Source code for modelparameters.sympy.printing.tableform
from __future__ import print_function, division
from ..core.containers import Tuple
from ..core.compatibility import range
from types import FunctionType
[docs]class TableForm(object):
r"""
Create a nice table representation of data.
Examples
========
>>> from .. import TableForm
>>> t = TableForm([[5, 7], [4, 2], [10, 3]])
>>> print(t)
5 7
4 2
10 3
You can use the SymPy's printing system to produce tables in any
format (ascii, latex, html, ...).
>>> print(t.as_latex())
\begin{tabular}{l l}
$5$ & $7$ \\
$4$ & $2$ \\
$10$ & $3$ \\
\end{tabular}
"""
def __init__(self, data, **kwarg):
"""
Creates a TableForm.
Parameters:
data ...
2D data to be put into the table; data can be
given as a Matrix
headings ...
gives the labels for rows and columns:
Can be a single argument that applies to both
dimensions:
- None ... no labels
- "automatic" ... labels are 1, 2, 3, ...
Can be a list of labels for rows and columns:
The lables for each dimension can be given
as None, "automatic", or [l1, l2, ...] e.g.
["automatic", None] will number the rows
[default: None]
alignments ...
alignment of the columns with:
- "left" or "<"
- "center" or "^"
- "right" or ">"
When given as a single value, the value is used for
all columns. The row headings (if given) will be
right justified unless an explicit alignment is
given for it and all other columns.
[default: "left"]
formats ...
a list of format strings or functions that accept
3 arguments (entry, row number, col number) and
return a string for the table entry. (If a function
returns None then the _print method will be used.)
wipe_zeros ...
Don't show zeros in the table.
[default: True]
pad ...
the string to use to indicate a missing value (e.g.
elements that are None or those that are missing
from the end of a row (i.e. any row that is shorter
than the rest is assumed to have missing values).
When None, nothing will be shown for values that
are missing from the end of a row; values that are
None, however, will be shown.
[default: None]
Examples
========
>>> from .. import TableForm, Matrix
>>> TableForm([[5, 7], [4, 2], [10, 3]])
5 7
4 2
10 3
>>> TableForm([list('.'*i) for i in range(1, 4)], headings='automatic')
| 1 2 3
---------
1 | .
2 | . .
3 | . . .
>>> TableForm([['.'*(j if not i%2 else 1) for i in range(3)]
... for j in range(4)], alignments='rcl')
.
. . .
.. . ..
... . ...
"""
from .. import Symbol, S, Matrix
from ..core.sympify import SympifyError
# We only support 2D data. Check the consistency:
if isinstance(data, Matrix):
data = data.tolist()
_w = len(data[0])
_h = len(data)
# fill out any short lines
pad = kwarg.get('pad', None)
ok_None = False
if pad is None:
pad = " "
ok_None = True
pad = Symbol(pad)
_w = max(len(line) for line in data)
for i, line in enumerate(data):
if len(line) != _w:
line.extend([pad]*(_w - len(line)))
for j, lj in enumerate(line):
if lj is None:
if not ok_None:
lj = pad
else:
try:
lj = S(lj)
except SympifyError:
lj = Symbol(str(lj))
line[j] = lj
data[i] = line
_lines = Tuple(*data)
headings = kwarg.get("headings", [None, None])
if headings == "automatic":
_headings = [range(1, _h + 1), range(1, _w + 1)]
else:
h1, h2 = headings
if h1 == "automatic":
h1 = range(1, _h + 1)
if h2 == "automatic":
h2 = range(1, _w + 1)
_headings = [h1, h2]
allow = ('l', 'r', 'c')
alignments = kwarg.get("alignments", "l")
def _std_align(a):
a = a.strip().lower()
if len(a) > 1:
return {'left': 'l', 'right': 'r', 'center': 'c'}.get(a, a)
else:
return {'<': 'l', '>': 'r', '^': 'c'}.get(a, a)
std_align = _std_align(alignments)
if std_align in allow:
_alignments = [std_align]*_w
else:
_alignments = []
for a in alignments:
std_align = _std_align(a)
_alignments.append(std_align)
if std_align not in ('l', 'r', 'c'):
raise ValueError('alignment "%s" unrecognized' %
alignments)
if _headings[0] and len(_alignments) == _w + 1:
_head_align = _alignments[0]
_alignments = _alignments[1:]
else:
_head_align = 'r'
if len(_alignments) != _w:
raise ValueError(
'wrong number of alignments: expected %s but got %s' %
(_w, len(_alignments)))
_column_formats = kwarg.get("formats", [None]*_w)
_wipe_zeros = kwarg.get("wipe_zeros", True)
self._w = _w
self._h = _h
self._lines = _lines
self._headings = _headings
self._head_align = _head_align
self._alignments = _alignments
self._column_formats = _column_formats
self._wipe_zeros = _wipe_zeros
def __repr__(self):
from .str import sstr
return sstr(self, order=None)
def __str__(self):
from .str import sstr
return sstr(self, order=None)
[docs] def as_matrix(self):
"""Returns the data of the table in Matrix form.
Examples
========
>>> from .. import TableForm
>>> t = TableForm([[5, 7], [4, 2], [10, 3]], headings='automatic')
>>> t
| 1 2
--------
1 | 5 7
2 | 4 2
3 | 10 3
>>> t.as_matrix()
Matrix([
[ 5, 7],
[ 4, 2],
[10, 3]])
"""
from .. import Matrix
return Matrix(self._lines)
def _sympystr(self, p):
"""
Returns the string representation of 'self'.
Examples
========
>>> from .. import TableForm
>>> t = TableForm([[5, 7], [4, 2], [10, 3]])
>>> s = t.as_str()
"""
column_widths = [0] * self._w
lines = []
for line in self._lines:
new_line = []
for i in range(self._w):
# Format the item somehow if needed:
s = str(line[i])
if self._wipe_zeros and (s == "0"):
s = " "
w = len(s)
if w > column_widths[i]:
column_widths[i] = w
new_line.append(s)
lines.append(new_line)
# Check heading:
if self._headings[0]:
self._headings[0] = [str(x) for x in self._headings[0]]
_head_width = max([len(x) for x in self._headings[0]])
if self._headings[1]:
new_line = []
for i in range(self._w):
# Format the item somehow if needed:
s = str(self._headings[1][i])
w = len(s)
if w > column_widths[i]:
column_widths[i] = w
new_line.append(s)
self._headings[1] = new_line
format_str = []
def _align(align, w):
return '%%%s%ss' % (
("-" if align == "l" else ""),
str(w))
format_str = [_align(align, w) for align, w in
zip(self._alignments, column_widths)]
if self._headings[0]:
format_str.insert(0, _align(self._head_align, _head_width))
format_str.insert(1, '|')
format_str = ' '.join(format_str) + '\n'
s = []
if self._headings[1]:
d = self._headings[1]
if self._headings[0]:
d = [""] + d
first_line = format_str % tuple(d)
s.append(first_line)
s.append("-" * (len(first_line) - 1) + "\n")
for i, line in enumerate(lines):
d = [l if self._alignments[j] != 'c' else
l.center(column_widths[j]) for j, l in enumerate(line)]
if self._headings[0]:
l = self._headings[0][i]
l = (l if self._head_align != 'c' else
l.center(_head_width))
d = [l] + d
s.append(format_str % tuple(d))
return ''.join(s)[:-1] # don't include trailing newline
def _latex(self, printer):
"""
Returns the string representation of 'self'.
"""
# Check heading:
if self._headings[1]:
new_line = []
for i in range(self._w):
# Format the item somehow if needed:
new_line.append(str(self._headings[1][i]))
self._headings[1] = new_line
alignments = []
if self._headings[0]:
self._headings[0] = [str(x) for x in self._headings[0]]
alignments = [self._head_align]
alignments.extend(self._alignments)
s = r"\begin{tabular}{" + " ".join(alignments) + "}\n"
if self._headings[1]:
d = self._headings[1]
if self._headings[0]:
d = [""] + d
first_line = " & ".join(d) + r" \\" + "\n"
s += first_line
s += r"\hline" + "\n"
for i, line in enumerate(self._lines):
d = []
for j, x in enumerate(line):
if self._wipe_zeros and (x in (0, "0")):
d.append(" ")
continue
f = self._column_formats[j]
if f:
if isinstance(f, FunctionType):
v = f(x, i, j)
if v is None:
v = printer._print(x)
else:
v = f % x
d.append(v)
else:
v = printer._print(x)
d.append("$%s$" % v)
if self._headings[0]:
d = [self._headings[0][i]] + d
s += " & ".join(d) + r" \\" + "\n"
s += r"\end{tabular}"
return s