607 lines
18 KiB
Python
607 lines
18 KiB
Python
#!/usr/bin/env python
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#
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# texttable - module for creating simple ASCII tables
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# Copyright (C) 2003-2015 Gerome Fournier <jef(at)foutaise.org>
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#
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# This library is free software; you can redistribute it and/or
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# modify it under the terms of the GNU Lesser General Public
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# License as published by the Free Software Foundation; either
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# version 2.1 of the License, or (at your option) any later version.
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#
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# This library is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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# Lesser General Public License for more details.
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#
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# You should have received a copy of the GNU Lesser General Public
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# License along with this library; if not, write to the Free Software
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# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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"""module for creating simple ASCII tables
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Example:
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table = Texttable()
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table.set_cols_align(["l", "r", "c"])
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table.set_cols_valign(["t", "m", "b"])
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table.add_rows([["Name", "Age", "Nickname"],
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["Mr\\nXavier\\nHuon", 32, "Xav'"],
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["Mr\\nBaptiste\\nClement", 1, "Baby"]])
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print table.draw() + "\\n"
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table = Texttable()
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table.set_deco(Texttable.HEADER)
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table.set_cols_dtype(['t', # text
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'f', # float (decimal)
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'e', # float (exponent)
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'i', # integer
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'a']) # automatic
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table.set_cols_align(["l", "r", "r", "r", "l"])
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table.add_rows([["text", "float", "exp", "int", "auto"],
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["abcd", "67", 654, 89, 128.001],
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["efghijk", 67.5434, .654, 89.6, 12800000000000000000000.00023],
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["lmn", 5e-78, 5e-78, 89.4, .000000000000128],
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["opqrstu", .023, 5e+78, 92., 12800000000000000000000]])
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print table.draw()
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Result:
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+----------+-----+----------+
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| Name | Age | Nickname |
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+==========+=====+==========+
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| Mr | | |
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| Xavier | 32 | |
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| Huon | | Xav' |
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+----------+-----+----------+
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| Mr | | |
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| Baptiste | 1 | |
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| Clement | | Baby |
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+----------+-----+----------+
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text float exp int auto
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===========================================
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abcd 67.000 6.540e+02 89 128.001
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efgh 67.543 6.540e-01 90 1.280e+22
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ijkl 0.000 5.000e-78 89 0.000
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mnop 0.023 5.000e+78 92 1.280e+22
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"""
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__all__ = ["Texttable", "ArraySizeError"]
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__author__ = 'Gerome Fournier <jef(at)foutaise.org>'
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__license__ = 'LGPL'
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__version__ = '0.8.4'
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__credits__ = """\
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Jeff Kowalczyk:
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- textwrap improved import
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- comment concerning header output
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Anonymous:
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- add_rows method, for adding rows in one go
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Sergey Simonenko:
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- redefined len() function to deal with non-ASCII characters
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Roger Lew:
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- columns datatype specifications
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Brian Peterson:
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- better handling of unicode errors
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Frank Sachsenheim:
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- add Python 2/3-compatibility
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Maximilian Hils:
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- fix minor bug for Python 3 compatibility
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"""
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import sys
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import string
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try:
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if sys.version >= '2.3':
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import textwrap
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elif sys.version >= '2.2':
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from optparse import textwrap
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else:
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from optik import textwrap
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except ImportError:
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sys.stderr.write("Can't import textwrap module!\n")
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raise
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if sys.version >= '2.7':
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from functools import reduce
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def len(iterable):
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"""Redefining len here so it will be able to work with non-ASCII characters
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"""
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if not isinstance(iterable, str):
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return iterable.__len__()
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try:
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if sys.version >= '3.0':
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return len(str)
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else:
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return len(unicode(iterable, 'utf'))
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except:
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return iterable.__len__()
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class ArraySizeError(Exception):
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"""Exception raised when specified rows don't fit the required size
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"""
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def __init__(self, msg):
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self.msg = msg
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Exception.__init__(self, msg, '')
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def __str__(self):
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return self.msg
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class Texttable:
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BORDER = 1
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HEADER = 1 << 1
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HLINES = 1 << 2
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VLINES = 1 << 3
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def __init__(self, max_width=80):
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"""Constructor
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- max_width is an integer, specifying the maximum width of the table
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- if set to 0, size is unlimited, therefore cells won't be wrapped
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"""
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if max_width <= 0:
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max_width = False
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self._max_width = max_width
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self._precision = 3
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self._deco = Texttable.VLINES | Texttable.HLINES | Texttable.BORDER | \
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Texttable.HEADER
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self.set_chars(['-', '|', '+', '='])
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self.reset()
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def reset(self):
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"""Reset the instance
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- reset rows and header
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"""
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self._hline_string = None
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self._row_size = None
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self._header = []
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self._rows = []
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def set_chars(self, array):
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"""Set the characters used to draw lines between rows and columns
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- the array should contain 4 fields:
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[horizontal, vertical, corner, header]
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- default is set to:
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['-', '|', '+', '=']
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"""
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if len(array) != 4:
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raise ArraySizeError("array should contain 4 characters")
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array = [ x[:1] for x in [ str(s) for s in array ] ]
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(self._char_horiz, self._char_vert,
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self._char_corner, self._char_header) = array
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def set_deco(self, deco):
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"""Set the table decoration
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- 'deco' can be a combinaison of:
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Texttable.BORDER: Border around the table
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Texttable.HEADER: Horizontal line below the header
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Texttable.HLINES: Horizontal lines between rows
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Texttable.VLINES: Vertical lines between columns
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All of them are enabled by default
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- example:
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Texttable.BORDER | Texttable.HEADER
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"""
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self._deco = deco
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def set_cols_align(self, array):
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"""Set the desired columns alignment
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- the elements of the array should be either "l", "c" or "r":
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* "l": column flushed left
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* "c": column centered
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* "r": column flushed right
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"""
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self._check_row_size(array)
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self._align = array
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def set_cols_valign(self, array):
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"""Set the desired columns vertical alignment
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- the elements of the array should be either "t", "m" or "b":
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* "t": column aligned on the top of the cell
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* "m": column aligned on the middle of the cell
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* "b": column aligned on the bottom of the cell
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"""
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self._check_row_size(array)
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self._valign = array
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def set_cols_dtype(self, array):
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"""Set the desired columns datatype for the cols.
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- the elements of the array should be either "a", "t", "f", "e" or "i":
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* "a": automatic (try to use the most appropriate datatype)
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* "t": treat as text
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* "f": treat as float in decimal format
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* "e": treat as float in exponential format
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* "i": treat as int
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- by default, automatic datatyping is used for each column
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"""
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self._check_row_size(array)
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self._dtype = array
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def set_cols_width(self, array):
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"""Set the desired columns width
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- the elements of the array should be integers, specifying the
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width of each column. For example:
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[10, 20, 5]
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"""
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self._check_row_size(array)
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try:
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array = list(map(int, array))
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if reduce(min, array) <= 0:
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raise ValueError
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except ValueError:
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sys.stderr.write("Wrong argument in column width specification\n")
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raise
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self._width = array
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def set_precision(self, width):
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"""Set the desired precision for float/exponential formats
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- width must be an integer >= 0
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- default value is set to 3
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"""
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if not type(width) is int or width < 0:
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raise ValueError('width must be an integer greater then 0')
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self._precision = width
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def header(self, array):
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"""Specify the header of the table
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"""
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self._check_row_size(array)
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self._header = list(map(str, array))
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def add_row(self, array):
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"""Add a row in the rows stack
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- cells can contain newlines and tabs
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"""
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self._check_row_size(array)
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if not hasattr(self, "_dtype"):
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self._dtype = ["a"] * self._row_size
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cells = []
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for i, x in enumerate(array):
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cells.append(self._str(i, x))
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self._rows.append(cells)
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def add_rows(self, rows, header=True):
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"""Add several rows in the rows stack
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- The 'rows' argument can be either an iterator returning arrays,
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or a by-dimensional array
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- 'header' specifies if the first row should be used as the header
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of the table
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"""
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# nb: don't use 'iter' on by-dimensional arrays, to get a
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# usable code for python 2.1
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if header:
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if hasattr(rows, '__iter__') and hasattr(rows, 'next'):
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self.header(rows.next())
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else:
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self.header(rows[0])
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rows = rows[1:]
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for row in rows:
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self.add_row(row)
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def draw(self):
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"""Draw the table
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- the table is returned as a whole string
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"""
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if not self._header and not self._rows:
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return
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self._compute_cols_width()
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self._check_align()
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out = ""
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if self._has_border():
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out += self._hline()
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if self._header:
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out += self._draw_line(self._header, isheader=True)
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if self._has_header():
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out += self._hline_header()
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length = 0
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for row in self._rows:
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length += 1
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out += self._draw_line(row)
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if self._has_hlines() and length < len(self._rows):
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out += self._hline()
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if self._has_border():
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out += self._hline()
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return out[:-1]
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def _str(self, i, x):
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"""Handles string formatting of cell data
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i - index of the cell datatype in self._dtype
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x - cell data to format
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"""
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try:
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f = float(x)
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except:
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return str(x)
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n = self._precision
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dtype = self._dtype[i]
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if dtype == 'i':
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return str(int(round(f)))
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elif dtype == 'f':
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return '%.*f' % (n, f)
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elif dtype == 'e':
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return '%.*e' % (n, f)
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elif dtype == 't':
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return str(x)
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else:
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if f - round(f) == 0:
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if abs(f) > 1e8:
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return '%.*e' % (n, f)
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else:
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return str(int(round(f)))
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else:
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if abs(f) > 1e8:
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return '%.*e' % (n, f)
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else:
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return '%.*f' % (n, f)
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def _check_row_size(self, array):
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"""Check that the specified array fits the previous rows size
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"""
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if not self._row_size:
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self._row_size = len(array)
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elif self._row_size != len(array):
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raise ArraySizeError("array should contain %d elements" \
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% self._row_size)
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def _has_vlines(self):
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"""Return a boolean, if vlines are required or not
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"""
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return self._deco & Texttable.VLINES > 0
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def _has_hlines(self):
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"""Return a boolean, if hlines are required or not
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"""
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return self._deco & Texttable.HLINES > 0
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def _has_border(self):
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"""Return a boolean, if border is required or not
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"""
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return self._deco & Texttable.BORDER > 0
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def _has_header(self):
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"""Return a boolean, if header line is required or not
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"""
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return self._deco & Texttable.HEADER > 0
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def _hline_header(self):
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"""Print header's horizontal line
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"""
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return self._build_hline(True)
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def _hline(self):
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"""Print an horizontal line
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"""
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if not self._hline_string:
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self._hline_string = self._build_hline()
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return self._hline_string
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def _build_hline(self, is_header=False):
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"""Return a string used to separated rows or separate header from
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rows
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"""
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horiz = self._char_horiz
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if (is_header):
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horiz = self._char_header
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# compute cell separator
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s = "%s%s%s" % (horiz, [horiz, self._char_corner][self._has_vlines()],
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horiz)
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# build the line
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l = s.join([horiz * n for n in self._width])
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# add border if needed
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if self._has_border():
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l = "%s%s%s%s%s\n" % (self._char_corner, horiz, l, horiz,
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self._char_corner)
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else:
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l += "\n"
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return l
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def _len_cell(self, cell):
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"""Return the width of the cell
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Special characters are taken into account to return the width of the
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cell, such like newlines and tabs
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"""
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cell_lines = cell.split('\n')
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maxi = 0
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for line in cell_lines:
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length = 0
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parts = line.split('\t')
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for part, i in zip(parts, list(range(1, len(parts) + 1))):
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length = length + len(part)
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if i < len(parts):
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length = (length//8 + 1) * 8
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maxi = max(maxi, length)
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return maxi
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def _compute_cols_width(self):
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"""Return an array with the width of each column
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If a specific width has been specified, exit. If the total of the
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columns width exceed the table desired width, another width will be
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computed to fit, and cells will be wrapped.
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"""
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if hasattr(self, "_width"):
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return
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maxi = []
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if self._header:
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maxi = [ self._len_cell(x) for x in self._header ]
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for row in self._rows:
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for cell,i in zip(row, list(range(len(row)))):
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try:
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maxi[i] = max(maxi[i], self._len_cell(cell))
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except (TypeError, IndexError):
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maxi.append(self._len_cell(cell))
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items = len(maxi)
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length = reduce(lambda x, y: x+y, maxi)
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if self._max_width and length + items * 3 + 1 > self._max_width:
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maxi = [(self._max_width - items * 3 -1) // items \
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for n in range(items)]
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self._width = maxi
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def _check_align(self):
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"""Check if alignment has been specified, set default one if not
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"""
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if not hasattr(self, "_align"):
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self._align = ["l"] * self._row_size
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if not hasattr(self, "_valign"):
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self._valign = ["t"] * self._row_size
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def _draw_line(self, line, isheader=False):
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"""Draw a line
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Loop over a single cell length, over all the cells
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"""
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line = self._splitit(line, isheader)
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space = " "
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out = ""
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for i in range(len(line[0])):
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if self._has_border():
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out += "%s " % self._char_vert
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length = 0
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for cell, width, align in zip(line, self._width, self._align):
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length += 1
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cell_line = cell[i]
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fill = width - len(cell_line)
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if isheader:
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align = "c"
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if align == "r":
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out += "%s " % (fill * space + cell_line)
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elif align == "c":
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out += "%s " % (int(fill/2) * space + cell_line \
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+ int(fill/2 + fill%2) * space)
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else:
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out += "%s " % (cell_line + fill * space)
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if length < len(line):
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out += "%s " % [space, self._char_vert][self._has_vlines()]
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out += "%s\n" % ['', self._char_vert][self._has_border()]
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return out
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def _splitit(self, line, isheader):
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"""Split each element of line to fit the column width
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Each element is turned into a list, result of the wrapping of the
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string to the desired width
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"""
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line_wrapped = []
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for cell, width in zip(line, self._width):
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array = []
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for c in cell.split('\n'):
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try:
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if sys.version >= '3.0':
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c = str(c)
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else:
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c = unicode(c, 'utf')
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except UnicodeDecodeError as strerror:
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sys.stderr.write("UnicodeDecodeError exception for string '%s': %s\n" % (c, strerror))
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if sys.version >= '3.0':
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c = str(c, 'utf', 'replace')
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else:
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c = unicode(c, 'utf', 'replace')
|
|
array.extend(textwrap.wrap(c, width))
|
|
line_wrapped.append(array)
|
|
max_cell_lines = reduce(max, list(map(len, line_wrapped)))
|
|
for cell, valign in zip(line_wrapped, self._valign):
|
|
if isheader:
|
|
valign = "t"
|
|
if valign == "m":
|
|
missing = max_cell_lines - len(cell)
|
|
cell[:0] = [""] * int(missing / 2)
|
|
cell.extend([""] * int(missing / 2 + missing % 2))
|
|
elif valign == "b":
|
|
cell[:0] = [""] * (max_cell_lines - len(cell))
|
|
else:
|
|
cell.extend([""] * (max_cell_lines - len(cell)))
|
|
return line_wrapped
|
|
|
|
|
|
if __name__ == '__main__':
|
|
table = Texttable()
|
|
table.set_cols_align(["l", "r", "c"])
|
|
table.set_cols_valign(["t", "m", "b"])
|
|
table.add_rows([["Name", "Age", "Nickname"],
|
|
["Mr\nXavier\nHuon", 32, "Xav'"],
|
|
["Mr\nBaptiste\nClement", 1, "Baby"]])
|
|
print(table.draw() + "\n")
|
|
|
|
table = Texttable()
|
|
table.set_deco(Texttable.HEADER)
|
|
table.set_cols_dtype(['t', # text
|
|
'f', # float (decimal)
|
|
'e', # float (exponent)
|
|
'i', # integer
|
|
'a']) # automatic
|
|
table.set_cols_align(["l", "r", "r", "r", "l"])
|
|
table.add_rows([["text", "float", "exp", "int", "auto"],
|
|
["abcd", "67", 654, 89, 128.001],
|
|
["efghijk", 67.5434, .654, 89.6, 12800000000000000000000.00023],
|
|
["lmn", 5e-78, 5e-78, 89.4, .000000000000128],
|
|
["opqrstu", .023, 5e+78, 92., 12800000000000000000000]])
|
|
print(table.draw())
|