from .helper import PillowTestCase from PIL.PdfParser import ( IndirectObjectDef, IndirectReference, PdfBinary, PdfDict, PdfFormatError, PdfName, PdfParser, PdfStream, decode_text, encode_text, pdf_repr, ) import time class TestPdfParser(PillowTestCase): def test_text_encode_decode(self): self.assertEqual(encode_text("abc"), b"\xFE\xFF\x00a\x00b\x00c") self.assertEqual(decode_text(b"\xFE\xFF\x00a\x00b\x00c"), "abc") self.assertEqual(decode_text(b"abc"), "abc") self.assertEqual(decode_text(b"\x1B a \x1C"), u"\u02D9 a \u02DD") def test_indirect_refs(self): self.assertEqual(IndirectReference(1, 2), IndirectReference(1, 2)) self.assertNotEqual(IndirectReference(1, 2), IndirectReference(1, 3)) self.assertNotEqual(IndirectReference(1, 2), IndirectObjectDef(1, 2)) self.assertNotEqual(IndirectReference(1, 2), (1, 2)) self.assertEqual(IndirectObjectDef(1, 2), IndirectObjectDef(1, 2)) self.assertNotEqual(IndirectObjectDef(1, 2), IndirectObjectDef(1, 3)) self.assertNotEqual(IndirectObjectDef(1, 2), IndirectReference(1, 2)) self.assertNotEqual(IndirectObjectDef(1, 2), (1, 2)) def test_parsing(self): self.assertEqual(PdfParser.interpret_name(b"Name#23Hash"), b"Name#Hash") self.assertEqual( PdfParser.interpret_name(b"Name#23Hash", as_text=True), "Name#Hash" ) self.assertEqual( PdfParser.get_value(b"1 2 R ", 0), (IndirectReference(1, 2), 5) ) self.assertEqual(PdfParser.get_value(b"true[", 0), (True, 4)) self.assertEqual(PdfParser.get_value(b"false%", 0), (False, 5)) self.assertEqual(PdfParser.get_value(b"null<", 0), (None, 4)) self.assertEqual(PdfParser.get_value(b"%cmt\n %cmt\n 123\n", 0), (123, 15)) self.assertEqual(PdfParser.get_value(b"<901FA3>", 0), (b"\x90\x1F\xA3", 8)) self.assertEqual( PdfParser.get_value(b"asd < 9 0 1 f A > qwe", 3), (b"\x90\x1F\xA0", 17) ) self.assertEqual(PdfParser.get_value(b"(asd)", 0), (b"asd", 5)) self.assertEqual( PdfParser.get_value(b"(asd(qwe)zxc)zzz(aaa)", 0), (b"asd(qwe)zxc", 13) ) self.assertEqual( PdfParser.get_value(b"(Two \\\nwords.)", 0), (b"Two words.", 14) ) self.assertEqual(PdfParser.get_value(b"(Two\nlines.)", 0), (b"Two\nlines.", 12)) self.assertEqual( PdfParser.get_value(b"(Two\r\nlines.)", 0), (b"Two\nlines.", 13) ) self.assertEqual( PdfParser.get_value(b"(Two\\nlines.)", 0), (b"Two\nlines.", 13) ) self.assertEqual(PdfParser.get_value(b"(One\\(paren).", 0), (b"One(paren", 12)) self.assertEqual(PdfParser.get_value(b"(One\\)paren).", 0), (b"One)paren", 12)) self.assertEqual(PdfParser.get_value(b"(\\0053)", 0), (b"\x053", 7)) self.assertEqual(PdfParser.get_value(b"(\\053)", 0), (b"\x2B", 6)) self.assertEqual(PdfParser.get_value(b"(\\53)", 0), (b"\x2B", 5)) self.assertEqual(PdfParser.get_value(b"(\\53a)", 0), (b"\x2Ba", 6)) self.assertEqual(PdfParser.get_value(b"(\\1111)", 0), (b"\x491", 7)) self.assertEqual(PdfParser.get_value(b" 123 (", 0), (123, 4)) self.assertAlmostEqual(PdfParser.get_value(b" 123.4 %", 0)[0], 123.4) self.assertEqual(PdfParser.get_value(b" 123.4 %", 0)[1], 6) self.assertRaises(PdfFormatError, PdfParser.get_value, b"]", 0) d = PdfParser.get_value(b"<>", 0)[0] self.assertIsInstance(d, PdfDict) self.assertEqual(len(d), 2) self.assertEqual(d.Name, "value") self.assertEqual(d[b"Name"], b"value") self.assertEqual(d.N, PdfName("V")) a = PdfParser.get_value(b"[/Name (value) /N /V]", 0)[0] self.assertIsInstance(a, list) self.assertEqual(len(a), 4) self.assertEqual(a[0], PdfName("Name")) s = PdfParser.get_value( b"<>\nstream\nabcde\nendstream<<...", 0 )[0] self.assertIsInstance(s, PdfStream) self.assertEqual(s.dictionary.Name, "value") self.assertEqual(s.decode(), b"abcde") for name in ["CreationDate", "ModDate"]: for date, value in { b"20180729214124": "20180729214124", b"D:20180729214124": "20180729214124", b"D:2018072921": "20180729210000", b"D:20180729214124Z": "20180729214124", b"D:20180729214124+08'00'": "20180729134124", b"D:20180729214124-05'00'": "20180730024124", }.items(): d = PdfParser.get_value( b"<>", 0 )[0] self.assertEqual(time.strftime("%Y%m%d%H%M%S", getattr(d, name)), value) def test_pdf_repr(self): self.assertEqual(bytes(IndirectReference(1, 2)), b"1 2 R") self.assertEqual(bytes(IndirectObjectDef(*IndirectReference(1, 2))), b"1 2 obj") self.assertEqual(bytes(PdfName(b"Name#Hash")), b"/Name#23Hash") self.assertEqual(bytes(PdfName("Name#Hash")), b"/Name#23Hash") self.assertEqual( bytes(PdfDict({b"Name": IndirectReference(1, 2)})), b"<<\n/Name 1 2 R\n>>" ) self.assertEqual( bytes(PdfDict({"Name": IndirectReference(1, 2)})), b"<<\n/Name 1 2 R\n>>" ) self.assertEqual(pdf_repr(IndirectReference(1, 2)), b"1 2 R") self.assertEqual( pdf_repr(IndirectObjectDef(*IndirectReference(1, 2))), b"1 2 obj" ) self.assertEqual(pdf_repr(PdfName(b"Name#Hash")), b"/Name#23Hash") self.assertEqual(pdf_repr(PdfName("Name#Hash")), b"/Name#23Hash") self.assertEqual( pdf_repr(PdfDict({b"Name": IndirectReference(1, 2)})), b"<<\n/Name 1 2 R\n>>", ) self.assertEqual( pdf_repr(PdfDict({"Name": IndirectReference(1, 2)})), b"<<\n/Name 1 2 R\n>>" ) self.assertEqual(pdf_repr(123), b"123") self.assertEqual(pdf_repr(True), b"true") self.assertEqual(pdf_repr(False), b"false") self.assertEqual(pdf_repr(None), b"null") self.assertEqual(pdf_repr(b"a)/b\\(c"), br"(a\)/b\\\(c)") self.assertEqual( pdf_repr([123, True, {"a": PdfName(b"b")}]), b"[ 123 true <<\n/a /b\n>> ]" ) self.assertEqual(pdf_repr(PdfBinary(b"\x90\x1F\xA0")), b"<901FA0>")