class TestRecipeOrganizer(unittest.TestCase):
def setUp(self):
self.m = RecipeOrganizer("test")
# Add a managed container so we can do more in-depth tests.
self.m._containers = {}
self.m._manage(self.m._containers)
return
def testNewParameter(self):
"""Test the addParameter method."""
m = self.m
p1 = Parameter("p1", 1)
m._addParameter(p1)
# Test duplication of Parameters
self.assertRaises(ValueError, m._newParameter, "p1", 0)
# Add a new Parameter
p2 = m._newParameter("p2", 0)
self.assertTrue(p2 is m.p2)
return
def testAddParameter(self):
"""Test the addParameter method."""
m = self.m
p1 = Parameter("p1", 1)
p2 = Parameter("p1", 2)
# Check normal insert
m._addParameter(p1)
self.assertTrue(m.p1 is p1)
self.assertTrue(p1.name in m._eqfactory.builders)
# Try to insert another parameter with the same name
self.assertRaises(ValueError, m._addParameter, p2)
# Now allow this
m._addParameter(p2, check=False)
self.assertTrue(m.p1 is p2)
self.assertTrue(p1.name in m._eqfactory.builders)
# Try to insert a Parameter when a RecipeContainer with the same name
# is already inside.
c = RecipeContainer("test")
m._addObject(c, m._containers)
p3 = Parameter("test", 0)
self.assertRaises(ValueError, m._addParameter, p3)
p4 = Parameter("xyz", 0)
m._addParameter(p4)
# Check order
self.assertEquals(m._parameters.keys(), ["p1", "xyz"])
self.assertEquals(m._parameters.values(), [p2, p4])
return
def testRemoveParameter(self):
"""Test removeParameter method."""
m = self.m
p1 = Parameter("p1", 1)
p2 = Parameter("p1", 2)
m._addParameter(p1)
# Check for bad remove
self.assertRaises(ValueError, m._removeParameter, p2)
# Remove p1
m._removeParameter(p1)
self.assertTrue(p1.name not in m._eqfactory.builders)
# Try to remove it again
self.assertRaises(ValueError, m._removeParameter, p1)
# Try to remove a RecipeContainer
c = RecipeContainer("test")
self.assertRaises(ValueError, m._removeParameter, c)
return
def testConstrain(self):
"""Test the constrain method."""
p1 = self.m._newParameter("p1", 1)
p2 = self.m._newParameter("p2", 2)
p3 = Parameter("p3", 3)
self.assertFalse(p1.constrained)
self.assertEquals(0, len(self.m._constraints))
self.m.constrain(p1, "2*p2")
self.assertTrue(p1.constrained)
self.assertTrue(p1 in self.m._constraints)
self.assertEquals(1, len(self.m._constraints))
self.assertTrue(self.m.isConstrained(p1))
p2.setValue(10)
self.m._constraints[p1].update()
self.assertEquals(20, p1.getValue())
# Check errors on unregistered parameters
self.assertRaises(ValueError, self.m.constrain, p1, "2*p3")
self.assertRaises(ValueError, self.m.constrain, p1, "2*p2", {"p2":p3})
# Remove the constraint
self.m.unconstrain(p1)
self.assertFalse(p1.constrained)
self.assertEquals(0, len(self.m._constraints))
self.assertFalse(self.m.isConstrained(p1))
# Try an straight constraint
self.m.constrain(p1, p2)
p2.setValue(7)
self.m._constraints[p1].update()
self.assertEquals(7, p1.getValue())
return
def testRestrain(self):
"""Test the restrain method."""
p1 = Parameter("p1", 1)
p2 = Parameter("p2", 2)
p3 = Parameter("p3", 3)
self.m._eqfactory.registerArgument("p1", p1)
self.m._eqfactory.registerArgument("p2", p2)
self.assertEquals(0, len(self.m._restraints))
r = self.m.restrain("p1+p2", ub = 10)
self.assertEquals(1, len(self.m._restraints))
p2.setValue(10)
self.assertEquals(1, r.penalty())
self.m.unrestrain(r)
self.assertEquals(0, len(self.m._restraints))
r = self.m.restrain(p1, ub = 10)
self.assertEquals(1, len(self.m._restraints))
p1.setValue(11)
self.assertEquals(1, r.penalty())
# Check errors on unregistered parameters
self.assertRaises(ValueError, self.m.restrain, "2*p3")
self.assertRaises(ValueError, self.m.restrain, "2*p2", ns = {"p2":p3})
return
def testGetConstraints(self):
"""Test the _getConstraints method."""
m2 = RecipeOrganizer("m2")
self.m._organizers = {}
self.m._manage(self.m._organizers)
self.m._addObject(m2, self.m._organizers)
p1 = Parameter("p1", 1)
p2 = Parameter("p2", 2)
p3 = Parameter("p3", 3)
p4 = Parameter("p4", 4)
self.m._addParameter(p1)
self.m._addParameter(p2)
m2._addParameter(p3)
m2._addParameter(p4)
self.m.constrain(p1, "p2")
m2.constrain(p3, "p4")
cons = self.m._getConstraints()
self.assertTrue(p1 in cons)
self.assertTrue(p3 in cons)
self.assertEquals(2, len(cons))
return
def testGetRestraints(self):
"""Test the _getRestraints method."""
m2 = RecipeOrganizer("m2")
self.m._organizers = {}
self.m._manage(self.m._organizers)
self.m._addObject(m2, self.m._organizers)
p1 = Parameter("p1", 1)
p2 = Parameter("p2", 2)
p3 = Parameter("p3", 3)
p4 = Parameter("p4", 4)
self.m._addParameter(p1)
self.m._addParameter(p2)
m2._addParameter(p3)
m2._addParameter(p4)
r1 = self.m.restrain("p1 + p2")
r2 = m2.restrain("2*p3 + p4")
res = self.m._getRestraints()
self.assertTrue(r1 in res)
self.assertTrue(r2 in res)
self.assertEquals(2, len(res))
return
def testRegisterCalculator(self):
class GCalc(Calculator):
def __init__(self, name):
Calculator.__init__(self, name)
self.newParameter("A", 1.0)
self.newParameter("center", 0.0)
self.newParameter("width", 0.1)
return
def __call__(self, x):
A = self.A.getValue()
c = self.center.getValue()
w = self.width.getValue()
return A * numpy.exp(-0.5*((x-c)/w)**2)
# End class GCalc
g = GCalc("g")
self.m.registerCalculator(g)
x = numpy.arange(0.5, 10, 0.5)
self.m.x.setValue(x)
self.m.g.center.setValue(3.0)
self.assertTrue(numpy.array_equal(numpy.exp(-0.5*((x-3.0)/0.1)**2),
g(x)))
self.m.g.center.setValue(5.0)
self.assertTrue(numpy.array_equal(numpy.exp(-0.5*((x-5.0)/0.1)**2),
g(x)))
# Use this in another equation
eq = self.m.registerStringFunction("g/x - 1", "pdf")
self.assertTrue(numpy.array_equal(g(x)/x - 1, eq()))
return
def testRegisterFunction(self):
"""Test registering various functions."""
def g1(A, c, w, x):
return A * numpy.exp(-0.5*((x-c)/w)**2)
def g2(A):
return A+1
eq = self.m.registerFunction(g1, "g")
for p in eq.args:
self.assertTrue(p in self.m._parameters.values())
x = numpy.arange(0.5, 10, 0.5)
self.m.x.setValue(x)
self.m.A.setValue(1.0)
self.m.c.setValue(3.0)
self.m.w.setValue(0.1)
self.assertTrue(numpy.array_equal(numpy.exp(-0.5*((x-3.0)/0.1)**2),
eq()))
# Use this in another equation
eq2 = self.m.registerStringFunction("g/x - 1", "pdf")
self.assertTrue(numpy.array_equal(eq()/x - 1, eq2()))
# Make sure we can swap out "g".
self.m.registerFunction(g2, "g")
self.assertAlmostEquals(2.0, eq())
# Try a bound method
class temp(object):
def eval(self): return 1.23
def __call__(self): return 4.56
t = temp()
eq = self.m.registerFunction(t.eval, "eval")
self.assertAlmostEquals(1.23, eq())
# Now the callable
eq2 = self.m.registerFunction(t, "eval2")
self.assertAlmostEquals(4.56, eq2())
return
def testRegisterStringFunction(self):
"""Test registering string functions in various ways."""
# Make an equation.
eq1 = self.m.registerStringFunction("x**2 + 3", "eq1")
eq1.x.setValue(0)
for p in eq1.args:
self.assertTrue(p in self.m._parameters.values())
# Add a parameter
self.m._newParameter("y", 3.0)
# Make sure that x and y are in the organizer
self.assertEquals(0, self.m.x.getValue())
self.assertEquals(3.0, self.m.y.getValue())
# Use eq1 in some equations
# x**2 (x**2 + 3 - 3)
eq2 = self.m.registerStringFunction("eq1 - 3", "eq2")
# y**2
eq3 = self.m.registerStringFunction("eq1(y) - 3", "eq3")
# Test these equations.
self.assertEquals(0, eq2())
self.assertEquals(9.0, eq3())
# Note that eq3 injects the value of y into the argument of eq1, which
# is x. Thus, calling eq3 sets x to 3.
self.assertEquals(9.0, eq2())
# One more level of embedding
# 2*y**2
eq4 = self.m.registerStringFunction("2*eq3", "eq4")
self.assertEquals(18.0, eq4())
return
class TestRecipeOrganizer(unittest.TestCase):
def setUp(self):
self.m = RecipeOrganizer("test")
# Add a managed container so we can do more in-depth tests.
self.m._containers = {}
self.m._manage(self.m._containers)
return
def tearDown(self):
sys.stdout = sys.__stdout__
return
def testNewParameter(self):
"""Test the addParameter method."""
m = self.m
p1 = Parameter("p1", 1)
m._addParameter(p1)
# Test duplication of Parameters
self.assertRaises(ValueError, m._newParameter, "p1", 0)
# Add a new Parameter
p2 = m._newParameter("p2", 0)
self.assertTrue(p2 is m.p2)
return
def testAddParameter(self):
"""Test the addParameter method."""
m = self.m
p1 = Parameter("p1", 1)
p2 = Parameter("p1", 2)
# Check normal insert
m._addParameter(p1)
self.assertTrue(m.p1 is p1)
self.assertTrue(p1.name in m._eqfactory.builders)
# Try to insert another parameter with the same name
self.assertRaises(ValueError, m._addParameter, p2)
# Now allow this
m._addParameter(p2, check=False)
self.assertTrue(m.p1 is p2)
self.assertTrue(p1.name in m._eqfactory.builders)
# Try to insert a Parameter when a RecipeContainer with the same name
# is already inside.
c = RecipeContainer("test")
m._addObject(c, m._containers)
p3 = Parameter("test", 0)
self.assertRaises(ValueError, m._addParameter, p3)
p4 = Parameter("xyz", 0)
m._addParameter(p4)
# Check order
self.assertEqual(m._parameters.keys(), ["p1", "xyz"])
self.assertEqual(m._parameters.values(), [p2, p4])
return
def testRemoveParameter(self):
"""Test removeParameter method."""
m = self.m
p1 = Parameter("p1", 1)
p2 = Parameter("p1", 2)
m._addParameter(p1)
# Check for bad remove
self.assertRaises(ValueError, m._removeParameter, p2)
# Remove p1
m._removeParameter(p1)
self.assertTrue(p1.name not in m._eqfactory.builders)
# Try to remove it again
self.assertRaises(ValueError, m._removeParameter, p1)
# Try to remove a RecipeContainer
c = RecipeContainer("test")
self.assertRaises(ValueError, m._removeParameter, c)
return
def testConstrain(self):
"""Test the constrain method."""
p1 = self.m._newParameter("p1", 1)
p2 = self.m._newParameter("p2", 2)
p3 = Parameter("p3", 3)
self.assertFalse(p1.constrained)
self.assertEqual(0, len(self.m._constraints))
self.m.constrain(p1, "2*p2")
self.assertTrue(p1.constrained)
self.assertTrue(p1 in self.m._constraints)
self.assertEqual(1, len(self.m._constraints))
self.assertTrue(self.m.isConstrained(p1))
p2.setValue(10)
self.m._constraints[p1].update()
self.assertEqual(20, p1.getValue())
# Check errors on unregistered parameters
self.assertRaises(ValueError, self.m.constrain, p1, "2*p3")
self.assertRaises(ValueError, self.m.constrain, p1, "2*p2", {"p2": p3})
# Remove the constraint
self.m.unconstrain(p1)
self.assertFalse(p1.constrained)
self.assertEqual(0, len(self.m._constraints))
self.assertFalse(self.m.isConstrained(p1))
# Try an straight constraint
self.m.constrain(p1, p2)
p2.setValue(7)
self.m._constraints[p1].update()
self.assertEqual(7, p1.getValue())
return
def testRestrain(self):
"""Test the restrain method."""
p1 = Parameter("p1", 1)
p2 = Parameter("p2", 2)
p3 = Parameter("p3", 3)
self.m._eqfactory.registerArgument("p1", p1)
self.m._eqfactory.registerArgument("p2", p2)
self.assertEqual(0, len(self.m._restraints))
r = self.m.restrain("p1+p2", ub=10)
self.assertEqual(1, len(self.m._restraints))
p2.setValue(10)
self.assertEqual(1, r.penalty())
self.m.unrestrain(r)
self.assertEqual(0, len(self.m._restraints))
r = self.m.restrain(p1, ub=10)
self.assertEqual(1, len(self.m._restraints))
p1.setValue(11)
self.assertEqual(1, r.penalty())
# Check errors on unregistered parameters
self.assertRaises(ValueError, self.m.restrain, "2*p3")
self.assertRaises(ValueError, self.m.restrain, "2*p2", ns={"p2": p3})
return
def testGetConstraints(self):
"""Test the _getConstraints method."""
m2 = RecipeOrganizer("m2")
self.m._organizers = {}
self.m._manage(self.m._organizers)
self.m._addObject(m2, self.m._organizers)
p1 = Parameter("p1", 1)
p2 = Parameter("p2", 2)
p3 = Parameter("p3", 3)
p4 = Parameter("p4", 4)
self.m._addParameter(p1)
self.m._addParameter(p2)
m2._addParameter(p3)
m2._addParameter(p4)
self.m.constrain(p1, "p2")
m2.constrain(p3, "p4")
cons = self.m._getConstraints()
self.assertTrue(p1 in cons)
self.assertTrue(p3 in cons)
self.assertEqual(2, len(cons))
return
def testGetRestraints(self):
"""Test the _getRestraints method."""
m2 = RecipeOrganizer("m2")
self.m._organizers = {}
self.m._manage(self.m._organizers)
self.m._addObject(m2, self.m._organizers)
p1 = Parameter("p1", 1)
p2 = Parameter("p2", 2)
p3 = Parameter("p3", 3)
p4 = Parameter("p4", 4)
self.m._addParameter(p1)
self.m._addParameter(p2)
m2._addParameter(p3)
m2._addParameter(p4)
r1 = self.m.restrain("p1 + p2")
r2 = m2.restrain("2*p3 + p4")
res = self.m._getRestraints()
self.assertTrue(r1 in res)
self.assertTrue(r2 in res)
self.assertEqual(2, len(res))
return
def testRegisterCalculator(self):
class GCalc(Calculator):
def __init__(self, name):
Calculator.__init__(self, name)
self.newParameter("A", 1.0)
self.newParameter("center", 0.0)
self.newParameter("width", 0.1)
return
def __call__(self, x):
A = self.A.getValue()
c = self.center.getValue()
w = self.width.getValue()
return A * numpy.exp(-0.5 * ((x - c) / w)**2)
# End class GCalc
g = GCalc("g")
self.m.registerCalculator(g)
x = numpy.arange(0.5, 10, 0.5)
self.m.x.setValue(x)
self.m.g.center.setValue(3.0)
self.assertTrue(
numpy.array_equal(numpy.exp(-0.5 * ((x - 3.0) / 0.1)**2), g(x)))
self.m.g.center.setValue(5.0)
self.assertTrue(
numpy.array_equal(numpy.exp(-0.5 * ((x - 5.0) / 0.1)**2), g(x)))
# Use this in another equation
eq = self.m.registerStringFunction("g/x - 1", "pdf")
self.assertTrue(numpy.array_equal(g(x) / x - 1, eq()))
return
def testRegisterFunction(self):
"""Test registering various functions."""
def g1(A, c, w, x):
return A * numpy.exp(-0.5 * ((x - c) / w)**2)
def g2(A):
return A + 1
eq = self.m.registerFunction(g1, "g")
for p in eq.args:
self.assertTrue(p in self.m._parameters.values())
x = numpy.arange(0.5, 10, 0.5)
self.m.x.setValue(x)
self.m.A.setValue(1.0)
self.m.c.setValue(3.0)
self.m.w.setValue(0.1)
self.assertTrue(
numpy.array_equal(numpy.exp(-0.5 * ((x - 3.0) / 0.1)**2), eq()))
# Use this in another equation
eq2 = self.m.registerStringFunction("g/x - 1", "pdf")
self.assertTrue(numpy.array_equal(eq() / x - 1, eq2()))
# Make sure we can swap out "g".
self.m.registerFunction(g2, "g")
self.assertAlmostEqual(2.0, eq())
# Try a bound method
class temp(object):
def eval(self):
return 1.23
def __call__(self):
return 4.56
t = temp()
eq = self.m.registerFunction(t.eval, "eval")
self.assertAlmostEqual(1.23, eq())
# Now the callable
eq2 = self.m.registerFunction(t, "eval2")
self.assertAlmostEqual(4.56, eq2())
return
def testRegisterStringFunction(self):
"""Test registering string functions in various ways."""
# Make an equation.
eq1 = self.m.registerStringFunction("x**2 + 3", "eq1")
eq1.x.setValue(0)
for p in eq1.args:
self.assertTrue(p in self.m._parameters.values())
# Add a parameter
self.m._newParameter("y", 3.0)
# Make sure that x and y are in the organizer
self.assertEqual(0, self.m.x.getValue())
self.assertEqual(3.0, self.m.y.getValue())
# Use eq1 in some equations
# x**2 (x**2 + 3 - 3)
eq2 = self.m.registerStringFunction("eq1 - 3", "eq2")
# y**2
eq3 = self.m.registerStringFunction("eq1(y) - 3", "eq3")
# Test these equations.
self.assertEqual(0, eq2())
self.assertEqual(9.0, eq3())
# Note that eq3 injects the value of y into the argument of eq1, which
# is x. Thus, calling eq3 sets x to 3.
self.assertEqual(9.0, eq2())
# One more level of embedding
# 2*y**2
eq4 = self.m.registerStringFunction("2*eq3", "eq4")
self.assertEqual(18.0, eq4())
return
def test_releaseOldEquations(self):
"""Verify EquationFactory does not hold temporary equations.
"""
self.m._newParameter('x', 12)
self.assertEqual(36, self.m.evaluateEquation('3 * x'))
self.assertEqual(0, len(self.m._eqfactory.equations))
return
def test_show(self):
"""Verify output from the show function.
"""
def capture_show(*args, **kwargs):
sys.stdout = cStringIO.StringIO()
self.m.show(*args, **kwargs)
rv = sys.stdout.getvalue()
sys.stdout = sys.__stdout__
return rv
self.assertEqual('', capture_show())
self.m._newParameter('x', 1)
self.m._newParameter('y', 2)
out1 = capture_show()
lines1 = out1.strip().split('\n')
self.assertEqual(4, len(lines1))
self.assertTrue('Parameters' in lines1)
self.assertFalse('Constraints' in lines1)
self.assertFalse('Restraints' in lines1)
self.m._newParameter('z', 7)
self.m.constrain('y', '3 * z')
out2 = capture_show()
lines2 = out2.strip().split('\n')
self.assertEqual(9, len(lines2))
self.assertTrue('Parameters' in lines2)
self.assertTrue('Constraints' in lines2)
self.assertFalse('Restraints' in lines2)
self.m.restrain('z', lb=2, ub=3, sig=0.001)
out3 = capture_show()
lines3 = out3.strip().split('\n')
self.assertEqual(13, len(lines3))
self.assertTrue('Parameters' in lines3)
self.assertTrue('Constraints' in lines3)
self.assertTrue('Restraints' in lines3)
out4 = capture_show(pattern='x')
lines4 = out4.strip().split('\n')
self.assertEqual(9, len(lines4))
out5 = capture_show(pattern='^')
self.assertEqual(out3, out5)
# check output with another level of hierarchy
self.m._addObject(RecipeOrganizer("foo"), self.m._containers)
self.m.foo._newParameter("bar", 13)
out6 = capture_show()
self.assertTrue("foo.bar" in out6)
# filter out foo.bar
out7 = capture_show('^(?!foo).')
self.assertFalse("foo.bar" in out7)
self.assertEqual(out3, out7)
return
class TestRecipeOrganizer(unittest.TestCase):
def setUp(self):
self.m = RecipeOrganizer("test")
# Add a managed container so we can do more in-depth tests.
self.m._containers = {}
self.m._manage(self.m._containers)
return
def testNewParameter(self):
"""Test the addParameter method."""
m = self.m
p1 = Parameter("p1", 1)
m._addParameter(p1)
# Test duplication of Parameters
self.assertRaises(ValueError, m._newParameter, "p1", 0)
# Add a new Parameter
p2 = m._newParameter("p2", 0)
self.assertTrue(p2 is m.p2)
return
def testAddParameter(self):
"""Test the addParameter method."""
m = self.m
p1 = Parameter("p1", 1)
p2 = Parameter("p1", 2)
# Check normal insert
m._addParameter(p1)
self.assertTrue(m.p1 is p1)
self.assertTrue(p1.name in m._eqfactory.builders)
# Try to insert another parameter with the same name
self.assertRaises(ValueError, m._addParameter, p2)
# Now allow this
m._addParameter(p2, check=False)
self.assertTrue(m.p1 is p2)
self.assertTrue(p1.name in m._eqfactory.builders)
# Try to insert a Parameter when a RecipeContainer with the same name
# is already inside.
c = RecipeContainer("test")
m._addObject(c, m._containers)
p3 = Parameter("test", 0)
self.assertRaises(ValueError, m._addParameter, p3)
p4 = Parameter("xyz", 0)
m._addParameter(p4)
# Check order
self.assertEquals(m._parameters.keys(), ["p1", "xyz"])
self.assertEquals(m._parameters.values(), [p2, p4])
return
def testRemoveParameter(self):
"""Test removeParameter method."""
m = self.m
p1 = Parameter("p1", 1)
p2 = Parameter("p1", 2)
m._addParameter(p1)
# Check for bad remove
self.assertRaises(ValueError, m._removeParameter, p2)
# Remove p1
m._removeParameter(p1)
self.assertTrue(p1.name not in m._eqfactory.builders)
# Try to remove it again
self.assertRaises(ValueError, m._removeParameter, p1)
# Try to remove a RecipeContainer
c = RecipeContainer("test")
self.assertRaises(ValueError, m._removeParameter, c)
return
def testConstrain(self):
"""Test the constrain method."""
p1 = self.m._newParameter("p1", 1)
p2 = self.m._newParameter("p2", 2)
p3 = Parameter("p3", 3)
self.assertFalse(p1.constrained)
self.assertEquals(0, len(self.m._constraints))
self.m.constrain(p1, "2*p2")
self.assertTrue(p1.constrained)
self.assertTrue(p1 in self.m._constraints)
self.assertEquals(1, len(self.m._constraints))
self.assertTrue(self.m.isConstrained(p1))
p2.setValue(10)
self.m._constraints[p1].update()
self.assertEquals(20, p1.getValue())
# Check errors on unregistered parameters
self.assertRaises(ValueError, self.m.constrain, p1, "2*p3")
self.assertRaises(ValueError, self.m.constrain, p1, "2*p2", {"p2": p3})
# Remove the constraint
self.m.unconstrain(p1)
self.assertFalse(p1.constrained)
self.assertEquals(0, len(self.m._constraints))
self.assertFalse(self.m.isConstrained(p1))
# Try an straight constraint
self.m.constrain(p1, p2)
p2.setValue(7)
self.m._constraints[p1].update()
self.assertEquals(7, p1.getValue())
return
def testRestrain(self):
"""Test the restrain method."""
p1 = Parameter("p1", 1)
p2 = Parameter("p2", 2)
p3 = Parameter("p3", 3)
self.m._eqfactory.registerArgument("p1", p1)
self.m._eqfactory.registerArgument("p2", p2)
self.assertEquals(0, len(self.m._restraints))
r = self.m.restrain("p1+p2", ub=10)
self.assertEquals(1, len(self.m._restraints))
p2.setValue(10)
self.assertEquals(1, r.penalty())
self.m.unrestrain(r)
self.assertEquals(0, len(self.m._restraints))
r = self.m.restrain(p1, ub=10)
self.assertEquals(1, len(self.m._restraints))
p1.setValue(11)
self.assertEquals(1, r.penalty())
# Check errors on unregistered parameters
self.assertRaises(ValueError, self.m.restrain, "2*p3")
self.assertRaises(ValueError, self.m.restrain, "2*p2", ns={"p2": p3})
return
def testGetConstraints(self):
"""Test the _getConstraints method."""
m2 = RecipeOrganizer("m2")
self.m._organizers = {}
self.m._manage(self.m._organizers)
self.m._addObject(m2, self.m._organizers)
p1 = Parameter("p1", 1)
p2 = Parameter("p2", 2)
p3 = Parameter("p3", 3)
p4 = Parameter("p4", 4)
self.m._addParameter(p1)
self.m._addParameter(p2)
m2._addParameter(p3)
m2._addParameter(p4)
self.m.constrain(p1, "p2")
m2.constrain(p3, "p4")
cons = self.m._getConstraints()
self.assertTrue(p1 in cons)
self.assertTrue(p3 in cons)
self.assertEquals(2, len(cons))
return
def testGetRestraints(self):
"""Test the _getRestraints method."""
m2 = RecipeOrganizer("m2")
self.m._organizers = {}
self.m._manage(self.m._organizers)
self.m._addObject(m2, self.m._organizers)
p1 = Parameter("p1", 1)
p2 = Parameter("p2", 2)
p3 = Parameter("p3", 3)
p4 = Parameter("p4", 4)
self.m._addParameter(p1)
self.m._addParameter(p2)
m2._addParameter(p3)
m2._addParameter(p4)
r1 = self.m.restrain("p1 + p2")
r2 = m2.restrain("2*p3 + p4")
res = self.m._getRestraints()
self.assertTrue(r1 in res)
self.assertTrue(r2 in res)
self.assertEquals(2, len(res))
return
def testRegisterCalculator(self):
class GCalc(Calculator):
def __init__(self, name):
Calculator.__init__(self, name)
self.newParameter("A", 1.0)
self.newParameter("center", 0.0)
self.newParameter("width", 0.1)
return
def __call__(self, x):
A = self.A.getValue()
c = self.center.getValue()
w = self.width.getValue()
return A * numpy.exp(-0.5 * ((x - c) / w)**2)
# End class GCalc
g = GCalc("g")
self.m.registerCalculator(g)
x = numpy.arange(0.5, 10, 0.5)
self.m.x.setValue(x)
self.m.g.center.setValue(3.0)
self.assertTrue(
numpy.array_equal(numpy.exp(-0.5 * ((x - 3.0) / 0.1)**2), g(x)))
self.m.g.center.setValue(5.0)
self.assertTrue(
numpy.array_equal(numpy.exp(-0.5 * ((x - 5.0) / 0.1)**2), g(x)))
# Use this in another equation
eq = self.m.registerStringFunction("g/x - 1", "pdf")
self.assertTrue(numpy.array_equal(g(x) / x - 1, eq()))
return
def testRegisterFunction(self):
"""Test registering various functions."""
def g1(A, c, w, x):
return A * numpy.exp(-0.5 * ((x - c) / w)**2)
def g2(A):
return A + 1
eq = self.m.registerFunction(g1, "g")
for p in eq.args:
self.assertTrue(p in self.m._parameters.values())
x = numpy.arange(0.5, 10, 0.5)
self.m.x.setValue(x)
self.m.A.setValue(1.0)
self.m.c.setValue(3.0)
self.m.w.setValue(0.1)
self.assertTrue(
numpy.array_equal(numpy.exp(-0.5 * ((x - 3.0) / 0.1)**2), eq()))
# Use this in another equation
eq2 = self.m.registerStringFunction("g/x - 1", "pdf")
self.assertTrue(numpy.array_equal(eq() / x - 1, eq2()))
# Make sure we can swap out "g".
self.m.registerFunction(g2, "g")
self.assertAlmostEquals(2.0, eq())
# Try a bound method
class temp(object):
def eval(self):
return 1.23
def __call__(self):
return 4.56
t = temp()
eq = self.m.registerFunction(t.eval, "eval")
self.assertAlmostEquals(1.23, eq())
# Now the callable
eq2 = self.m.registerFunction(t, "eval2")
self.assertAlmostEquals(4.56, eq2())
return
def testRegisterStringFunction(self):
"""Test registering string functions in various ways."""
# Make an equation.
eq1 = self.m.registerStringFunction("x**2 + 3", "eq1")
eq1.x.setValue(0)
for p in eq1.args:
self.assertTrue(p in self.m._parameters.values())
# Add a parameter
self.m._newParameter("y", 3.0)
# Make sure that x and y are in the organizer
self.assertEquals(0, self.m.x.getValue())
self.assertEquals(3.0, self.m.y.getValue())
# Use eq1 in some equations
# x**2 (x**2 + 3 - 3)
eq2 = self.m.registerStringFunction("eq1 - 3", "eq2")
# y**2
eq3 = self.m.registerStringFunction("eq1(y) - 3", "eq3")
# Test these equations.
self.assertEquals(0, eq2())
self.assertEquals(9.0, eq3())
# Note that eq3 injects the value of y into the argument of eq1, which
# is x. Thus, calling eq3 sets x to 3.
self.assertEquals(9.0, eq2())
# One more level of embedding
# 2*y**2
eq4 = self.m.registerStringFunction("2*eq3", "eq4")
self.assertEquals(18.0, eq4())
return
