def test_latexmap(): ltt = LatexTable(data=[['alpha',10.123,20],['alpha_s',30,40]], latex_map={'alpha':'beta'}) assert_equal( ltt._format('alpha'), 'beta' )
def test_table_color(): ltt = LatexTable(data=[['alpha', 10.123], ['alpha_s', 30]]) ltt.set_cell_color(0, 0, (111, 123, 95)) assert_equal( str(ltt), '%\\usepackage[table]{xcolor} % include this for color\n%\\usepackage{rotating} % include this for rotate header\n%\\documentclass[xcolor=table]{beamer} % for beamer\n\\begin{tabular}{|c|c|}\n\\hline\n\\cellcolor[RGB]{111,123,95} $\\alpha$ & 10.123\\\\\n\\hline\n$\\alpha_{s}$ & 30\\\\\n\\hline\n\\end{tabular}' )
def test_format(): ltt = LatexTable(data=[['alpha', 10.123, 20], ['alpha_s', 30, 40]], smart_latex=False) assert ltt._format('a_b') == r'a\_b' ltt2 = LatexTable(data=[['alpha', 10.123, 20], ['alpha_s', 30, 40]], smart_latex=False, escape_under_score=False) assert ltt2._format('a_b') == r'a_b'
def test_table_color(): ltt = LatexTable(data=[["alpha", 10.123], ["alpha_s", 30]]) ltt.set_cell_color(0, 0, (111, 123, 95)) expected = """%\\usepackage[table]{xcolor} % include this for color %\\usepackage{rotating} % include this for rotate header %\\documentclass[xcolor=table]{beamer} % for beamer \\begin{tabular}{|c|c|} \\hline \\cellcolor[RGB]{111,123,95} $\\alpha$ & 10.123\\\\ \\hline $\\alpha_{s}$ & 30\\\\ \\hline \\end{tabular}""" assert str(ltt) == expected
def test_smartlatex(): ltt = LatexTable(data=[['alpha', 10.123, 20], ['alpha_s', 30, 40]]) assert ltt._convert_smart_latex('alpha') == r'$\alpha$' assert ltt._convert_smart_latex('alpha_beta') == r'$\alpha_{\beta}$' assert ltt._convert_smart_latex('a_b') == r'$a_{b}$' assert ltt._convert_smart_latex('a_b_c') == r'a $b_{c}$' assert ltt._convert_smart_latex('a') == r'a' assert ltt._convert_smart_latex('a_alpha_beta') == r'a $\alpha_{\beta}$'
def test_smartlatex(): ltt = LatexTable(data=[["alpha", 10.123, 20], ["alpha_s", 30, 40]]) assert ltt._convert_smart_latex("alpha") == r"$\alpha$" assert ltt._convert_smart_latex("alpha_beta") == r"$\alpha_{\beta}$" assert ltt._convert_smart_latex("a_b") == r"$a_{b}$" assert ltt._convert_smart_latex("a_b_c") == r"a $b_{c}$" assert ltt._convert_smart_latex("a") == r"a" assert ltt._convert_smart_latex("a_alpha_beta") == r"a $\alpha_{\beta}$"
def test_empty_table_with_headers(): ltt = LatexTable(data=[], headers=["Foo", "Bar"]) expected = """\\begin{tabular}{|c|c|} \\hline Foo & Bar\\\\ \\hline \\end{tabular}""" assert str(ltt) == expected
def test_empty_table(): ltt = LatexTable(data=[]) expected = '\n'.join([ r'\begin{tabular}{|c|}', r'\hline', r'\end{tabular}', ]) assert str(ltt) == expected
def test_smartlatex(): ltt = LatexTable(data=[['alpha',10.123,20],['alpha_s',30,40]]) assert_equal( ltt._convert_smart_latex('alpha'), r'$\alpha$' ) assert_equal( ltt._convert_smart_latex('alpha_beta'), r'$\alpha_{\beta}$' ) assert_equal( ltt._convert_smart_latex('a_b'), r'$a_{b}$' ) assert_equal( ltt._convert_smart_latex('a_b_c'), r'a $b_{c}$' ) assert_equal( ltt._convert_smart_latex('a'), r'a' ) assert_equal( ltt._convert_smart_latex('a_alpha_beta'), r'a $\alpha_{\beta}$' )
def test_empty_table_with_headers(): ltt = LatexTable(data=[], headers=['Foo', 'Bar']) expected = '\n'.join([ r'\begin{tabular}{|c|c|}', r'\hline', r'Foo & Bar\\', r'\hline', r'\end{tabular}', ]) assert str(ltt) == expected
def test_table(): ltt = LatexTable(data=[["alpha", 10.123], ["alpha_s", 30]]) expected = """\\begin{tabular}{|c|c|} \\hline $\\alpha$ & 10.123\\\\ \\hline $\\alpha_{s}$ & 30\\\\ \\hline \\end{tabular}""" assert str(ltt) == expected
def test_empty_table_with_headers(): ltt = LatexTable(data=[], headers=["Foo", "Bar"]) expected = "\n".join([ r"\begin{tabular}{|c|c|}", r"\hline", r"Foo & Bar\\", r"\hline", r"\end{tabular}", ]) assert str(ltt) == expected
def test_format(): ltt = LatexTable(data=[['alpha', 10.123, 20], ['alpha_s', 30, 40]], smart_latex=False) assert_equal(ltt._format('a_b'), r'a\_b') ltt2 = LatexTable(data=[['alpha', 10.123, 20], ['alpha_s', 30, 40]], smart_latex=False, escape_under_score=False) assert_equal(ltt2._format('a_b'), r'a_b')
def test_format(): ltt = LatexTable(data=[["alpha", 10.123, 20], ["alpha_s", 30, 40]], smart_latex=False) assert ltt._format("a_b") == r"a\_b" ltt2 = LatexTable( data=[["alpha", 10.123, 20], ["alpha_s", 30, 40]], smart_latex=False, escape_under_score=False, ) assert ltt2._format("a_b") == r"a_b"
def test_latexmap(): ltt = LatexTable(data=[["alpha", 10.123, 20], ["alpha_s", 30, 40]], latex_map={"alpha": "beta"}) assert ltt._format("alpha") == "beta"
def test_table_color(): ltt = LatexTable(data=[['alpha', 10.123], ['alpha_s', 30]]) ltt.set_cell_color(0, 0, (111, 123, 95)) expected = '%\\usepackage[table]{xcolor} % include this for color\n%\\usepackage{rotating} % include this for rotate header\n%\\documentclass[xcolor=table]{beamer} % for beamer\n\\begin{tabular}{|c|c|}\n\\hline\n\\cellcolor[RGB]{111,123,95} $\\alpha$ & 10.123\\\\\n\\hline\n$\\alpha_{s}$ & 30\\\\\n\\hline\n\\end{tabular}' assert str(ltt) == expected
def test_table(): ltt = LatexTable(data=[['alpha', 10.123], ['alpha_s', 30]]) assert_equal( str(ltt), '\\begin{tabular}{|c|c|}\n\\hline\n$\\alpha$ & 10.123\\\\\n\\hline\n$\\alpha_{s}$ & 30\\\\\n\\hline\n\\end{tabular}' )
def test_latexmap(): ltt = LatexTable(data=[['alpha', 10.123, 20], ['alpha_s', 30, 40]], latex_map={'alpha': 'beta'}) assert_equal(ltt._format('alpha'), 'beta')
def test_empty_table(): ltt = LatexTable(data=[]) expected = """\\begin{tabular}{|c|} \\hline \\end{tabular}""" assert str(ltt) == expected
def test_table(): ltt = LatexTable(data=[['alpha', 10.123], ['alpha_s', 30]]) expected = '\\begin{tabular}{|c|c|}\n\\hline\n$\\alpha$ & 10.123\\\\\n\\hline\n$\\alpha_{s}$ & 30\\\\\n\\hline\n\\end{tabular}' assert str(ltt) == expected
def test_empty_table(): ltt = LatexTable(data=[]) expected = "\n".join( [r"\begin{tabular}{|c|}", r"\hline", r"\end{tabular}"]) assert str(ltt) == expected