598 lines
18 KiB
Python
598 lines
18 KiB
Python
import re
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import copy
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from typing import Optional, Union, Tuple, List, Iterable
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import pandas as pd
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import numpy as np
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from ._typehints import FileHandle
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from . import util
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class Table:
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"""Manipulate multi-dimensional spreadsheet-like data."""
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def __init__(self,
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shapes: dict = {},
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data: Optional[np.ndarray] = None,
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comments: Union[None, str, Iterable[str]] = None):
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"""
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New spreadsheet.
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Parameters
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----------
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shapes : dict with str:tuple pairs, optional
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Shapes of the data columns. Mandatory if 'data' is given.
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For instance, 'F':(3,3) for a deformation gradient, or 'r':(1,) for a scalar.
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data : numpy.ndarray or pandas.DataFrame, optional
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Data. Existing column labels of a pandas.DataFrame will be replaced.
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comments : (iterable of) str, optional
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Additional, human-readable information.
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"""
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self.comments = [] if comments is None else \
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[comments] if isinstance(comments,str) else \
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[str(c) for c in comments]
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self.shapes = { k:(v,) if isinstance(v,(np.int64,np.int32,int)) else v for k,v in shapes.items() }
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self.data = pd.DataFrame(data=data)
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self._relabel('uniform')
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def __repr__(self) -> str:
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"""
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Return repr(self).
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Give short, human-readable summary.
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"""
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self._relabel('shapes')
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data_repr = self.data.__repr__()
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self._relabel('uniform')
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return '\n'.join(['# '+c for c in self.comments])+'\n'+data_repr
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def __eq__(self,
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other: object) -> bool:
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"""
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Return self==other.
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Test equality of other.
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"""
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return NotImplemented if not isinstance(other,Table) else \
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self.shapes == other.shapes and self.data.equals(other.data)
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def __getitem__(self,
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item: Union[slice, Tuple[slice, ...]]) -> 'Table':
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"""
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Return self[item].
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Return slice according to item.
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Parameters
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----------
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item : row and/or column indexer
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Slice to select from Table.
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Returns
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-------
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slice : damask.Table
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Sliced part of the Table.
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Examples
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--------
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>>> import damask
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>>> import numpy as np
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>>> tbl = damask.Table(shapes=dict(colA=(1,),colB=(1,),colC=(1,)),
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... data=np.arange(12).reshape((4,3)))
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>>> tbl['colA','colB']
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colA colB
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0 0 1
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1 3 4
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2 6 7
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3 9 10
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>>> tbl[::2,['colB','colA']]
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colB colA
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0 1 0
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2 7 6
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>>> tbl[[True,False,False,True],'colB']
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colB
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0 1
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3 10
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"""
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item_ = (item,slice(None,None,None)) if isinstance(item,(slice,np.ndarray)) else \
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(np.array(item),slice(None,None,None)) if isinstance(item,list) and np.array(item).dtype == np.bool_ else \
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(np.array(item[0]),item[1]) if isinstance(item[0],list) else \
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item if isinstance(item[0],(slice,np.ndarray)) else \
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(slice(None,None,None),item)
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sliced = self.data.loc[item_]
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cols = np.array(sliced.columns if isinstance(sliced,pd.core.frame.DataFrame) else [item_[1]])
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_,idx = np.unique(cols,return_index=True)
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return self.__class__(data=sliced,
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shapes={k:self.shapes[k] for k in cols[np.sort(idx)]},
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comments=self.comments)
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def __len__(self) -> int:
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"""
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Return len(self).
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Number of rows.
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"""
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return len(self.data)
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def __copy__(self) -> 'Table':
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"""
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Return deepcopy(self).
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Create deep copy.
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"""
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return copy.deepcopy(self)
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copy = __copy__
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def _label(self,
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what: Union[str, List[str]],
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how: str) -> List[str]:
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"""
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Expand labels according to data shape.
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Parameters
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----------
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what : str or list
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Labels to expand.
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how : {'uniform, 'shapes', 'linear'}
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Mode of labeling.
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'uniform' ==> v v v
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'shapes' ==> 3:v v v
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'linear' ==> 1_v 2_v 3_v
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"""
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what = [what] if isinstance(what,str) else what
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labels = []
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for label in what:
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shape = self.shapes[label]
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size = np.prod(shape,dtype=np.int64)
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if how == 'uniform':
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labels += [label] * size
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elif how == 'shapes':
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labels += [('' if size == 1 or i>0 else f'{util.srepr(shape,"x")}:')+label for i in range(size)]
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elif how == 'linear':
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labels += [('' if size == 1 else f'{i+1}_')+label for i in range(size)]
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else:
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raise KeyError
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return labels
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def _relabel(self,
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how: str):
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"""
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Modify labeling of data in-place.
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Parameters
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----------
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how : {'uniform, 'shapes', 'linear'}
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Mode of labeling.
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'uniform' ==> v v v
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'shapes' ==> 3:v v v
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'linear' ==> 1_v 2_v 3_v
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"""
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self.data.columns = self._label(self.shapes,how) # type: ignore
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def isclose(self,
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other: 'Table',
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rtol: float = 1e-5,
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atol: float = 1e-8,
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equal_nan: bool = True) -> np.ndarray:
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"""
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Report where values are approximately equal to corresponding ones of other Table.
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Parameters
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----------
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other : damask.Table
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Table to compare against.
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rtol : float, optional
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Relative tolerance of equality.
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atol : float, optional
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Absolute tolerance of equality.
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equal_nan : bool, optional
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Consider matching NaN values as equal. Defaults to True.
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Returns
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-------
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mask : numpy.ndarray of bool
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Mask indicating where corresponding table values are close.
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"""
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return np.isclose( self.data.to_numpy(),
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other.data.to_numpy(),
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rtol=rtol,
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atol=atol,
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equal_nan=equal_nan)
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def allclose(self,
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other: 'Table',
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rtol: float = 1e-5,
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atol: float = 1e-8,
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equal_nan: bool = True) -> bool:
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"""
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Test whether all values are approximately equal to corresponding ones of other Table.
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Parameters
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----------
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other : damask.Table
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Table to compare against.
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rtol : float, optional
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Relative tolerance of equality.
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atol : float, optional
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Absolute tolerance of equality.
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equal_nan : bool, optional
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Consider matching NaN values as equal. Defaults to True.
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Returns
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-------
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answer : bool
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Whether corresponding values are close between both tables.
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"""
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return np.allclose( self.data.to_numpy(),
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other.data.to_numpy(),
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rtol=rtol,
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atol=atol,
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equal_nan=equal_nan)
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@staticmethod
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def load(fname: FileHandle) -> 'Table':
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"""
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Load from ASCII table file.
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Initial comments are marked by '#'.
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The first non-comment line contains the column labels.
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- Vector data column labels are indicated by '1_v, 2_v, ..., n_v'.
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- Tensor data column labels are indicated by '3x3:1_T, 3x3:2_T, ..., 3x3:9_T'.
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Parameters
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----------
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fname : file, str, or pathlib.Path
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Filename or file to read.
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Returns
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-------
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loaded : damask.Table
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Table data from file.
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"""
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f = util.open_text(fname)
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f.seek(0)
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comments = []
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while (line := f.readline().strip()).startswith('#'):
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comments.append(line.lstrip('#').strip())
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labels = line.split()
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shapes = {}
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for label in labels:
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tensor_column = re.search(r'[0-9,x]*?:[0-9]*?_',label)
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if tensor_column:
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my_shape = tensor_column.group().split(':',1)[0].split('x')
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shapes[label.split('_',1)[1]] = tuple([int(d) for d in my_shape])
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else:
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vector_column = re.match(r'[0-9]*?_',label)
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if vector_column:
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shapes[label.split('_',1)[1]] = (int(label.split('_',1)[0]),)
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else:
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shapes[label] = (1,)
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data = pd.read_csv(f,names=list(range(len(labels))),sep=r'\s+')
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return Table(shapes,data,comments)
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@staticmethod
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def load_ang(fname: FileHandle) -> 'Table':
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"""
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Load from ang file.
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A valid TSL ang file has to have the following columns:
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- Euler angles (Bunge notation) in radians, 3 floats, label 'eu'.
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- Spatial position in meters, 2 floats, label 'pos'.
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- Image quality, 1 float, label 'IQ'.
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- Confidence index, 1 float, label 'CI'.
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- Phase ID, 1 int, label 'ID'.
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- SEM signal, 1 float, label 'intensity'.
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- Fit, 1 float, label 'fit'.
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Parameters
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----------
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fname : file, str, or pathlib.Path
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Filename or file for reading.
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Returns
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-------
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loaded : damask.Table
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Table data from file.
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"""
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f = util.open_text(fname)
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f.seek(0)
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content = f.readlines()
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comments = [util.execution_stamp('Table','from_ang')]
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for line in content:
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if line.startswith('#'):
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comments.append(line.split('#',1)[1].strip())
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else:
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break
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data = np.loadtxt(content)
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shapes = {'eu':3, 'pos':2, 'IQ':1, 'CI':1, 'ID':1, 'intensity':1, 'fit':1}
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if (remainder := data.shape[1]-sum(shapes.values())) > 0:
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shapes['unknown'] = remainder
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return Table(shapes,data,comments)
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@property
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def labels(self) -> List[str]:
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return list(self.shapes)
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def get(self,
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label: str) -> np.ndarray:
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"""
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Get column data.
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Parameters
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----------
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label : str
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Column label.
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Returns
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-------
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data : numpy.ndarray
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Array of column data.
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"""
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data = self.data[label].to_numpy().reshape((-1,)+self.shapes[label])
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return data.astype(type(data.flatten()[0]))
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def set(self,
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label: str,
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data: np.ndarray,
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info: Optional[str] = None) -> 'Table':
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"""
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Add new or replace existing column data.
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Parameters
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----------
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label : str
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Column label.
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data : numpy.ndarray
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Column data. First dimension needs to match number of rows.
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info : str, optional
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Human-readable information about the data.
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Returns
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-------
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updated : damask.Table
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Updated table.
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"""
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def add_comment(label: str, shape: Tuple[int, ...],info: str) -> List[str]:
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specific = f'{label}{" "+str(shape) if np.prod(shape,dtype=np.int64) > 1 else ""}: {info}'
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general = util.execution_stamp('Table')
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return [f'{specific} / {general}']
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dup = self.copy()
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if info is not None: self.comments += add_comment(label,data.shape[1:],info)
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key = m.group(1) if (m := re.match(r'(.*)\[((\d+,)*(\d+))\]',label)) else label
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if key in dup.shapes:
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if m:
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idx = np.ravel_multi_index(tuple(map(int,m.group(2).split(","))),
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self.shapes[key])
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iloc = dup.data.columns.get_loc(key).tolist().index(True) + idx
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dup.data.iloc[:,iloc] = data
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else:
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dup.data[label] = data.reshape(dup.data[label].shape)
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else:
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dup.shapes[label] = data.shape[1:] if len(data.shape) > 1 else (1,)
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size = np.prod(data.shape[1:],dtype=np.int64)
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new = pd.DataFrame(data=data.reshape(-1,size),
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columns=[label]*size,
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)
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new.index = new.index if dup.data.index.empty else dup.data.index
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dup.data = pd.concat([dup.data,new],axis=1)
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return dup
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def delete(self,
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label: str) -> 'Table':
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"""
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Delete column data.
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Parameters
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----------
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label : str
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Column label.
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Returns
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-------
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updated : damask.Table
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Updated table.
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"""
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dup = self.copy()
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dup.data.drop(columns=label,inplace=True)
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del dup.shapes[label]
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return dup
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def rename(self,
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old: Union[str, Iterable[str]],
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new: Union[str, Iterable[str]],
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info: Optional[str] = None) -> 'Table':
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"""
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Rename column data.
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Parameters
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----------
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label_old : (iterable of) str
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Old column labels.
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label_new : (iterable of) str
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New column labels.
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Returns
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-------
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updated : damask.Table
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Updated table.
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"""
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dup = self.copy()
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columns = dict(zip([old] if isinstance(old,str) else old,
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[new] if isinstance(new,str) else new))
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dup.data.rename(columns=columns,inplace=True)
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dup.comments.append(f'{old} => {new}'+('' if info is None else f': {info}'))
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dup.shapes = {(label if label not in columns else columns[label]):dup.shapes[label] for label in dup.shapes}
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return dup
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def sort_by(self,
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labels: Union[str, List[str]],
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ascending: Union[bool, List[bool]] = True) -> 'Table':
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"""
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Sort table by data of given columns.
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Parameters
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----------
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label : str or list
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Column labels for sorting.
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ascending : bool or list, optional
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Set sort order. Defaults to True.
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Returns
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-------
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updated : damask.Table
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Updated table.
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"""
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labels_ = [labels] if isinstance(labels,str) else labels.copy()
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for i,l in enumerate(labels_):
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if m := re.match(r'(.*)\[((\d+,)*(\d+))\]',l):
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idx = np.ravel_multi_index(tuple(map(int,m.group(2).split(','))),
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self.shapes[m.group(1)])
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labels_[i] = f'{1+idx}_{m.group(1)}'
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dup = self.copy()
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dup._relabel('linear')
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dup.data.sort_values(labels_,axis=0,inplace=True,ascending=ascending)
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dup._relabel('uniform')
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dup.comments.append(f'sorted {"ascending" if ascending else "descending"} by {labels}')
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return dup
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def append(self,
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other: 'Table') -> 'Table':
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"""
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Append other table vertically (similar to numpy.vstack).
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Requires matching labels/shapes and order.
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Parameters
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----------
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other : damask.Table
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Table to append.
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Returns
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-------
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updated : damask.Table
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Updated table.
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"""
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if self.shapes != other.shapes or not self.data.columns.equals(other.data.columns):
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raise KeyError('mismatch of shapes or labels or their order')
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dup = self.copy()
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dup.data = pd.concat([dup.data,other.data],ignore_index=True)
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return dup
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def join(self,
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other: 'Table') -> 'Table':
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"""
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Append other table horizontally (similar to numpy.hstack).
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Requires matching number of rows and no common labels.
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Parameters
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----------
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other : damask.Table
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Table to join.
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Returns
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-------
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updated : damask.Table
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Updated table.
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"""
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if set(self.shapes) & set(other.shapes) or self.data.shape[0] != other.data.shape[0]:
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raise KeyError('duplicated keys or row count mismatch')
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dup = self.copy()
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dup.data = dup.data.join(other.data)
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for key in other.shapes:
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dup.shapes[key] = other.shapes[key]
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return dup
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def save(self,
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fname: FileHandle,
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with_labels: bool = True):
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"""
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Save as plain text file.
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Parameters
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----------
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fname : file, str, or pathlib.Path
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Filename or file to write.
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with_labels : bool, optional
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Write column labels. Defaults to True.
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"""
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labels = []
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if with_labels:
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for l in list(dict.fromkeys(self.data.columns)):
|
|
if self.shapes[l] == (1,):
|
|
labels.append(f'{l}')
|
|
elif len(self.shapes[l]) == 1:
|
|
labels += [f'{i+1}_{l}' \
|
|
for i in range(self.shapes[l][0])]
|
|
else:
|
|
labels += [f'{util.srepr(self.shapes[l],"x")}:{i+1}_{l}' \
|
|
for i in range(np.prod(self.shapes[l]))]
|
|
|
|
f = util.open_text(fname,'w')
|
|
|
|
f.write('\n'.join([f'# {c}' for c in self.comments] + [' '.join(labels)])+('\n' if labels else ''))
|
|
self.data.to_csv(f,sep=' ',na_rep='nan',index=False,header=False,line_terminator='\n')
|