import pytest from pint import DimensionalityError from pint.testsuite import QuantityTestCase, helpers @helpers.requires_not_uncertainties() class TestNotMeasurement(QuantityTestCase): def test_instantiate(self): M_ = self.ureg.Measurement with pytest.raises(RuntimeError): M_(4.0, 0.1, "s") @helpers.requires_uncertainties() class TestMeasurement(QuantityTestCase): def test_simple(self): M_ = self.ureg.Measurement M_(4.0, 0.1, "s") def test_build(self): M_ = self.ureg.Measurement v, u = self.Q_(4.0, "s"), self.Q_(0.1, "s") M_(v.magnitude, u.magnitude, "s") ms = ( M_(v.magnitude, u.magnitude, "s"), M_(v, u.magnitude), M_(v, u), v.plus_minus(0.1), v.plus_minus(0.025, True), v.plus_minus(u), ) for m in ms: assert m.value == v assert m.error == u assert m.rel == m.error / abs(m.value) def test_format(self, subtests): v, u = self.Q_(4.0, "s ** 2"), self.Q_(0.1, "s ** 2") m = self.ureg.Measurement(v, u) for spec, result in ( ("{}", "(4.00 +/- 0.10) second ** 2"), ("{!r}", ""), ("{:P}", "(4.00 ± 0.10) second²"), ("{:L}", r"\left(4.00 \pm 0.10\right)\ \mathrm{second}^{2}"), ("{:H}", "(4.00 ± 0.10) second2"), ("{:C}", "(4.00+/-0.10) second**2"), ("{:Lx}", r"\SI{4.00 +- 0.10}{\second\squared}"), ("{:.1f}", "(4.0 +/- 0.1) second ** 2"), ("{:.1fP}", "(4.0 ± 0.1) second²"), ("{:.1fL}", r"\left(4.0 \pm 0.1\right)\ \mathrm{second}^{2}"), ("{:.1fH}", "(4.0 ± 0.1) second2"), ("{:.1fC}", "(4.0+/-0.1) second**2"), ("{:.1fLx}", r"\SI{4.0 +- 0.1}{\second\squared}"), ): with subtests.test(spec): assert spec.format(m) == result def test_format_paru(self, subtests): v, u = self.Q_(0.20, "s ** 2"), self.Q_(0.01, "s ** 2") m = self.ureg.Measurement(v, u) for spec, result in ( ("{:uS}", "0.200(10) second ** 2"), ("{:.3uS}", "0.2000(100) second ** 2"), ("{:.3uSP}", "0.2000(100) second²"), ("{:.3uSL}", r"0.2000\left(100\right)\ \mathrm{second}^{2}"), ("{:.3uSH}", "0.2000(100) second2"), ("{:.3uSC}", "0.2000(100) second**2"), ): with subtests.test(spec): assert spec.format(m) == result def test_format_u(self, subtests): v, u = self.Q_(0.20, "s ** 2"), self.Q_(0.01, "s ** 2") m = self.ureg.Measurement(v, u) for spec, result in ( ("{:.3u}", "(0.2000 +/- 0.0100) second ** 2"), ("{:.3uP}", "(0.2000 ± 0.0100) second²"), ("{:.3uL}", r"\left(0.2000 \pm 0.0100\right)\ \mathrm{second}^{2}"), ("{:.3uH}", "(0.2000 ± 0.0100) second2"), ("{:.3uC}", "(0.2000+/-0.0100) second**2"), ( "{:.3uLx}", r"\SI{0.2000 +- 0.0100}{\second\squared}", ), ("{:.1uLx}", r"\SI{0.20 +- 0.01}{\second\squared}"), ): with subtests.test(spec): assert spec.format(m) == result def test_format_percu(self, subtests): self.test_format_perce(subtests) v, u = self.Q_(0.20, "s ** 2"), self.Q_(0.01, "s ** 2") m = self.ureg.Measurement(v, u) for spec, result in ( ("{:.1u%}", "(20 +/- 1)% second ** 2"), ("{:.1u%P}", "(20 ± 1)% second²"), ("{:.1u%L}", r"\left(20 \pm 1\right) \%\ \mathrm{second}^{2}"), ("{:.1u%H}", "(20 ± 1)% second2"), ("{:.1u%C}", "(20+/-1)% second**2"), ): with subtests.test(spec): assert spec.format(m) == result def test_format_perce(self, subtests): v, u = self.Q_(0.20, "s ** 2"), self.Q_(0.01, "s ** 2") m = self.ureg.Measurement(v, u) for spec, result in ( ("{:.1ue}", "(2.0 +/- 0.1)e-01 second ** 2"), ("{:.1ueP}", "(2.0 ± 0.1)×10⁻¹ second²"), ( "{:.1ueL}", r"\left(2.0 \pm 0.1\right) \times 10^{-1}\ \mathrm{second}^{2}", ), ("{:.1ueH}", "(2.0 ± 0.1)×10-1 second2"), ("{:.1ueC}", "(2.0+/-0.1)e-01 second**2"), ): with subtests.test(spec): assert spec.format(m) == result def test_format_exponential_pos(self, subtests): # Quantities in exponential format come with their own parenthesis, don't wrap # them twice m = self.ureg.Quantity(4e20, "s^2").plus_minus(1e19) for spec, result in ( ("{}", "(4.00 +/- 0.10)e+20 second ** 2"), ("{!r}", ""), ("{:P}", "(4.00 ± 0.10)×10²⁰ second²"), ("{:L}", r"\left(4.00 \pm 0.10\right) \times 10^{20}\ \mathrm{second}^{2}"), ("{:H}", "(4.00 ± 0.10)×1020 second2"), ("{:C}", "(4.00+/-0.10)e+20 second**2"), ("{:Lx}", r"\SI{4.00 +- 0.10 e+20}{\second\squared}"), ): with subtests.test(spec): assert spec.format(m) == result def test_format_exponential_neg(self, subtests): m = self.ureg.Quantity(4e-20, "s^2").plus_minus(1e-21) for spec, result in ( ("{}", "(4.00 +/- 0.10)e-20 second ** 2"), ("{!r}", ""), ("{:P}", "(4.00 ± 0.10)×10⁻²⁰ second²"), ( "{:L}", r"\left(4.00 \pm 0.10\right) \times 10^{-20}\ \mathrm{second}^{2}", ), ("{:H}", "(4.00 ± 0.10)×10-20 second2"), ("{:C}", "(4.00+/-0.10)e-20 second**2"), ("{:Lx}", r"\SI{4.00 +- 0.10 e-20}{\second\squared}"), ): with subtests.test(spec): assert spec.format(m) == result def test_raise_build(self): v, u = self.Q_(1.0, "s"), self.Q_(0.1, "s") o = self.Q_(0.1, "m") M_ = self.ureg.Measurement with pytest.raises(DimensionalityError): M_(v, o) with pytest.raises(DimensionalityError): v.plus_minus(o) with pytest.raises(ValueError): v.plus_minus(u, relative=True) def test_propagate_linear(self): v1, u1 = self.Q_(8.0, "s"), self.Q_(0.7, "s") v2, u2 = self.Q_(5.0, "s"), self.Q_(0.6, "s") v2, u3 = self.Q_(-5.0, "s"), self.Q_(0.6, "s") m1 = v1.plus_minus(u1) m2 = v2.plus_minus(u2) m3 = v2.plus_minus(u3) for factor, m in zip((3, -3, 3, -3), (m1, m3, m1, m3)): r = factor * m helpers.assert_quantity_almost_equal( r.value.magnitude, factor * m.value.magnitude ) helpers.assert_quantity_almost_equal( r.error.magnitude, abs(factor * m.error.magnitude) ) assert r.value.units == m.value.units for ml, mr in zip((m1, m1, m1, m3), (m1, m2, m3, m3)): r = ml + mr helpers.assert_quantity_almost_equal( r.value.magnitude, ml.value.magnitude + mr.value.magnitude ) helpers.assert_quantity_almost_equal( r.error.magnitude, ( ml.error.magnitude + mr.error.magnitude if ml is mr else (ml.error.magnitude ** 2 + mr.error.magnitude ** 2) ** 0.5 ), ) assert r.value.units == ml.value.units for ml, mr in zip((m1, m1, m1, m3), (m1, m2, m3, m3)): r = ml - mr helpers.assert_quantity_almost_equal( r.value.magnitude, ml.value.magnitude - mr.value.magnitude ) helpers.assert_quantity_almost_equal( r.error.magnitude, 0 if ml is mr else (ml.error.magnitude ** 2 + mr.error.magnitude ** 2) ** 0.5, ) assert r.value.units == ml.value.units def test_propagate_product(self): v1, u1 = self.Q_(8.0, "s"), self.Q_(0.7, "s") v2, u2 = self.Q_(5.0, "s"), self.Q_(0.6, "s") v2, u3 = self.Q_(-5.0, "s"), self.Q_(0.6, "s") m1 = v1.plus_minus(u1) m2 = v2.plus_minus(u2) m3 = v2.plus_minus(u3) m4 = (2.3 * self.ureg.meter).plus_minus(0.1) m5 = (1.4 * self.ureg.meter).plus_minus(0.2) for ml, mr in zip((m1, m1, m1, m3, m4), (m1, m2, m3, m3, m5)): r = ml * mr helpers.assert_quantity_almost_equal( r.value.magnitude, ml.value.magnitude * mr.value.magnitude ) assert r.value.units == ml.value.units * mr.value.units for ml, mr in zip((m1, m1, m1, m3, m4), (m1, m2, m3, m3, m5)): r = ml / mr helpers.assert_quantity_almost_equal( r.value.magnitude, ml.value.magnitude / mr.value.magnitude ) assert r.value.units == ml.value.units / mr.value.units def test_measurement_comparison(self): x = self.Q_(4.2, "meter") y = self.Q_(5.0, "meter").plus_minus(0.1) assert x <= y assert not (x >= y)