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texttable.py
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texttable.py
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#!/usr/bin/env python
#
# texttable - module for creating simple ASCII tables
# Copyright (C) 2003-2011 Gerome Fournier <jef(at)foutaise.org>
#
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
#
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
"""module for creating simple ASCII tables
Example:
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()
Result:
+----------+-----+----------+
| Name | Age | Nickname |
+==========+=====+==========+
| Mr | | |
| Xavier | 32 | |
| Huon | | Xav' |
+----------+-----+----------+
| Mr | | |
| Baptiste | 1 | |
| Clement | | Baby |
+----------+-----+----------+
text float exp int auto
===========================================
abcd 67.000 6.540e+02 89 128.001
efgh 67.543 6.540e-01 90 1.280e+22
ijkl 0.000 5.000e-78 89 0.000
mnop 0.023 5.000e+78 92 1.280e+22
"""
__all__ = ["Texttable", "ArraySizeError"]
__author__ = 'Gerome Fournier <jef(at)foutaise.org>'
__license__ = 'GPL'
__version__ = '0.8.1'
__credits__ = """\
Jeff Kowalczyk:
- textwrap improved import
- comment concerning header output
Anonymous:
- add_rows method, for adding rows in one go
Sergey Simonenko:
- redefined len() function to deal with non-ASCII characters
Roger Lew:
- columns datatype specifications
Brian Peterson:
- better handling of unicode errors
"""
import re
import math
import sys
import string
from functools import reduce
try:
if sys.version >= '2.3':
import textwrap
elif sys.version >= '2.2':
from optparse import textwrap
else:
from optik import textwrap
except ImportError:
sys.stderr.write("Can't import textwrap module!\n")
raise
def len(iterable):
"""Redefining len here so it will be able to work with non-ASCII characters
"""
if not isinstance(iterable, str):
return iterable.__len__()
try:
return len(str(iterable, 'utf'))
except:
return iterable.__len__()
class ArraySizeError(Exception):
"""Exception raised when specified rows don't fit the required size
"""
def __init__(self, msg):
self.msg = msg
Exception.__init__(self, msg, '')
def __str__(self):
return self.msg
class bcolors:
PURPLE = '\x1b[95m'
BLUE = '\x1b[94m'
GREEN = '\x1b[92m'
YELLOW = '\x1b[93m'
RED = '\x1b[91m'
ENDC = '\x1b[0m'
WHITE = ''
BOLD = '\x1b[1m'
UNDERLINE = '\x1b[4m'
def get_color_string(type, string):
end = bcolors.ENDC
if type == bcolors.WHITE:
end = ''
return '%s%s%s' % (type, string, end)
class Texttable:
BORDER = 1
HEADER = 1 << 1
HLINES = 1 << 2
VLINES = 1 << 3
def __init__(self, max_width=80):
"""Constructor
- max_width is an integer, specifying the maximum width of the table
- if set to 0, size is unlimited, therefore cells won't be wrapped
"""
if max_width <= 0:
max_width = False
self._max_width = max_width
self._precision = 3
self._deco = Texttable.VLINES | Texttable.HLINES | Texttable.BORDER | \
Texttable.HEADER
self.set_chars(['-', '|', '+', '='])
self.reset()
def reset(self):
"""Reset the instance
- reset rows and header
"""
self._hline_string = None
self._row_size = None
self._header = []
self._rows = []
def set_chars(self, array):
"""Set the characters used to draw lines between rows and columns
- the array should contain 4 fields:
[horizontal, vertical, corner, header]
- default is set to:
['-', '|', '+', '=']
"""
if len(array) != 4:
raise ArraySizeError("array should contain 4 characters")
array = [ x[:1] for x in [ str(s) for s in array ] ]
(self._char_horiz, self._char_vert,
self._char_corner, self._char_header) = array
def set_deco(self, deco):
"""Set the table decoration
- 'deco' can be a combinaison of:
Texttable.BORDER: Border around the table
Texttable.HEADER: Horizontal line below the header
Texttable.HLINES: Horizontal lines between rows
Texttable.VLINES: Vertical lines between columns
All of them are enabled by default
- example:
Texttable.BORDER | Texttable.HEADER
"""
self._deco = deco
def set_cols_align(self, array):
"""Set the desired columns alignment
- the elements of the array should be either "l", "c" or "r":
* "l": column flushed left
* "c": column centered
* "r": column flushed right
"""
self._check_row_size(array)
self._align = array
def set_cols_valign(self, array):
"""Set the desired columns vertical alignment
- the elements of the array should be either "t", "m" or "b":
* "t": column aligned on the top of the cell
* "m": column aligned on the middle of the cell
* "b": column aligned on the bottom of the cell
"""
self._check_row_size(array)
self._valign = array
def set_cols_dtype(self, array):
"""Set the desired columns datatype for the cols.
- the elements of the array should be either "a", "t", "f", "e" or "i":
* "a": automatic (try to use the most appropriate datatype)
* "t": treat as text
* "f": treat as float in decimal format
* "e": treat as float in exponential format
* "i": treat as int
- by default, automatic datatyping is used for each column
"""
self._check_row_size(array)
self._dtype = array
def set_cols_width(self, array):
"""Set the desired columns width
- the elements of the array should be integers, specifying the
width of each column. For example:
[10, 20, 5]
"""
self._check_row_size(array)
try:
array = list(map(int, array))
if reduce(min, array) <= 0:
raise ValueError
except ValueError:
sys.stderr.write("Wrong argument in column width specification\n")
raise
self._width = array
def set_precision(self, width):
"""Set the desired precision for float/exponential formats
- width must be an integer >= 0
- default value is set to 3
"""
if not type(width) is int or width < 0:
raise ValueError('width must be an integer greater then 0')
self._precision = width
def header(self, array):
"""Specify the header of the table
"""
self._check_row_size(array)
self._header = list(map(str, array))
def add_row(self, array):
"""Add a row in the rows stack
- cells can contain newlines and tabs
"""
self._check_row_size(array)
if not hasattr(self, "_dtype"):
self._dtype = ["a"] * self._row_size
cells = []
for i,x in enumerate(array):
cells.append(self._str(i,x))
self._rows.append(cells)
def add_rows(self, rows, header=True):
"""Add several rows in the rows stack
- The 'rows' argument can be either an iterator returning arrays,
or a by-dimensional array
- 'header' specifies if the first row should be used as the header
of the table
"""
# nb: don't use 'iter' on by-dimensional arrays, to get a
# usable code for python 2.1
if header:
if hasattr(rows, '__iter__') and hasattr(rows, 'next'):
self.header(next(rows))
else:
self.header(rows[0])
rows = rows[1:]
for row in rows:
self.add_row(row)
def draw(self):
"""Draw the table
- the table is returned as a whole string
"""
if not self._header and not self._rows:
return
self._compute_cols_width()
self._check_align()
out = ""
if self._has_border():
out += self._hline()
if self._header:
out += self._draw_line(self._header, isheader=True)
if self._has_header():
out += self._hline_header()
length = 0
for row in self._rows:
length += 1
out += self._draw_line(row)
if self._has_hlines() and length < len(self._rows):
out += self._hline()
if self._has_border():
out += self._hline()
return out[:-1]
def _str(self, i, x):
"""Handles string formatting of cell data
i - index of the cell datatype in self._dtype
x - cell data to format
"""
try:
f = float(x)
n = str(f)
if n == "nan" or n=="inf" or n=="-inf" : raise ValueError('Infinity or NaN considered as string')
except:
if type(x) is str:
return x
else:
if x is None:
return str(x)
else:
return str(x.encode('utf-8'))
"""
n = self._precision
dtype = self._dtype[i]
if dtype == 'i':
return str(int(round(f)))
elif dtype == 'f':
return '%.*f' % (n, f)
elif dtype == 'e':
return '%.*e' % (n, f)
elif dtype == 't':
if type(x) is str:
return x
else:
if x is None:
return str(x)
else:
return str(x.encode('utf-8'))
else:
if f - round(f) == 0:
if abs(f) > 1e8:
return '%.*e' % (n, f)
else:
return str(int(round(f)))
else:
if abs(f) > 1e8:
return '%.*e' % (n, f)
else:
return '%.*f' % (n, f)
"""
return str(x)
def _check_row_size(self, array):
"""Check that the specified array fits the previous rows size
"""
if not self._row_size:
self._row_size = len(array)
elif self._row_size != len(array):
raise ArraySizeError("array should contain %d elements" \
% self._row_size)
def _has_vlines(self):
"""Return a boolean, if vlines are required or not
"""
return self._deco & Texttable.VLINES > 0
def _has_hlines(self):
"""Return a boolean, if hlines are required or not
"""
return self._deco & Texttable.HLINES > 0
def _has_border(self):
"""Return a boolean, if border is required or not
"""
return self._deco & Texttable.BORDER > 0
def _has_header(self):
"""Return a boolean, if header line is required or not
"""
return self._deco & Texttable.HEADER > 0
def _hline_header(self):
"""Print header's horizontal line
"""
return self._build_hline(True)
def _hline(self):
"""Print an horizontal line
"""
if not self._hline_string:
self._hline_string = self._build_hline()
return self._hline_string
def _build_hline(self, is_header=False):
"""Return a string used to separated rows or separate header from
rows
"""
horiz = self._char_horiz
if (is_header):
horiz = self._char_header
# compute cell separator
s = "%s%s%s" % (horiz, [horiz, self._char_corner][self._has_vlines()],
horiz)
# build the line
l = s.join([horiz * n for n in self._width])
# add border if needed
if self._has_border():
l = "%s%s%s%s%s\n" % (self._char_corner, horiz, l, horiz,
self._char_corner)
else:
l += "\n"
return l
def _len_cell(self, cell):
"""Return the width of the cell
Special characters are taken into account to return the width of the
cell, such like newlines and tabs
"""
cell = re.compile(r'\x1b[^m]*m').sub('', cell)
cell_lines = cell.split('\n')
maxi = 0
for line in cell_lines:
length = 0
parts = line.split('\t')
for part, i in zip(parts, list(range(1, len(parts) + 1))):
length = length + len(part)
if i < len(parts):
length = (length//8 + 1) * 8
maxi = max(maxi, length)
return maxi
def _compute_cols_width(self):
"""Return an array with the width of each column
If a specific width has been specified, exit. If the total of the
columns width exceed the table desired width, another width will be
computed to fit, and cells will be wrapped.
"""
if hasattr(self, "_width"):
return
maxi = []
if self._header:
maxi = [ self._len_cell(x) for x in self._header ]
for row in self._rows:
for cell,i in zip(row, list(range(len(row)))):
try:
maxi[i] = max(maxi[i], self._len_cell(cell))
except (TypeError, IndexError):
maxi.append(self._len_cell(cell))
items = len(maxi)
length = reduce(lambda x,y: x+y, maxi)
if self._max_width and length + items * 3 + 1 > self._max_width:
max_lengths = maxi
maxi = [(self._max_width - items * 3 -1) // items \
for n in range(items)]
# free space to distribute
free = 0
# how many columns are oversized
oversized = 0
# reduce size of columns that need less space and calculate how
# much space is freed
for col, max_len in enumerate(max_lengths):
current_length = maxi[col]
# column needs less space, adjust and
# update free space
if current_length > max_len:
free += current_length - max_len
maxi[col] = max_len
# column needs more space, count it
elif max_len > current_length:
oversized += 1
# as long as free space is available, distribute it
while free > 0:
# available free space for each oversized column
free_part = int(math.ceil(float(free) / float(oversized)))
for col, max_len in enumerate(max_lengths):
current_length = maxi[col]
# column needs more space
if current_length < max_len:
# how much space is needed
needed = max_len - current_length
# enough free space for column
if needed <= free_part:
maxi[col] = max_len
free -= needed
oversized -= 1
# still oversized after re-sizing
else:
maxi[col] = maxi[col] + free_part
free -= free_part
self._width = maxi
def _check_align(self):
"""Check if alignment has been specified, set default one if not
"""
if not hasattr(self, "_align"):
self._align = ["l"] * self._row_size
if not hasattr(self, "_valign"):
self._valign = ["t"] * self._row_size
def _draw_line(self, line, isheader=False):
"""Draw a line
Loop over a single cell length, over all the cells
"""
line = self._splitit(line, isheader)
space = " "
out = ""
for i in range(len(line[0])):
if self._has_border():
out += "%s " % self._char_vert
length = 0
for cell, width, align in zip(line, self._width, self._align):
length += 1
cell_line = cell[i]
fill = width - len(re.compile(r'\x1b[^m]*m').sub('', cell_line))
if isheader:
align = "c"
if align == "r":
out += "%s " % (fill * space + cell_line)
elif align == "c":
out += "%s " % (fill//2 * space + cell_line \
+ (fill//2 + fill%2) * space)
else:
out += "%s " % (cell_line + fill * space)
if length < len(line):
out += "%s " % [space, self._char_vert][self._has_vlines()]
out += "%s\n" % ['', self._char_vert][self._has_border()]
return out
def _splitit(self, line, isheader):
"""Split each element of line to fit the column width
Each element is turned into a list, result of the wrapping of the
string to the desired width
"""
line_wrapped = []
for cell, width in zip(line, self._width):
array = []
original_cell = cell
ansi_keep = []
for c in cell.split('\n'):
c = "".join(ansi_keep) + c
ansi_keep = []
extra_width = 0
for a in re.findall(r'\x1b[^m]*m', c):
extra_width += len(a)
if a == '\x1b[0m':
if len(ansi_keep) > 0:
ansi_keep.pop()
else:
ansi_keep.append(a)
c = c + '\x1b[0m' * len(ansi_keep)
extra_width += len('\x1b[0m' * len(ansi_keep))
if type(c) is not str:
try:
c = str(c, 'utf')
except UnicodeDecodeError as strerror:
sys.stderr.write("UnicodeDecodeError exception for string '%s': %s\n" % (c, strerror))
c = str(c, 'utf', 'replace')
array.extend(textwrap.wrap(c, width + extra_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] = [""] * (missing // 2)
cell.extend([""] * (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