def test_format_value_count_alignment(self):
count_column = Column("memUsed", None, None, None, ColumnType.count, None, None, 1)
formatted_value_count_no_align_no_sigs = count_column.format_value("123456789", *self.default_optionals)
self.assertEqual(formatted_value_count_no_align_no_sigs, "123456789")
formatted_value_aligned = count_column.format_value("123456789", True, 'html_cell')
self.assertEqual(formatted_value_aligned, formatted_value_count_no_align_no_sigs)
def test_format_value_small_value(self):
small_value = "0.000008767"
small_value_measure_type = ColumnMeasureType(len(small_value) - 3)
small_value_column = Column("CpuTime", None, 3, None, small_value_measure_type, unit=None, scale_factor=1)
formatted_value_aligned = small_value_column.format_value(small_value, True, 'html')
self.assertEqual(formatted_value_aligned, "0.00000877")
# Test whether scaling to small values and resulting values are handled correctly
small_value_measure_type = ColumnMeasureType(12)
small_value_column = Column("CpuTime", None, 3, None, small_value_measure_type, unit='dummy', scale_factor=1e-10)
formatted_value_aligned = small_value_column.format_value('2', True, 'html')
self.assertEqual(formatted_value_aligned, '0.0000000002  ')
def check_expected_column_type(self, values, expected_type):
column = Column("empty_column", None, self.sig_figures, None)
column.set_column_type_from(values)
self.assertEqual(
column.type.type, expected_type, msg="Actual type: " + str(column.type)
)
def test_column_init_no_error_on_same_unit_without_scale(self):
Column("memUsed", None, None, None, self.measure_type, "B", "B", None)
def test_column_init_no_error_on_default_scale(self):
Column("memUsed", None, None, None, self.measure_type, "B")
class FormatValueTests(unittest.TestCase):
def setUp(self):
self.max_dec_digits = 6
self.sig_figures = 4
self.measure_type = ColumnMeasureType(self.max_dec_digits)
self.measure_column = Column("CpuTime", None, self.sig_figures, None,
self.measure_type, None, None, 1)
self.default_optionals = (False, 'html')
def tearDown(self):
pass
def test_format_value_none(self):
formatted_value_none = self.measure_column.format_value(
None, *self.default_optionals)
self.assertEqual(formatted_value_none, '')
def test_format_value_no_align(self):
formatted_value_no_align = self.measure_column.format_value(
"1.555s", *self.default_optionals)
self.assertEqual(formatted_value_no_align, "1.555")
def test_format_value_no_align_rounded(self):
formatted_value_no_align_rounded = self.measure_column.format_value(
"0.55559", *self.default_optionals)
self.assertEqual(formatted_value_no_align_rounded, "0.5556")
def test_format_value_add_missing_zeros(self):
formatted_value_no_align_zeros_cut = self.measure_column.format_value(
"9.599999", *self.default_optionals)
self.assertEqual(formatted_value_no_align_zeros_cut, "9.600")
def test_format_value_align_decimal(self):
formatted_value_aligned = self.measure_column.format_value(
"1.555s", True, 'html')
self.assertEqual(formatted_value_aligned,
"1.555   ")
def test_format_value_small_value(self):
small_value = "0.000008767"
small_value_measure_type = ColumnMeasureType(len(small_value) - 3)
small_value_column = Column("CpuTime",
None,
3,
None,
small_value_measure_type,
unit=None,
scale_factor=1)
formatted_value_aligned = small_value_column.format_value(
small_value, True, 'html')
self.assertEqual(formatted_value_aligned, "0.00000877")
# Test whether scaling to small values and resulting values are handled correctly
small_value_measure_type = ColumnMeasureType(12)
small_value_column = Column("CpuTime",
None,
3,
None,
small_value_measure_type,
unit='dummy',
scale_factor=1e-10)
formatted_value_aligned = small_value_column.format_value(
'2', True, 'html')
self.assertEqual(formatted_value_aligned,
'0.0000000002  ')
def test_format_value_align_int(self):
formatted_value_int_aligned = self.measure_column.format_value(
"20", True, 'html')
self.assertEqual(
formatted_value_int_aligned,
"20       ")
def test_format_value_cut_0_at_front(self):
formatted_value_0_cut = self.measure_column.format_value(
"0.055999", True, 'html_cell')
self.assertEqual(formatted_value_0_cut, ".05600 ")
def test_format_value_two_significant_figures(self):
self.measure_column_two_sig_figures = Column("CpuTime", None, 2, None,
self.measure_type, None,
None, 1)
formatted_value_decimals_cut = self.measure_column_two_sig_figures.format_value(
"9.99999", *self.default_optionals)
self.assertEqual(formatted_value_decimals_cut, "10")
def test_format_value_no_sigs(self):
self.measure_column_no_sigs = Column("CpuTime", None, None, None,
self.measure_type, None, None, 1)
formatted_value_rounding = self.measure_column_no_sigs.format_value(
"9999.12015s", *self.default_optionals)
self.assertEqual(formatted_value_rounding, "10000")
def test_format_value_tooltip_explicit_sigs(self):
formatted_value_tooltip_considers_explicit_sigs = self.measure_column.format_value(
"9999.125s", None, 'tooltip_stochastic')
self.assertEqual(formatted_value_tooltip_considers_explicit_sigs,
"9999")
def test_format_value_tooltip_explicit_sigs2(self):
formatted_value_tooltip_considers_explicit_sigs = self.measure_column.format_value(
"0.125s", None, 'tooltip_stochastic')
self.assertEqual(formatted_value_tooltip_considers_explicit_sigs,
"0.125")
def test_format_value_tooltip_explicit_sigs3(self):
formatted_value_tooltip_considers_explicit_sigs = self.measure_column.format_value(
"0.125999s", None, 'tooltip_stochastic')
self.assertEqual(formatted_value_tooltip_considers_explicit_sigs,
"0.1260")
def test_format_value_count_alignment(self):
count_column = Column("memUsed", None, None, None, ColumnType.count,
None, None, 1)
formatted_value_count_no_align_no_sigs = count_column.format_value(
"123456789", *self.default_optionals)
self.assertEqual(formatted_value_count_no_align_no_sigs, "123456789")
formatted_value_aligned = count_column.format_value(
"123456789", True, 'html_cell')
self.assertEqual(formatted_value_aligned,
formatted_value_count_no_align_no_sigs)
def test_format_value_count_sigs(self):
count_column_sigs = Column("memUsed", None, 3, None, ColumnType.count,
None, None, 1)
formatted_value_count_sigs = count_column_sigs.format_value(
"123456789", *self.default_optionals)
self.assertEqual(formatted_value_count_sigs, "123000000")
def test_format_value_scale_values_down(self):
scaling_column_smaller = Column("memUsed", None, None, None,
self.measure_type, 'MB', None,
'0.0000001')
formatted_value_scaled = scaling_column_smaller.format_value(
"123456789", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12.3")
def test_format_value_scale_values_up(self):
scaling_column_bigger = Column("memUsed", None, None, None,
self.measure_type, 'kB', None, '1000')
formatted_value_scaled = scaling_column_bigger.format_value(
"12.3", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12300")
def test_column_init_error_on_missing_unit(self):
self.assertRaises(TableDefinitionError, Column, "memUsed", None, None,
None, self.measure_type, None, None, 1000)
def test_column_init_no_error_on_default_scale(self):
Column("memUsed", None, None, None, self.measure_type, 'B')
def test_column_init_no_error_on_same_unit_without_scale(self):
Column("memUsed", None, None, None, self.measure_type, 'B', 'B', None)
def test_format_value_no_sigs(self):
self.measure_column_no_sigs = Column("CpuTime", None, None, None, self.measure_type, None, None, 1)
formatted_value_rounding = self.measure_column_no_sigs.format_value("9999.12015s", *self.default_optionals)
self.assertEqual(formatted_value_rounding, "10000")
def _column_statistic_to_latex_command(
init_command: LatexCommand,
column_statistic: ColumnStatistics,
parent_column: Column,
skipped_columns: Set[str],
) -> Iterable[LatexCommand]:
"""Parses a ColumnStatistics to Latex Commands and yields them
The provided LatexCommand must have specified benchmark_name, display_name and column_name.
Args:
init_command: LatexCommand with not empty benchmark_name and display_name
column_statistic: ColumnStatistics to convert to LatexCommand
parent_column: Current column with meta-data
skipped_columns: Set with all columns, which should be skipped
Yields:
A completely filled LatexCommand
"""
if not column_statistic:
return
stat_value: StatValue
for stat_name, stat_value in column_statistic.__dict__.items():
if stat_value is None:
continue
column_parts = stat_name.rsplit("_", 1)
# If the stat_name is not ending with true or false, use the whole stat_name as column and an empty string
# as column_subcategory
if column_parts[-1].lower() in ["true", "false"]:
status = column_parts[-1]
column_list = column_parts[0:-1]
else:
status = ""
column_list = column_parts
# Joining the column together to get the name original name
if "_".join(column_list) in skipped_columns:
continue
# Copy command to prevent using filled command parts from previous iterations
command = copy.deepcopy(init_command)
# Some colum_categories use _ in their names, that's why the column_category is the
# whole split list except the last word
command.set_command_part(
"column",
"".join(
util.cap_first_letter(column_part)
for column_part in column_list),
)
command.set_command_part("status", status)
for k, v in stat_value.__dict__.items():
# "v is None" instead of "if not v" used to allow number 0
if v is None:
continue
if k == "sum":
# Renaming sum to count for status type columns
if parent_column.type == ColumnType.status:
k = "count"
else:
assert parent_column.is_numeric()
command.set_command_part("stat_type", k)
command.set_command_value(
parent_column.format_value(value=v, format_target="csv"))
yield command
if parent_column.unit:
command.set_command_part("stat_type", "unit")
command.set_command_value(parent_column.unit)
yield command
def test_format_value_count_sigs(self):
count_column_sigs = Column("memUsed", None, 3, None, ColumnType.count,
None, None, 1)
formatted_value_count_sigs = count_column_sigs.format_value(
"123456789", *self.default_optionals)
self.assertEqual(formatted_value_count_sigs, "123000000")
def setUp(self):
self.max_dec_digits = 6
self.sig_figures = 4
self.measure_type = ColumnMeasureType(self.max_dec_digits)
self.measure_column = Column("CpuTime", None, self.sig_figures, None, self.measure_type, None, None, 1)
self.default_optionals = (False, 'html')
class FormatValueTests(unittest.TestCase):
def setUp(self):
self.max_dec_digits = 6
self.sig_figures = 4
self.measure_type = ColumnMeasureType(self.max_dec_digits)
self.measure_column = Column("CpuTime", None, self.sig_figures, None, self.measure_type, None, None, 1)
self.default_optionals = (False, 'html')
def tearDown(self):
pass
def test_format_value_none(self):
formatted_value_none = self.measure_column.format_value(None, *self.default_optionals)
self.assertEqual(formatted_value_none, '')
def test_format_value_no_align(self):
formatted_value_no_align = self.measure_column.format_value("1.555s", *self.default_optionals)
self.assertEqual(formatted_value_no_align, "1.555")
def test_format_value_no_align_rounded(self):
formatted_value_no_align_rounded = self.measure_column.format_value("0.55559", *self.default_optionals)
self.assertEqual(formatted_value_no_align_rounded, "0.5556")
def test_format_value_add_missing_zeros(self):
formatted_value_no_align_zeros_cut = self.measure_column.format_value("9.599999", *self.default_optionals)
self.assertEqual(formatted_value_no_align_zeros_cut, "9.600")
def test_format_value_align_decimal(self):
formatted_value_aligned = self.measure_column.format_value("1.555s", True, 'html')
self.assertEqual(formatted_value_aligned, "1.555   ")
def test_format_value_small_value(self):
small_value = "0.000008767"
small_value_measure_type = ColumnMeasureType(len(small_value) - 3)
small_value_column = Column("CpuTime", None, 3, None, small_value_measure_type, unit=None, scale_factor=1)
formatted_value_aligned = small_value_column.format_value(small_value, True, 'html')
self.assertEqual(formatted_value_aligned, "0.00000877")
# Test whether scaling to small values and resulting values are handled correctly
small_value_measure_type = ColumnMeasureType(12)
small_value_column = Column("CpuTime", None, 3, None, small_value_measure_type, unit='dummy', scale_factor=1e-10)
formatted_value_aligned = small_value_column.format_value('2', True, 'html')
self.assertEqual(formatted_value_aligned, '0.0000000002  ')
def test_format_value_align_int(self):
formatted_value_int_aligned = self.measure_column.format_value("20", True, 'html')
self.assertEqual(formatted_value_int_aligned, "20       ")
def test_format_value_cut_0_at_front(self):
formatted_value_0_cut = self.measure_column.format_value("0.055999", True, 'html_cell')
self.assertEqual(formatted_value_0_cut, ".05600 ")
def test_format_value_two_significant_figures(self):
self.measure_column_two_sig_figures = Column("CpuTime", None, 2, None, self.measure_type, None, None, 1)
formatted_value_decimals_cut = self.measure_column_two_sig_figures.format_value("9.99999", *self.default_optionals)
self.assertEqual(formatted_value_decimals_cut, "10")
def test_format_value_no_sigs(self):
self.measure_column_no_sigs = Column("CpuTime", None, None, None, self.measure_type, None, None, 1)
formatted_value_rounding = self.measure_column_no_sigs.format_value("9999.12015s", *self.default_optionals)
self.assertEqual(formatted_value_rounding, "10000")
def test_format_value_tooltip_explicit_sigs(self):
formatted_value_tooltip_considers_explicit_sigs = self.measure_column.format_value("9999.125s", None, 'tooltip_stochastic')
self.assertEqual(formatted_value_tooltip_considers_explicit_sigs, "9999")
def test_format_value_tooltip_explicit_sigs2(self):
formatted_value_tooltip_considers_explicit_sigs = self.measure_column.format_value("0.125s", None, 'tooltip_stochastic')
self.assertEqual(formatted_value_tooltip_considers_explicit_sigs, "0.125")
def test_format_value_tooltip_explicit_sigs3(self):
formatted_value_tooltip_considers_explicit_sigs = self.measure_column.format_value("0.125999s", None, 'tooltip_stochastic')
self.assertEqual(formatted_value_tooltip_considers_explicit_sigs, "0.1260")
def test_format_value_count_alignment(self):
count_column = Column("memUsed", None, None, None, ColumnType.count, None, None, 1)
formatted_value_count_no_align_no_sigs = count_column.format_value("123456789", *self.default_optionals)
self.assertEqual(formatted_value_count_no_align_no_sigs, "123456789")
formatted_value_aligned = count_column.format_value("123456789", True, 'html_cell')
self.assertEqual(formatted_value_aligned, formatted_value_count_no_align_no_sigs)
def test_format_value_count_sigs(self):
count_column_sigs = Column("memUsed", None, 3, None, ColumnType.count, None, None, 1)
formatted_value_count_sigs = count_column_sigs.format_value("123456789", *self.default_optionals)
self.assertEqual(formatted_value_count_sigs, "123000000")
def test_format_value_scale_values_down(self):
scaling_column_smaller = Column("memUsed", None, None, None, self.measure_type, 'MB', None, '0.0000001')
formatted_value_scaled = scaling_column_smaller.format_value("123456789", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12.3")
def test_format_value_scale_values_up(self):
scaling_column_bigger = Column("memUsed", None, None, None, self.measure_type, 'kB', None, '1000')
formatted_value_scaled = scaling_column_bigger.format_value("12.3", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12300")
def test_column_init_error_on_missing_unit(self):
self.assertRaises(TableDefinitionError, Column, "memUsed", None, None, None, self.measure_type, None, None, 1000)
def test_column_init_no_error_on_default_scale(self):
Column("memUsed", None, None, None, self.measure_type, 'B')
def test_column_init_no_error_on_same_unit_without_scale(self):
Column("memUsed", None, None, None, self.measure_type, 'B', 'B', None)
def test_format_value_scale_values_up(self):
scaling_column_bigger = Column("memUsed", None, None, None, self.measure_type, 'kB', None, '1000')
formatted_value_scaled = scaling_column_bigger.format_value("12.3", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12300")
def test_format_value_scale_values_down(self):
scaling_column_smaller = Column("memUsed", None, None, None, self.measure_type, 'MB', None, '0.0000001')
formatted_value_scaled = scaling_column_smaller.format_value("123456789", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12.3")
def test_format_value_count_sigs(self):
count_column_sigs = Column("memUsed", None, 3, None, ColumnType.count, None, None, 1)
formatted_value_count_sigs = count_column_sigs.format_value("123456789", *self.default_optionals)
self.assertEqual(formatted_value_count_sigs, "123000000")
def test_format_value_no_sigs(self):
self.measure_column_no_sigs = Column("CpuTime", None, None, None,
self.measure_type, None, None, 1)
formatted_value_rounding = self.measure_column_no_sigs.format_value(
"9999.12015s", *self.default_optionals)
self.assertEqual(formatted_value_rounding, "10000")
class ColumnsTest(unittest.TestCase):
def setUp(self):
self.max_dec_digits = 6
self.sig_figures = 4
self.measure_type = ColumnMeasureType(self.max_dec_digits)
self.measure_column = Column("CpuTime", None, self.sig_figures, None,
self.measure_type, None, None, 1)
self.default_optionals = ("html", )
def tearDown(self):
pass
def test_format_value_none(self):
formatted_value_none = self.measure_column.format_value(
None, *self.default_optionals)
self.assertEqual(formatted_value_none, "")
def test_format_value_no_align(self):
formatted_value_no_align = self.measure_column.format_value(
"1.555s", *self.default_optionals)
self.assertEqual(formatted_value_no_align, "1.555")
def test_format_value_no_align_rounded(self):
formatted_value_no_align_rounded = self.measure_column.format_value(
"0.55559", *self.default_optionals)
self.assertEqual(formatted_value_no_align_rounded, "0.5556")
def test_format_value_round_up(self):
formatted_value_no_align_zeros_cut = self.measure_column.format_value(
"5.7715", *self.default_optionals)
self.assertEqual(formatted_value_no_align_zeros_cut, "5.772")
def test_format_value_round_up2(self):
formatted_value_no_align_zeros_cut = self.measure_column.format_value(
"4.4445", *self.default_optionals)
self.assertEqual(formatted_value_no_align_zeros_cut, "4.445")
def test_format_value_round_up3(self):
formatted_value_no_align_zeros_cut = self.measure_column.format_value(
"99.675", *self.default_optionals)
self.assertEqual(formatted_value_no_align_zeros_cut, "99.68")
def test_format_value_add_missing_zeros(self):
formatted_value_no_align_zeros_cut = self.measure_column.format_value(
"9.599999", *self.default_optionals)
self.assertEqual(formatted_value_no_align_zeros_cut, "9.600")
def test_format_value_trailing_zeros(self):
formatted_value = self.measure_column.format_value(
"1.600", *self.default_optionals)
self.assertEqual(formatted_value, "1.600")
def test_format_value_more_trailing_zeros(self):
formatted_value = self.measure_column.format_value(
"1.60000", *self.default_optionals)
self.assertEqual(formatted_value, "1.600")
def test_format_value_less_trailing_zeros(self):
formatted_value = self.measure_column.format_value(
"1.6", *self.default_optionals)
self.assertEqual(formatted_value, "1.6")
def test_format_value_more_trailing_zeros2(self):
formatted_value = self.measure_column.format_value(
"160.00", *self.default_optionals)
self.assertEqual(formatted_value, "160.0")
def test_format_value_less_trailing_zeros2(self):
formatted_value = self.measure_column.format_value(
"160", *self.default_optionals)
self.assertEqual(formatted_value, "160")
def test_format_value_zero(self):
formatted_value = self.measure_column.format_value(
"0", *self.default_optionals)
self.assertEqual(formatted_value, "0")
def test_format_value_precise_zero(self):
formatted_value = self.measure_column.format_value(
"0.0000", *self.default_optionals)
self.assertEqual(formatted_value, "0.0000")
def test_format_value_more_precise_zero(self):
formatted_value = self.measure_column.format_value(
"0.0000000", *self.default_optionals)
self.assertEqual(formatted_value, "0.0000")
def test_format_value_small_number(self):
formatted_value = self.measure_column.format_value(
"0.00000000001", *self.default_optionals)
self.assertEqual(formatted_value, "0.00000000001")
def test_format_value_align_decimal(self):
formatted_value_aligned = self.measure_column.format_value(
"1.555s", "html_cell")
self.assertEqual(formatted_value_aligned,
"1.555   ")
def test_format_value_small_value(self):
small_value = "0.000008767"
small_value_measure_type = ColumnMeasureType(len(small_value) - 3)
small_value_column = Column(
"CpuTime",
None,
3,
None,
small_value_measure_type,
unit=None,
scale_factor=1,
)
formatted_value = small_value_column.format_value(
small_value, *self.default_optionals)
self.assertEqual(formatted_value, "0.00000877")
# Test CSV formatting with scaling
small_value_column = Column(
"CpuTime",
None,
None,
None,
small_value_measure_type,
unit="s",
scale_factor=Decimal("0.1"),
)
formatted_value = small_value_column.format_value(small_value, "csv")
self.assertEqual(formatted_value, "0.0000008767")
# Test whether scaling to small values and resulting values are handled correctly
small_value_measure_type = ColumnMeasureType(12)
small_value_column = Column(
"CpuTime",
None,
3,
None,
small_value_measure_type,
unit="dummy",
scale_factor=1e-10,
)
formatted_value_aligned = small_value_column.format_value(
"2", "html_cell")
self.assertEqual(formatted_value_aligned,
".0000000002  ")
def test_format_value_align_int(self):
formatted_value_int_aligned = self.measure_column.format_value(
"20", "html_cell")
self.assertEqual(
formatted_value_int_aligned,
"20       ",
)
def test_format_value_cut_0_at_front(self):
formatted_value_0_cut = self.measure_column.format_value(
"0.055999", "html_cell")
self.assertEqual(formatted_value_0_cut, ".05600 ")
def test_format_value_two_significant_figures(self):
self.measure_column_two_sig_figures = Column("CpuTime", None, 2, None,
self.measure_type, None,
None, 1)
formatted_value_decimals_cut = self.measure_column_two_sig_figures.format_value(
"9.99999", *self.default_optionals)
self.assertEqual(formatted_value_decimals_cut, "10")
def test_format_value_no_sigs(self):
self.measure_column_no_sigs = Column("CpuTime", None, None, None,
self.measure_type, None, None, 1)
formatted_value_rounding = self.measure_column_no_sigs.format_value(
"9999.12015s", *self.default_optionals)
self.assertEqual(formatted_value_rounding, "10000")
def test_format_value_negative_float(self):
formatted_value = self.measure_column.format_value(
"-0.05559", *self.default_optionals)
self.assertEqual(formatted_value, "-0.05559")
formatted_value = self.measure_column.format_value(
"-0.055593", *self.default_optionals)
self.assertEqual(formatted_value, "-0.05559")
formatted_value = self.measure_column.format_value(
"-0.055598", *self.default_optionals)
self.assertEqual(formatted_value, "-0.05560")
formatted_value = self.measure_column.format_value(
"-0.0555", *self.default_optionals)
self.assertEqual(formatted_value, "-0.0555")
def test_format_value_NaN(self):
formatted_value = self.measure_column.format_value(
"Nan", *self.default_optionals)
self.assertEqual(formatted_value, "NaN")
def test_format_value_inf(self):
formatted_value = self.measure_column.format_value(
"InF", *self.default_optionals)
self.assertEqual(formatted_value, "Inf")
formatted_value = self.measure_column.format_value(
"inf", *self.default_optionals)
self.assertEqual(formatted_value, "Inf")
formatted_value = self.measure_column.format_value(
"inF", *self.default_optionals)
self.assertEqual(formatted_value, "Inf")
formatted_value = self.measure_column.format_value(
"+Inf", *self.default_optionals)
self.assertEqual(formatted_value, "Inf")
def test_format_value_negative_inf(self):
formatted_value = self.measure_column.format_value(
"-InF", *self.default_optionals)
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value(
"-inf", *self.default_optionals)
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value(
"-inF", *self.default_optionals)
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value(
"-Inf", *self.default_optionals)
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value(
"-inf", *self.default_optionals)
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value(
"-INF", *self.default_optionals)
self.assertEqual(formatted_value, "-Inf")
def test_format_value_NaN_for_csv(self):
formatted_value = self.measure_column.format_value("Nan", "csv")
self.assertEqual(formatted_value, "NaN")
def test_format_value_inf_for_csv(self):
formatted_value = self.measure_column.format_value("InF", "csv")
self.assertEqual(formatted_value, "Inf")
formatted_value = self.measure_column.format_value("inf", "csv")
self.assertEqual(formatted_value, "Inf")
formatted_value = self.measure_column.format_value("inF", "csv")
self.assertEqual(formatted_value, "Inf")
formatted_value = self.measure_column.format_value("+Inf", "csv")
self.assertEqual(formatted_value, "Inf")
def test_format_value_negative_inf_for_csv(self):
formatted_value = self.measure_column.format_value("-InF", "csv")
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value("-inf", "csv")
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value("-inF", "csv")
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value("-Inf", "csv")
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value("-inf", "csv")
self.assertEqual(formatted_value, "-Inf")
formatted_value = self.measure_column.format_value("-INF", "csv")
self.assertEqual(formatted_value, "-Inf")
def test_format_value_tooltip_explicit_sigs(self):
formatted_value_tooltip_considers_explicit_sigs = (
self.measure_column.format_value("9999.125s",
"tooltip_stochastic"))
self.assertEqual(formatted_value_tooltip_considers_explicit_sigs,
"9999")
def test_format_value_tooltip_explicit_sigs2(self):
formatted_value_tooltip_considers_explicit_sigs = (
self.measure_column.format_value("0.125s", "tooltip_stochastic"))
self.assertEqual(formatted_value_tooltip_considers_explicit_sigs,
"0.125")
def test_format_value_tooltip_explicit_sigs3(self):
formatted_value_tooltip_considers_explicit_sigs = (
self.measure_column.format_value("0.125999s",
"tooltip_stochastic"))
self.assertEqual(formatted_value_tooltip_considers_explicit_sigs,
"0.1260")
def test_format_value_count_alignment(self):
count_column = Column("memUsed", None, None, None, ColumnType.count,
None, None, 1)
formatted_value_count_no_align_no_sigs = count_column.format_value(
"123456789", *self.default_optionals)
self.assertEqual(formatted_value_count_no_align_no_sigs, "123456789")
formatted_value_aligned = count_column.format_value(
"123456789", "html_cell")
self.assertEqual(formatted_value_aligned,
formatted_value_count_no_align_no_sigs)
def test_format_value_count_sigs(self):
count_column_sigs = Column("memUsed", None, 3, None, ColumnType.count,
None, None, 1)
formatted_value_count_sigs = count_column_sigs.format_value(
"123456789", *self.default_optionals)
self.assertEqual(formatted_value_count_sigs, "123000000")
def test_format_value_scale_values_down(self):
scaling_column_smaller = Column("memUsed", None, None, None,
self.measure_type, "MB", None,
"0.0000001")
formatted_value_scaled = scaling_column_smaller.format_value(
"123456789", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12.3")
def test_format_value_scale_values_up(self):
scaling_column_bigger = Column("memUsed", None, None, None,
self.measure_type, "kB", None, "1000")
formatted_value_scaled = scaling_column_bigger.format_value(
"12.3", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12300")
def test_column_init_error_on_missing_unit(self):
self.assertRaises(
TableDefinitionError,
Column,
"memUsed",
None,
None,
None,
self.measure_type,
None,
None,
1000,
)
def test_column_init_no_error_on_default_scale(self):
Column("memUsed", None, None, None, self.measure_type, "B")
def test_column_init_no_error_on_same_unit_without_scale(self):
Column("memUsed", None, None, None, self.measure_type, "B", "B", None)
def check_expected_column_type(self, values, expected_type):
column = Column("empty_column", None, self.sig_figures, None)
column.set_column_type_from(values)
self.assertEqual(column.type.type,
expected_type,
msg="Actual type: " + str(column.type))
def test_column_type_text_value_starts_with_number(self):
self.check_expected_column_type([1, 1, 1, 1.1, "1,2,3"],
ColumnType.text)
def test_column_type_integers_is_count(self):
self.check_expected_column_type([1, 2, 3, 99999], ColumnType.count)
def test_column_type_integer_strings_is_count(self):
self.check_expected_column_type(["1", "2", "3", "99999"],
ColumnType.count)
def test_column_type_integers_and_integer_strings_is_count(self):
self.check_expected_column_type(["1", 2, 3, 99999], ColumnType.count)
def test_column_type_floats_is_measure(self):
self.check_expected_column_type([1.1, 2.234], ColumnType.measure)
def test_column_type_floats_and_integers_is_measure(self):
self.check_expected_column_type([1, 2.234, 3, 4], ColumnType.measure)
def test_column_type_float_strings_is_measure(self):
self.check_expected_column_type(["1.1", "2.234"], ColumnType.measure)
def test_column_type_floats_and_float_strings_is_measure(self):
self.check_expected_column_type([1.1, "2.234"], ColumnType.measure)
def test_column_type_integer_and_nan_is_measure(self):
self.check_expected_column_type([1, 10, nan], ColumnType.measure)
def test_column_type_integer_string_and_nan_is_measure(self):
self.check_expected_column_type(["1", "10", nan], ColumnType.measure)
def test_column_type_integer_and_inf_is_measure(self):
self.check_expected_column_type([1, 10, inf], ColumnType.measure)
def test_column_type_integer_string_and_inf_is_measure(self):
self.check_expected_column_type(["1", "10", inf], ColumnType.measure)
def test_column_type_integer_and_negative_inf_is_measure(self):
self.check_expected_column_type([1, 10, -inf], ColumnType.measure)
def test_column_type_integer_string_and_negative_inf_is_measure(self):
self.check_expected_column_type(["1", "10", -inf], ColumnType.measure)
def test_column_type_float_and_nan_is_measure(self):
self.check_expected_column_type([1.1, 10, nan], ColumnType.measure)
def test_column_type_float_string_and_nan_is_measure(self):
self.check_expected_column_type(["1.1", "10.0", nan],
ColumnType.measure)
def test_column_type_float_and_inf_is_measure(self):
self.check_expected_column_type([1.1, 10, inf], ColumnType.measure)
def test_column_type_float_string_and_inf_is_measure(self):
self.check_expected_column_type(["1.1", "10.0", inf],
ColumnType.measure)
def test_column_type_float_and_negative_inf_is_measure(self):
self.check_expected_column_type([1.1, 10, -inf], ColumnType.measure)
def test_column_type_float_string_and_negative_inf_is_measure(self):
self.check_expected_column_type(["1.1", "10.0", -inf],
ColumnType.measure)
def test_column_type_floats_and_text_is_text(self):
self.check_expected_column_type([1.1, 2.234, "1,2,3"], ColumnType.text)
def test_column_type_comma_decimal_is_text(self):
self.check_expected_column_type(["1,2"], ColumnType.text)
def test_format_value_two_significant_figures(self):
self.measure_column_two_sig_figures = Column("CpuTime", None, 2, None, self.measure_type, None, None, 1)
formatted_value_decimals_cut = self.measure_column_two_sig_figures.format_value("9.99999", *self.default_optionals)
self.assertEqual(formatted_value_decimals_cut, "10")
def test_format_value_scale_values_up(self):
scaling_column_bigger = Column("memUsed", None, None, None,
self.measure_type, "kB", None, "1000")
formatted_value_scaled = scaling_column_bigger.format_value(
"12.3", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12300")
def test_format_value_scale_values_down(self):
scaling_column_smaller = Column("memUsed", None, None, None,
self.measure_type, None, '0.0000001')
formatted_value_scaled = scaling_column_smaller.format_value(
"123456789", *self.default_optionals)
self.assertEqual(formatted_value_scaled, "12.3")
