def test_get_sub_elements(self): # Declare instance and prepare XML element with its sub-elements instance = LexicalEntry() element = Element("LexicalEntry") lemma = SubElement(element, "Lemma") SubElement(lemma, "feat", att="lexeme", val="hello") SubElement(element, "feat", att="partOfSpeech", val="toto") SubElement(element, "feat", att="status", val="draft") # Test results get_sub_elements(instance, element) self.assertEqual(instance.get_lexeme(), "hello") self.assertEqual(instance.get_partOfSpeech(), "toto") self.assertEqual(instance.get_status(), "draft") del instance, element, lemma
def test_get_sub_elements(self): # Declare instance and prepare XML element with its sub-elements instance = LexicalEntry() element = Element("LexicalEntry") lemma = SubElement(element, "Lemma") SubElement(lemma, "feat", att="lexeme", val="hello") SubElement(element, "feat", att="partOfSpeech", val="toto") SubElement(element, "feat", att="status", val="draft") # Test results get_sub_elements(instance, element) self.assertEqual(instance.get_lexeme(), "hello") self.assertEqual(instance.get_partOfSpeech(), "toto") self.assertEqual(instance.get_status(), "draft") del instance, element, lemma
def test_mdf_write(self): import sys, os # Create LMF objects lexical_entry = LexicalEntry() lexical_entry.lemma = Lemma() lexical_entry.partOfSpeech = "toto" lexical_entry.status = "draft" lexical_entry.lemma.lexeme = "hello" lexicon = Lexicon() lexicon.add_lexical_entry(lexical_entry) # Write MDF file and test result utest_path = sys.path[0] + '/' mdf_filename = utest_path + "output.txt" mdf_write(lexicon, mdf_filename) mdf_file = open(mdf_filename, "r") expected_lines = ["\\lx hello" + EOL, "\\ps toto" + EOL, "\\st draft" + EOL, EOL] self.assertListEqual(expected_lines, mdf_file.readlines()) mdf_file.close() # Customize mapping lmf2mdf = dict({ "lx" : lambda lexical_entry: lexical_entry.get_status(), "ps" : lambda lexical_entry: lexical_entry.get_partOfSpeech(), "st" : lambda lexical_entry: lexical_entry.get_lexeme() }) order = ["st", "lx", "ps"] # Write MDF file and test result mdf_write(lexicon, mdf_filename, lmf2mdf, order) mdf_file = open(mdf_filename, "r") expected_lines = ["\\st hello" + EOL, "\\lx draft" + EOL, "\\ps toto" + EOL, EOL] self.assertListEqual(expected_lines, mdf_file.readlines()) mdf_file.close() del lexical_entry.lemma lexical_entry.lemma = None del lexical_entry, lexicon # Remove MDF file os.remove(mdf_filename)
def test_tex_write(self): import sys, os # Create LMF objects lexical_entry = LexicalEntry() lexical_entry.lemma = Lemma() lexical_entry.partOfSpeech = "toto" lexical_entry.status = "draft" lexical_entry.lemma.lexeme = "hello" lexicon = Lexicon() lexicon.add_lexical_entry(lexical_entry) lexical_resource = LexicalResource() lexical_resource.add_lexicon(lexicon) # Write LaTeX file and test result utest_path = sys.path[0] + '/' tex_filename = utest_path + "output.tex" tex_write(lexical_resource, tex_filename) tex_file = open(tex_filename, "r") begin_lines = [ EOL, "\\begin{document}" + EOL, "\\maketitle" + EOL, "\\newpage" + EOL, EOL, "\\def\\mytextsc{\\bgroup\\obeyspaces\\mytextscaux}" + EOL, "\\def\\mytextscaux#1{\\mytextscauxii #1\\relax\\relax\\egroup}" + EOL, "\\def\\mytextscauxii#1{%" + EOL, "\\ifx\\relax#1\\else \\ifcat#1\\@sptoken{} \\expandafter\\expandafter\\expandafter\\mytextscauxii\\else" + EOL, "\\ifnum`#1=\\uccode`#1 {\\normalsize #1}\\else {\\footnotesize \\uppercase{#1}}\\fi \\expandafter\\expandafter\\expandafter\\mytextscauxii\\expandafter\\fi\\fi}" + EOL, EOL, "\\setlength\\parindent{0cm}" + EOL, EOL, "\\addmediapath{.}" + EOL, "\\addmediapath{./mp3}" + EOL, "\\addmediapath{./wav}" + EOL, "\\graphicspath{{" + os.path.abspath('.') + "/pylmflib/output/img/}}" + EOL, EOL, "\\newpage" + EOL, "\\begin{multicols}{2}" + EOL, EOL ] end_lines = ["\end{multicols}" + EOL, "\end{document}" + EOL] expected_lines = [ "\\newpage" + EOL, "\\section*{\\centering- \\textbf{\ipa{H}} \\textbf{\ipa{h}} -}" + EOL, #"\\pdfbookmark[1]{\ipa{ H h }}{ H h }" + EOL, "\\paragraph{\\hspace{-0.5cm} \\textbf{\ipa{hello}}} \\hypertarget{01}{}" + EOL, "\markboth{\\textbf{\\ipa{hello}}}{}" + EOL, "\\textit{Status:} draft" + EOL, "\lhead{\\firstmark}" + EOL, "\\rhead{\\botmark}" + EOL, EOL ] self.assertListEqual(begin_lines + expected_lines + end_lines, tex_file.readlines()) tex_file.close() # Customize mapping my_lmf_tex = dict({ "Lemma.lexeme": lambda lexical_entry: "is " + lexical_entry.get_lexeme( ) + "." + EOL, "LexicalEntry.id": lambda lexical_entry: "The lexical entry " + str(lexical_entry. get_id()) + " ", "LexicalEntry.partOfSpeech": lambda lexical_entry: "Its grammatical category is " + lexical_entry.get_partOfSpeech() + "." + EOL, "LexicalEntry.status": lambda lexical_entry: "Warning: " + lexical_entry.get_status( ) + " version!" + EOL }) my_order = [ "LexicalEntry.id", "Lemma.lexeme", "LexicalEntry.partOfSpeech", "LexicalEntry.status" ] def lmf2tex(entry, font): result = "" for attribute in my_order: result += my_lmf_tex[attribute](entry) return result # Write LaTeX file and test result tex_write(lexical_resource, tex_filename, None, None, lmf2tex, font) tex_file = open(tex_filename, "r") expected_lines = [ "\\newpage" + EOL, "\\section*{\\centering- \\textbf{\ipa{H}} \\textbf{\ipa{h}} -}" + EOL, #"\\pdfbookmark[1]{\ipa{ H h }}{ H h }" + EOL, "The lexical entry 01 is hello." + EOL, "Its grammatical category is toto." + EOL, "Warning: draft version!" + EOL, "\lhead{\\firstmark}" + EOL, "\\rhead{\\botmark}" + EOL, EOL ] self.assertListEqual(begin_lines + expected_lines + end_lines, tex_file.readlines()) tex_file.close() del lexical_entry.lemma lexical_entry.lemma = None del lexical_entry, lexicon lexicon = None del lexical_resource # Remove LaTeX file os.remove(tex_filename)
def test_tex_write(self): import sys, os # Create LMF objects lexical_entry = LexicalEntry() lexical_entry.lemma = Lemma() lexical_entry.partOfSpeech = "toto" lexical_entry.status = "draft" lexical_entry.lemma.lexeme = "hello" lexicon = Lexicon() lexicon.add_lexical_entry(lexical_entry) lexical_resource = LexicalResource() lexical_resource.add_lexicon(lexicon) # Write LaTeX file and test result utest_path = sys.path[0] + '/' tex_filename = utest_path + "output.tex" tex_write(lexical_resource, tex_filename) tex_file = open(tex_filename, "r") begin_lines = [EOL, "\\begin{document}" + EOL, "\\maketitle" + EOL, "\\newpage" + EOL, EOL, "\\def\\mytextsc{\\bgroup\\obeyspaces\\mytextscaux}" + EOL, "\\def\\mytextscaux#1{\\mytextscauxii #1\\relax\\relax\\egroup}" + EOL, "\\def\\mytextscauxii#1{%" + EOL, "\\ifx\\relax#1\\else \\ifcat#1\\@sptoken{} \\expandafter\\expandafter\\expandafter\\mytextscauxii\\else" + EOL, "\\ifnum`#1=\\uccode`#1 {\\normalsize #1}\\else {\\footnotesize \\uppercase{#1}}\\fi \\expandafter\\expandafter\\expandafter\\mytextscauxii\\expandafter\\fi\\fi}" + EOL, EOL, "\\setlength\\parindent{0cm}" + EOL, EOL, "\\addmediapath{.}" + EOL, "\\addmediapath{./mp3}" + EOL, "\\addmediapath{./wav}" + EOL, "\\graphicspath{{" + os.path.abspath('.') + "/pylmflib/output/img/}}" + EOL, EOL, "\\newpage" + EOL, "\\begin{multicols}{2}" + EOL, EOL ] end_lines = [ "\end{multicols}" + EOL, "\end{document}" + EOL ] expected_lines = [ "\\newpage" + EOL, "\\section*{\\centering- \\textbf{\ipa{H}} \\textbf{\ipa{h}} -}" + EOL, #"\\pdfbookmark[1]{\ipa{ H h }}{ H h }" + EOL, "\\paragraph{\\hspace{-0.5cm} \\textbf{\ipa{hello}}} \\hypertarget{01}{}" + EOL, "\markboth{\\textbf{\\ipa{hello}}}{}" + EOL, "\\textit{Status:} draft" + EOL, "\lhead{\\firstmark}" + EOL, "\\rhead{\\botmark}" + EOL, EOL ] self.assertListEqual(begin_lines + expected_lines + end_lines, tex_file.readlines()) tex_file.close() # Customize mapping my_lmf_tex = dict({ "Lemma.lexeme" : lambda lexical_entry: "is " + lexical_entry.get_lexeme() + "." + EOL, "LexicalEntry.id" : lambda lexical_entry: "The lexical entry " + str(lexical_entry.get_id()) + " ", "LexicalEntry.partOfSpeech" : lambda lexical_entry: "Its grammatical category is " + lexical_entry.get_partOfSpeech() + "." + EOL, "LexicalEntry.status" : lambda lexical_entry: "Warning: " + lexical_entry.get_status() + " version!" + EOL }) my_order = ["LexicalEntry.id", "Lemma.lexeme", "LexicalEntry.partOfSpeech", "LexicalEntry.status"] def lmf2tex(entry, font): result = "" for attribute in my_order: result += my_lmf_tex[attribute](entry) return result # Write LaTeX file and test result tex_write(lexical_resource, tex_filename, None, None, lmf2tex, font) tex_file = open(tex_filename, "r") expected_lines = [ "\\newpage" + EOL, "\\section*{\\centering- \\textbf{\ipa{H}} \\textbf{\ipa{h}} -}" + EOL, #"\\pdfbookmark[1]{\ipa{ H h }}{ H h }" + EOL, "The lexical entry 01 is hello." + EOL, "Its grammatical category is toto." + EOL, "Warning: draft version!" + EOL, "\lhead{\\firstmark}" + EOL, "\\rhead{\\botmark}" + EOL, EOL ] self.assertListEqual(begin_lines + expected_lines + end_lines, tex_file.readlines()) tex_file.close() del lexical_entry.lemma lexical_entry.lemma = None del lexical_entry, lexicon lexicon = None del lexical_resource # Remove LaTeX file os.remove(tex_filename)