AiiDA tools documentation¶
KpointsData tools¶
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aiida.tools.data.array.kpoints.
get_kpoints_path
(structure, method='seekpath', **kwargs)[source]¶ Returns a dictionary whose contents depend on the method but includes at least the following keys
- parameters: ParameterData node
The contents of the parameters depends on the method but contains at least the keys
- ‘point_coords’: a dictionary with ‘kpoints-label’: [float coordinates]
- ‘path’: a list of length-2 tuples, with the labels of the starting
- and ending point of each label section
The ‘seekpath’ method which is the default also returns the following additional nodes
- primitive_structure: StructureData with the primitive cell
- conv_structure: StructureData with the conventional cell
Note that the generated kpoints for the seekpath method only apply on the returned primitive_structure and not on the input structure that was provided
Parameters: - structure – a StructureData node
- method – the method to use for kpoint generation, options are ‘seekpath’ and ‘legacy’. It is strongly advised to use the default ‘seekpath’ as the ‘legacy’ implementation is known to have bugs for certain structure cells
- kwargs – optional keyword arguments that depend on the selected method
Returns: dictionary as described above in the docstring
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aiida.tools.data.array.kpoints.
get_explicit_kpoints_path
(structure, method='seekpath', **kwargs)[source]¶ Returns a dictionary whose contents depend on the method but includes at least the following keys
- parameters: ParameterData node
- explicit_kpoints: KpointsData node with explicit kpoints path
The contents of the parameters depends on the method but contains at least the keys
- ‘point_coords’: a dictionary with ‘kpoints-label’: [float coordinates]
- ‘path’: a list of length-2 tuples, with the labels of the starting
- and ending point of each label section
The ‘seekpath’ method which is the default also returns the following additional nodes
- primitive_structure: StructureData with the primitive cell
- conv_structure: StructureData with the conventional cell
Note that the generated kpoints for the seekpath method only apply on the returned primitive_structure and not on the input structure that was provided
Parameters: - structure – a StructureData node
- method – the method to use for kpoint generation, options are ‘seekpath’ and ‘legacy’. It is strongly advised to use the default ‘seekpath’ as the ‘legacy’ implementation is known to have bugs for certain structure cells
- kwargs – optional keyword arguments that depend on the selected method
Returns: dictionary as described above in the docstring
Seekpath submodule¶
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aiida.tools.data.array.kpoints.seekpath.
check_seekpath_is_installed
()[source]¶ Tries to import the Seekpath module. Raise ImportError if it cannot be imported
Raises: ImportError
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aiida.tools.data.array.kpoints.seekpath.
get_explicit_kpoints_path
(structure, parameters)[source]¶ Return the kpoint path for band structure (in scaled and absolute coordinates), given a crystal structure, using the paths proposed in the various publications (see description of the ‘recipe’ input parameter). The parameters are the same as get get_explicit_k_path in __init__, but here all structures are input and returned as AiiDA structures rather than tuples, and similarly k-points-related information as a AiiDA KpointsData class.
Parameters: - structure – The AiiDA StructureData for which we want to obtain the suggested path.
- parameters – A dictionary whose key-value pairs are passed as
additional kwargs to the
seekpath.get_explicit_k_path
function.
Returns: A dictionary with four nodes:
explicit_kpoints
: a KpointsData with the (explicit) kpoints (with labels set).parameters
: a ParameterData, whose content is the same dictionary as returned by theseekpath.get_explicit_k_path
function (see seekpath documentation), except that:conv_lattice
,conv_positions
,conv_types
are removed and replaced by theconv_structure
output nodeprimitive_lattice
,primitive_positions
,primitive_types
are removed and replaced by the primitive_structure output nodereciprocal_primitive_lattice
,explicit_kpoints_abs
,explicit_kpoints_rel
andexplicit_kpoints_labels
are removed and replaced by theexplicit_kpoints
output node
primitive_structure
: A StructureData with the primitive structureconv_structure
: A StructureData with the primitive structure
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aiida.tools.data.array.kpoints.seekpath.
get_kpoints_path
(structure, parameters)[source]¶ Return the kpoint path information for band structure given a crystal structure, using the paths from the chosen recipe/reference. The parameters are the same as get get_path in __init__, but here all structures are input and returned as AiiDA structures rather than tuples.
If you use this module, please cite the paper of the corresponding recipe (see documentation of seekpath).
Parameters: - structure – The crystal structure for which we want to obtain the suggested path. It should be an AiiDA StructureData object.
- parameters – A dictionary whose key-value pairs are passed as
additional kwargs to the
seekpath.get_path
function.
Returns: A dictionary with three nodes:
parameters
: a ParameterData, whose content is the same dictionary as returned by theseekpath.get_path
function (see seekpath documentation), except that:conv_lattice
,conv_positions
,conv_types
are removed and replaced by theconv_structure
output nodeprimitive_lattice
,primitive_positions
,primitive_types
are removed and replaced by theprimitive_structure
output node
primitive_structure
: A StructureData with the primitive structureconv_structure
: A StructureData with the primitive structure
Legacy submodule¶
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aiida.tools.data.array.kpoints.legacy.
analyze_cell
(cell=None, pbc=None)[source]¶ A function executed by the __init__ or by set_cell. If a cell is set, properties like a1, a2, a3, cosalpha, reciprocal_cell are set as well, although they are not stored in the DB. :note: units are Angstrom for the cell parameters, 1/Angstrom for the reciprocal cell parameters.
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aiida.tools.data.array.kpoints.legacy.
change_reference
(reciprocal_cell, kpoints, to_cartesian=True)[source]¶ Change reference system, from cartesian to crystal coordinates (units of b1,b2,b3) or viceversa.
Parameters: - reciprocal_cell – a 3x3 array representing the cell lattice vectors in reciprocal space
- kpoints – a list of (3) point coordinates
Return kpoints: a list of (3) point coordinates in the new reference
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aiida.tools.data.array.kpoints.legacy.
find_bravais_info
(cell, pbc, epsilon_length=1e-05, epsilon_angle=1e-05)[source]¶ Finds the Bravais lattice of the cell passed in input to the Kpoint class :note: We assume that the cell given by the cell property is the primitive unit cell.
Note
in 3D, this implementation expects that the structure is already standardized according to the Setyawan paper. If this is not the case, the kpoints and band structure returned will be incorrect. The only case that is dealt correctly by the library is the case when axes are swapped, where the library correctly takes this swapping/rotation into account to assign kpoint labels and coordinates.
Parameters: - cell – 3x3 array representing the structure cell lattice vectors
- pbc – 3-dimensional array of booleans signifying the periodic boundary conditions along each lattice vector passed in value as cartesian coordinates. Default: False.
- epsilon_length (float) – threshold on lengths comparison, used to get the bravais lattice info. It has to be used if the user wants to be sure the right symmetries are recognized.
- epsilon_angle (float) – threshold on angles comparison, used to get the bravais lattice info. It has to be used if the user wants to be sure the right symmetries are recognized.
Returns: a dictionary, with keys short_name, extended_name, index (index of the Bravais lattice), and sometimes variation (name of the variation of the Bravais lattice) and extra (a dictionary with extra parameters used by the get_kpoints_path method)
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aiida.tools.data.array.kpoints.legacy.
get_explicit_kpoints_path
(value=None, cell=None, pbc=None, kpoint_distance=None, cartesian=False, epsilon_length=1e-05, epsilon_angle=1e-05)[source]¶ Set a path of kpoints in the Brillouin zone.
Parameters: - value –
description of the path, in various possible formats.
None: automatically sets all irreducible high symmetry paths. Requires that a cell was set
or:
[('G','M'), (...), ...] [('G','M',30), (...), ...] [('G',(0,0,0),'M',(1,1,1)), (...), ...] [('G',(0,0,0),'M',(1,1,1),30), (...), ...]
- cell – 3x3 array representing the structure cell lattice vectors
- pbc – 3-dimensional array of booleans signifying the periodic boundary conditions along each lattice vector
- kpoint_distance (float) – parameter controlling the distance between kpoints. Distance is given in crystal coordinates, i.e. the distance is computed in the space of b1,b2,b3. The distance set will be the closest possible to this value, compatible with the requirement of putting equispaced points between two special points (since extrema are included).
- cartesian (bool) – if set to true, reads the coordinates eventually passed in value as cartesian coordinates. Default: False.
- epsilon_length (float) – threshold on lengths comparison, used to get the bravais lattice info. It has to be used if the user wants to be sure the right symmetries are recognized.
- epsilon_angle (float) – threshold on angles comparison, used to get the bravais lattice info. It has to be used if the user wants to be sure the right symmetries are recognized.
Returns: point_coordinates, path, bravais_info, explicit_kpoints, labels
- value –
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aiida.tools.data.array.kpoints.legacy.
get_kpoints_path
(cell, pbc=None, cartesian=False, epsilon_length=1e-05, epsilon_angle=1e-05)[source]¶ Get the special point and path of a given structure.
Note
in 3D, this implementation expects that the structure is already standardized according to the Setyawan paper. If this is not the case, the kpoints and band structure returned will be incorrect. The only case that is dealt correctly by the library is the case when axes are swapped, where the library correctly takes this swapping/rotation into account to assign kpoint labels and coordinates.
- In 2D, coordinates are based on the paper: R. Ramirez and M. C. Bohm, Int. J. Quant. Chem., XXX, pp. 391-411 (1986)
- In 3D, coordinates are based on the paper: W. Setyawan, S. Curtarolo, Comp. Mat. Sci. 49, 299 (2010)
Parameters: - cell – 3x3 array representing the structure cell lattice vectors
- pbc – 3-dimensional array of booleans signifying the periodic boundary conditions along each lattice vector
- cartesian – If true, returns points in cartesian coordinates. Crystal coordinates otherwise. Default=False
- epsilon_length – threshold on lengths comparison, used to get the bravais lattice info
- epsilon_angle – threshold on angles comparison, used to get the bravais lattice info
Return special_points,path: special_points: a dictionary of point_name:point_coords key,values.
path: the suggested path which goes through all high symmetry lines. A list of lists for all path segments. e.g.
[('G','X'),('X','M'),...]
It’s not necessarily a continuous line.Note: We assume that the cell given by the cell property is the primitive unit cell
StructureData tools¶
-
aiida.tools.data.structure.
structure_to_spglib_tuple
(structure)[source]¶ Convert an AiiDA structure to a tuple of the format (cell, scaled_positions, element_numbers).
Parameters: structure – the AiiDA structure Returns: (structure_tuple, kind_info, kinds) where structure_tuple is a tuple of format (cell, scaled_positions, element_numbers); kind_info is a dictionary mapping the kind_names to the numbers used in element_numbers. When possible, it uses the Z number of the element, otherwise it uses numbers > 1000; kinds is a list of the kinds of the structure.
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aiida.tools.data.structure.
spglib_tuple_to_structure
(structure_tuple, kind_info=None, kinds=None)[source]¶ Convert a tuple of the format (cell, scaled_positions, element_numbers) to an AiiDA structure.
Unless the element_numbers are identical to the Z number of the atoms, you should pass both kind_info and kinds, with the same format as returned by get_tuple_from_aiida_structure.
Parameters: - structure_tuple – the structure in format (structure_tuple, kind_info)
- kind_info – a dictionary mapping the kind_names to the numbers used in element_numbers. If not provided, assumes {element_name: element_Z}
- kinds – a list of the kinds of the structure.