DAMASK_EICMD/python/damask/_configmaterial.py

import numpy as np

from . import Config
from . import Rotation
from . import Orientation

class ConfigMaterial(Config):
    """Material configuration."""

    _defaults = {'material': [],
                 'homogenization': {},
                 'phase': {}}

    def __init__(self,d=_defaults):
        """Initialize object with default dictionary keys."""
        super().__init__(d)


    def save(self,fname='material.yaml',**kwargs):
        """
        Save to yaml file.

        Parameters
        ----------
        fname : file, str, or pathlib.Path, optional
            Filename or file for writing. Defaults to 'material.yaml'.
        **kwargs
            Keyword arguments parsed to yaml.dump.

        """
        super().save(fname,**kwargs)


    @classmethod
    def load(cls,fname='material.yaml'):
        """
        Load from yaml file.

        Parameters
        ----------
        fname : file, str, or pathlib.Path, optional
            Filename or file for writing. Defaults to 'material.yaml'.

        """
        return super(ConfigMaterial,cls).load(fname)


    @staticmethod
    def from_table(table,constituents={},**kwargs):
        """
        Load from an ASCII table.

        Parameters
        ----------
        table : damask.Table
            Table that contains material information.
        constituents : dict, optional
            Entries for 'constituents'. The key is the name and the value specifies
            the label of the data column in the table
        **kwargs
            Keyword arguments where the key is the name and  the value specifies
            the label of the data column in the table

        Examples
        --------
        >>> import damask
        >>> import damask.ConfigMaterial as cm
        >>> t = damask.Table.load('small.txt')
        >>> t
            pos  pos  pos   qu   qu    qu    qu   phase    homog
        0    0    0    0  0.19  0.8   0.24 -0.51  Aluminum SX
        1    1    0    0  0.8   0.19  0.24 -0.51  Steel    SX
        >>> cm.from_table(t,{'O':'qu','phase':'phase'},homogenization='homog')
        material:
          - constituents:
              - O: [0.19, 0.8, 0.24, -0.51]
                v: 1.0
                phase: Aluminum
            homogenization: SX
          - constituents:
              - O: [0.8, 0.19, 0.24, -0.51]
                v: 1.0
                phase: Steel
            homogenization: SX
        homogenization: {}
        phase: {}

        """
        constituents_ = {k:table.get(v) for k,v in constituents.items()}
        kwargs_       = {k:table.get(v) for k,v in kwargs.items()}

        _,idx = np.unique(np.hstack(list({**constituents_,**kwargs_}.values())),return_index=True,axis=0)

        idx = np.sort(idx)
        constituents_ = {k:np.atleast_1d(v[idx].squeeze()) for k,v in constituents_.items()}
        kwargs_       = {k:np.atleast_1d(v[idx].squeeze()) for k,v in kwargs_.items()}

        return ConfigMaterial().material_add(constituents_,**kwargs_)


    @property
    def is_complete(self):
        """Check for completeness."""
        ok = True
        for top_level in ['homogenization','phase','material']:
            ok &= top_level in self
            if top_level not in self: print(f'{top_level} entry missing')

        if ok:
           ok &= len(self['material']) > 0
           if len(self['material']) < 1: print('Incomplete material definition')

        if ok:
            homogenization = set()
            phase          = set()
            for i,v in enumerate(self['material']):
                if 'homogenization' in v:
                    homogenization.add(v['homogenization'])
                else:
                    print(f'No homogenization specified in material {i}')
                    ok = False

                if 'constituents' in v:
                    for ii,vv in enumerate(v['constituents']):
                        if 'O' not in vv:
                            print('No orientation specified in constituent {ii} of material {i}')
                            ok = False
                        if 'phase' in vv:
                            phase.add(vv['phase'])
                        else:
                            print(f'No phase specified in constituent {ii} of material {i}')
                            ok = False

            for k,v in self['phase'].items():
                if 'lattice' not in v:
                    print(f'No lattice specified in phase {k}')
                    ok = False

            for k,v in self['homogenization'].items():
                if 'N_constituents' not in v:
                    print(f'No. of constituents not specified in homogenization {k}')
                    ok = False

            if phase - set(self['phase']):
                print(f'Phase(s) {phase-set(self["phase"])} missing')
                ok = False
            if homogenization - set(self['homogenization']):
                print(f'Homogenization(s) {homogenization-set(self["homogenization"])} missing')
                ok = False

        return ok


    @property
    def is_valid(self):
        """Check for valid file layout."""
        ok = True

        if 'phase' in self:
            for k,v in self['phase'].items():
                if 'lattice' in v:
                    try:
                        Orientation(lattice=v['lattice'])
                    except KeyError:
                        s = v['lattice']
                        print(f"Invalid lattice: '{s}' in phase '{k}'")
                        ok = False

        if 'material' in self:
            for i,m in enumerate(self['material']):
                if 'constituents' in m:
                    v = 0.0
                    for c in m['constituents']:
                        v+= float(c['v'])
                        if 'O' in c:
                            try:
                                Rotation.from_quaternion(c['O'])
                            except ValueError:
                                o = c['O']
                                print(f"Invalid orientation: '{o}' in material '{i}'")
                                ok = False
                    if not np.isclose(v,1.0):
                        print(f"Invalid total fraction (v) '{v}' in material '{i}'")
                        ok = False

        return ok


    def material_rename_phase(self,mapping,ID=None,constituent=None):
        """
        Change phase name in material.

        Parameters
        ----------
        mapping: dictionary
            Mapping from old name to new name
        ID: list of ints, optional
            Limit renaming to selected material IDs.
        constituent: list of ints, optional
            Limit renaming to selected constituents.

        """
        dup = self.copy()
        for i,m in enumerate(dup['material']):
            if ID and i not in ID: continue
            for c in m['constituents']:
                if constituent is not None and c not in constituent: continue
                try:
                    c['phase'] = mapping[c['phase']]
                except KeyError:
                    continue
        return dup


    def material_rename_homogenization(self,mapping,ID=None):
        """
        Change homogenization name in material.

        Parameters
        ----------
        mapping: dictionary
            Mapping from old name to new name
        ID: list of ints, optional
            Limit renaming to selected homogenization IDs.

        """
        dup = self.copy()
        for i,m in enumerate(dup['material']):
            if ID and i not in ID: continue
            try:
                m['homogenization'] = mapping[m['homogenization']]
            except KeyError:
                continue
        return dup


    def material_add(self,constituents=None,**kwargs):
        """
        Add material entries.

        Parameters
        ----------
        constituents : dict, optional
            Entries for 'constituents' as key-value pair.
        **kwargs
            Key-value pairs.

        Examples
        --------
        >>> import damask
        >>> O = damask.Rotation.from_random(3).as_quaternion()
        >>> phase = ['Aluminum','Steel','Aluminum']
        >>> m = damask.ConfigMaterial().material_add(constituents={'phase':phase,'O':O},
        ...                                          homogenization='SX')
        >>> m
        material:
          - constituents:
              - O: [0.577764, -0.146299, -0.617669, 0.513010]
                v: 1.0
                phase: Aluminum
            homogenization: SX
          - constituents:
              - O: [0.184176, 0.340305, 0.737247, 0.553840]
                v: 1.0
                phase: Steel
            homogenization: SX
          - constituents:
              - O: [0.0886257, -0.144848, 0.615674, -0.769487]
                v: 1.0
                phase: Aluminum
            homogenization: SX
        homogenization: {}
        phase: {}

        """
        length = -1
        for v in kwargs.values():
            if hasattr(v,'__len__') and not isinstance(v,str):
                if length != -1 and len(v) != length:
                    raise ValueError('Cannot add entries of different length')
                else:
                    length = len(v)
        length = max(1,length)

        c = [{} for _ in range(length)] if constituents is None else \
            [{'constituents':u} for u in ConfigMaterial._constituents(**constituents)]

        if len(c) == 1: c = [c[0] for _ in range(length)]

        if length != 1 and length != len(c):
            raise ValueError('Cannot add entries of different length')

        for k,v in kwargs.items():
            if hasattr(v,'__len__') and not isinstance(v,str):
                for i,vv in enumerate(v):
                    c[i][k] = vv.item() if isinstance(vv,np.generic) else vv
            else:
                for i in range(len(c)):
                    c[i][k] = v
        dup = self.copy()
        dup['material'] = dup['material'] + c if 'material' in dup else c

        return dup


    @staticmethod
    def _constituents(N=1,**kwargs):
        """Construct list of constituents."""
        N_material=1
        for v in kwargs.values():
            if hasattr(v,'__len__') and not isinstance(v,str): N_material = len(v)

        if N == 1:
            m = [[{'v':1.0}] for _ in range(N_material)]
            for k,v in kwargs.items():
                if hasattr(v,'__len__') and not isinstance(v,str):
                    if len(v) != N_material:
                        raise ValueError('Cannot add entries of different length')
                    for i,vv in enumerate(np.array(v)):
                        m[i][0][k] = vv.item() if isinstance(vv,np.generic) else vv
                else:
                    for i in range(N_material):
                        m[i][0][k] = v
            return m
        else:
            raise NotImplementedError
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`import numpy as np`

better name, subclassing for easy extension to load 2020-09-30 11:23:25 +05:30			`from . import Config`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`from . import Rotation`
WIP: refactoring Orientation=Symmetry+Rotation, Lattice=subclass of Sym, and Crystal=Lattice+Rotation 2020-11-10 01:50:56 +05:30			`from . import Orientation`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30
better name, subclassing for easy extension to load 2020-09-30 11:23:25 +05:30			`class ConfigMaterial(Config):`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`"""Material configuration."""`

need to pass init argument to dict superclass 2020-12-18 04:38:55 +05:30			`_defaults = {'material': [],`
			`'homogenization': {},`
			`'phase': {}}`

avoid adding to existing data, i.e. when reading a file 2021-01-03 16:40:39 +05:30			`def __init__(self,d=_defaults):`
need to pass init argument to dict superclass 2020-12-18 04:38:55 +05:30			`"""Initialize object with default dictionary keys."""`
			`super().__init__(d)`
avoid adding to existing data, i.e. when reading a file 2021-01-03 16:40:39 +05:30
preinitialize a ConfigMaterial object with 'constituents','homogenization','phase' keys 2020-12-17 21:17:56 +05:30
allow user do control output style (numerics.yaml looks strange otherwise) 2020-09-30 16:02:37 +05:30			`def save(self,fname='material.yaml',**kwargs):`
completely tested 2020-09-30 12:19:55 +05:30			`"""`
			`Save to yaml file.`

			`Parameters`
			`----------`
			`fname : file, str, or pathlib.Path, optional`
			`Filename or file for writing. Defaults to 'material.yaml'.`
documented 2020-10-09 17:49:19 +05:30			`**kwargs`
allow user do control output style (numerics.yaml looks strange otherwise) 2020-09-30 16:02:37 +05:30			`Keyword arguments parsed to yaml.dump.`
completely tested 2020-09-30 12:19:55 +05:30
			`"""`
allow user do control output style (numerics.yaml looks strange otherwise) 2020-09-30 16:02:37 +05:30			`super().save(fname,**kwargs)`
completely tested 2020-09-30 12:19:55 +05:30
generate configuration from table 2020-10-09 11:15:20 +05:30
symmetric behavior load/save default name reflects fact that material.yaml has a fixed name 2020-11-05 01:44:08 +05:30			`@classmethod`
			`def load(cls,fname='material.yaml'):`
			`"""`
			`Load from yaml file.`

			`Parameters`
			`----------`
			`fname : file, str, or pathlib.Path, optional`
			`Filename or file for writing. Defaults to 'material.yaml'.`

			`"""`
			`return super(ConfigMaterial,cls).load(fname)`


generate configuration from table 2020-10-09 11:15:20 +05:30			`@staticmethod`
explicit is better then implicit: user should sort Table according to coordinates to create geometry. This allows to have consistent behavior for from_table in Geom and ConfigMaterial. We always ensure to keep the order 2020-10-29 11:47:41 +05:30			`def from_table(table,constituents={},**kwargs):`
documented 2020-10-09 17:49:19 +05:30			`"""`
			`Load from an ASCII table.`

			`Parameters`
			`----------`
better fitting name load implies a more direct takeover. 2020-10-09 22:49:05 +05:30			`table : damask.Table`
documented 2020-10-09 17:49:19 +05:30			`Table that contains material information.`
			`constituents : dict, optional`
			`Entries for 'constituents'. The key is the name and the value specifies`
			`the label of the data column in the table`
			`**kwargs`
			`Keyword arguments where the key is the name and the value specifies`
			`the label of the data column in the table`

			`Examples`
			`--------`
			`>>> import damask`
			`>>> import damask.ConfigMaterial as cm`
better fitting name load implies a more direct takeover. 2020-10-09 22:49:05 +05:30			`>>> t = damask.Table.load('small.txt')`
			`>>> t`
documented 2020-10-09 17:49:19 +05:30			`pos pos pos qu qu qu qu phase homog`
			`0 0 0 0 0.19 0.8 0.24 -0.51 Aluminum SX`
			`1 1 0 0 0.8 0.19 0.24 -0.51 Steel SX`
explicit is better then implicit: user should sort Table according to coordinates to create geometry. This allows to have consistent behavior for from_table in Geom and ConfigMaterial. We always ensure to keep the order 2020-10-29 11:47:41 +05:30			`>>> cm.from_table(t,{'O':'qu','phase':'phase'},homogenization='homog')`
documented 2020-10-09 17:49:19 +05:30			`material:`
			`- constituents:`
			`- O: [0.19, 0.8, 0.24, -0.51]`
fraction --> v 2021-02-04 18:16:01 +05:30			`v: 1.0`
documented 2020-10-09 17:49:19 +05:30			`phase: Aluminum`
			`homogenization: SX`
			`- constituents:`
			`- O: [0.8, 0.19, 0.24, -0.51]`
fraction --> v 2021-02-04 18:16:01 +05:30			`v: 1.0`
documented 2020-10-09 17:49:19 +05:30			`phase: Steel`
			`homogenization: SX`
Examples reflect actual behavior 2020-12-18 11:39:05 +05:30			`homogenization: {}`
			`phase: {}`
documented 2020-10-09 17:49:19 +05:30
			`"""`
explicit is better then implicit: user should sort Table according to coordinates to create geometry. This allows to have consistent behavior for from_table in Geom and ConfigMaterial. We always ensure to keep the order 2020-10-29 11:47:41 +05:30			`constituents_ = {k:table.get(v) for k,v in constituents.items()}`
			`kwargs_ = {k:table.get(v) for k,v in kwargs.items()}`
generate configuration from table 2020-10-09 11:15:20 +05:30
			`_,idx = np.unique(np.hstack(list({constituents_,kwargs_}.values())),return_index=True,axis=0)`

explicit is better then implicit: user should sort Table according to coordinates to create geometry. This allows to have consistent behavior for from_table in Geom and ConfigMaterial. We always ensure to keep the order 2020-10-29 11:47:41 +05:30			`idx = np.sort(idx)`
don't squeeze into scalar 2020-10-31 02:54:27 +05:30			`constituents_ = {k:np.atleast_1d(v[idx].squeeze()) for k,v in constituents_.items()}`
			`kwargs_ = {k:np.atleast_1d(v[idx].squeeze()) for k,v in kwargs_.items()}`
generate configuration from table 2020-10-09 11:15:20 +05:30
			`return ConfigMaterial().material_add(constituents_,**kwargs_)`


first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`@property`
			`def is_complete(self):`
			`"""Check for completeness."""`
inform the user about missing items in material.yaml 2020-09-21 22:40:20 +05:30			`ok = True`
new names part 2 2020-10-02 21:21:33 +05:30			`for top_level in ['homogenization','phase','material']:`
inform the user about missing items in material.yaml 2020-09-21 22:40:20 +05:30			`ok &= top_level in self`
			`if top_level not in self: print(f'{top_level} entry missing')`

			`if ok:`
new names part 2 2020-10-02 21:21:33 +05:30			`ok &= len(self['material']) > 0`
			`if len(self['material']) < 1: print('Incomplete material definition')`
inform the user about missing items in material.yaml 2020-09-21 22:40:20 +05:30
			`if ok:`
			`homogenization = set()`
			`phase = set()`
new names part 2 2020-10-02 21:21:33 +05:30			`for i,v in enumerate(self['material']):`
inform the user about missing items in material.yaml 2020-09-21 22:40:20 +05:30			`if 'homogenization' in v:`
			`homogenization.add(v['homogenization'])`
			`else:`
new names part 2 2020-10-02 21:21:33 +05:30			`print(f'No homogenization specified in material {i}')`
inform the user about missing items in material.yaml 2020-09-21 22:40:20 +05:30			`ok = False`

			`if 'constituents' in v:`
			`for ii,vv in enumerate(v['constituents']):`
new names part 2 2020-10-02 21:21:33 +05:30			`if 'O' not in vv:`
			`print('No orientation specified in constituent {ii} of material {i}')`
inform the user about missing items in material.yaml 2020-09-21 22:40:20 +05:30			`ok = False`
			`if 'phase' in vv:`
			`phase.add(vv['phase'])`
			`else:`
new names part 2 2020-10-02 21:21:33 +05:30			`print(f'No phase specified in constituent {ii} of material {i}')`
inform the user about missing items in material.yaml 2020-09-21 22:40:20 +05:30			`ok = False`

			`for k,v in self['phase'].items():`
			`if 'lattice' not in v:`
			`print(f'No lattice specified in phase {k}')`
			`ok = False`

fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30			`for k,v in self['homogenization'].items():`
			`if 'N_constituents' not in v:`
			`print(f'No. of constituents not specified in homogenization {k}')`
			`ok = False`
inform the user about missing items in material.yaml 2020-09-21 22:40:20 +05:30
			`if phase - set(self['phase']):`
			`print(f'Phase(s) {phase-set(self["phase"])} missing')`
			`ok = False`
			`if homogenization - set(self['homogenization']):`
			`print(f'Homogenization(s) {homogenization-set(self["homogenization"])} missing')`
			`ok = False`

			`return ok`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30

			`@property`
			`def is_valid(self):`
			`"""Check for valid file layout."""`
			`ok = True`

			`if 'phase' in self:`
inform the user about missing items in material.yaml 2020-09-21 22:40:20 +05:30			`for k,v in self['phase'].items():`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`if 'lattice' in v:`
			`try:`
WIP: refactoring Orientation=Symmetry+Rotation, Lattice=subclass of Sym, and Crystal=Lattice+Rotation 2020-11-10 01:50:56 +05:30			`Orientation(lattice=v['lattice'])`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`except KeyError:`
			`s = v['lattice']`
			`print(f"Invalid lattice: '{s}' in phase '{k}'")`
			`ok = False`

new names part 2 2020-10-02 21:21:33 +05:30			`if 'material' in self:`
temperature not needed for pure mechanics would also require to define thermal homogenization 2021-02-07 19:35:38 +05:30			`for i,m in enumerate(self['material']):`
			`if 'constituents' in m:`
			`v = 0.0`
			`for c in m['constituents']:`
			`v+= float(c['v'])`
new names part 2 2020-10-02 21:21:33 +05:30			`if 'O' in c:`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`try:`
new names part 2 2020-10-02 21:21:33 +05:30			`Rotation.from_quaternion(c['O'])`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`except ValueError:`
new names part 2 2020-10-02 21:21:33 +05:30			`o = c['O']`
			`print(f"Invalid orientation: '{o}' in material '{i}'")`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`ok = False`
temperature not needed for pure mechanics would also require to define thermal homogenization 2021-02-07 19:35:38 +05:30			`if not np.isclose(v,1.0):`
			`print(f"Invalid total fraction (v) '{v}' in material '{i}'")`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`ok = False`

			`return ok`


new names part 2 2020-10-02 21:21:33 +05:30			`def material_rename_phase(self,mapping,ID=None,constituent=None):`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`"""`
new names part 2 2020-10-02 21:21:33 +05:30			`Change phase name in material.`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30
			`Parameters`
			`----------`
			`mapping: dictionary`
			`Mapping from old name to new name`
			`ID: list of ints, optional`
new names part 2 2020-10-02 21:21:33 +05:30			`Limit renaming to selected material IDs.`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`constituent: list of ints, optional`
			`Limit renaming to selected constituents.`

			`"""`
consistent copy functionality 2021-01-03 16:33:40 +05:30			`dup = self.copy()`
new names part 2 2020-10-02 21:21:33 +05:30			`for i,m in enumerate(dup['material']):`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`if ID and i not in ID: continue`
			`for c in m['constituents']:`
			`if constituent is not None and c not in constituent: continue`
			`try:`
			`c['phase'] = mapping[c['phase']]`
			`except KeyError:`
			`continue`
			`return dup`


new names part 2 2020-10-02 21:21:33 +05:30			`def material_rename_homogenization(self,mapping,ID=None):`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`"""`
new names part 2 2020-10-02 21:21:33 +05:30			`Change homogenization name in material.`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30
			`Parameters`
			`----------`
			`mapping: dictionary`
			`Mapping from old name to new name`
			`ID: list of ints, optional`
			`Limit renaming to selected homogenization IDs.`

			`"""`
consistent copy functionality 2021-01-03 16:33:40 +05:30			`dup = self.copy()`
new names part 2 2020-10-02 21:21:33 +05:30			`for i,m in enumerate(dup['material']):`
first version of a pyaml based class for material configuration pyaml is (again) actively maintained and the ruamel.pyaml API is instable 2020-09-19 16:31:19 +05:30			`if ID and i not in ID: continue`
			`try:`
			`m['homogenization'] = mapping[m['homogenization']]`
			`except KeyError:`
			`continue`
			`return dup`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30

corrected handling of scalar/array arguments + more tests + corrected handling of numpy types 2020-11-14 21:43:38 +05:30			`def material_add(self,constituents=None,**kwargs):`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30			`"""`
			`Add material entries.`

			`Parameters`
			`----------`
corrected handling of scalar/array arguments + more tests + corrected handling of numpy types 2020-11-14 21:43:38 +05:30			`constituents : dict, optional`
documentation was misleading 2020-10-29 02:22:51 +05:30			`Entries for 'constituents' as key-value pair.`
documented 2020-10-09 17:49:19 +05:30			`**kwargs`
documentation was misleading 2020-10-29 02:22:51 +05:30			`Key-value pairs.`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30
			`Examples`
			`--------`
documented 2020-10-09 17:49:19 +05:30			`>>> import damask`
			`>>> O = damask.Rotation.from_random(3).as_quaternion()`
			`>>> phase = ['Aluminum','Steel','Aluminum']`
simplified 2020-10-30 00:39:13 +05:30			`>>> m = damask.ConfigMaterial().material_add(constituents={'phase':phase,'O':O},`
			`... homogenization='SX')`
			`>>> m`
documented 2020-10-09 17:49:19 +05:30			`material:`
			`- constituents:`
			`- O: [0.577764, -0.146299, -0.617669, 0.513010]`
fraction --> v 2021-02-04 18:16:01 +05:30			`v: 1.0`
documented 2020-10-09 17:49:19 +05:30			`phase: Aluminum`
			`homogenization: SX`
			`- constituents:`
			`- O: [0.184176, 0.340305, 0.737247, 0.553840]`
fraction --> v 2021-02-04 18:16:01 +05:30			`v: 1.0`
documented 2020-10-09 17:49:19 +05:30			`phase: Steel`
			`homogenization: SX`
			`- constituents:`
			`- O: [0.0886257, -0.144848, 0.615674, -0.769487]`
fraction --> v 2021-02-04 18:16:01 +05:30			`v: 1.0`
documented 2020-10-09 17:49:19 +05:30			`phase: Aluminum`
			`homogenization: SX`
Examples reflect actual behavior 2020-12-18 11:39:05 +05:30			`homogenization: {}`
			`phase: {}`
better fitting name load implies a more direct takeover. 2020-10-09 22:49:05 +05:30
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30			`"""`
corrected handling of scalar/array arguments + more tests + corrected handling of numpy types 2020-11-14 21:43:38 +05:30			`length = -1`
			`for v in kwargs.values():`
generate configuration from table 2020-10-09 11:15:20 +05:30			`if hasattr(v,'__len__') and not isinstance(v,str):`
corrected handling of scalar/array arguments + more tests + corrected handling of numpy types 2020-11-14 21:43:38 +05:30			`if length != -1 and len(v) != length:`
documentation was misleading 2020-10-29 02:22:51 +05:30			`raise ValueError('Cannot add entries of different length')`
corrected handling of scalar/array arguments + more tests + corrected handling of numpy types 2020-11-14 21:43:38 +05:30			`else:`
			`length = len(v)`
			`length = max(1,length)`

			`c = [{} for _ in range(length)] if constituents is None else \`
			`[{'constituents':u} for u in ConfigMaterial._constituents(**constituents)]`
preinitialize a ConfigMaterial object with 'constituents','homogenization','phase' keys 2020-12-17 21:17:56 +05:30
copy not needed YAML writer does not write out references anymore 2021-01-03 16:37:02 +05:30			`if len(c) == 1: c = [c[0] for _ in range(length)]`
corrected handling of scalar/array arguments + more tests + corrected handling of numpy types 2020-11-14 21:43:38 +05:30
			`if length != 1 and length != len(c):`
			`raise ValueError('Cannot add entries of different length')`

			`for k,v in kwargs.items():`
			`if hasattr(v,'__len__') and not isinstance(v,str):`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30			`for i,vv in enumerate(v):`
corrected handling of scalar/array arguments + more tests + corrected handling of numpy types 2020-11-14 21:43:38 +05:30			`c[i][k] = vv.item() if isinstance(vv,np.generic) else vv`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30			`else:`
			`for i in range(len(c)):`
			`c[i][k] = v`
copy not needed YAML writer does not write out references anymore 2021-01-03 16:37:02 +05:30			`dup = self.copy()`
simplified 2020-10-30 00:39:13 +05:30			`dup['material'] = dup['material'] + c if 'material' in dup else c`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30
			`return dup`


			`@staticmethod`
			`def _constituents(N=1,**kwargs):`
generate configuration from table 2020-10-09 11:15:20 +05:30			`"""Construct list of constituents."""`
allow one homogenization quite useless ... 2020-10-31 02:56:02 +05:30			`N_material=1`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30			`for v in kwargs.values():`
			`if hasattr(v,'__len__') and not isinstance(v,str): N_material = len(v)`

			`if N == 1:`
fraction --> v 2021-02-04 18:16:01 +05:30			`m = [[{'v':1.0}] for _ in range(N_material)]`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30			`for k,v in kwargs.items():`
			`if hasattr(v,'__len__') and not isinstance(v,str):`
			`if len(v) != N_material:`
documentation was misleading 2020-10-29 02:22:51 +05:30			`raise ValueError('Cannot add entries of different length')`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30			`for i,vv in enumerate(np.array(v)):`
corrected handling of scalar/array arguments + more tests + corrected handling of numpy types 2020-11-14 21:43:38 +05:30			`m[i][0][k] = vv.item() if isinstance(vv,np.generic) else vv`
fairly general function to generate material configuration 2020-10-09 00:59:58 +05:30			`else:`
			`for i in range(N_material):`
			`m[i][0][k] = v`
			`return m`
			`else:`
			`raise NotImplementedError`