コード例 #1
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def test_divisions_errors():
    """Check divisions exceptions."""
    with pytest.raises(NotImplementedError) as excinfo:
        Number(6, unit=Unit('cm', exponent=Number(2))) \
            / Number(6, unit=Unit('dm', exponent=Number(3)))
    assert str(excinfo.value) == 'Cannot yet handle a ' \
                                 'division of Number(\'6 cm^2\') ' \
                                 'by Number(\'6 dm^3\').'
コード例 #2
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def test_printing():
    """Check printing."""
    assert Unit('cm', exponent=2).uiprinted == 'cm^2'
    assert Unit('cm', exponent=2).printed == r'\si{cm^{2}}'
    assert str(Unit('cm')) == 'cm'
    assert str(Unit('cm', exponent=2)) == 'cm^2'
    required.package['eurosym'] = False
    Unit(r'\officialeuro').printed
    assert required.package['eurosym']
コード例 #3
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def test_Number_instanciation():
    """Check Number instanciations."""
    assert Number(Number(4)).unit is None
    assert Number(Number(4, unit='cm')).unit == Unit('cm')
    assert Number(Number(4), unit='cm').unit == Unit('cm')
    assert Number(Number(4, unit='dm'), unit='cm').unit == Unit('cm')
    assert Number(4, unit='cm').unit == Unit('cm')
    assert Number(Number(4, unit='dm'), unit=None).unit is None
    assert Number(Number(4, unit='dm'), unit='undefined').unit == Unit('dm')
コード例 #4
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def test_physical_quantity():
    """Check physical_quantity()"""
    assert physical_quantity('mm') == 'length'
    assert physical_quantity('hL') == 'capacity'
    assert physical_quantity('pg') == 'mass'
    assert physical_quantity(Unit('pg')) == 'mass'
    assert physical_quantity(Unit('mm', exponent=2)) == 'area'
    assert physical_quantity(Unit('mm', exponent=3)) == 'volume'
    assert physical_quantity('undefined') is None
    assert physical_quantity(r'\officialeuro') == 'currency'
    assert physical_quantity(r'\textdegree') == 'angle'
コード例 #5
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def test_multiplications_errors():
    """Check subtractions exceptions."""
    with pytest.raises(TypeError) as excinfo:
        8 * Sign('-')
    assert str(excinfo.value) == 'Cannot multiply a Sign by a <class \'int\'>.'

    with pytest.raises(NotImplementedError) as excinfo:
        Number(6, unit=Unit('cm', exponent=Number(2))) \
            * Number(6, unit=Unit('dm', exponent=Number(3)))
    assert str(excinfo.value) == 'Cannot yet handle a ' \
                                 'multiplication of Number(\'6 cm^2\') ' \
                                 'by Number(\'6 dm^3\').'
コード例 #6
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def test_printing():
    """Check printing is correct."""
    assert Number('8.6').printed == '8.6'
    assert Number('8.60').printed == '8.60'
    locale.setlocale(locale.LC_ALL, LOCALE_FR)
    assert locale.str(Decimal('8.6')) == '8,6'
    assert Number('8.6').printed == '8,6'
    assert Number('8.6').uiprinted == '8.6'
    assert Number('8.6').printed == '8,6'
    assert Number('8.6', unit='cm').printed == r'\SI{8,6}{cm}'
    locale.setlocale(locale.LC_ALL, LOCALE_US)
    assert Number('8.6').imprint(start_expr=False) == '+8.6'
    required.package['siunitx'] = False
    n = Number('9', unit='cm')
    assert n.printed == r'\SI{9}{cm}'
    assert required.package['siunitx']
    assert n.uiprinted == '9 cm'
    assert str(n) == '9 cm'
    n = Number('9')
    assert str(n) == '9'
    assert Number(60, unit=Unit('cm', exponent=Number(2))).uiprinted \
        == '60 cm^2'
    assert Number('3.6', unit='mL').quantize(Number('0.01')).printed \
        == r'\SI{3.60}{mL}'
    required.package['eurosym'] = False
    assert Number('0.70', unit=r'\officialeuro').quantize(Number('0.01'))\
        .printed == r'\SI{0.70}{\officialeuro}'
    assert required.package['eurosym']
    n = Number('38', unit=r'\textdegree')
    assert n.printed == r'\ang{38}'
コード例 #7
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def test_AngleDecoration():
    assert repr(AngleDecoration()) == 'AngleDecoration(variety=single; '\
        'hatchmark=None; label=default; color=None; thickness=thick; '\
        'radius=0.25 cm; eccentricity=2.6)'
    ad = AngleDecoration(radius=Number(1, unit='cm'))
    assert ad.arrow_tips is None
    assert repr(ad) == \
        'AngleDecoration(variety=single; '\
        'hatchmark=None; label=default; color=None; thickness=thick; '\
        'radius=1 cm; eccentricity=1.4)'
    ad.radius = Number(2, unit='cm')
    assert repr(ad) == \
        'AngleDecoration(variety=single; '\
        'hatchmark=None; label=default; color=None; thickness=thick; '\
        'radius=2 cm; eccentricity=1.2)'
    assert AngleDecoration().tikz_attributes() \
        == '[draw, thick, angle radius = 0.25 cm]'
    assert AngleDecoration(color='green', thickness='thin').tikz_attributes() \
        == '[draw, thin, angle radius = 0.25 cm, green]'
    assert AngleDecoration(radius=Number('0.5', unit=Unit('cm'))) \
        .tikz_attributes() == '[draw, thick, angle radius = 0.5 cm]'
    with pytest.raises(ValueError) as excinfo:
        AngleDecoration(radius=Number(2, unit='cm'), gap=None)
    assert str(excinfo.value) == 'Cannot calculate the eccentricity if gap '\
        'is None.'
    with pytest.raises(TypeError) as excinfo:
        AngleDecoration(radius='2 cm')
    assert str(excinfo.value) == 'Expected a number as radius. Got ' \
        '<class \'str\'> instead.'
    with pytest.raises(TypeError) as excinfo:
        AngleDecoration(gap='2 cm')
    assert str(excinfo.value) == 'The gap value must be None or a number. '\
        'Found \'2 cm\' instead (type: <class \'str\'>).'
    with pytest.raises(TypeError) as excinfo:
        AngleDecoration().tikz_attributes(radius_coeff='a')
    assert str(excinfo.value) == 'radius_coeff must be a number, '\
        'found <class \'str\'> instead.'
    with pytest.raises(TypeError) as excinfo:
        AngleDecoration(hatchmark='unknown')
    assert str(excinfo.value) == 'AngleDecoration\'s hatchmark can be None, '\
        '\'singledash\', \'doubledash\' or \'tripledash\'. ' \
        'Found \'unknown\' instead (type: <class \'str\'>).'
    with pytest.raises(TypeError) as excinfo:
        AngleDecoration(eccentricity='a')
    assert str(excinfo.value) == 'The eccentricity of an AngleDecoration '\
        'must be None or a Number. Found <class \'str\'> instead.'
    with pytest.raises(RuntimeError) as excinfo:
        AngleDecoration().generate_tikz('A', 'B')
    assert str(excinfo.value) == 'Three Points\' names must be provided to '\
        'generate the AngleDecoration. Found 2 arguments instead.'
    with pytest.raises(TypeError) as excinfo:
        AngleDecoration(do_draw='a')
    assert str(excinfo.value) == 'do_draw must be a boolean; '\
        'got <class \'str\'> instead.'
コード例 #8
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def test_multiplications():
    """Check __mul__, __rmul__, __imul__."""
    assert isinstance(Number(4) * Number(4), Number)
    assert isinstance(4 * Number(4), Number)
    assert isinstance(Number(4) * 4, Number)
    n = Number(4)
    n *= Number(4)
    n *= 4
    n = Number(6)
    p = Number(7)
    assert n * p == Number(42)
    assert (n * p).printed == '42'
    assert isinstance(n, Number)
    n = Number(6, unit='cm')
    p = Number(7)
    assert n * p == Number(42, unit='cm')
    n = Number(6)
    p = Number(7, unit='cm')
    assert n * p == Number(42, unit='cm')
    n = Number(6, unit='cm')
    p = Number(7, unit='cm')
    assert n * p == Number(42, unit=Unit('cm', exponent=Number(2)))
    n = Number(6, unit='cm')
    p = Number(7, unit=Unit('cm', exponent=Number(2)))
    assert n * p == Number(42, unit=Unit('cm', exponent=Number(3)))
    n = Number(6, unit=Unit('cm', exponent=Number(2)))
    p = Number(7, unit='cm')
    assert n * p == Number(42, unit=Unit('cm', exponent=Number(3)))
    n = Number(6, unit='W')
    p = Number(7, unit='h')
    assert n * p == Number(42, unit=Unit('W.h'))
    n = Number(6, unit='cm')
    p = Number(7, unit=Unit('h', exponent=Number(2)))
    assert n * p == Number(42, unit=Unit('cm.h', exponent=Number(2)))
    assert (n * p).printed == r'\SI{42}{cm.h^{2}}'
    n = Number(6, unit=Unit('cm', exponent=Number(2)))
    p = Number(7, unit='h')
    assert n * p == Number(42, unit=Unit('h.cm', exponent=Number(2)))
コード例 #9
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def test_sides_labeling():
    """Check Rectangle's sides' labeling."""
    r = Rectangle(name='TIDY', width=2, length=3)
    with pytest.raises(ValueError) as excinfo:
        r.lbl_area
    assert str(excinfo.value) == 'No width has been set as a Number.'
    r.setup_labels([Number(4, unit='cm'), '15 cm'])
    with pytest.raises(ValueError) as excinfo:
        r.lbl_length
    assert str(excinfo.value) == 'No length has been set as a Number.'
    with pytest.raises(ValueError) as excinfo:
        r.lbl_area
    assert str(excinfo.value) == 'No length has been set as a Number.'
    r.setup_labels([Number(4, unit='cm'), Number(15, unit='cm')])
    assert r.lbl_width.uiprinted == '4 cm'
    assert r.lbl_length.uiprinted == '15 cm'
    assert r.lbl_area == Number(60, unit=Unit('cm', exponent=Number(2)))
    assert r.lbl_area.uiprinted == '60 cm^2'
    assert [s.label_mask for s in r.sides] == [' ', None, None, ' ']
    for s in r.sides:
        s.unlock_label()
    r.sides[3].label = Number(5, unit='cm')
    with pytest.raises(ValueError) as excinfo:
        r.lbl_area
    assert str(excinfo.value) == 'Two different labels have been set '\
        'for the width: Number(\'4 cm\') and Number(\'5 cm\').'
    r.sides[3].label = Number(4, unit='cm')
    r.sides[2].label = Number(12, unit='cm')
    with pytest.raises(ValueError) as excinfo:
        r.lbl_area
    assert str(excinfo.value) == 'Two different labels have been set '\
        'for the length: Number(\'15 cm\') and Number(\'12 cm\').'
    r.sides[0].label = 'undefined'
    r.sides[1].label = 'undefined'
    assert r.lbl_area.uiprinted == '48 cm^2'
    r.sides[0].label = Number(3, unit='cm')
    r.sides[1].label = Number(17, unit='cm')
    r.sides[2].label = 'undefined'
    r.sides[3].label = 'undefined'
    assert r.lbl_area.uiprinted == '51 cm^2'
コード例 #10
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def test_divisions():
    """Check __truediv__, __floordiv__, __mod__, __divmod__ + their __r*__."""
    assert isinstance(Number(4) / Number(4), Number)
    assert isinstance(4 / Number(4), Number)
    assert isinstance(Number(4) / 4, Number)
    assert isinstance(Number(4) // Number(4), Number)
    assert isinstance(4 // Number(4), Number)
    assert isinstance(Number(4) // 4, Number)
    assert isinstance(Number(4) % Number(4), Number)
    assert isinstance(4 % Number(4), Number)
    assert isinstance(Number(4) % 4, Number)
    assert divmod(Number(42), Number(15)) == (Number('2'), Number('12'))
    assert isinstance(divmod(Number(42), Number(15))[0], Number)
    assert isinstance(divmod(Number(42), Number(15))[1], Number)
    assert divmod(42, Number(15)) == (Number('2'), Number('12'))
    assert isinstance(divmod(42, Number(15))[0], Number)
    assert isinstance(divmod(42, Number(15))[1], Number)
    assert divmod(Number(42), 15) == (Number('2'), Number('12'))
    assert isinstance(divmod(Number(42), 15)[0], Number)
    assert isinstance(divmod(Number(42), 15)[1], Number)
    n = Number(4)
    assert isinstance(n, Number)
    n /= Number(4)
    assert isinstance(n, Number)
    n = Number(256)
    n //= Number(4)
    assert isinstance(n, Number)
    n = Number(256)
    n %= Number(3)
    assert isinstance(n, Number)
    n = Number(4)
    n /= 4
    assert isinstance(n, Number)
    n = Number(256)
    n //= 4
    assert isinstance(n, Number)
    n = Number(256)
    n %= 3
    assert isinstance(n, Number)
    assert Number(4) / Sign('-') == -4
    assert Sign('-') / Number(4) == Number('-0.25')
    assert Number(4) // Sign('-') == -4
    assert Sign('-') // Number(4) == Number('0')
    n = Number(7, unit='cm')
    p = Number(4)
    assert n / p == Number('1.75', unit='cm')
    n = Number(7)
    p = Number(4, unit='cm')
    assert n / p == Number('1.75', unit=Unit('cm', exponent=Number(-1)))
    n = Number(7, unit='cm')
    p = Number(4, unit='cm')
    assert n / p == Number('1.75')
    n = Number(7, unit='km')
    p = Number(4, unit='h')
    assert n / p == Number('1.75', unit='km/h')
    n = Number(7, unit=Unit('cm', exponent=Number(2)))
    p = Number(4, unit='cm')
    assert n / p == Number('1.75', unit='cm')
    n = Number(7, unit='cm')
    p = Number(4, unit=Unit('cm', exponent=Number(2)))
    assert n / p == Number('1.75', unit=Unit('cm', exponent=Number(-1)))
    n = 7
    p = Number(4, unit=Unit('cm', exponent=Number(2)))
    assert n / p == Number('1.75', unit=Unit('cm', exponent=Number(-2)))
    n = Number(7, unit='cm')
    p = 4
    assert n / p == Number('1.75', unit='cm')
    n = 7
    p = Number(4, unit='cm')
    assert n / p == Number('1.75', unit=Unit('cm', exponent=Number(-1)))
コード例 #11
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def test_convert_mL_to_dm3():
    """Check conversions between volume units."""
    i = Number(6, unit='mL')
    j = i.converted_to(Unit('dm', exponent=3))
    assert j == Number(0.006, unit=Unit('dm', exponent=3))
コード例 #12
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def test_Unit():
    """Check the Unit class."""
    assert Unit('cm').printed == r'\si{cm}'
    assert Unit('cm', exponent=Number(2)).printed == r'\si{cm^{2}}'
    u = Unit('cm')
    assert Unit(u).printed == r'\si{cm}'
    assert Unit(u, exponent=2).printed == r'\si{cm^{2}}'
    assert Unit(u, exponent=Number(3)).printed == r'\si{cm^{3}}'
    u = Unit('cm', exponent=2)
    assert Unit(u).printed == r'\si{cm^{2}}'
    v = Unit('cm', exponent=2)
    assert u == v
    w = Unit(v, exponent=3)
    assert v != w
    w = Unit(v, exponent=2)
    assert v == w
    assert u != 6
コード例 #13
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def test_Unit_errors():
    """Check the Unit class exceptions."""
    with pytest.raises(TypeError) as excinfo:
        Unit(6)
    assert str(excinfo.value) == 'content must be a str or a Unit. ' \
        'Got <class \'int\'> instead.'
コード例 #14
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def test_repr():
    """Check __repr__."""
    assert repr(Unit('cm')) == 'Unit(\'cm\')'
    assert repr(Unit('cm', exponent=2)) == 'Unit(\'cm\'^Number(\'2\'))'
コード例 #15
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def test_convert_area_to_greater_unit():
    """Check conversions between area units."""
    i = Number(6, unit=Unit('dm', exponent=2))
    j = i.converted_to(Unit('m', exponent=2))
    assert j == Number(0.06, unit=Unit('m', exponent=2))
コード例 #16
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def test_convert_volume_to_geater_unit():
    """Check conversions between volume units."""
    i = Number(6, unit=Unit('dm', exponent=3))
    j = i.converted_to(Unit('m', exponent=3))
    assert j == Number(0.006, unit=Unit('m', exponent=3))
コード例 #17
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def test_convert_dL_to_cm3():
    """Check conversions between volume units."""
    i = Number(6, unit='dL')
    j = i.converted_to(Unit('cm', exponent=3))
    assert j == Number(600, unit=Unit('cm', exponent=3))
コード例 #18
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def test_convert_dm3_to_mL():
    """Check conversions between volume units."""
    i = Number(6, unit=Unit('dm', exponent=3))
    j = i.converted_to('mL')
    assert j == Number(6000, unit='mL')