194 lines
8.6 KiB
Python
194 lines
8.6 KiB
Python
# -*- coding: utf-8 -*-
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#***************************************************************************
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#* Copyright (c) 2010 Juergen Riegel <juergen.riegel@web.de> *
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#* *
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#* This file is part of the FreeCAD CAx development system. *
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#* *
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#* This program is free software; you can redistribute it and/or modify *
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#* it under the terms of the GNU Lesser General Public License (LGPL) *
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#* as published by the Free Software Foundation; either version 2 of *
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#* the License, or (at your option) any later version. *
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#* for detail see the LICENCE text file. *
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#* *
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#* FreeCAD is distributed in the hope that it will be useful, *
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#* but WITHOUT ANY WARRANTY; without even the implied warranty of *
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#* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
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#* GNU Library General Public License for more details. *
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#* *
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#* You should have received a copy of the GNU Library General Public *
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#* License along with FreeCAD; if not, write to the Free Software *
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#* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 *
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#* USA *
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#* *
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#***************************************************************************/
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import FreeCAD
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import unittest
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import math
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def tu(str):
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return FreeCAD.Units.Quantity(str).Value
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def ts(q):
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return q.UserString
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def ts2(q):
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return FreeCAD.Units.Quantity(q.UserString).UserString
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#---------------------------------------------------------------------------
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# define the functions to test the FreeCAD UnitApi code
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#---------------------------------------------------------------------------
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def compare(x, y):
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return math.fabs(x - y) < 0.00001
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class UnitBasicCases(unittest.TestCase):
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def setUp(self):
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par = FreeCAD.ParamGet("User parameter:BaseApp/Preferences/Units")
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dec = par.GetInt("Decimals")
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self.delta = math.pow(10,-dec)
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def testConversions(self):
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#tu = FreeCAD.Units.translateUnit
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self.assertTrue(compare(tu('10 m'), 10000.0))
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self.assertTrue(compare(tu('3/8 in'), 9.525))
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self.assertTrue(compare(tu('100 km/h'), 27777.77777777))
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self.assertTrue(compare(tu('m^2*kg*s^-3*A^-2'), 1000000.0))
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self.assertTrue(compare(tu('(m^2*kg)/(A^2*s^3)'), 1000000.0))
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self.assertTrue(compare(tu('2*pi rad'), 360.0))
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self.assertTrue(compare(tu('2*pi rad') / tu('gon'), 400.0))
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self.assertTrue(compare(tu('999 kg') / tu('1 m^3'), 0.000009999))
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def testImperial(self):
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#tu = FreeCAD.Units.translateUnit
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self.assertTrue(compare(tu('3/8in'), 9.525))
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#self.assertTrue(compare(tu('1fo(3+7/16)in'),392.112500))thisgivesaparsersyntaxerror!!!
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self.assertTrue(compare(tu('1\'(3+7/16)"'), 392.112500))
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psi = FreeCAD.Units.parseQuantity("1psi")
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mpa = psi.getValueAs("MPa").Value
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self.assertAlmostEqual(0.006894744825, mpa, delta=self.delta)
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kpa = psi.getValueAs("kPa").Value
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self.assertAlmostEqual(6.894744825494, kpa, delta=self.delta)
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ksi = FreeCAD.Units.parseQuantity("1ksi")
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mpa = ksi.getValueAs("MPa").Value
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self.assertAlmostEqual(6.894744825494, mpa, delta=self.delta)
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kpa = ksi.getValueAs("kPa").Value
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self.assertAlmostEqual(6894.744825494, kpa, delta=self.delta)
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def testSelfConsistency(self):
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qu = FreeCAD.Units.Quantity("0.23 W/m/K")
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self.assertTrue(ts(qu), ts2(qu))
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qu = FreeCAD.Units.Quantity("237 mm*kg/(s^3*K)")
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self.assertTrue(ts(qu), ts2(qu))
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qu = FreeCAD.Units.Quantity("237.000 W/mm/K")
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self.assertTrue(ts(qu), ts2(qu))
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def testDivide(self):
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qu1 = FreeCAD.Units.Quantity("1 m/s")
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qu2 = FreeCAD.Units.Quantity("m/s")
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self.assertTrue(qu1/qu2, 1)
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def testSchemes(self):
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schemes = FreeCAD.Units.listSchemas()
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num = len(schemes)
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psi = FreeCAD.Units.parseQuantity("1psi")
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for i in range(num):
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t = FreeCAD.Units.schemaTranslate(psi, i)
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v = FreeCAD.Units.parseQuantity(t[0]).getValueAs("psi")
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self.assertAlmostEqual(1, v.Value, msg="Failed with \"{0}\" scheme: {1} != 1 (delta: {2})".format(schemes[i], v.Value, self.delta), delta=self.delta)
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ksi = FreeCAD.Units.parseQuantity("1ksi")
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for i in range(num):
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t = FreeCAD.Units.schemaTranslate(ksi, i)
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v = FreeCAD.Units.parseQuantity(t[0]).getValueAs("ksi")
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self.assertAlmostEqual(1, v.Value, msg="Failed with \"{0}\" scheme: {1} != 1 (delta: {2})".format(schemes[i], v.Value, self.delta), delta=self.delta)
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vacuum_permittivity = FreeCAD.Units.parseQuantity("1F/m")
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vacuum_permittivity.Format = {"NumberFormat" : FreeCAD.Units.NumberFormat.Scientific}
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for i in range(num):
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t = FreeCAD.Units.schemaTranslate(vacuum_permittivity, i)
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v = FreeCAD.Units.parseQuantity(t[0]).getValueAs("F/m")
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self.assertAlmostEqual(1, v.Value, msg="Failed with \"{0}\" scheme: {1} != 1 (delta: {2})".format(schemes[i], v.Value, self.delta), delta=self.delta)
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def testSchemeTranslation(self):
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quantities = []
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for i in dir(FreeCAD.Units):
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if issubclass(type(getattr(FreeCAD.Units, i)), FreeCAD.Units.Quantity):
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quantities.append(i)
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schemes = FreeCAD.Units.listSchemas()
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for i in quantities:
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q1 = getattr(FreeCAD.Units, i)
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q1 = FreeCAD.Units.Quantity(q1)
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q1.Format = {'Precision': 16}
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for idx, val in enumerate(schemes):
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[t, amountPerUnit, unit] = FreeCAD.Units.schemaTranslate(q1, idx)
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try:
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q2 = FreeCAD.Units.Quantity(t)
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if math.fabs(q1.Value - q2.Value) > 0.01:
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print (" {} : {} : {} : {} : {}".format(q1, q2, t, i, val).encode("utf-8").strip())
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except Exception as e:
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print ("{} : {} : {} : {}".format(q1, i, val, e).encode("utf-8").strip())
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def testVoltage(self):
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q1 = FreeCAD.Units.Quantity("1e20 V")
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t = FreeCAD.Units.schemaTranslate(q1, 0) # Standard
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q2 = FreeCAD.Units.Quantity(t[0])
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self.assertAlmostEqual(q1.Value, q2.Value, delta=self.delta)
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def testEnergy(self):
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q1 = FreeCAD.Units.Quantity("1e20 J")
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t = FreeCAD.Units.schemaTranslate(q1, 0) # Standard
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q2 = FreeCAD.Units.Quantity(t[0])
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self.assertAlmostEqual(q1.Value, q2.Value, delta=self.delta)
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def testTrigonometric(self):
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#tu=FreeCAD.Units.translateUnit
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self.assertTrue(compare(tu('sin(pi)'), math.sin(math.pi)))
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self.assertTrue(compare(tu('cos(pi)'), math.cos(math.pi)))
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self.assertTrue(compare(tu('tan(pi)'), math.tan(math.pi)))
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def testQuantity(self):
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length = FreeCAD.Units.Quantity(1, "m")
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self.assertEqual(length.Value, 1000)
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self.assertEqual(length.Unit, FreeCAD.Units.Length)
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def testToString(self):
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value = FreeCAD.Units.toNumber(1023, 'g', 2)
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self.assertEqual(float(value), 1000)
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value = FreeCAD.Units.toNumber(1023, 'g', 3)
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self.assertEqual(float(value), 1020)
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value = FreeCAD.Units.toNumber(1023, 'f', 2)
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self.assertEqual(float(value), 1023)
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value = FreeCAD.Units.toNumber(1023, 'e', 1)
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self.assertEqual(float(value), 1000)
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value = FreeCAD.Units.toNumber(1023, 'e', 2)
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self.assertEqual(float(value), 1020)
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value = FreeCAD.Units.toNumber(1023, 'e', 3)
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self.assertEqual(float(value), 1023)
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q = FreeCAD.Units.Quantity("1023")
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value = FreeCAD.Units.toNumber(q, 'f', 2)
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self.assertEqual(float(value), 1023)
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with self.assertRaises(TypeError):
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FreeCAD.Units.toNumber("1023", 'g', 2)
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with self.assertRaises(ValueError):
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FreeCAD.Units.toNumber(1023, 'gg', 2)
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with self.assertRaises(ValueError):
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FreeCAD.Units.toNumber(1023, 's', 2)
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def testIssue6735(self):
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FreeCAD.Units.Quantity("1400.0 N/mm^2")
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