lock): qpdf.repair(input_file, output_file, log) with pdfinfo_lock: pdfinfo.extend(pdf_get_all_pageinfo(output_file)) log.info(pdfinfo) def get_pageinfo(input_file, pdfinfo, pdfinfo_lock): pageno = int(os.path.basename(input_file)[0:6]) - 1 with pdfinfo_lock: pageinfo = pdfinfo[pageno].copy() return pageinfo def is_ocr_required(pageinfo, log): page = pageinfo['pageno'] + 1 ocr_required = True if not pageinfo['images']: # If the page has no images, then it contains vector content or text # or both. It seems quite unlikely that one would find meaningful text # from rasterizing vector content. So skip the page. log.info( "Page {0} has no images - skipping OCR".format(page) ) ocr_required = False elif pageinfo['has_text']: s = "Page {0} already has text! – {1}" if not options.force_ocr and not options.skip_text: log.error(s.format(page, "aborting (use --force-ocr to force OCR)")) sys.exit(ExitCode.already_done_ocr) elif options.force_ocr: log.info(s.format(page, "rasterizing text and running OCR anyway")) ocr_required = True elif options.skip_text: log.info(s.format(page, "skipping all processing on this page")) ocr_required = False if ocr_required and options.skip_big: pixel_count = pageinfo['width_pixels'] * pageinfo['height_pixels'] if pixel_count > (options.skip_big * 1000000): ocr_required = False log.info( "Page {0} is very large; skipping due to -b".format(page)) return ocr_required @split( repair_pdf, os.path.join(work_folder, '*.page.pdf'), extras=[_log, _pdfinfo, _pdfinfo_lock]) def split_pages( input_file, output_files, log, pdfinfo, pdfinfo_lock): for oo in output_files: with suppress(FileNotFoundError): os.unlink(oo) npages = qpdf.get_npages(input_file) qpdf.split_pages(input_file, work_folder, npages) from glob import glob for filename in glob(os.path.join(work_folder, '*.page.pdf')): pageinfo = get_pageinfo(filename, pdfinfo, pdfinfo_lock) alt_suffix = '.ocr.page.pdf' if is_ocr_required(pageinfo, log) \ else '.skip.page.pdf' re_symlink( filename, os.path.join( work_folder, os.path.basename(filename)[0:6] + alt_suffix)) @transform( input=split_pages, filter=suffix('.page.pdf'), output='.preview.png', output_dir=work_folder, extras=[_log, _pdfinfo, _pdfinfo_lock]) def rasterize_preview( input_file, output_file, log, pdfinfo, pdfinfo_lock): ghostscript.rasterize_pdf( input_file=input_file, output_file=output_file, xres=200, yres=200, raster_device='pnggray', log=log) @collate( input=[split_pages, rasterize_preview], filter=regex(r".*/(\d{6})(\.ocr|\.skip)(?:\.page\.pdf|\.preview\.png)"), output=os.path.join(work_folder, r'\1\2.oriented.pdf'), extras=[_log, _pdfinfo, _pdfinfo_lock]) def orient_page( infiles, output_file, log, pdfinfo, pdfinfo_lock): page_pdf = next(ii for ii in infiles if ii.endswith('.page.pdf')) preview = next(ii for ii in infiles if ii.endswith('.preview.png')) orient_conf = tesseract.get_orientation( preview, language=options.language, timeout=options.tesseract_timeout, log=log) print(orient_conf) if orient_conf.angle == 0: re_symlink(page_pdf, output_file) else: if orient_conf.confidence < 15: log.warning( 'Low orientation confidence {:.1f}'.format( orient_conf.confidence)) writer = pypdf.PdfFileWriter() reader = pypdf.PdfFileReader(page_pdf) page = reader.pages[0] # Rotate opposite of orientation rotated_page = page.rotateClockwise(orient_conf.angle) writer.addPage(rotated_page) with open(output_file, 'wb') as out: writer.write(out) @transform( input=orient_page, filter=suffix('.ocr.oriented.pdf'), output='.page.png', output_dir=work_folder, extras=[_log, _pdfinfo, _pdfinfo_lock]) def rasterize_with_ghostscript( input_file, output_file, log, pdfinfo, pdfinfo_lock): pageinfo = get_pageinfo(input_file, pdfinfo, pdfinfo_lock) device = 'png16m' # 24-bit if all(image['comp'] == 1 for image in pageinfo['images']): if all(image['bpc'] == 1 for image in pageinfo['images']): device = 'pngmono' elif all(image['bpc'] > 1 and image['color'] == 'index' for image in pageinfo['images']): device = 'png256' elif all(image['bpc'] > 1 and image['color'] == 'gray' for image in pageinfo['images']): device = 'pnggray' log.debug("Rendering {0} with {1}".format( os.path.basename(input_file), device)) xres = max(pageinfo['xres'], options.oversample or 0) yres = max(pageinfo['yres'], options.oversample or 0) ghostscript.rasterize_pdf(input_file, output_file, xres, yres, device, log) @transform( input=rasterize_with_ghostscript, filter=suffix(".page.png"), output=".pp-deskew.png", extras=[_log, _pdfinfo, _pdfinfo_lock]) def preprocess_deskew( input_file, output_file, log, pdfinfo, pdfinfo_lock): if not options.deskew: re_symlink(input_file, output_file, log) return pageinfo = get_pageinfo(input_file, pdfinfo, pdfinfo_lock) dpi = int(pageinfo['xres']) unpaper.deskew(input_file, output_file, dpi, log) @transform( input=preprocess_deskew, filter=suffix(".pp-deskew.png"), output=".pp-clean.png", extras=[_log, _pdfinfo, _pdfinfo_lock]) def preprocess_clean( input_file, output_file, log, pdfinfo, pdfinfo_lock): if not options.clean: re_symlink(input_file, output_file, log) return pageinfo = get_pageinfo(input_file, pdfinfo, pdfinfo_lock) dpi = int(pageinfo['xres']) unpaper.clean(input_file, output_file, dpi, log) @active_if(options.pdf_renderer == 'hocr') @transform( input=preprocess_clean, filter=suffix(".pp-clean.png"), output=".hocr", extras=[_log, _pdfinfo, _pdfinfo_lock]) def ocr_tesseract_hocr( input_file, output_file, log, pdfinfo, pdfinfo_lock): tesseract.generate_hocr( input_file=input_file, output_hocr=output_file, language=options.language, tessconfig=options.tesseract_config, timeout=options.tesseract_timeout, pageinfo_getter=partial(get_pageinfo, input_file, pdfinfo, pdfinfo_lock), pagesegmode=options.tesseract_pagesegmode, log=log ) @active_if(options.pdf_renderer == 'hocr') @collate( input=[rasterize_with_ghostscript, preprocess_deskew, preprocess_clean], filter=regex(r".*/(\d{6})(?:\.page|\.pp-deskew|\.pp-clean)\.png"), output=os.path.join(work_folder, r'\1.image'), extras=[_log, _pdfinfo, _pdfinfo_lock]) def select_image_for_pdf( infiles, output_file, log, pdfinfo, pdfinfo_lock): if options.clean_final: image_suffix = '.pp-clean.png' elif options.deskew: image_suffix = '.pp-deskew.png' else: image_suffix = '.page.png' image = next(ii for ii in infiles if ii.endswith(image_suffix)) pageinfo = get_pageinfo(image, pdfinfo, pdfinfo_lock) if all(image['enc'] == 'jpeg' for image in pageinfo['images']): # If all images were JPEGs originally, produce a JPEG as output Image.open(image).save(output_file, format='JPEG') else: re_symlink(image, output_file) @active_if(options.pdf_renderer == 'hocr') @collate( input=[select_image_for_pdf, orient_page], filter=regex(r".*/(\d{6})(?:\.image|\.ocr\.oriented\.pdf)"), output=os.path.join(work_folder, r'\1.image-layer.pdf'), extras=[_log, _pdfinfo, _pdfinfo_lock]) def select_image_layer( infiles, output_file, log, pdfinfo, pdfinfo_lock): page_pdf = next(ii for ii in infiles if ii.endswith('.ocr.oriented.pdf')) image = next(ii for ii in infiles if ii.endswith('.image')) if lossless_reconstruction: re_symlink(page_pdf, output_file) else: pageinfo = get_pageinfo(image, pdfinfo, pdfinfo_lock) dpi = round(max(pageinfo['xres'], pageinfo['yres'], options.oversample)) imgsize = ((img2pdf.ImgSize.dpi, dpi), (img2pdf.ImgSize.dpi, dpi)) layout_fun = img2pdf.get_layout_fun(None, imgsize, None, None, None) with open(image, 'rb') as imfile, \ open(output_file, 'wb') as pdf: rawdata = imfile.read() pdf.write(img2pdf.convert( rawdata, producer="img2pdf", with_pdfrw=False, layout_fun=layout_fun)) @active_if(options.pdf_renderer == 'hocr') @transform( input=ocr_tesseract_hocr, filter=suffix('.hocr'), output='.hocr.pdf', extras=[_log, _pdfinfo, _pdfinfo_lock]) def render_hocr_page( input_file, output_file, log, pdfinfo, pdfinfo_lock): hocr = input_file pageinfo = get_pageinfo(hocr, pdfinfo, pdfinfo_lock) dpi = round(max(pageinfo['xres'], pageinfo['yres'], options.oversample)) hocrtransform = HocrTransform(hocr, dpi) hocrtransform.to_pdf(output_file, imageFileName=None, showBoundingboxes=False, invisibleText=True) @active_if(options.pdf_renderer == 'hocr') @active_if(options.debug_rendering) @collate( input=[select_image_for_pdf, ocr_tesseract_hocr], filter=regex(r".*/(\d{6})(?:\.image|\.hocr)"), output=os.path.join(work_folder, r'\1.debug.pdf'), extras=[_log, _pdfinfo, _pdfinfo_lock]) def render_hocr_debug_page( infiles, output_file, log, pdfinfo, pdfinfo_lock): hocr = next(ii for ii in infiles if ii.endswith('.hocr')) image = next(ii for ii in infiles if ii.endswith('.image')) pageinfo = get_pageinfo(image, pdfinfo, pdfinfo_lock) dpi = round(max(pageinfo['xres'], pageinfo['yres'], options.oversample)) hocrtransform = HocrTransform(hocr, dpi) hocrtransform.to_pdf(output_file, imageFileName=None, showBoundingboxes=True, invisibleText=False) @active_if(options.pdf_renderer == 'hocr') @collate( input=[render_hocr_page, select_image_layer], filter=regex(r".*/(\d{6})(?:\.hocr\.pdf|\.image-layer\.pdf)"), output=os.path.join(work_folder, r'\1.rendered.pdf'), extras=[_log, _pdfinfo, _pdfinfo_lock]) def add_text_layer( infiles, output_file, log, pdfinfo, pdfinfo_lock): text = next(ii for ii in infiles if ii.endswith('.hocr.pdf')) image = next(ii for ii in infiles if ii.endswith('.image-layer.pdf')) pdf_output = pypdf.PdfFileWriter() pdf_text = pypdf.PdfFileReader(open(text, "rb")) pdf_image = pypdf.PdfFileReader(open(image, "rb")) page = pdf_text.getPage(0) page.mergePage(pdf_image.getPage(0)) pdf_output.addPage(page) with open(output_file, "wb") as out: pdf_output.write(out) @active_if(options.pdf_renderer == 'tesseract') @collate( input=[preprocess_clean, orient_page], filter=regex(r".*/(\d{6})(?:\.pp-clean\.png|\.ocr\.oriented\.pdf)"), output=os.path.join(work_folder, r'\1.rendered.pdf'), extras=[_log, _pdfinfo, _pdfinfo_lock]) def tesseract_ocr_and_render_pdf( input_files, output_file, log, pdfinfo, pdfinfo_lock): input_image = next((ii for ii in input_files if ii.endswith('.png')), '') input_pdf = next((ii for ii in input_files if ii.endswith('.pdf'))) if not input_image: # Skipping this page re_symlink(input_pdf, output_file) return tesseract.generate_pdf( input_image=input_image, skip_pdf=input_pdf, output_pdf=output_file, language=options.language, tessconfig=options.tesseract_config, timeout=options.tesseract_timeout, pagesegmode=options.tesseract_pagesegmode, log=log) @transform( input=repair_pdf, filter=formatter(r'\.repaired\.pdf'), output=os.path.join(work_folder, 'pdfa_def.ps'), extras=[_log]) def generate_postscript_stub( input_file, output_file, log): pdf = pypdf.PdfFileReader(input_file) def from_document_info(key): # pdf.documentInfo.get() DOES NOT behave as expected for a dict-like # object, so call with precautions. TypeError may occur if the PDF # is missing the optional document info section. try: s = pdf.documentInfo[key] return str(s) except (KeyError, TypeError): return '' pdfmark = { 'title': from_document_info('/Title'), 'author': from_document_info('/Author'), 'keywords': from_document_info('/Keywords'), 'subject': from_document_info('/Subject'), } if options.title: pdfmark['title'] = options.title if options.author: pdfmark['author'] = options.author if options.keywords: pdfmark['keywords'] = options.keywords if options.subject: pdfmark['subject'] = options.subject pdfmark['creator'] = '{0} {1} / Tesseract OCR{2} {3}'.format( parser.prog, VERSION, '+PDF' if options.pdf_renderer == 'tesseract' else '', tesseract.version()) generate_pdfa_def(output_file, pdfmark) @transform( input=orient_page, filter=suffix('.skip.oriented.pdf'), output='.done.pdf', output_dir=work_folder, extras=[_log]) def skip_page( input_file, output_file, log): re_symlink(input_file, output_file, log) @merge( input=[add_text_layer, render_hocr_debug_page, skip_page, tesseract_ocr_and_render_pdf, generate_postscript_stub], output=os.path.join(work_folder, 'merged.pdf'), extras=[_log, _pdfinfo, _pdfinfo_lock]) def merge_pages( input_files, output_file, log, pdfinfo, pdfinfo_lock): def input_file_order(s): '''Sort order: All rendered pages followed by their debug page, if any, followed by Postscript stub. Ghostscript documentation has the Postscript stub at the beginning, but it works at the end and also gets document info right that way.''' if s.endswith('.ps'): return 99999999 key = int(os.path.basename(s)[0:6]) * 10 if 'debug' in os.path.basename(s): key += 1 return key pdf_pages = sorted(input_files, key=input_file_order) log.info(pdf_pages) ghostscript.generate_pdfa(pdf_pages, output_file, options.jobs or 1) @transform( input=merge_pages, filter=formatter(), output=options.output_file, extras=[_log, _pdfinfo, _pdfinfo_lock]) def copy_final( input_file, output_file, log, pdfinfo, pdfinfo_lock): shutil.copy(input_file, output_file) def validate_pdfa( input_file, log): return qpdf.check(input_file, log) def available_cpu_count(): try: return multiprocessing.cpu_count() except NotImplementedError: pass try: import psutil return psutil.cpu_count() except (ImportError, AttributeError): pass complain( "Could not get CPU count. Assuming one (1) CPU." "Use -j N to set manually.") return 1 def cleanup_ruffus_error_message(msg): msg = re.sub(r'\s+', r' ', msg, re.MULTILINE) msg = re.sub(r"\((.+?)\)", r'\1', msg) msg = msg.strip() return msg def run_pipeline(): if not options.jobs: options.jobs = available_cpu_count() try: options.history_file = os.path.join(work_folder, 'ruffus_history.sqlite') cmdline.run(options) except ruffus_exceptions.RethrownJobError as e: if options.verbose: print(e) # Yuck. Hunt through the ruffus exception to find out what the # return code is supposed to be. for exc in e.args: task_name, job_name, exc_name, exc_value, exc_stack = exc if exc_name == 'builtins.SystemExit': match = re.search(r"\.(.+?)\)", exc_value) exit_code_name = match.groups()[0] exit_code = getattr(ExitCode, exit_code_name, 'other_error') return exit_code elif exc_name == 'ruffus.ruffus_exceptions.MissingInputFileError': print(cleanup_ruffus_error_message(exc_value)) return ExitCode.input_file elif exc_name == 'builtins.TypeError': # Even though repair_pdf will fail, ruffus will still try # to call split_pages with no input files, likely due to a bug if task_name == 'split_pages': print("Input file '{0}' is not a valid PDF".format( options.input_file)) return ExitCode.input_file return ExitCode.other_error if not validate_pdfa(options.output_file, _log): _log.warning('Output file: The generated PDF/A file is INVALID') return ExitCode.invalid_output_pdfa return ExitCode.ok if __name__ == '__main__': sys.exit(run_pipeline())