DAMASK_EICMD/python/tests/test_ori_vec.py

100 lines
4.5 KiB
Python
Raw Normal View History

import pytest
import numpy as np
from damask import Rotation
from damask import Orientation
from damask import Lattice
2020-06-30 17:01:58 +05:30
rot0= Rotation.from_random()
rot1= Rotation.from_random()
rot2= Rotation.from_random()
rot3= Rotation.from_random()
2020-06-28 22:33:06 +05:30
#disorientation
#fromaverage
#average
class TestOrientation_vec:
2020-06-28 22:33:06 +05:30
#@pytest.mark.xfail
@pytest.mark.parametrize('lattice',Lattice.lattices)
2020-06-28 22:33:06 +05:30
def test_equivalent_vec(self,lattice):
ori0=Orientation(rot0,lattice)
ori1=Orientation(rot1,lattice)
ori2=Orientation(rot2,lattice)
ori3=Orientation(rot3,lattice)
quat=np.array([rot0.as_quaternion(),rot1.as_quaternion(),rot2.as_quaternion(),rot3.as_quaternion()])
2020-06-28 22:33:06 +05:30
ori_vec=Orientation(quat,lattice)
for s in range(len(ori_vec.lattice.symmetry.symmetryOperations())):
2020-06-30 17:25:09 +05:30
assert all(ori_vec.equivalent.rotation.as_Eulers()[s,0] == \
2020-06-30 20:03:04 +05:30
ori0.equivalent[s].rotation.as_Eulers())
2020-06-30 17:25:09 +05:30
assert all(ori_vec.equivalent.rotation.as_quaternion()[s,1] == \
2020-06-30 20:03:04 +05:30
ori1.equivalent[s].rotation.as_quaternion())
2020-06-30 17:25:09 +05:30
assert all(ori_vec.equivalent.rotation.as_Rodrigues()[s,2] == \
2020-06-30 20:03:04 +05:30
ori2.equivalent[s].rotation.as_Rodrigues())
2020-06-30 17:25:09 +05:30
assert all(ori_vec.equivalent.rotation.as_cubochoric()[s,3] == \
2020-06-30 20:03:04 +05:30
ori3.equivalent[s].rotation.as_cubochoric())
@pytest.mark.parametrize('lattice',Lattice.lattices)
def test_inFZ_vec(self,lattice):
ori0=Orientation(rot0,lattice)
ori1=Orientation(rot1,lattice)
ori2=Orientation(rot2,lattice)
ori3=Orientation(rot3,lattice)
2020-06-28 22:33:06 +05:30
ori4=ori0.reduced() ; rot4=ori4.rotation #ensure 1 of them is in FZ
quat=np.array([rot0.as_quaternion(),rot1.as_quaternion(),\
rot2.as_quaternion(),rot3.as_quaternion(), rot4.as_quaternion()])
2020-06-28 22:33:06 +05:30
ori_vec=Orientation(quat,lattice)
assert ori_vec.inFZ_vec()[0] == ori0.inFZ()
assert ori_vec.inFZ_vec()[1] == ori1.inFZ()
assert ori_vec.inFZ_vec()[2] == ori2.inFZ()
assert ori_vec.inFZ_vec()[3] == ori3.inFZ()
assert ori_vec.inFZ_vec()[4] == ori4.inFZ()
@pytest.mark.parametrize('model',['Bain','KS','GT','GT_prime','NW','Pitsch'])
@pytest.mark.parametrize('lattice',['fcc','bcc'])
def test_relatedOrientations_vec(self,model,lattice):
ori0=Orientation(rot0,lattice)
ori1=Orientation(rot1,lattice)
ori2=Orientation(rot2,lattice)
ori3=Orientation(rot3,lattice)
quat=np.array([rot0.as_quaternion(),rot1.as_quaternion(),rot2.as_quaternion(),rot3.as_quaternion()])
2020-06-28 22:33:06 +05:30
ori_vec=Orientation(quat,lattice)
for s in range(len(ori1.lattice.relationOperations(model)['rotations'])):
2020-06-28 22:33:06 +05:30
assert all(ori_vec.relatedOrientations_vec(model).rotation.as_Eulers()[s,0] == \
ori0.relatedOrientations(model)[s].rotation.as_Eulers())
2020-06-28 22:33:06 +05:30
assert all(ori_vec.relatedOrientations_vec(model).rotation.as_quaternion()[s,1] == \
ori1.relatedOrientations(model)[s].rotation.as_quaternion())
2020-06-28 22:33:06 +05:30
assert all(ori_vec.relatedOrientations_vec(model).rotation.as_Rodrigues()[s,2] == \
ori2.relatedOrientations(model)[s].rotation.as_Rodrigues())
2020-06-28 22:33:06 +05:30
assert all(ori_vec.relatedOrientations_vec(model).rotation.as_cubochoric()[s,3] == \
ori3.relatedOrientations(model)[s].rotation.as_cubochoric())
2020-06-28 22:33:06 +05:30
@pytest.mark.parametrize('lattice',Lattice.lattices)
def test_reduced_vec(self,lattice):
ori0=Orientation(rot0,lattice)
ori1=Orientation(rot1,lattice)
ori2=Orientation(rot2,lattice)
ori3=Orientation(rot3,lattice)
#ensure 1 of them is in FZ
ori4=ori0.reduced()
rot4=ori4.rotation
quat=np.array([rot0.as_quaternion(),rot1.as_quaternion(),\
rot2.as_quaternion(),rot3.as_quaternion(), rot4.as_quaternion()])
ori_vec=Orientation(quat,lattice)
assert all(ori_vec.reduced_vec.rotation.as_Eulers()[0] == ori0.reduced().rotation.as_Eulers() )
assert all(ori_vec.reduced_vec.rotation.as_quaternion()[1] == ori1.reduced().rotation.as_quaternion() )
assert all(ori_vec.reduced_vec.rotation.as_Rodrigues()[2] == ori2.reduced().rotation.as_Rodrigues() )
assert all(ori_vec.reduced_vec.rotation.as_cubochoric()[3] == ori3.reduced().rotation.as_cubochoric() )
assert all(ori_vec.reduced_vec.rotation.as_axis_angle()[4] == ori4.reduced().rotation.as_axis_angle() )