# SPDX-FileCopyrightText: 2022 James R. Barlow # SPDX-License-Identifier: MPL-2.0 from __future__ import annotations from math import isclose import pytest from PIL import Image from ocrmypdf._exec import ghostscript, tesseract from ocrmypdf.helpers import Resolution from ocrmypdf.pdfinfo import PdfInfo from .conftest import check_ocrmypdf, have_unpaper RENDERERS = ['hocr', 'sandwich'] def test_deskew(resources, outdir): # Run with deskew deskewed_pdf = check_ocrmypdf(resources / 'skew.pdf', outdir / 'skew.pdf', '-d') # Now render as an image again... deskewed_png = outdir / 'deskewed.png' ghostscript.rasterize_pdf( deskewed_pdf, deskewed_png, raster_device='pngmono', raster_dpi=Resolution(150, 150), pageno=1, ) # ...and use Tessera to find the skew angle to confirm that it was deskewed skew_angle = tesseract.get_deskew(deskewed_png, [], None, 5.0) print(skew_angle) assert -0.5 < skew_angle < 0.5, "Deskewing failed" def test_deskew_blank_page(resources, outpdf): # Tesseract doesn't like blank pages - make sure we can get through check_ocrmypdf(resources / 'blank.pdf', outpdf, '--deskew') @pytest.mark.xfail(reason="remove background disabled") def test_remove_background(resources, outdir): # Ensure the input image does not contain pure white/black with Image.open(resources / 'congress.jpg') as im: assert im.getextrema() != ((0, 255), (0, 255), (0, 255)) output_pdf = check_ocrmypdf( resources / 'congress.jpg', outdir / 'test_remove_bg.pdf', '--remove-background', '--image-dpi', '150', '--plugin', 'tests/plugins/tesseract_noop.py', ) output_png = outdir / 'remove_bg.png' ghostscript.rasterize_pdf( output_pdf, output_png, raster_device='png16m', raster_dpi=Resolution(100, 100), pageno=1, ) # The output image should contain pure white and black with Image.open(output_png) as im: assert im.getextrema() == ((0, 255), (0, 255), (0, 255)) # This will run 5 * 2 * 2 = 20 test cases @pytest.mark.parametrize( "pdf", ['palette.pdf', 'cmyk.pdf', 'ccitt.pdf', 'jbig2.pdf', 'lichtenstein.pdf'] ) @pytest.mark.parametrize("renderer", ['sandwich', 'hocr']) @pytest.mark.parametrize("output_type", ['pdf', 'pdfa']) def test_exotic_image(pdf, renderer, output_type, resources, outdir): outfile = outdir / f'test_{pdf}_{renderer}.pdf' check_ocrmypdf( resources / pdf, outfile, '-dc' if have_unpaper() else '-d', '-v', '1', '--output-type', output_type, '--sidecar', '--skip-text', '--pdf-renderer', renderer, '--plugin', 'tests/plugins/tesseract_cache.py', ) assert outfile.with_suffix('.pdf.txt').exists() @pytest.mark.parametrize('renderer', RENDERERS) def test_non_square_resolution(renderer, resources, outpdf): # Confirm input image is non-square resolution in_pageinfo = PdfInfo(resources / 'aspect.pdf') assert in_pageinfo[0].dpi.x != in_pageinfo[0].dpi.y check_ocrmypdf( resources / 'aspect.pdf', outpdf, '--pdf-renderer', renderer, '--plugin', 'tests/plugins/tesseract_cache.py', ) out_pageinfo = PdfInfo(outpdf) # Confirm resolution was kept the same assert in_pageinfo[0].dpi == out_pageinfo[0].dpi @pytest.mark.parametrize('renderer', RENDERERS) def test_convert_to_square_resolution(renderer, resources, outpdf): # Confirm input image is non-square resolution in_pageinfo = PdfInfo(resources / 'aspect.pdf') assert in_pageinfo[0].dpi.x != in_pageinfo[0].dpi.y # --force-ocr requires means forced conversion to square resolution check_ocrmypdf( resources / 'aspect.pdf', outpdf, '--force-ocr', '--pdf-renderer', renderer, '--plugin', 'tests/plugins/tesseract_cache.py', ) out_pageinfo = PdfInfo(outpdf) in_p0, out_p0 = in_pageinfo[0], out_pageinfo[0] # Resolution show now be equal assert out_p0.dpi.x == out_p0.dpi.y # Page size should match input page size assert isclose(in_p0.width_inches, out_p0.width_inches) assert isclose(in_p0.height_inches, out_p0.height_inches) # Because we rasterized the page to produce a new image, it should occupy # the entire page out_im_w = out_p0.images[0].width / out_p0.images[0].dpi.x out_im_h = out_p0.images[0].height / out_p0.images[0].dpi.y assert isclose(out_p0.width_inches, out_im_w) assert isclose(out_p0.height_inches, out_im_h)