# © 2018 James R. Barlow: github.com/jbarlow83 # # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. from io import BytesIO from math import cos, pi, sin from os import fspath import img2pdf import pikepdf import pytest from PIL import Image from reportlab.pdfgen.canvas import Canvas from ocrmypdf import leptonica from ocrmypdf._exec import ghostscript from ocrmypdf._plugin_manager import get_plugin_manager from ocrmypdf.helpers import Resolution from ocrmypdf.pdfinfo import PdfInfo from .conftest import check_ocrmypdf, run_ocrmypdf # pylintx: disable=unused-variable pytestmark = pytest.mark.skipif( leptonica.get_leptonica_version() < 'leptonica-1.72', reason="Leptonica is too old, correlation doesn't work", ) RENDERERS = ['hocr', 'sandwich'] def check_monochrome_correlation( outdir, reference_pdf, reference_pageno, test_pdf, test_pageno ): reference_png = outdir / f'{reference_pdf.name}.ref{reference_pageno:04d}.png' test_png = outdir / f'{test_pdf.name}.test{test_pageno:04d}.png' def rasterize(pdf, pageno, png): if png.exists(): print(png) return ghostscript.rasterize_pdf( pdf, png, raster_device='pngmono', raster_dpi=Resolution(100, 100), pageno=pageno, rotation=0, ) rasterize(reference_pdf, reference_pageno, reference_png) rasterize(test_pdf, test_pageno, test_png) pix_ref = leptonica.Pix.open(reference_png) pix_test = leptonica.Pix.open(test_png) return leptonica.Pix.correlation_binary(pix_ref, pix_test) def test_monochrome_correlation(resources, outdir): # Verify leptonica: check that an incorrect rotated image has poor # correlation with reference corr = check_monochrome_correlation( outdir, reference_pdf=resources / 'cardinal.pdf', reference_pageno=1, # north facing page test_pdf=resources / 'cardinal.pdf', test_pageno=3, # south facing page ) assert corr < 0.10 corr = check_monochrome_correlation( outdir, reference_pdf=resources / 'cardinal.pdf', reference_pageno=2, test_pdf=resources / 'cardinal.pdf', test_pageno=2, ) assert corr > 0.90 @pytest.mark.slow @pytest.mark.parametrize('renderer', RENDERERS) def test_autorotate(renderer, resources, outdir): # cardinal.pdf contains four copies of an image rotated in each cardinal # direction - these ones are "burned in" not tagged with /Rotate check_ocrmypdf( resources / 'cardinal.pdf', outdir / 'out.pdf', '-r', '-v', '1', '--pdf-renderer', renderer, '--plugin', 'tests/plugins/tesseract_cache.py', ) for n in range(1, 4 + 1): correlation = check_monochrome_correlation( outdir, reference_pdf=resources / 'cardinal.pdf', reference_pageno=1, test_pdf=outdir / 'out.pdf', test_pageno=n, ) assert correlation > 0.80 @pytest.mark.parametrize( 'threshold, correlation_test', [ ('1', 'correlation > 0.80'), # Low thresh -> always rotate -> high corr ('99', 'correlation < 0.10'), # High thres -> never rotate -> low corr ], ) def test_autorotate_threshold(threshold, correlation_test, resources, outdir): check_ocrmypdf( resources / 'cardinal.pdf', outdir / 'out.pdf', '--rotate-pages-threshold', threshold, '-r', # '-v', # '1', '--plugin', 'tests/plugins/tesseract_cache.py', ) correlation = check_monochrome_correlation( # pylint: disable=unused-variable outdir, reference_pdf=resources / 'cardinal.pdf', reference_pageno=1, test_pdf=outdir / 'out.pdf', test_pageno=3, ) assert eval(correlation_test) # pylint: disable=eval-used def test_rotated_skew_timeout(resources, outpdf): """This document contains an image that is rotated 90 into place with a /Rotate tag and intentionally skewed by altering the transformation matrix. This tests for a bug where the combination of preprocessing and a tesseract timeout produced a page whose dimensions did not match the original's. """ input_file = resources / 'rotated_skew.pdf' in_pageinfo = PdfInfo(input_file)[0] assert ( in_pageinfo.height_pixels < in_pageinfo.width_pixels ), "Expected the input page to be landscape" assert in_pageinfo.rotation == 90, "Expected a rotated page" out = check_ocrmypdf( input_file, outpdf, '--pdf-renderer', 'hocr', '--deskew', '--tesseract-timeout', '0', ) out_pageinfo = PdfInfo(out)[0] w, h = out_pageinfo.width_pixels, out_pageinfo.height_pixels assert h > w, "Expected the output page to be portrait" assert out_pageinfo.rotation == 0, "Expected no page rotation for output" assert ( in_pageinfo.width_pixels == h and in_pageinfo.height_pixels == w ), "Expected page rotation to be baked in" def test_rotate_deskew_timeout(resources, outdir): check_ocrmypdf( resources / 'rotated_skew.pdf', outdir / 'deskewed.pdf', '--rotate-pages', '--rotate-pages-threshold', '0', '--deskew', '--tesseract-timeout', '0', '--pdf-renderer', 'sandwich', ) correlation = check_monochrome_correlation( outdir, reference_pdf=resources / 'ccitt.pdf', reference_pageno=1, test_pdf=outdir / 'deskewed.pdf', test_pageno=1, ) # Confirm that the page still got deskewed assert correlation > 0.50 @pytest.mark.slow @pytest.mark.parametrize('page_angle', (0, 90, 180, 270)) @pytest.mark.parametrize('image_angle', (0, 90, 180, 270)) def test_rotate_page_level(image_angle, page_angle, resources, outdir): def make_rotate_test(prefix, image_angle, page_angle): memimg = BytesIO() with Image.open(fspath(resources / 'typewriter.png')) as im: if image_angle != 0: ccw_angle = -image_angle % 360 im = im.transpose(getattr(Image, f'ROTATE_{ccw_angle}')) im.save(memimg, format='PNG') memimg.seek(0) mempdf = BytesIO() img2pdf.convert( memimg.read(), layout_fun=img2pdf.get_fixed_dpi_layout_fun((200, 200)), outputstream=mempdf, ) mempdf.seek(0) pike = pikepdf.open(mempdf) pike.pages[0].Rotate = page_angle target = outdir / f'{prefix}_{image_angle}_{page_angle}.pdf' pike.save(target) return target reference = make_rotate_test('ref', 0, 0) test = make_rotate_test('test', image_angle, page_angle) out = test.with_suffix('.out.pdf') p, _, err = run_ocrmypdf( test, out, '-O0', '--rotate-pages', '--rotate-pages-threshold', '0.001', text=False, ) err = err.decode('utf-8', errors='replace') assert p.returncode == 0, err assert check_monochrome_correlation(outdir, reference, 1, out, 1) > 0.2 def test_rasterize_rotates(resources, tmp_path): pm = get_plugin_manager([]) img = tmp_path / 'img90.png' pm.hook.rasterize_pdf_page( input_file=resources / 'graph.pdf', output_file=img, raster_device='pngmono', raster_dpi=Resolution(20, 20), page_dpi=Resolution(20, 20), pageno=1, rotation=90, filter_vector=False, ) assert Image.open(img).size == (123, 151), "Image not rotated" img = tmp_path / 'img180.png' pm.hook.rasterize_pdf_page( input_file=resources / 'graph.pdf', output_file=img, raster_device='pngmono', raster_dpi=Resolution(20, 20), page_dpi=Resolution(20, 20), pageno=1, rotation=180, filter_vector=False, ) assert Image.open(img).size == (151, 123), "Image not rotated" def test_simulated_scan(outdir): canvas = Canvas( fspath(outdir / 'fakescan.pdf'), pagesize=(209.8, 297.6), ) page_vars = [(2, 36, 250), (91, 170, 240), (179, 190, 36), (271, 36, 36)] for n, page_var in enumerate(page_vars): text = canvas.beginText() text.setFont('Helvetica', 20) angle, x, y = page_var cos_a, sin_a = cos(angle / 180.0 * pi), sin(angle / 180.0 * pi) text.setTextTransform(cos_a, -sin_a, sin_a, cos_a, x, y) text.textOut(f'Page {n + 1}') canvas.drawText(text) canvas.showPage() canvas.save() check_ocrmypdf( outdir / 'fakescan.pdf', outdir / 'out.pdf', '--force-ocr', '--deskew', '--rotate-pages', '--plugin', 'tests/plugins/tesseract_debug_rotate.py', ) with pikepdf.open(outdir / 'out.pdf') as pdf: assert ( pdf.pages[1].MediaBox[2] > pdf.pages[1].MediaBox[3] ), "Wrong orientation: not landscape" assert ( pdf.pages[3].MediaBox[2] > pdf.pages[3].MediaBox[3] ), "Wrong orientation: Not landscape" assert ( pdf.pages[0].MediaBox[2] < pdf.pages[0].MediaBox[3] ), "Wrong orientation: Not portrait" assert ( pdf.pages[2].MediaBox[2] < pdf.pages[2].MediaBox[3] ), "Wrong orientation: Not portrait"