Merge pull request #163 from simpeg/em/testSplitting

Em/test splitting
This commit is contained in:
Lindsey
2015-11-09 09:17:43 -08:00
17 changed files with 407 additions and 109 deletions
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if __name__ == '__main__':
import os
import glob
import unittest
test_file_strings = glob.glob('test_*.py')
module_strings = [str[0:len(str)-3] for str in test_file_strings]
suites = [unittest.defaultTestLoader.loadTestsFromName(str) for str
in module_strings]
testSuite = unittest.TestSuite(suites)
unittest.TextTestRunner(verbosity=2).run(testSuite)
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import unittest
from SimPEG import *
from SimPEG import EM
import sys
from scipy.constants import mu_0
from SimPEG.EM.Utils.testingUtils import getFDEMProblem
testEB = True
testHJ = True
verbose = False
TOL = 1e-5
FLR = 1e-20 # "zero", so if residual below this --> pass regardless of order
CONDUCTIVITY = 1e1
MU = mu_0
freq = 1e-1
addrandoms = True
SrcList = ['RawVec', 'MagDipole_Bfield', 'MagDipole', 'CircularLoop']
def crossCheckTest(fdemType, comp):
l2norm = lambda r: np.sqrt(r.dot(r))
prb1 = getFDEMProblem(fdemType, comp, SrcList, freq, verbose)
mesh = prb1.mesh
print 'Cross Checking Forward: %s formulation - %s' % (fdemType, comp)
m = np.log(np.ones(mesh.nC)*CONDUCTIVITY)
mu = np.log(np.ones(mesh.nC)*MU)
if addrandoms is True:
m = m + np.random.randn(mesh.nC)*np.log(CONDUCTIVITY)*1e-1
mu = mu + np.random.randn(mesh.nC)*MU*1e-1
# prb1.PropMap.PropModel.mu = mu
# prb1.PropMap.PropModel.mui = 1./mu
survey1 = prb1.survey
d1 = survey1.dpred(m)
if verbose:
print ' Problem 1 solved'
if fdemType == 'e':
prb2 = getFDEMProblem('b', comp, SrcList, freq, verbose)
elif fdemType == 'b':
prb2 = getFDEMProblem('e', comp, SrcList, freq, verbose)
elif fdemType == 'j':
prb2 = getFDEMProblem('h', comp, SrcList, freq, verbose)
elif fdemType == 'h':
prb2 = getFDEMProblem('j', comp, SrcList, freq, verbose)
else:
raise NotImplementedError()
# prb2.mu = mu
survey2 = prb2.survey
d2 = survey2.dpred(m)
if verbose:
print ' Problem 2 solved'
r = d2-d1
l2r = l2norm(r)
tol = np.max([TOL*(10**int(np.log10(l2norm(d1)))),FLR])
print l2norm(d1), l2norm(d2), l2r , tol, l2r < tol
return l2r < tol
class FDEM_CrossCheck(unittest.TestCase):
if testEB:
def test_EB_CrossCheck_exr_Eform(self):
self.assertTrue(crossCheckTest('e', 'exr'))
def test_EB_CrossCheck_eyr_Eform(self):
self.assertTrue(crossCheckTest('e', 'eyr'))
def test_EB_CrossCheck_ezr_Eform(self):
self.assertTrue(crossCheckTest('e', 'ezr'))
def test_EB_CrossCheck_exi_Eform(self):
self.assertTrue(crossCheckTest('e', 'exi'))
def test_EB_CrossCheck_eyi_Eform(self):
self.assertTrue(crossCheckTest('e', 'eyi'))
def test_EB_CrossCheck_ezi_Eform(self):
self.assertTrue(crossCheckTest('e', 'ezi'))
def test_EB_CrossCheck_bxr_Eform(self):
self.assertTrue(crossCheckTest('e', 'bxr'))
def test_EB_CrossCheck_byr_Eform(self):
self.assertTrue(crossCheckTest('e', 'byr'))
def test_EB_CrossCheck_bzr_Eform(self):
self.assertTrue(crossCheckTest('e', 'bzr'))
def test_EB_CrossCheck_bxi_Eform(self):
self.assertTrue(crossCheckTest('e', 'bxi'))
def test_EB_CrossCheck_byi_Eform(self):
self.assertTrue(crossCheckTest('e', 'byi'))
def test_EB_CrossCheck_bzi_Eform(self):
self.assertTrue(crossCheckTest('e', 'bzi'))
if testHJ:
def test_HJ_CrossCheck_jxr_Jform(self):
self.assertTrue(crossCheckTest('j', 'jxr'))
def test_HJ_CrossCheck_jyr_Jform(self):
self.assertTrue(crossCheckTest('j', 'jyr'))
def test_HJ_CrossCheck_jzr_Jform(self):
self.assertTrue(crossCheckTest('j', 'jzr'))
def test_HJ_CrossCheck_jxi_Jform(self):
self.assertTrue(crossCheckTest('j', 'jxi'))
def test_HJ_CrossCheck_jyi_Jform(self):
self.assertTrue(crossCheckTest('j', 'jyi'))
def test_HJ_CrossCheck_jzi_Jform(self):
self.assertTrue(crossCheckTest('j', 'jzi'))
def test_HJ_CrossCheck_hxr_Jform(self):
self.assertTrue(crossCheckTest('j', 'hxr'))
def test_HJ_CrossCheck_hyr_Jform(self):
self.assertTrue(crossCheckTest('j', 'hyr'))
def test_HJ_CrossCheck_hzr_Jform(self):
self.assertTrue(crossCheckTest('j', 'hzr'))
def test_HJ_CrossCheck_hxi_Jform(self):
self.assertTrue(crossCheckTest('j', 'hxi'))
def test_HJ_CrossCheck_hyi_Jform(self):
self.assertTrue(crossCheckTest('j', 'hyi'))
def test_HJ_CrossCheck_hzi_Jform(self):
self.assertTrue(crossCheckTest('j', 'hzi'))
if __name__ == '__main__':
unittest.main()
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if __name__ == '__main__':
import os
import glob
import unittest
test_file_strings = glob.glob('test_*.py')
module_strings = [str[0:len(str)-3] for str in test_file_strings]
suites = [unittest.defaultTestLoader.loadTestsFromName(str) for str
in module_strings]
testSuite = unittest.TestSuite(suites)
unittest.TextTestRunner(verbosity=2).run(testSuite)
@@ -0,0 +1,156 @@
import unittest
from SimPEG import *
from SimPEG import EM
import sys
from scipy.constants import mu_0
from SimPEG.EM.Utils.testingUtils import getFDEMProblem
testEB = True
testHJ = True
verbose = False
TOL = 1e-5
FLR = 1e-20 # "zero", so if residual below this --> pass regardless of order
CONDUCTIVITY = 1e1
MU = mu_0
freq = 1e-1
addrandoms = True
SrcType = 'RawVec' #or 'MAgDipole_Bfield', 'CircularLoop', 'RawVec'
def adjointTest(fdemType, comp):
prb = getFDEMProblem(fdemType, comp, [SrcType], freq)
print 'Adjoint %s formulation - %s' % (fdemType, comp)
m = np.log(np.ones(prb.mapping.nP)*CONDUCTIVITY)
mu = np.ones(prb.mesh.nC)*MU
if addrandoms is True:
m = m + np.random.randn(prb.mapping.nP)*np.log(CONDUCTIVITY)*1e-1
mu = mu + np.random.randn(prb.mesh.nC)*MU*1e-1
survey = prb.survey
# prb.PropMap.PropModel.mu = mu
# prb.PropMap.PropModel.mui = 1./mu
u = prb.fields(m)
v = np.random.rand(survey.nD)
w = np.random.rand(prb.mesh.nC)
vJw = v.dot(prb.Jvec(m, w, u))
wJtv = w.dot(prb.Jtvec(m, v, u))
tol = np.max([TOL*(10**int(np.log10(np.abs(vJw)))),FLR])
print vJw, wJtv, vJw - wJtv, tol, np.abs(vJw - wJtv) < tol
return np.abs(vJw - wJtv) < tol
class FDEM_AdjointTests(unittest.TestCase):
if testEB:
def test_Jtvec_adjointTest_exr_Eform(self):
self.assertTrue(adjointTest('e', 'exr'))
def test_Jtvec_adjointTest_eyr_Eform(self):
self.assertTrue(adjointTest('e', 'eyr'))
def test_Jtvec_adjointTest_ezr_Eform(self):
self.assertTrue(adjointTest('e', 'ezr'))
def test_Jtvec_adjointTest_exi_Eform(self):
self.assertTrue(adjointTest('e', 'exi'))
def test_Jtvec_adjointTest_eyi_Eform(self):
self.assertTrue(adjointTest('e', 'eyi'))
def test_Jtvec_adjointTest_ezi_Eform(self):
self.assertTrue(adjointTest('e', 'ezi'))
def test_Jtvec_adjointTest_bxr_Eform(self):
self.assertTrue(adjointTest('e', 'bxr'))
def test_Jtvec_adjointTest_byr_Eform(self):
self.assertTrue(adjointTest('e', 'byr'))
def test_Jtvec_adjointTest_bzr_Eform(self):
self.assertTrue(adjointTest('e', 'bzr'))
def test_Jtvec_adjointTest_bxi_Eform(self):
self.assertTrue(adjointTest('e', 'bxi'))
def test_Jtvec_adjointTest_byi_Eform(self):
self.assertTrue(adjointTest('e', 'byi'))
def test_Jtvec_adjointTest_bzi_Eform(self):
self.assertTrue(adjointTest('e', 'bzi'))
def test_Jtvec_adjointTest_exr_Bform(self):
self.assertTrue(adjointTest('b', 'exr'))
def test_Jtvec_adjointTest_eyr_Bform(self):
self.assertTrue(adjointTest('b', 'eyr'))
def test_Jtvec_adjointTest_ezr_Bform(self):
self.assertTrue(adjointTest('b', 'ezr'))
def test_Jtvec_adjointTest_exi_Bform(self):
self.assertTrue(adjointTest('b', 'exi'))
def test_Jtvec_adjointTest_eyi_Bform(self):
self.assertTrue(adjointTest('b', 'eyi'))
def test_Jtvec_adjointTest_ezi_Bform(self):
self.assertTrue(adjointTest('b', 'ezi'))
def test_Jtvec_adjointTest_bxr_Bform(self):
self.assertTrue(adjointTest('b', 'bxr'))
def test_Jtvec_adjointTest_byr_Bform(self):
self.assertTrue(adjointTest('b', 'byr'))
def test_Jtvec_adjointTest_bzr_Bform(self):
self.assertTrue(adjointTest('b', 'bzr'))
def test_Jtvec_adjointTest_bxi_Bform(self):
self.assertTrue(adjointTest('b', 'bxi'))
def test_Jtvec_adjointTest_byi_Bform(self):
self.assertTrue(adjointTest('b', 'byi'))
def test_Jtvec_adjointTest_bzi_Bform(self):
self.assertTrue(adjointTest('b', 'bzi'))
if testHJ:
def test_Jtvec_adjointTest_jxr_Jform(self):
self.assertTrue(adjointTest('j', 'jxr'))
def test_Jtvec_adjointTest_jyr_Jform(self):
self.assertTrue(adjointTest('j', 'jyr'))
def test_Jtvec_adjointTest_jzr_Jform(self):
self.assertTrue(adjointTest('j', 'jzr'))
def test_Jtvec_adjointTest_jxi_Jform(self):
self.assertTrue(adjointTest('j', 'jxi'))
def test_Jtvec_adjointTest_jyi_Jform(self):
self.assertTrue(adjointTest('j', 'jyi'))
def test_Jtvec_adjointTest_jzi_Jform(self):
self.assertTrue(adjointTest('j', 'jzi'))
def test_Jtvec_adjointTest_hxr_Jform(self):
self.assertTrue(adjointTest('j', 'hxr'))
def test_Jtvec_adjointTest_hyr_Jform(self):
self.assertTrue(adjointTest('j', 'hyr'))
def test_Jtvec_adjointTest_hzr_Jform(self):
self.assertTrue(adjointTest('j', 'hzr'))
def test_Jtvec_adjointTest_hxi_Jform(self):
self.assertTrue(adjointTest('j', 'hxi'))
def test_Jtvec_adjointTest_hyi_Jform(self):
self.assertTrue(adjointTest('j', 'hyi'))
def test_Jtvec_adjointTest_hzi_Jform(self):
self.assertTrue(adjointTest('j', 'hzi'))
def test_Jtvec_adjointTest_hxr_Hform(self):
self.assertTrue(adjointTest('h', 'hxr'))
def test_Jtvec_adjointTest_hyr_Hform(self):
self.assertTrue(adjointTest('h', 'hyr'))
def test_Jtvec_adjointTest_hzr_Hform(self):
self.assertTrue(adjointTest('h', 'hzr'))
def test_Jtvec_adjointTest_hxi_Hform(self):
self.assertTrue(adjointTest('h', 'hxi'))
def test_Jtvec_adjointTest_hyi_Hform(self):
self.assertTrue(adjointTest('h', 'hyi'))
def test_Jtvec_adjointTest_hzi_Hform(self):
self.assertTrue(adjointTest('h', 'hzi'))
def test_Jtvec_adjointTest_hxr_Hform(self):
self.assertTrue(adjointTest('h', 'jxr'))
def test_Jtvec_adjointTest_hyr_Hform(self):
self.assertTrue(adjointTest('h', 'jyr'))
def test_Jtvec_adjointTest_hzr_Hform(self):
self.assertTrue(adjointTest('h', 'jzr'))
def test_Jtvec_adjointTest_hxi_Hform(self):
self.assertTrue(adjointTest('h', 'jxi'))
def test_Jtvec_adjointTest_hyi_Hform(self):
self.assertTrue(adjointTest('h', 'jyi'))
def test_Jtvec_adjointTest_hzi_Hform(self):
self.assertTrue(adjointTest('h', 'jzi'))
if __name__ == '__main__':
unittest.main()
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if __name__ == '__main__':
import os
import glob
import unittest
test_file_strings = glob.glob('test_*.py')
module_strings = [str[0:len(str)-3] for str in test_file_strings]
suites = [unittest.defaultTestLoader.loadTestsFromName(str) for str
in module_strings]
testSuite = unittest.TestSuite(suites)
unittest.TextTestRunner(verbosity=2).run(testSuite)
@@ -5,7 +5,6 @@ import sys
from scipy.constants import mu_0
testDerivs = True
testCrossCheck = True
testAdjoint = True
testEB = True
testHJ = True
@@ -149,57 +148,6 @@ def derivTest(fdemType, comp):
return Tests.checkDerivative(fun, x0, num=3, plotIt=False, eps=FLR)
def crossCheckTest(fdemType, comp):
l2norm = lambda r: np.sqrt(r.dot(r))
prb1 = getProblem(fdemType, comp)
mesh = prb1.mesh
print 'Cross Checking Forward: %s formulation - %s' % (fdemType, comp)
m = np.log(np.ones(mesh.nC)*CONDUCTIVITY)
mu = np.log(np.ones(mesh.nC)*MU)
if addrandoms is True:
m = m + np.random.randn(mesh.nC)*np.log(CONDUCTIVITY)*1e-1
mu = mu + np.random.randn(mesh.nC)*MU*1e-1
# prb1.PropMap.PropModel.mu = mu
# prb1.PropMap.PropModel.mui = 1./mu
survey1 = prb1.survey
d1 = survey1.dpred(m)
if verbose:
print ' Problem 1 solved'
if fdemType == 'e':
prb2 = getProblem('b', comp)
elif fdemType == 'b':
prb2 = getProblem('e', comp)
elif fdemType == 'j':
prb2 = getProblem('h', comp)
elif fdemType == 'h':
prb2 = getProblem('j', comp)
else:
raise NotImplementedError()
# prb2.mu = mu
survey2 = prb2.survey
d2 = survey2.dpred(m)
if verbose:
print ' Problem 2 solved'
r = d2-d1
l2r = l2norm(r)
tol = np.max([TOL*(10**int(np.log10(l2norm(d1)))),FLR])
print l2norm(d1), l2norm(d2), l2r , tol, l2r < tol
return l2r < tol
class FDEM_DerivTests(unittest.TestCase):
if testDerivs:
@@ -418,61 +366,5 @@ class FDEM_DerivTests(unittest.TestCase):
self.assertTrue(adjointTest('h', 'jzi'))
if testCrossCheck:
if testEB:
def test_EB_CrossCheck_exr_Eform(self):
self.assertTrue(crossCheckTest('e', 'exr'))
def test_EB_CrossCheck_eyr_Eform(self):
self.assertTrue(crossCheckTest('e', 'eyr'))
def test_EB_CrossCheck_ezr_Eform(self):
self.assertTrue(crossCheckTest('e', 'ezr'))
def test_EB_CrossCheck_exi_Eform(self):
self.assertTrue(crossCheckTest('e', 'exi'))
def test_EB_CrossCheck_eyi_Eform(self):
self.assertTrue(crossCheckTest('e', 'eyi'))
def test_EB_CrossCheck_ezi_Eform(self):
self.assertTrue(crossCheckTest('e', 'ezi'))
def test_EB_CrossCheck_bxr_Eform(self):
self.assertTrue(crossCheckTest('e', 'bxr'))
def test_EB_CrossCheck_byr_Eform(self):
self.assertTrue(crossCheckTest('e', 'byr'))
def test_EB_CrossCheck_bzr_Eform(self):
self.assertTrue(crossCheckTest('e', 'bzr'))
def test_EB_CrossCheck_bxi_Eform(self):
self.assertTrue(crossCheckTest('e', 'bxi'))
def test_EB_CrossCheck_byi_Eform(self):
self.assertTrue(crossCheckTest('e', 'byi'))
def test_EB_CrossCheck_bzi_Eform(self):
self.assertTrue(crossCheckTest('e', 'bzi'))
if testHJ:
def test_HJ_CrossCheck_jxr_Jform(self):
self.assertTrue(crossCheckTest('j', 'jxr'))
def test_HJ_CrossCheck_jyr_Jform(self):
self.assertTrue(crossCheckTest('j', 'jyr'))
def test_HJ_CrossCheck_jzr_Jform(self):
self.assertTrue(crossCheckTest('j', 'jzr'))
def test_HJ_CrossCheck_jxi_Jform(self):
self.assertTrue(crossCheckTest('j', 'jxi'))
def test_HJ_CrossCheck_jyi_Jform(self):
self.assertTrue(crossCheckTest('j', 'jyi'))
def test_HJ_CrossCheck_jzi_Jform(self):
self.assertTrue(crossCheckTest('j', 'jzi'))
def test_HJ_CrossCheck_hxr_Jform(self):
self.assertTrue(crossCheckTest('j', 'hxr'))
def test_HJ_CrossCheck_hyr_Jform(self):
self.assertTrue(crossCheckTest('j', 'hyr'))
def test_HJ_CrossCheck_hzr_Jform(self):
self.assertTrue(crossCheckTest('j', 'hzr'))
def test_HJ_CrossCheck_hxi_Jform(self):
self.assertTrue(crossCheckTest('j', 'hxi'))
def test_HJ_CrossCheck_hyi_Jform(self):
self.assertTrue(crossCheckTest('j', 'hyi'))
def test_HJ_CrossCheck_hzi_Jform(self):
self.assertTrue(crossCheckTest('j', 'hzi'))
if __name__ == '__main__':
unittest.main()
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if __name__ == '__main__':
import os
import glob
import unittest
test_file_strings = glob.glob('test_*.py')
module_strings = [str[0:len(str)-3] for str in test_file_strings]
suites = [unittest.defaultTestLoader.loadTestsFromName(str) for str
in module_strings]
testSuite = unittest.TestSuite(suites)
unittest.TextTestRunner(verbosity=2).run(testSuite)