Example #1
0
    def parse_wp2(self, idx):
        """
        query the wp2 and transformation matrix from the given {G, H, wp1}
        """
        #print("trans", idx)
        #print(self.wyc['transformation'])
        trans = self.wyc['transformation'][idx]
        subgroup_relations = self.wyc['relations'][idx]
        subgroup_relations = [ele for ele in reversed(subgroup_relations)]

        self.R = np.zeros([4, 4])
        self.R[:3, :3] += trans[:3, :3]
        self.R[3, 3] = 1
        self.inv_R = np.linalg.inv(self.R)
        inv_t = np.dot(self.inv_R[:3, :3], trans[:, 3].T)
        self.inv_R[:3, 3] = -inv_t.T
        self.R[:3, 3] = trans[:3, 3]

        wp2_lists = []
        for wp1_index in self.wp1_indices:
            wp2_list = []
            for letter in subgroup_relations[wp1_index]:
                id = sym.index_from_letter(letter[-1], self.H)
                wp2_list.append(self.H[id])
            wp2_lists.append(wp2_list)
        self.wp2_lists = wp2_lists
        self.index = self.wyc['index'][idx]
Example #2
0
    def __init__(self,
                 G=197,
                 idx=None,
                 wp1=[0, 1],
                 group_type='t',
                 elements=None):
        self.error = False
        self.elements = elements
        self.G = sym.Group(G)  # Group object
        if group_type == 't':
            self.wyc = self.G.get_max_t_subgroup()
        else:
            self.wyc = self.G.get_max_k_subgroup()
        id_lists = []
        for wp in wp1:
            if type(wp) == int:
                id_lists.append(wp)
            else:
                id_lists.append(sym.index_from_letter(wp[-1], self.G))
        self.wp1_indices = id_lists
        self.wp1_lists = [self.G[id] for id in id_lists]  # a WP object

        # choose a random spliting option if idx is not specified
        if idx is None:
            ids = [id for id in range(len(self.wyc['subgroup']))]
            idx = choice(ids)
        #print(G, idx, len(self.wyc['subgroup']))
        H = self.wyc['subgroup'][idx]
        self.H = sym.Group(H)  # Group object

        #print(G, H)
        self.parse_wp2(idx)

        if (self.G.lattice_type == self.H.lattice_type):
            self.valid_split = False
            for wps in self.wp2_lists:
                for wp in wps:
                    rotation = np.array(wp[0].as_dict()['matrix'])[:3, :3]
                    if np.linalg.matrix_rank(rotation) > 0:
                        self.valid_split = True
                        break
        else:
            self.valid_split = True

        #if self.valid_split:
        self.G1_orbits = []
        self.G2_orbits = []
        self.H_orbits = []
        for i, wp1 in enumerate(self.wp1_lists):
            self.counter = 0
            self.current_wp1_size = len(wp1)
            self.H_orbits.append([wp2.ops for wp2 in self.wp2_lists[i]])
            if group_type == 't':
                G1_orbits, G2_orbits = self.split_t(wp1, self.wp2_lists[i])
            else:
                G1_orbits, G2_orbits = self.split_k(wp1, self.wp2_lists[i])
            self.G1_orbits.append(G1_orbits)
            self.G2_orbits.append(G2_orbits)
Example #3
0
def test_modules():
    print("====== Testing functionality for pyXtal version 0.1dev ======")

    global failed_package
    failed_package = False  # Record if errors occur at any level

    reset()

    print("Importing sys...")
    try:
        import sys

        print("Success!")
    except Exception as e:
        fail(e)
        sys.exit(0)

    print("Importing numpy...")
    try:
        import numpy as np

        print("Success!")
    except Exception as e:
        fail(e)
        sys.exit(0)

    I = np.array([[1, 0, 0], [0, 1, 0], [0, 0, 1]])

    print("Importing pymatgen...")
    try:
        import pymatgen

        print("Success!")
    except Exception as e:
        fail(e)
        sys.exit(0)

    try:
        from pymatgen.core.operations import SymmOp
    except Exception as e:
        fail(e)
        sys.exit(0)

    print("Importing pandas...")
    try:
        import pandas

        print("Success!")
    except Exception as e:
        fail(e)
        sys.exit(0)

    print("Importing spglib...")
    try:
        import spglib

        print("Success!")
    except Exception as e:
        fail(e)
        sys.exit(0)

    print("Importing openbabel...")
    try:
        import ase

        print("Success!")
    except:
        print(
            "Error: could not import openbabel. Try reinstalling the package.")

    print("Importing pyxtal...")
    try:
        import pyxtal

        print("Success!")
    except Exception as e:
        fail(e)
        sys.exit(0)

    print("=== Testing modules ===")

    # =====database.element=====
    print("pyxtal.database.element")
    reset()
    try:
        import pyxtal.database.element
    except Exception as e:
        fail(e)

    print("  class Element")
    try:
        from pyxtal.database.element import Element
    except Exception as e:
        fail(e)
    if passed():
        for i in range(1, 95):
            if passed():
                try:
                    ele = Element(i)
                except:
                    fail("Could not access Element # " + str(i))
                try:
                    y = ele.sf
                    y = ele.z
                    y = ele.short_name
                    y = ele.long_name
                    y = ele.valence
                    y = ele.valence_electrons
                    y = ele.covalent_radius
                    y = ele.vdw_radius
                    y = ele.get_all(0)
                except:
                    fail("Could not access attribute for element # " + str(i))
                try:
                    ele.all_z()
                    ele.all_short_names()
                    ele.all_long_names()
                    ele.all_valences()
                    ele.all_valence_electrons()
                    ele.all_covalent_radii()
                    ele.all_vdw_radii()
                except:
                    fail("Could not access class methods")

    check()

    # =====database.hall=====
    print("pyxtal.database.hall")
    reset()
    try:
        import pyxtal.database.hall
    except Exception as e:
        fail(e)

    print("  hall_from_hm")
    try:
        from pyxtal.database.hall import hall_from_hm
    except Exception as e:
        fail(e)

    if passed():
        for i in range(1, 230):
            if passed():
                try:
                    hall_from_hm(i)
                except:
                    fail("Could not access hm # " + str(i))

    check()

    # =====database.collection=====
    print("pyxtal.database.collection")
    reset()
    try:
        import pyxtal.database.collection
    except Exception as e:
        fail(e)

    print("  Collection")
    try:
        from pyxtal.database.collection import Collection
    except Exception as e:
        fail(e)

    if passed():
        for i in range(1, 230):
            if passed():
                try:
                    molecule_collection = Collection("molecules")
                except:
                    fail("Could not access hm # " + str(i))

    check()

    # =====operations=====
    print("pyxtal.operations")
    reset()
    try:
        import pyxtal.operations
    except Exception as e:
        fail(e)

    print("  random_vector")
    try:
        from pyxtal.operations import random_vector
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in range(10):
                random_vector()
        except Exception as e:
            fail(e)

    check()

    print("  angle")
    try:
        from pyxtal.operations import angle
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in range(10):
                v1 = random_vector()
                v2 = random_vector()
                angle(v1, v2)
        except Exception as e:
            fail(e)

    check()

    print("  random_shear_matrix")
    try:
        from pyxtal.operations import random_shear_matrix
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in range(10):
                random_shear_matrix()
        except Exception as e:
            fail(e)

    check()

    print("  is_orthogonal")
    try:
        from pyxtal.operations import is_orthogonal
    except Exception as e:
        fail(e)

    if passed():
        try:
            a = is_orthogonal([[1, 0, 0], [0, 1, 0], [0, 0, 1]])
            b = is_orthogonal([[0, 0, 1], [1, 0, 0], [1, 0, 0]])
            if a is True and b is False:
                pass
            else:
                fail()
        except Exception as e:
            fail(e)

    check()

    print("  aa2matrix")
    try:
        from pyxtal.operations import aa2matrix
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in range(10):
                aa2matrix(1, 1, random=True)
        except Exception as e:
            fail(e)

    check()

    print("  matrix2aa")
    try:
        from pyxtal.operations import matrix2aa
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in range(10):
                m = aa2matrix(1, 1, random=True)
                aa = matrix2aa(m)
        except Exception as e:
            fail(e)

    check()

    print("  rotate_vector")
    try:
        from pyxtal.operations import rotate_vector
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in range(10):
                v1 = random_vector()
                v2 = random_vector()
                rotate_vector(v1, v2)
        except Exception as e:
            fail(e)

    check()

    print("  are_equal")
    try:
        from pyxtal.operations import are_equal
    except Exception as e:
        fail(e)

    if passed():
        try:
            op1 = SymmOp.from_xyz_string("x,y,z")
            op2 = SymmOp.from_xyz_string("x,y,z+1")
            a = are_equal(op1, op2, PBC=[0, 0, 1])
            b = are_equal(op1, op2, PBC=[1, 0, 0])
            if a is True and b is False:
                pass
            else:
                fail()
        except Exception as e:
            fail(e)

    check()

    print("  class OperationAnalyzer")
    try:
        from pyxtal.operations import OperationAnalyzer
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in range(10):
                m = aa2matrix(1, 1, random=True)
                t = random_vector()
                op1 = SymmOp.from_rotation_and_translation(m, t)
                OperationAnalyzer(op1)
        except Exception as e:
            fail(e)

    check()

    print("  class Orientation")
    try:
        from pyxtal.operations import Orientation
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in range(10):
                v1 = random_vector()
                c1 = random_vector()
                o = Orientation.from_constraint(v1, c1)
        except Exception as e:
            fail(e)

    check()

    # =====symmetry=====
    print("pyxtal.symmetry")
    reset()
    try:
        import pyxtal.symmetry
    except Exception as e:
        fail(e)

    print("  get_wyckoffs (may take a moment)")
    try:
        from pyxtal.symmetry import get_wyckoffs
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in [1, 2, 229, 230]:
                get_wyckoffs(i)
                get_wyckoffs(i, organized=True)
        except:
            fail(" Could not access Wyckoff positions for space group # " +
                 str(i))

    check()

    print("  get_wyckoff_symmetry (may take a moment)")
    try:
        from pyxtal.symmetry import get_wyckoff_symmetry
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in [1, 2, 229, 230]:
                get_wyckoff_symmetry(i)
                get_wyckoff_symmetry(i, molecular=True)
        except:
            fail("Could not access Wyckoff symmetry for space group # " +
                 str(i))

    check()

    print("  get_wyckoffs_generators (may take a moment)")
    try:
        from pyxtal.symmetry import get_wyckoff_generators
    except Exception as e:
        fail(e)

    if passed():
        try:
            for i in [1, 2, 229, 230]:
                get_wyckoff_generators(i)
        except:
            fail("Could not access Wyckoff generators for space group # " +
                 str(i))

    check()

    print("  letter_from_index")
    try:
        from pyxtal.symmetry import letter_from_index
    except Exception as e:
        fail(e)

    if passed():
        try:
            if letter_from_index(0, get_wyckoffs(47)) == "A":
                pass
            else:
                fail()
        except Exception as e:
            fail(e)

    check()

    print("  index_from_letter")
    try:
        from pyxtal.symmetry import index_from_letter
    except Exception as e:
        fail(e)

    if passed():
        try:
            if index_from_letter("A", get_wyckoffs(47)) == 0:
                pass
            else:
                fail()
        except Exception as e:
            fail(e)

    check()

    print("  jk_from_i")
    try:
        from pyxtal.symmetry import jk_from_i
    except Exception as e:
        fail(e)

    if passed():
        try:
            w = get_wyckoffs(2, organized=True)
            j, k = jk_from_i(1, w)
            if j == 1 and k == 0:
                pass
            else:
                print(j, k)
                fail()
        except Exception as e:
            fail(e)

    check()

    print("  i_from_jk")
    try:
        from pyxtal.symmetry import i_from_jk
    except Exception as e:
        fail(e)

    if passed():
        try:
            w = get_wyckoffs(2, organized=True)
            j, k = jk_from_i(1, w)
            i = i_from_jk(j, k, w)
            if i == 1:
                pass
            else:
                print(j, k)
                fail()
        except Exception as e:
            fail(e)

    check()

    print("  ss_string_from_ops")
    try:
        from pyxtal.symmetry import ss_string_from_ops
    except Exception as e:
        fail(e)

    if passed():
        try:
            strings = ["1", "4 . .", "2 3 ."]
            for i, sg in enumerate([1, 75, 195]):
                ops = get_wyckoffs(sg)[0]
                ss_string_from_ops(ops, sg, dim=3)
        except Exception as e:
            fail(e)

    check()

    print("  Wyckoff_position")
    try:
        from pyxtal.symmetry import Wyckoff_position
    except Exception as e:
        fail(e)

    if passed():
        try:
            wp = Wyckoff_position.from_group_and_index(20, 1)
        except Exception as e:
            fail(e)

    check()

    print("  Group")
    try:
        from pyxtal.symmetry import Group
    except Exception as e:
        fail(e)

    if passed():
        try:
            g3 = Group(230)
            g2 = Group(80, dim=2)
            g1 = Group(75, dim=1)
        except Exception as e:
            fail(e)

    check()

    # =====crystal=====
    print("pyxtal.crystal")
    reset()
    try:
        import pyxtal.crystal
    except Exception as e:
        fail(e)

    print("  random_crystal")
    try:
        from pyxtal.crystal import random_crystal
    except Exception as e:
        fail(e)

    if passed():
        try:
            c = random_crystal(1, ["H"], [1], 10.0)
            if c.valid is True:
                pass
            else:
                fail()
        except Exception as e:
            fail(e)

    check()

    print("  random_crystal_2D")
    try:
        from pyxtal.crystal import random_crystal_2D
    except Exception as e:
        fail(e)

    if passed():
        try:
            c = random_crystal_2D(1, ["H"], [1], 10.0)
            if c.valid is True:
                pass
            else:
                fail()
        except Exception as e:
            fail(e)

    check()

    # =====molecule=====
    print("pyxtal.molecule")
    reset()
    try:
        import pyxtal.molecule
    except Exception as e:
        fail(e)

    check()

    print("  Collections")
    try:
        from pyxtal.molecule import mol_from_collection
    except Exception as e:
        fail(e)

    if passed():
        try:
            h2o = mol_from_collection("H2O")
            ch4 = mol_from_collection("CH4")
        except Exception as e:
            fail(e)

    print("  get_inertia_tensor")
    try:
        from pyxtal.molecule import get_inertia_tensor
    except Exception as e:
        fail(e)

    if passed():
        try:
            get_inertia_tensor(h2o)
            get_inertia_tensor(ch4)
        except Exception as e:
            fail(e)

    check()

    print("  get_moment_of_inertia")
    try:
        from pyxtal.molecule import get_moment_of_inertia
    except Exception as e:
        fail(e)

    if passed():
        try:
            v = random_vector()
            get_moment_of_inertia(h2o, v)
            get_moment_of_inertia(ch4, v)
        except Exception as e:
            fail(e)

    check()

    print("  reoriented_molecule")
    try:
        from pyxtal.molecule import reoriented_molecule
    except Exception as e:
        fail(e)

    if passed():
        try:
            reoriented_molecule(h2o)
            reoriented_molecule(ch4)
        except Exception as e:
            fail(e)

    check()

    print("  orientation_in_wyckoff_position")
    try:
        from pyxtal.molecule import orientation_in_wyckoff_position
    except Exception as e:
        fail(e)

    if passed():
        try:
            w = get_wyckoffs(20)
            ws = get_wyckoff_symmetry(20, molecular=True)
            wp = Wyckoff_position.from_group_and_index(20, 1)
            orientation_in_wyckoff_position(h2o, wp)
            orientation_in_wyckoff_position(ch4, wp)
        except Exception as e:
            fail(e)

    check()

    # =====molecular_crystal=====
    print("pyxtal.molecular_crystal")
    reset()
    try:
        import pyxtal.crystal
    except Exception as e:
        fail(e)

    print("  molecular_crystal")
    try:
        from pyxtal.molecular_crystal import molecular_crystal
    except Exception as e:
        fail(e)

    if passed():
        try:
            c = molecular_crystal(1, ["H2O"], [1], 10.0)
            if c.valid is True:
                pass
            else:
                fail()
        except Exception as e:
            fail(e)

    check()

    print("  molecular_crystal_2D")
    try:
        from pyxtal.molecular_crystal import molecular_crystal_2D
    except Exception as e:
        fail(e)

    if passed():
        try:
            c = molecular_crystal_2D(1, ["H2O"], [1], 10.0)
            if c.valid is True:
                pass
            else:
                fail()
        except Exception as e:
            fail(e)

    check()

    end(condition=2)