physics-labs-collection/labs/21/prettytable.py

2535 lines
87 KiB
Python

#!/usr/bin/env python
#
# Copyright (c) 2009-2014, Luke Maurits <luke@maurits.id.au>
# All rights reserved.
# With contributions from:
# * Chris Clark
# * Klein Stephane
# * John Filleau
# * Vladimir Vrzić
#
# Redistribution and use in source and binary forms, with or without
# modification, are permitted provided that the following conditions are met:
#
# * Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
# * Redistributions in binary form must reproduce the above copyright notice,
# this list of conditions and the following disclaimer in the documentation
# and/or other materials provided with the distribution.
# * The name of the author may not be used to endorse or promote products
# derived from this software without specific prior written permission.
#
# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
# AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
# IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
# ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
# LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
# CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
# SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
# INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
# CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
# ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
# POSSIBILITY OF SUCH DAMAGE.
from __future__ import annotations
import copy
import csv
import io
import json
import math
import random
import re
import textwrap
from html import escape
from html.parser import HTMLParser
from typing import Any
import wcwidth # type: ignore
# hrule styles
FRAME = 0
ALL = 1
NONE = 2
HEADER = 3
# Table styles
DEFAULT = 10
MSWORD_FRIENDLY = 11
PLAIN_COLUMNS = 12
MARKDOWN = 13
ORGMODE = 14
DOUBLE_BORDER = 15
SINGLE_BORDER = 16
RANDOM = 20
BASE_ALIGN_VALUE = "base_align_value"
_re = re.compile(r"\033\[[0-9;]*m|\033\(B")
def _get_size(text):
lines = text.split("\n")
height = len(lines)
width = max(_str_block_width(line) for line in lines)
return width, height
class PrettyTable:
def __init__(self, field_names=None, **kwargs) -> None:
"""Return a new PrettyTable instance
Arguments:
encoding - Unicode encoding scheme used to decode any encoded input
title - optional table title
field_names - list or tuple of field names
fields - list or tuple of field names to include in displays
start - index of first data row to include in output
end - index of last data row to include in output PLUS ONE (list slice style)
header - print a header showing field names (True or False)
header_style - stylisation to apply to field names in header
("cap", "title", "upper", "lower" or None)
border - print a border around the table (True or False)
preserve_internal_border - print a border inside the table even if
border is disabled (True or False)
hrules - controls printing of horizontal rules after rows.
Allowed values: FRAME, HEADER, ALL, NONE
vrules - controls printing of vertical rules between columns.
Allowed values: FRAME, ALL, NONE
int_format - controls formatting of integer data
float_format - controls formatting of floating point data
custom_format - controls formatting of any column using callable
min_table_width - minimum desired table width, in characters
max_table_width - maximum desired table width, in characters
min_width - minimum desired field width, in characters
max_width - maximum desired field width, in characters
padding_width - number of spaces on either side of column data
(only used if left and right paddings are None)
left_padding_width - number of spaces on left hand side of column data
right_padding_width - number of spaces on right hand side of column data
vertical_char - single character string used to draw vertical lines
horizontal_char - single character string used to draw horizontal lines
horizontal_align_char - single character string used to indicate alignment
junction_char - single character string used to draw line junctions
top_junction_char - single character string used to draw top line junctions
bottom_junction_char -
single character string used to draw bottom line junctions
right_junction_char - single character string used to draw right line junctions
left_junction_char - single character string used to draw left line junctions
top_right_junction_char -
single character string used to draw top-right line junctions
top_left_junction_char -
single character string used to draw top-left line junctions
bottom_right_junction_char -
single character string used to draw bottom-right line junctions
bottom_left_junction_char -
single character string used to draw bottom-left line junctions
sortby - name of field to sort rows by
sort_key - sorting key function, applied to data points before sorting
align - default align for each column (None, "l", "c" or "r")
valign - default valign for each row (None, "t", "m" or "b")
reversesort - True or False to sort in descending or ascending order
oldsortslice - Slice rows before sorting in the "old style" """
self.encoding = kwargs.get("encoding", "UTF-8")
# Data
self._field_names: list[str] = []
self._rows: list[list] = []
self._dividers: list[bool] = []
self.align = {}
self.valign = {}
self.max_width = {}
self.min_width = {}
self.int_format = {}
self.float_format = {}
self.custom_format = {}
if field_names:
self.field_names = field_names
else:
self._widths: list[int] = []
# Options
self._options = [
"title",
"start",
"end",
"fields",
"header",
"border",
"preserve_internal_border",
"sortby",
"reversesort",
"sort_key",
"attributes",
"format",
"hrules",
"vrules",
"int_format",
"float_format",
"custom_format",
"min_table_width",
"max_table_width",
"padding_width",
"left_padding_width",
"right_padding_width",
"vertical_char",
"horizontal_char",
"horizontal_align_char",
"junction_char",
"header_style",
"valign",
"xhtml",
"print_empty",
"oldsortslice",
"top_junction_char",
"bottom_junction_char",
"right_junction_char",
"left_junction_char",
"top_right_junction_char",
"top_left_junction_char",
"bottom_right_junction_char",
"bottom_left_junction_char",
"align",
"valign",
"max_width",
"min_width",
"none_format",
]
for option in self._options:
if option in kwargs:
self._validate_option(option, kwargs[option])
else:
kwargs[option] = None
self._title = kwargs["title"] or None
self._start = kwargs["start"] or 0
self._end = kwargs["end"] or None
self._fields = kwargs["fields"] or None
self._none_format: dict[None, None] = {}
if kwargs["header"] in (True, False):
self._header = kwargs["header"]
else:
self._header = True
self._header_style = kwargs["header_style"] or None
if kwargs["border"] in (True, False):
self._border = kwargs["border"]
else:
self._border = True
if kwargs["preserve_internal_border"] in (True, False):
self._preserve_internal_border = kwargs["preserve_internal_border"]
else:
self._preserve_internal_border = False
self._hrules = kwargs["hrules"] or FRAME
self._vrules = kwargs["vrules"] or ALL
self._sortby = kwargs["sortby"] or None
if kwargs["reversesort"] in (True, False):
self._reversesort = kwargs["reversesort"]
else:
self._reversesort = False
self._sort_key = kwargs["sort_key"] or (lambda x: x)
# Column specific arguments, use property.setters
self.align = kwargs["align"] or {}
self.valign = kwargs["valign"] or {}
self.max_width = kwargs["max_width"] or {}
self.min_width = kwargs["min_width"] or {}
self.int_format = kwargs["int_format"] or {}
self.float_format = kwargs["float_format"] or {}
self.custom_format = kwargs["custom_format"] or {}
self.none_format = kwargs["none_format"] or {}
self._min_table_width = kwargs["min_table_width"] or None
self._max_table_width = kwargs["max_table_width"] or None
if kwargs["padding_width"] is None:
self._padding_width = 1
else:
self._padding_width = kwargs["padding_width"]
self._left_padding_width = kwargs["left_padding_width"] or None
self._right_padding_width = kwargs["right_padding_width"] or None
self._vertical_char = kwargs["vertical_char"] or "|"
self._horizontal_char = kwargs["horizontal_char"] or "-"
self._horizontal_align_char = kwargs["horizontal_align_char"]
self._junction_char = kwargs["junction_char"] or "+"
self._top_junction_char = kwargs["top_junction_char"]
self._bottom_junction_char = kwargs["bottom_junction_char"]
self._right_junction_char = kwargs["right_junction_char"]
self._left_junction_char = kwargs["left_junction_char"]
self._top_right_junction_char = kwargs["top_right_junction_char"]
self._top_left_junction_char = kwargs["top_left_junction_char"]
self._bottom_right_junction_char = kwargs["bottom_right_junction_char"]
self._bottom_left_junction_char = kwargs["bottom_left_junction_char"]
if kwargs["print_empty"] in (True, False):
self._print_empty = kwargs["print_empty"]
else:
self._print_empty = True
if kwargs["oldsortslice"] in (True, False):
self._oldsortslice = kwargs["oldsortslice"]
else:
self._oldsortslice = False
self._format = kwargs["format"] or False
self._xhtml = kwargs["xhtml"] or False
self._attributes = kwargs["attributes"] or {}
def _justify(self, text, width, align):
excess = width - _str_block_width(text)
if align == "l":
return text + excess * " "
elif align == "r":
return excess * " " + text
else:
if excess % 2:
# Uneven padding
# Put more space on right if text is of odd length...
if _str_block_width(text) % 2:
return (excess // 2) * " " + text + (excess // 2 + 1) * " "
# and more space on left if text is of even length
else:
return (excess // 2 + 1) * " " + text + (excess // 2) * " "
# Why distribute extra space this way? To match the behaviour of
# the inbuilt str.center() method.
else:
# Equal padding on either side
return (excess // 2) * " " + text + (excess // 2) * " "
def __getattr__(self, name):
if name == "rowcount":
return len(self._rows)
elif name == "colcount":
if self._field_names:
return len(self._field_names)
elif self._rows:
return len(self._rows[0])
else:
return 0
else:
raise AttributeError(name)
def __getitem__(self, index):
new = PrettyTable()
new.field_names = self.field_names
for attr in self._options:
setattr(new, "_" + attr, getattr(self, "_" + attr))
setattr(new, "_align", getattr(self, "_align"))
if isinstance(index, slice):
for row in self._rows[index]:
new.add_row(row)
elif isinstance(index, int):
new.add_row(self._rows[index])
else:
raise IndexError(f"Index {index} is invalid, must be an integer or slice")
return new
def __str__(self):
return self.get_string()
def __repr__(self):
return self.get_string()
def _repr_html_(self):
"""
Returns get_html_string value by default
as the repr call in Jupyter notebook environment
"""
return self.get_html_string()
##############################
# ATTRIBUTE VALIDATORS #
##############################
# The method _validate_option is all that should be used elsewhere in the code base
# to validate options. It will call the appropriate validation method for that
# option. The individual validation methods should never need to be called directly
# (although nothing bad will happen if they *are*).
# Validation happens in TWO places.
# Firstly, in the property setters defined in the ATTRIBUTE MANAGEMENT section.
# Secondly, in the _get_options method, where keyword arguments are mixed with
# persistent settings
def _validate_option(self, option, val):
if option == "field_names":
self._validate_field_names(val)
elif option == "none_format":
self._validate_none_format(val)
elif option in (
"start",
"end",
"max_width",
"min_width",
"min_table_width",
"max_table_width",
"padding_width",
"left_padding_width",
"right_padding_width",
"format",
):
self._validate_nonnegative_int(option, val)
elif option == "sortby":
self._validate_field_name(option, val)
elif option == "sort_key":
self._validate_function(option, val)
elif option == "hrules":
self._validate_hrules(option, val)
elif option == "vrules":
self._validate_vrules(option, val)
elif option == "fields":
self._validate_all_field_names(option, val)
elif option in (
"header",
"border",
"preserve_internal_border",
"reversesort",
"xhtml",
"print_empty",
"oldsortslice",
):
self._validate_true_or_false(option, val)
elif option == "header_style":
self._validate_header_style(val)
elif option == "int_format":
self._validate_int_format(option, val)
elif option == "float_format":
self._validate_float_format(option, val)
elif option == "custom_format":
for k, formatter in val.items():
self._validate_function(f"{option}.{k}", formatter)
elif option in (
"vertical_char",
"horizontal_char",
"horizontal_align_char",
"junction_char",
"top_junction_char",
"bottom_junction_char",
"right_junction_char",
"left_junction_char",
"top_right_junction_char",
"top_left_junction_char",
"bottom_right_junction_char",
"bottom_left_junction_char",
):
self._validate_single_char(option, val)
elif option == "attributes":
self._validate_attributes(option, val)
def _validate_field_names(self, val):
# Check for appropriate length
if self._field_names:
try:
assert len(val) == len(self._field_names)
except AssertionError:
raise ValueError(
"Field name list has incorrect number of values, "
f"(actual) {len(val)}!={len(self._field_names)} (expected)"
)
if self._rows:
try:
assert len(val) == len(self._rows[0])
except AssertionError:
raise ValueError(
"Field name list has incorrect number of values, "
f"(actual) {len(val)}!={len(self._rows[0])} (expected)"
)
# Check for uniqueness
try:
assert len(val) == len(set(val))
except AssertionError:
raise ValueError("Field names must be unique")
def _validate_none_format(self, val):
try:
if val is not None:
assert isinstance(val, str)
except AssertionError:
raise TypeError(
"Replacement for None value must be a string if being supplied."
)
def _validate_header_style(self, val):
try:
assert val in ("cap", "title", "upper", "lower", None)
except AssertionError:
raise ValueError(
"Invalid header style, use cap, title, upper, lower or None"
)
def _validate_align(self, val):
try:
assert val in ["l", "c", "r"]
except AssertionError:
raise ValueError(f"Alignment {val} is invalid, use l, c or r")
def _validate_valign(self, val):
try:
assert val in ["t", "m", "b", None]
except AssertionError:
raise ValueError(f"Alignment {val} is invalid, use t, m, b or None")
def _validate_nonnegative_int(self, name, val):
try:
assert int(val) >= 0
except AssertionError:
raise ValueError(f"Invalid value for {name}: {val}")
def _validate_true_or_false(self, name, val):
try:
assert val in (True, False)
except AssertionError:
raise ValueError(f"Invalid value for {name}. Must be True or False.")
def _validate_int_format(self, name, val):
if val == "":
return
try:
assert isinstance(val, str)
assert val.isdigit()
except AssertionError:
raise ValueError(
f"Invalid value for {name}. Must be an integer format string."
)
def _validate_float_format(self, name, val):
if val == "":
return
try:
assert isinstance(val, str)
assert "." in val
bits = val.split(".")
assert len(bits) <= 2
assert bits[0] == "" or bits[0].isdigit()
assert (
bits[1] == ""
or bits[1].isdigit()
or (bits[1][-1] == "f" and bits[1].rstrip("f").isdigit())
)
except AssertionError:
raise ValueError(
f"Invalid value for {name}. Must be a float format string."
)
def _validate_function(self, name, val):
try:
assert hasattr(val, "__call__")
except AssertionError:
raise ValueError(f"Invalid value for {name}. Must be a function.")
def _validate_hrules(self, name, val):
try:
assert val in (ALL, FRAME, HEADER, NONE)
except AssertionError:
raise ValueError(
f"Invalid value for {name}. Must be ALL, FRAME, HEADER or NONE."
)
def _validate_vrules(self, name, val):
try:
assert val in (ALL, FRAME, NONE)
except AssertionError:
raise ValueError(f"Invalid value for {name}. Must be ALL, FRAME, or NONE.")
def _validate_field_name(self, name, val):
try:
assert (val in self._field_names) or (val is None)
except AssertionError:
raise ValueError(f"Invalid field name: {val}")
def _validate_all_field_names(self, name, val):
try:
for x in val:
self._validate_field_name(name, x)
except AssertionError:
raise ValueError("Fields must be a sequence of field names")
def _validate_single_char(self, name, val):
try:
assert _str_block_width(val) == 1
except AssertionError:
raise ValueError(f"Invalid value for {name}. Must be a string of length 1.")
def _validate_attributes(self, name, val):
try:
assert isinstance(val, dict)
except AssertionError:
raise TypeError("Attributes must be a dictionary of name/value pairs")
##############################
# ATTRIBUTE MANAGEMENT #
##############################
@property
def rows(self) -> list[Any]:
return self._rows[:]
@property
def dividers(self) -> list[bool]:
return self._dividers[:]
@property
def xhtml(self) -> bool:
"""Print <br/> tags if True, <br> tags if False"""
return self._xhtml
@xhtml.setter
def xhtml(self, val):
self._validate_option("xhtml", val)
self._xhtml = val
@property
def none_format(self):
return self._none_format
@none_format.setter
def none_format(self, val):
if not self._field_names:
self._none_format = {}
elif val is None or (isinstance(val, dict) and len(val) == 0):
for field in self._field_names:
self._none_format[field] = None
else:
self._validate_none_format(val)
for field in self._field_names:
self._none_format[field] = val
@property
def field_names(self):
"""List or tuple of field names
When setting field_names, if there are already field names the new list
of field names must be the same length. Columns are renamed and row data
remains unchanged."""
return self._field_names
@field_names.setter
def field_names(self, val):
val = [str(x) for x in val]
self._validate_option("field_names", val)
old_names = None
if self._field_names:
old_names = self._field_names[:]
self._field_names = val
if self._align and old_names:
for old_name, new_name in zip(old_names, val):
self._align[new_name] = self._align[old_name]
for old_name in old_names:
if old_name not in self._align:
self._align.pop(old_name)
elif self._align:
for field_name in self._field_names:
self._align[field_name] = self._align[BASE_ALIGN_VALUE]
else:
self.align = "c"
if self._valign and old_names:
for old_name, new_name in zip(old_names, val):
self._valign[new_name] = self._valign[old_name]
for old_name in old_names:
if old_name not in self._valign:
self._valign.pop(old_name)
else:
self.valign = "t"
@property
def align(self):
"""Controls alignment of fields
Arguments:
align - alignment, one of "l", "c", or "r" """
return self._align
@align.setter
def align(self, val):
if val is None or (isinstance(val, dict) and len(val) == 0):
if not self._field_names:
self._align = {BASE_ALIGN_VALUE: "c"}
else:
for field in self._field_names:
self._align[field] = "c"
else:
self._validate_align(val)
if not self._field_names:
self._align = {BASE_ALIGN_VALUE: val}
else:
for field in self._field_names:
self._align[field] = val
@property
def valign(self):
"""Controls vertical alignment of fields
Arguments:
valign - vertical alignment, one of "t", "m", or "b" """
return self._valign
@valign.setter
def valign(self, val):
if not self._field_names:
self._valign = {}
elif val is None or (isinstance(val, dict) and len(val) == 0):
for field in self._field_names:
self._valign[field] = "t"
else:
self._validate_valign(val)
for field in self._field_names:
self._valign[field] = val
@property
def max_width(self):
"""Controls maximum width of fields
Arguments:
max_width - maximum width integer"""
return self._max_width
@max_width.setter
def max_width(self, val):
if val is None or (isinstance(val, dict) and len(val) == 0):
self._max_width = {}
else:
self._validate_option("max_width", val)
for field in self._field_names:
self._max_width[field] = val
@property
def min_width(self):
"""Controls minimum width of fields
Arguments:
min_width - minimum width integer"""
return self._min_width
@min_width.setter
def min_width(self, val):
if val is None or (isinstance(val, dict) and len(val) == 0):
self._min_width = {}
else:
self._validate_option("min_width", val)
for field in self._field_names:
self._min_width[field] = val
@property
def min_table_width(self):
return self._min_table_width
@min_table_width.setter
def min_table_width(self, val):
self._validate_option("min_table_width", val)
self._min_table_width = val
@property
def max_table_width(self):
return self._max_table_width
@max_table_width.setter
def max_table_width(self, val):
self._validate_option("max_table_width", val)
self._max_table_width = val
@property
def fields(self):
"""List or tuple of field names to include in displays"""
return self._fields
@fields.setter
def fields(self, val):
self._validate_option("fields", val)
self._fields = val
@property
def title(self):
"""Optional table title
Arguments:
title - table title"""
return self._title
@title.setter
def title(self, val):
self._title = str(val)
@property
def start(self):
"""Start index of the range of rows to print
Arguments:
start - index of first data row to include in output"""
return self._start
@start.setter
def start(self, val):
self._validate_option("start", val)
self._start = val
@property
def end(self):
"""End index of the range of rows to print
Arguments:
end - index of last data row to include in output PLUS ONE (list slice style)"""
return self._end
@end.setter
def end(self, val):
self._validate_option("end", val)
self._end = val
@property
def sortby(self):
"""Name of field by which to sort rows
Arguments:
sortby - field name to sort by"""
return self._sortby
@sortby.setter
def sortby(self, val):
self._validate_option("sortby", val)
self._sortby = val
@property
def reversesort(self):
"""Controls direction of sorting (ascending vs descending)
Arguments:
reveresort - set to True to sort by descending order, or False to sort by
ascending order"""
return self._reversesort
@reversesort.setter
def reversesort(self, val):
self._validate_option("reversesort", val)
self._reversesort = val
@property
def sort_key(self):
"""Sorting key function, applied to data points before sorting
Arguments:
sort_key - a function which takes one argument and returns something to be
sorted"""
return self._sort_key
@sort_key.setter
def sort_key(self, val):
self._validate_option("sort_key", val)
self._sort_key = val
@property
def header(self):
"""Controls printing of table header with field names
Arguments:
header - print a header showing field names (True or False)"""
return self._header
@header.setter
def header(self, val):
self._validate_option("header", val)
self._header = val
@property
def header_style(self):
"""Controls stylisation applied to field names in header
Arguments:
header_style - stylisation to apply to field names in header
("cap", "title", "upper", "lower" or None)"""
return self._header_style
@header_style.setter
def header_style(self, val):
self._validate_header_style(val)
self._header_style = val
@property
def border(self):
"""Controls printing of border around table
Arguments:
border - print a border around the table (True or False)"""
return self._border
@border.setter
def border(self, val):
self._validate_option("border", val)
self._border = val
@property
def preserve_internal_border(self):
"""Controls printing of border inside table
Arguments:
preserve_internal_border - print a border inside the table even if
border is disabled (True or False)"""
return self._preserve_internal_border
@preserve_internal_border.setter
def preserve_internal_border(self, val):
self._validate_option("preserve_internal_border", val)
self._preserve_internal_border = val
@property
def hrules(self):
"""Controls printing of horizontal rules after rows
Arguments:
hrules - horizontal rules style. Allowed values: FRAME, ALL, HEADER, NONE"""
return self._hrules
@hrules.setter
def hrules(self, val):
self._validate_option("hrules", val)
self._hrules = val
@property
def vrules(self):
"""Controls printing of vertical rules between columns
Arguments:
vrules - vertical rules style. Allowed values: FRAME, ALL, NONE"""
return self._vrules
@vrules.setter
def vrules(self, val):
self._validate_option("vrules", val)
self._vrules = val
@property
def int_format(self):
"""Controls formatting of integer data
Arguments:
int_format - integer format string"""
return self._int_format
@int_format.setter
def int_format(self, val):
if val is None or (isinstance(val, dict) and len(val) == 0):
self._int_format = {}
else:
self._validate_option("int_format", val)
for field in self._field_names:
self._int_format[field] = val
@property
def float_format(self):
"""Controls formatting of floating point data
Arguments:
float_format - floating point format string"""
return self._float_format
@float_format.setter
def float_format(self, val):
if val is None or (isinstance(val, dict) and len(val) == 0):
self._float_format = {}
else:
self._validate_option("float_format", val)
for field in self._field_names:
self._float_format[field] = val
@property
def custom_format(self):
"""Controls formatting of any column using callable
Arguments:
custom_format - Dictionary of field_name and callable"""
return self._custom_format
@custom_format.setter
def custom_format(self, val):
if val is None:
self._custom_format = {}
elif isinstance(val, dict):
for k, v in val.items():
self._validate_function(f"custom_value.{k}", v)
self._custom_format = val
elif hasattr(val, "__call__"):
self._validate_function("custom_value", val)
for field in self._field_names:
self._custom_format[field] = val
else:
raise TypeError(
"The custom_format property need to be a dictionary or callable"
)
@property
def padding_width(self):
"""The number of empty spaces between a column's edge and its content
Arguments:
padding_width - number of spaces, must be a positive integer"""
return self._padding_width
@padding_width.setter
def padding_width(self, val):
self._validate_option("padding_width", val)
self._padding_width = val
@property
def left_padding_width(self):
"""The number of empty spaces between a column's left edge and its content
Arguments:
left_padding - number of spaces, must be a positive integer"""
return self._left_padding_width
@left_padding_width.setter
def left_padding_width(self, val):
self._validate_option("left_padding_width", val)
self._left_padding_width = val
@property
def right_padding_width(self):
"""The number of empty spaces between a column's right edge and its content
Arguments:
right_padding - number of spaces, must be a positive integer"""
return self._right_padding_width
@right_padding_width.setter
def right_padding_width(self, val):
self._validate_option("right_padding_width", val)
self._right_padding_width = val
@property
def vertical_char(self):
"""The character used when printing table borders to draw vertical lines
Arguments:
vertical_char - single character string used to draw vertical lines"""
return self._vertical_char
@vertical_char.setter
def vertical_char(self, val):
val = str(val)
self._validate_option("vertical_char", val)
self._vertical_char = val
@property
def horizontal_char(self):
"""The character used when printing table borders to draw horizontal lines
Arguments:
horizontal_char - single character string used to draw horizontal lines"""
return self._horizontal_char
@horizontal_char.setter
def horizontal_char(self, val):
val = str(val)
self._validate_option("horizontal_char", val)
self._horizontal_char = val
@property
def horizontal_align_char(self):
"""The character used to indicate column alignment in horizontal lines
Arguments:
horizontal_align_char - single character string used to indicate alignment"""
return self._bottom_left_junction_char or self.junction_char
@horizontal_align_char.setter
def horizontal_align_char(self, val):
val = str(val)
self._validate_option("horizontal_align_char", val)
self._horizontal_align_char = val
@property
def junction_char(self):
"""The character used when printing table borders to draw line junctions
Arguments:
junction_char - single character string used to draw line junctions"""
return self._junction_char
@junction_char.setter
def junction_char(self, val):
val = str(val)
self._validate_option("junction_char", val)
self._junction_char = val
@property
def top_junction_char(self):
"""The character used when printing table borders to draw top line junctions
Arguments:
top_junction_char - single character string used to draw top line junctions"""
return self._top_junction_char or self.junction_char
@top_junction_char.setter
def top_junction_char(self, val):
val = str(val)
self._validate_option("top_junction_char", val)
self._top_junction_char = val
@property
def bottom_junction_char(self):
"""The character used when printing table borders to draw bottom line junctions
Arguments:
bottom_junction_char -
single character string used to draw bottom line junctions"""
return self._bottom_junction_char or self.junction_char
@bottom_junction_char.setter
def bottom_junction_char(self, val):
val = str(val)
self._validate_option("bottom_junction_char", val)
self._bottom_junction_char = val
@property
def right_junction_char(self):
"""The character used when printing table borders to draw right line junctions
Arguments:
right_junction_char -
single character string used to draw right line junctions"""
return self._right_junction_char or self.junction_char
@right_junction_char.setter
def right_junction_char(self, val):
val = str(val)
self._validate_option("right_junction_char", val)
self._right_junction_char = val
@property
def left_junction_char(self):
"""The character used when printing table borders to draw left line junctions
Arguments:
left_junction_char - single character string used to draw left line junctions"""
return self._left_junction_char or self.junction_char
@left_junction_char.setter
def left_junction_char(self, val):
val = str(val)
self._validate_option("left_junction_char", val)
self._left_junction_char = val
@property
def top_right_junction_char(self):
"""
The character used when printing table borders to draw top-right line junctions
Arguments:
top_right_junction_char -
single character string used to draw top-right line junctions"""
return self._top_right_junction_char or self.junction_char
@top_right_junction_char.setter
def top_right_junction_char(self, val):
val = str(val)
self._validate_option("top_right_junction_char", val)
self._top_right_junction_char = val
@property
def top_left_junction_char(self):
"""
The character used when printing table borders to draw top-left line junctions
Arguments:
top_left_junction_char -
single character string used to draw top-left line junctions"""
return self._top_left_junction_char or self.junction_char
@top_left_junction_char.setter
def top_left_junction_char(self, val):
val = str(val)
self._validate_option("top_left_junction_char", val)
self._top_left_junction_char = val
@property
def bottom_right_junction_char(self):
"""The character used when printing table borders
to draw bottom-right line junctions
Arguments:
bottom_right_junction_char -
single character string used to draw bottom-right line junctions"""
return self._bottom_right_junction_char or self.junction_char
@bottom_right_junction_char.setter
def bottom_right_junction_char(self, val):
val = str(val)
self._validate_option("bottom_right_junction_char", val)
self._bottom_right_junction_char = val
@property
def bottom_left_junction_char(self):
"""The character used when printing table borders
to draw bottom-left line junctions
Arguments:
bottom_left_junction_char -
single character string used to draw bottom-left line junctions"""
return self._bottom_left_junction_char or self.junction_char
@bottom_left_junction_char.setter
def bottom_left_junction_char(self, val):
val = str(val)
self._validate_option("bottom_left_junction_char", val)
self._bottom_left_junction_char = val
@property
def format(self):
"""Controls whether or not HTML tables are formatted to match styling options
Arguments:
format - True or False"""
return self._format
@format.setter
def format(self, val):
self._validate_option("format", val)
self._format = val
@property
def print_empty(self):
"""Controls whether or not empty tables produce a header and frame or just an
empty string
Arguments:
print_empty - True or False"""
return self._print_empty
@print_empty.setter
def print_empty(self, val):
self._validate_option("print_empty", val)
self._print_empty = val
@property
def attributes(self):
"""A dictionary of HTML attribute name/value pairs to be included in the
<table> tag when printing HTML
Arguments:
attributes - dictionary of attributes"""
return self._attributes
@attributes.setter
def attributes(self, val):
self._validate_option("attributes", val)
self._attributes = val
@property
def oldsortslice(self):
"""oldsortslice - Slice rows before sorting in the "old style" """
return self._oldsortslice
@oldsortslice.setter
def oldsortslice(self, val):
self._validate_option("oldsortslice", val)
self._oldsortslice = val
##############################
# OPTION MIXER #
##############################
def _get_options(self, kwargs):
options = {}
for option in self._options:
if option in kwargs:
self._validate_option(option, kwargs[option])
options[option] = kwargs[option]
else:
options[option] = getattr(self, option)
return options
##############################
# PRESET STYLE LOGIC #
##############################
def set_style(self, style) -> None:
if style == DEFAULT:
self._set_default_style()
elif style == MSWORD_FRIENDLY:
self._set_msword_style()
elif style == PLAIN_COLUMNS:
self._set_columns_style()
elif style == MARKDOWN:
self._set_markdown_style()
elif style == ORGMODE:
self._set_orgmode_style()
elif style == DOUBLE_BORDER:
self._set_double_border_style()
elif style == SINGLE_BORDER:
self._set_single_border_style()
elif style == RANDOM:
self._set_random_style()
else:
raise ValueError("Invalid pre-set style")
def _set_orgmode_style(self):
self._set_default_style()
self.orgmode = True
def _set_markdown_style(self):
self.header = True
self.border = True
self._hrules = None
self.padding_width = 1
self.left_padding_width = 1
self.right_padding_width = 1
self.vertical_char = "|"
self.junction_char = "|"
self._horizontal_align_char = ":"
def _set_default_style(self):
self.header = True
self.border = True
self._hrules = FRAME
self._vrules = ALL
self.padding_width = 1
self.left_padding_width = 1
self.right_padding_width = 1
self.vertical_char = "|"
self.horizontal_char = "-"
self._horizontal_align_char = None
self.junction_char = "+"
self._top_junction_char = None
self._bottom_junction_char = None
self._right_junction_char = None
self._left_junction_char = None
self._top_right_junction_char = None
self._top_left_junction_char = None
self._bottom_right_junction_char = None
self._bottom_left_junction_char = None
def _set_msword_style(self):
self.header = True
self.border = True
self._hrules = NONE
self.padding_width = 1
self.left_padding_width = 1
self.right_padding_width = 1
self.vertical_char = "|"
def _set_columns_style(self):
self.header = True
self.border = False
self.padding_width = 1
self.left_padding_width = 0
self.right_padding_width = 8
def _set_double_border_style(self):
self.horizontal_char = ""
self.vertical_char = ""
self.junction_char = ""
self.top_junction_char = ""
self.bottom_junction_char = ""
self.right_junction_char = ""
self.left_junction_char = ""
self.top_right_junction_char = ""
self.top_left_junction_char = ""
self.bottom_right_junction_char = ""
self.bottom_left_junction_char = ""
def _set_single_border_style(self):
self.horizontal_char = ""
self.vertical_char = ""
self.junction_char = ""
self.top_junction_char = ""
self.bottom_junction_char = ""
self.right_junction_char = ""
self.left_junction_char = ""
self.top_right_junction_char = ""
self.top_left_junction_char = ""
self.bottom_right_junction_char = ""
self.bottom_left_junction_char = ""
def _set_random_style(self):
# Just for fun!
self.header = random.choice((True, False))
self.border = random.choice((True, False))
self._hrules = random.choice((ALL, FRAME, HEADER, NONE))
self._vrules = random.choice((ALL, FRAME, NONE))
self.left_padding_width = random.randint(0, 5)
self.right_padding_width = random.randint(0, 5)
self.vertical_char = random.choice(r"~!@#$%^&*()_+|-=\{}[];':\",./;<>?")
self.horizontal_char = random.choice(r"~!@#$%^&*()_+|-=\{}[];':\",./;<>?")
self.junction_char = random.choice(r"~!@#$%^&*()_+|-=\{}[];':\",./;<>?")
self.preserve_internal_border = random.choice((True, False))
##############################
# DATA INPUT METHODS #
##############################
def add_rows(self, rows) -> None:
"""Add rows to the table
Arguments:
rows - rows of data, should be an iterable of lists, each list with as many
elements as the table has fields"""
for row in rows:
self.add_row(row)
def add_row(self, row, *, divider=False) -> None:
"""Add a row to the table
Arguments:
row - row of data, should be a list with as many elements as the table
has fields"""
if self._field_names and len(row) != len(self._field_names):
raise ValueError(
"Row has incorrect number of values, "
f"(actual) {len(row)}!={len(self._field_names)} (expected)"
)
if not self._field_names:
self.field_names = [f"Field {n + 1}" for n in range(0, len(row))]
self._rows.append(list(row))
self._dividers.append(divider)
def del_row(self, row_index) -> None:
"""Delete a row from the table
Arguments:
row_index - The index of the row you want to delete. Indexing starts at 0."""
if row_index > len(self._rows) - 1:
raise IndexError(
f"Can't delete row at index {row_index}, "
f"table only has {len(self._rows)} rows"
)
del self._rows[row_index]
del self._dividers[row_index]
def add_column(
self, fieldname, column, align: str = "c", valign: str = "t"
) -> None:
"""Add a column to the table.
Arguments:
fieldname - name of the field to contain the new column of data
column - column of data, should be a list with as many elements as the
table has rows
align - desired alignment for this column - "l" for left, "c" for centre and
"r" for right
valign - desired vertical alignment for new columns - "t" for top,
"m" for middle and "b" for bottom"""
if len(self._rows) in (0, len(column)):
self._validate_align(align)
self._validate_valign(valign)
self._field_names.append(fieldname)
self._align[fieldname] = align
self._valign[fieldname] = valign
for i in range(0, len(column)):
if len(self._rows) < i + 1:
self._rows.append([])
self._dividers.append(False)
self._rows[i].append(column[i])
else:
raise ValueError(
f"Column length {len(column)} does not match number of rows "
f"{len(self._rows)}"
)
def add_autoindex(self, fieldname: str = "Index"):
"""Add an auto-incrementing index column to the table.
Arguments:
fieldname - name of the field to contain the new column of data"""
self._field_names.insert(0, fieldname)
self._align[fieldname] = self.align
self._valign[fieldname] = self.valign
for i, row in enumerate(self._rows):
row.insert(0, i + 1)
def del_column(self, fieldname) -> None:
"""Delete a column from the table
Arguments:
fieldname - The field name of the column you want to delete."""
if fieldname not in self._field_names:
raise ValueError(
"Can't delete column %r which is not a field name of this table."
" Field names are: %s"
% (fieldname, ", ".join(map(repr, self._field_names)))
)
col_index = self._field_names.index(fieldname)
del self._field_names[col_index]
for row in self._rows:
del row[col_index]
def clear_rows(self) -> None:
"""Delete all rows from the table but keep the current field names"""
self._rows = []
self._dividers = []
def clear(self) -> None:
"""Delete all rows and field names from the table, maintaining nothing but
styling options"""
self._rows = []
self._dividers = []
self._field_names = []
self._widths = []
##############################
# MISC PUBLIC METHODS #
##############################
def copy(self):
return copy.deepcopy(self)
##############################
# MISC PRIVATE METHODS #
##############################
def _format_value(self, field, value):
if isinstance(value, int) and field in self._int_format:
return ("%%%sd" % self._int_format[field]) % value
elif isinstance(value, float) and field in self._float_format:
return ("%%%sf" % self._float_format[field]) % value
formatter = self._custom_format.get(field, (lambda f, v: str(v)))
return formatter(field, value)
def _compute_table_width(self, options):
table_width = 2 if options["vrules"] in (FRAME, ALL) else 0
per_col_padding = sum(self._get_padding_widths(options))
for index, fieldname in enumerate(self.field_names):
if not options["fields"] or (
options["fields"] and fieldname in options["fields"]
):
table_width += self._widths[index] + per_col_padding
return table_width
def _compute_widths(self, rows, options):
if options["header"]:
widths = [_get_size(field)[0] for field in self._field_names]
else:
widths = len(self.field_names) * [0]
for row in rows:
for index, value in enumerate(row):
fieldname = self.field_names[index]
if self.none_format.get(fieldname) is not None:
if value == "None" or value is None:
value = self.none_format.get(fieldname)
if fieldname in self.max_width:
widths[index] = max(
widths[index],
min(_get_size(value)[0], self.max_width[fieldname]),
)
else:
widths[index] = max(widths[index], _get_size(value)[0])
if fieldname in self.min_width:
widths[index] = max(widths[index], self.min_width[fieldname])
self._widths = widths
# Are we exceeding max_table_width?
if self._max_table_width:
table_width = self._compute_table_width(options)
if table_width > self._max_table_width:
# Shrink widths in proportion
scale = 1.0 * self._max_table_width / table_width
widths = [int(math.floor(w * scale)) for w in widths]
self._widths = widths
# Are we under min_table_width or title width?
if self._min_table_width or options["title"]:
if options["title"]:
title_width = len(options["title"]) + sum(
self._get_padding_widths(options)
)
if options["vrules"] in (FRAME, ALL):
title_width += 2
else:
title_width = 0
min_table_width = self.min_table_width or 0
min_width = max(title_width, min_table_width)
if options["border"]:
borders = len(widths) + 1
elif options["preserve_internal_border"]:
borders = len(widths)
else:
borders = 0
# Subtract padding for each column and borders
min_width -= (
sum([sum(self._get_padding_widths(options)) for _ in widths]) + borders
)
# What is being scaled is content so we sum column widths
content_width = sum(widths) or 1
if content_width < min_width:
# Grow widths in proportion
scale = 1.0 * min_width / content_width
widths = [int(math.floor(w * scale)) for w in widths]
if sum(widths) < min_width:
widths[-1] += min_width - sum(widths)
self._widths = widths
def _get_padding_widths(self, options):
if options["left_padding_width"] is not None:
lpad = options["left_padding_width"]
else:
lpad = options["padding_width"]
if options["right_padding_width"] is not None:
rpad = options["right_padding_width"]
else:
rpad = options["padding_width"]
return lpad, rpad
def _get_rows(self, options):
"""Return only those data rows that should be printed, based on slicing and
sorting.
Arguments:
options - dictionary of option settings."""
if options["oldsortslice"]:
rows = copy.deepcopy(self._rows[options["start"] : options["end"]])
else:
rows = copy.deepcopy(self._rows)
# Sort
if options["sortby"]:
sortindex = self._field_names.index(options["sortby"])
# Decorate
rows = [[row[sortindex]] + row for row in rows]
# Sort
rows.sort(reverse=options["reversesort"], key=options["sort_key"])
# Undecorate
rows = [row[1:] for row in rows]
# Slice if necessary
if not options["oldsortslice"]:
rows = rows[options["start"] : options["end"]]
return rows
def _get_dividers(self, options):
"""Return only those dividers that should be printed, based on slicing.
Arguments:
options - dictionary of option settings."""
if options["oldsortslice"]:
dividers = copy.deepcopy(self._dividers[options["start"] : options["end"]])
else:
dividers = copy.deepcopy(self._dividers)
if options["sortby"]:
dividers = [False for divider in dividers]
return dividers
def _format_row(self, row):
return [
self._format_value(field, value)
for (field, value) in zip(self._field_names, row)
]
def _format_rows(self, rows):
return [self._format_row(row) for row in rows]
##############################
# PLAIN TEXT STRING METHODS #
##############################
def get_string(self, **kwargs) -> str:
"""Return string representation of table in current state.
Arguments:
title - optional table title
start - index of first data row to include in output
end - index of last data row to include in output PLUS ONE (list slice style)
fields - names of fields (columns) to include
header - print a header showing field names (True or False)
border - print a border around the table (True or False)
preserve_internal_border - print a border inside the table even if
border is disabled (True or False)
hrules - controls printing of horizontal rules after rows.
Allowed values: ALL, FRAME, HEADER, NONE
vrules - controls printing of vertical rules between columns.
Allowed values: FRAME, ALL, NONE
int_format - controls formatting of integer data
float_format - controls formatting of floating point data
custom_format - controls formatting of any column using callable
padding_width - number of spaces on either side of column data (only used if
left and right paddings are None)
left_padding_width - number of spaces on left hand side of column data
right_padding_width - number of spaces on right hand side of column data
vertical_char - single character string used to draw vertical lines
horizontal_char - single character string used to draw horizontal lines
horizontal_align_char - single character string used to indicate alignment
junction_char - single character string used to draw line junctions
junction_char - single character string used to draw line junctions
top_junction_char - single character string used to draw top line junctions
bottom_junction_char -
single character string used to draw bottom line junctions
right_junction_char - single character string used to draw right line junctions
left_junction_char - single character string used to draw left line junctions
top_right_junction_char -
single character string used to draw top-right line junctions
top_left_junction_char -
single character string used to draw top-left line junctions
bottom_right_junction_char -
single character string used to draw bottom-right line junctions
bottom_left_junction_char -
single character string used to draw bottom-left line junctions
sortby - name of field to sort rows by
sort_key - sorting key function, applied to data points before sorting
reversesort - True or False to sort in descending or ascending order
print empty - if True, stringify just the header for an empty table,
if False return an empty string"""
options = self._get_options(kwargs)
lines = []
# Don't think too hard about an empty table
# Is this the desired behaviour? Maybe we should still print the header?
if self.rowcount == 0 and (not options["print_empty"] or not options["border"]):
return ""
# Get the rows we need to print, taking into account slicing, sorting, etc.
rows = self._get_rows(options)
dividers = self._get_dividers(options)
# Turn all data in all rows into Unicode, formatted as desired
formatted_rows = self._format_rows(rows)
# Compute column widths
self._compute_widths(formatted_rows, options)
self._hrule = self._stringify_hrule(options)
# Add title
title = options["title"] or self._title
if title:
lines.append(self._stringify_title(title, options))
# Add header or top of border
if options["header"]:
lines.append(self._stringify_header(options))
elif options["border"] and options["hrules"] in (ALL, FRAME):
lines.append(self._stringify_hrule(options, where="top_"))
if title and options["vrules"] in (ALL, FRAME):
lines[-1] = (
self.left_junction_char + lines[-1][1:-1] + self.right_junction_char
)
# Add rows
for row, divider in zip(formatted_rows[:-1], dividers[:-1]):
lines.append(self._stringify_row(row, options, self._hrule))
if divider:
lines.append(self._stringify_hrule(options, where="bottom_"))
if formatted_rows:
lines.append(
self._stringify_row(
formatted_rows[-1],
options,
self._stringify_hrule(options, where="bottom_"),
)
)
# Add bottom of border
if options["border"] and options["hrules"] == FRAME:
lines.append(self._stringify_hrule(options, where="bottom_"))
if "orgmode" in self.__dict__ and self.orgmode is True:
tmp = list()
for line in lines:
tmp.extend(line.split("\n"))
lines = ["|" + line[1:-1] + "|" for line in tmp]
return "\n".join(lines)
def _stringify_hrule(self, options, where=""):
if not options["border"] and not options["preserve_internal_border"]:
return ""
lpad, rpad = self._get_padding_widths(options)
if options["vrules"] in (ALL, FRAME):
bits = [options[where + "left_junction_char"]]
else:
bits = [options["horizontal_char"]]
# For tables with no data or fieldnames
if not self._field_names:
bits.append(options[where + "right_junction_char"])
return "".join(bits)
for field, width in zip(self._field_names, self._widths):
if options["fields"] and field not in options["fields"]:
continue
line = (width + lpad + rpad) * options["horizontal_char"]
# If necessary, add column alignment characters (e.g. ":" for Markdown)
if self._horizontal_align_char:
if self._align[field] in ("l", "c"):
line = self._horizontal_align_char + line[1:]
if self._align[field] in ("c", "r"):
line = line[:-1] + self._horizontal_align_char
bits.append(line)
if options["vrules"] == ALL:
bits.append(options[where + "junction_char"])
else:
bits.append(options["horizontal_char"])
if options["vrules"] in (ALL, FRAME):
bits.pop()
bits.append(options[where + "right_junction_char"])
if options["preserve_internal_border"] and not options["border"]:
bits = bits[1:-1]
return "".join(bits)
def _stringify_title(self, title, options):
lines = []
lpad, rpad = self._get_padding_widths(options)
if options["border"]:
if options["vrules"] == ALL:
options["vrules"] = FRAME
lines.append(self._stringify_hrule(options, "top_"))
options["vrules"] = ALL
elif options["vrules"] == FRAME:
lines.append(self._stringify_hrule(options, "top_"))
bits = []
endpoint = (
options["vertical_char"]
if options["vrules"] in (ALL, FRAME) and options["border"]
else " "
)
bits.append(endpoint)
title = " " * lpad + title + " " * rpad
bits.append(self._justify(title, len(self._hrule) - 2, "c"))
bits.append(endpoint)
lines.append("".join(bits))
return "\n".join(lines)
def _stringify_header(self, options):
bits = []
lpad, rpad = self._get_padding_widths(options)
if options["border"]:
if options["hrules"] in (ALL, FRAME):
bits.append(self._stringify_hrule(options, "top_"))
if options["title"] and options["vrules"] in (ALL, FRAME):
bits[-1] = (
self.left_junction_char
+ bits[-1][1:-1]
+ self.right_junction_char
)
bits.append("\n")
if options["vrules"] in (ALL, FRAME):
bits.append(options["vertical_char"])
else:
bits.append(" ")
# For tables with no data or field names
if not self._field_names:
if options["vrules"] in (ALL, FRAME):
bits.append(options["vertical_char"])
else:
bits.append(" ")
for field, width in zip(self._field_names, self._widths):
if options["fields"] and field not in options["fields"]:
continue
if self._header_style == "cap":
fieldname = field.capitalize()
elif self._header_style == "title":
fieldname = field.title()
elif self._header_style == "upper":
fieldname = field.upper()
elif self._header_style == "lower":
fieldname = field.lower()
else:
fieldname = field
if _str_block_width(fieldname) > width:
fieldname = fieldname[:width]
bits.append(
" " * lpad
+ self._justify(fieldname, width, self._align[field])
+ " " * rpad
)
if options["border"] or options["preserve_internal_border"]:
if options["vrules"] == ALL:
bits.append(options["vertical_char"])
else:
bits.append(" ")
# If only preserve_internal_border is true, then we just appended
# a vertical character at the end when we wanted a space
if not options["border"] and options["preserve_internal_border"]:
bits.pop()
bits.append(" ")
# If vrules is FRAME, then we just appended a space at the end
# of the last field, when we really want a vertical character
if options["border"] and options["vrules"] == FRAME:
bits.pop()
bits.append(options["vertical_char"])
if (options["border"] or options["preserve_internal_border"]) and options[
"hrules"
] != NONE:
bits.append("\n")
bits.append(self._hrule)
return "".join(bits)
def _stringify_row(self, row, options, hrule):
for index, field, value, width in zip(
range(0, len(row)), self._field_names, row, self._widths
):
# Enforce max widths
lines = value.split("\n")
new_lines = []
for line in lines:
if line == "None" and self.none_format.get(field) is not None:
line = self.none_format[field]
if _str_block_width(line) > width:
line = textwrap.fill(line, width)
new_lines.append(line)
lines = new_lines
value = "\n".join(lines)
row[index] = value
row_height = 0
for c in row:
h = _get_size(c)[1]
if h > row_height:
row_height = h
bits = []
lpad, rpad = self._get_padding_widths(options)
for y in range(0, row_height):
bits.append([])
if options["border"]:
if options["vrules"] in (ALL, FRAME):
bits[y].append(self.vertical_char)
else:
bits[y].append(" ")
for field, value, width in zip(self._field_names, row, self._widths):
valign = self._valign[field]
lines = value.split("\n")
d_height = row_height - len(lines)
if d_height:
if valign == "m":
lines = (
[""] * int(d_height / 2)
+ lines
+ [""] * (d_height - int(d_height / 2))
)
elif valign == "b":
lines = [""] * d_height + lines
else:
lines = lines + [""] * d_height
y = 0
for line in lines:
if options["fields"] and field not in options["fields"]:
continue
bits[y].append(
" " * lpad
+ self._justify(line, width, self._align[field])
+ " " * rpad
)
if options["border"] or options["preserve_internal_border"]:
if options["vrules"] == ALL:
bits[y].append(self.vertical_char)
else:
bits[y].append(" ")
y += 1
# If only preserve_internal_border is true, then we just appended
# a vertical character at the end when we wanted a space
if not options["border"] and options["preserve_internal_border"]:
bits[-1].pop()
bits[-1].append(" ")
# If vrules is FRAME, then we just appended a space at the end
# of the last field, when we really want a vertical character
for y in range(0, row_height):
if options["border"] and options["vrules"] == FRAME:
bits[y].pop()
bits[y].append(options["vertical_char"])
if options["border"] and options["hrules"] == ALL:
bits[row_height - 1].append("\n")
bits[row_height - 1].append(hrule)
for y in range(0, row_height):
bits[y] = "".join(bits[y])
return "\n".join(bits)
def paginate(self, page_length: int = 58, line_break: str = "\f", **kwargs):
pages = []
kwargs["start"] = kwargs.get("start", 0)
true_end = kwargs.get("end", self.rowcount)
while True:
kwargs["end"] = min(kwargs["start"] + page_length, true_end)
pages.append(self.get_string(**kwargs))
if kwargs["end"] == true_end:
break
kwargs["start"] += page_length
return line_break.join(pages)
##############################
# CSV STRING METHODS #
##############################
def get_csv_string(self, **kwargs) -> str:
"""Return string representation of CSV formatted table in the current state
Keyword arguments are first interpreted as table formatting options, and
then any unused keyword arguments are passed to csv.writer(). For
example, get_csv_string(header=False, delimiter='\t') would use
header as a PrettyTable formatting option (skip the header row) and
delimiter as a csv.writer keyword argument.
"""
options = self._get_options(kwargs)
csv_options = {
key: value for key, value in kwargs.items() if key not in options
}
csv_buffer = io.StringIO()
csv_writer = csv.writer(csv_buffer, **csv_options)
if options.get("header"):
csv_writer.writerow(self._field_names)
for row in self._get_rows(options):
csv_writer.writerow(row)
return csv_buffer.getvalue()
##############################
# JSON STRING METHODS #
##############################
def get_json_string(self, **kwargs) -> str:
"""Return string representation of JSON formatted table in the current state
Keyword arguments are first interpreted as table formatting options, and
then any unused keyword arguments are passed to json.dumps(). For
example, get_json_string(header=False, indent=2) would use header as
a PrettyTable formatting option (skip the header row) and indent as a
json.dumps keyword argument.
"""
options = self._get_options(kwargs)
json_options: Any = dict(indent=4, separators=(",", ": "), sort_keys=True)
json_options.update(
{key: value for key, value in kwargs.items() if key not in options}
)
objects = []
if options.get("header"):
objects.append(self.field_names)
for row in self._get_rows(options):
objects.append(dict(zip(self._field_names, row)))
return json.dumps(objects, **json_options)
##############################
# HTML STRING METHODS #
##############################
def get_html_string(self, **kwargs) -> str:
"""Return string representation of HTML formatted version of table in current
state.
Arguments:
title - optional table title
start - index of first data row to include in output
end - index of last data row to include in output PLUS ONE (list slice style)
fields - names of fields (columns) to include
header - print a header showing field names (True or False)
border - print a border around the table (True or False)
preserve_internal_border - print a border inside the table even if
border is disabled (True or False)
hrules - controls printing of horizontal rules after rows.
Allowed values: ALL, FRAME, HEADER, NONE
vrules - controls printing of vertical rules between columns.
Allowed values: FRAME, ALL, NONE
int_format - controls formatting of integer data
float_format - controls formatting of floating point data
custom_format - controls formatting of any column using callable
padding_width - number of spaces on either side of column data (only used if
left and right paddings are None)
left_padding_width - number of spaces on left hand side of column data
right_padding_width - number of spaces on right hand side of column data
sortby - name of field to sort rows by
sort_key - sorting key function, applied to data points before sorting
attributes - dictionary of name/value pairs to include as HTML attributes in the
<table> tag
format - Controls whether or not HTML tables are formatted to match
styling options (True or False)
xhtml - print <br/> tags if True, <br> tags if False"""
options = self._get_options(kwargs)
if options["format"]:
string = self._get_formatted_html_string(options)
else:
string = self._get_simple_html_string(options)
return string
def _get_simple_html_string(self, options):
lines = []
if options["xhtml"]:
linebreak = "<br/>"
else:
linebreak = "<br>"
open_tag = ["<table"]
if options["attributes"]:
for attr_name in options["attributes"]:
open_tag.append(f' {attr_name}="{options["attributes"][attr_name]}"')
open_tag.append(">")
lines.append("".join(open_tag))
# Title
title = options["title"] or self._title
if title:
lines.append(f" <caption>{title}</caption>")
# Headers
if options["header"]:
lines.append(" <thead>")
lines.append(" <tr>")
for field in self._field_names:
if options["fields"] and field not in options["fields"]:
continue
lines.append(
" <th>%s</th>" % escape(field).replace("\n", linebreak)
)
lines.append(" </tr>")
lines.append(" </thead>")
# Data
lines.append(" <tbody>")
rows = self._get_rows(options)
formatted_rows = self._format_rows(rows)
for row in formatted_rows:
lines.append(" <tr>")
for field, datum in zip(self._field_names, row):
if options["fields"] and field not in options["fields"]:
continue
lines.append(
" <td>%s</td>" % escape(datum).replace("\n", linebreak)
)
lines.append(" </tr>")
lines.append(" </tbody>")
lines.append("</table>")
return "\n".join(lines)
def _get_formatted_html_string(self, options):
lines = []
lpad, rpad = self._get_padding_widths(options)
if options["xhtml"]:
linebreak = "<br/>"
else:
linebreak = "<br>"
open_tag = ["<table"]
if options["border"]:
if options["hrules"] == ALL and options["vrules"] == ALL:
open_tag.append(' frame="box" rules="all"')
elif options["hrules"] == FRAME and options["vrules"] == FRAME:
open_tag.append(' frame="box"')
elif options["hrules"] == FRAME and options["vrules"] == ALL:
open_tag.append(' frame="box" rules="cols"')
elif options["hrules"] == FRAME:
open_tag.append(' frame="hsides"')
elif options["hrules"] == ALL:
open_tag.append(' frame="hsides" rules="rows"')
elif options["vrules"] == FRAME:
open_tag.append(' frame="vsides"')
elif options["vrules"] == ALL:
open_tag.append(' frame="vsides" rules="cols"')
if not options["border"] and options["preserve_internal_border"]:
open_tag.append(' rules="cols"')
if options["attributes"]:
for attr_name in options["attributes"]:
open_tag.append(f' {attr_name}="{options["attributes"][attr_name]}"')
open_tag.append(">")
lines.append("".join(open_tag))
# Title
title = options["title"] or self._title
if title:
lines.append(f" <caption>{title}</caption>")
# Headers
if options["header"]:
lines.append(" <thead>")
lines.append(" <tr>")
for field in self._field_names:
if options["fields"] and field not in options["fields"]:
continue
lines.append(
' <th style="padding-left: %dem; padding-right: %dem; text-align: center">%s</th>' # noqa: E501
% (lpad, rpad, escape(field).replace("\n", linebreak))
)
lines.append(" </tr>")
lines.append(" </thead>")
# Data
lines.append(" <tbody>")
rows = self._get_rows(options)
formatted_rows = self._format_rows(rows)
aligns = []
valigns = []
for field in self._field_names:
aligns.append(
{"l": "left", "r": "right", "c": "center"}[self._align[field]]
)
valigns.append(
{"t": "top", "m": "middle", "b": "bottom"}[self._valign[field]]
)
for row in formatted_rows:
lines.append(" <tr>")
for field, datum, align, valign in zip(
self._field_names, row, aligns, valigns
):
if options["fields"] and field not in options["fields"]:
continue
lines.append(
' <td style="padding-left: %dem; padding-right: %dem; text-align: %s; vertical-align: %s">%s</td>' # noqa: E501
% (
lpad,
rpad,
align,
valign,
escape(datum).replace("\n", linebreak),
)
)
lines.append(" </tr>")
lines.append(" </tbody>")
lines.append("</table>")
return "\n".join(lines)
##############################
# LATEX STRING METHODS #
##############################
def get_latex_string(self, **kwargs) -> str:
"""Return string representation of LaTex formatted version of table in current
state.
Arguments:
start - index of first data row to include in output
end - index of last data row to include in output PLUS ONE (list slice style)
fields - names of fields (columns) to include
header - print a header showing field names (True or False)
border - print a border around the table (True or False)
preserve_internal_border - print a border inside the table even if
border is disabled (True or False)
hrules - controls printing of horizontal rules after rows.
Allowed values: ALL, FRAME, HEADER, NONE
vrules - controls printing of vertical rules between columns.
Allowed values: FRAME, ALL, NONE
int_format - controls formatting of integer data
float_format - controls formatting of floating point data
sortby - name of field to sort rows by
sort_key - sorting key function, applied to data points before sorting
format - Controls whether or not HTML tables are formatted to match
styling options (True or False)
"""
options = self._get_options(kwargs)
if options["format"]:
string = self._get_formatted_latex_string(options)
else:
string = self._get_simple_latex_string(options)
return string
def _get_simple_latex_string(self, options):
lines = []
wanted_fields = []
if options["fields"]:
wanted_fields = [
field for field in self._field_names if field in options["fields"]
]
else:
wanted_fields = self._field_names
alignments = "".join([self._align[field] for field in wanted_fields])
begin_cmd = "\\begin{tabular}{%s}" % alignments
lines.append(begin_cmd)
# Headers
if options["header"]:
lines.append(" & ".join(wanted_fields) + " \\\\")
# Data
rows = self._get_rows(options)
formatted_rows = self._format_rows(rows)
for row in formatted_rows:
wanted_data = [
d for f, d in zip(self._field_names, row) if f in wanted_fields
]
lines.append(" & ".join(wanted_data) + " \\\\")
lines.append("\\end{tabular}")
return "\r\n".join(lines)
def _get_formatted_latex_string(self, options):
lines = []
wanted_fields = []
if options["fields"]:
wanted_fields = [
field for field in self._field_names if field in options["fields"]
]
else:
wanted_fields = self._field_names
wanted_alignments = [self._align[field] for field in wanted_fields]
if options["border"] and options["vrules"] == ALL:
alignment_str = "|".join(wanted_alignments)
elif not options["border"] and options["preserve_internal_border"]:
alignment_str = "|".join(wanted_alignments)
else:
alignment_str = "".join(wanted_alignments)
if options["border"] and options["vrules"] in [ALL, FRAME]:
alignment_str = "|" + alignment_str + "|"
begin_cmd = "\\begin{tabular}{%s}" % alignment_str
lines.append(begin_cmd)
if options["border"] and options["hrules"] in [ALL, FRAME]:
lines.append("\\hline")
# Headers
if options["header"]:
lines.append(" & ".join(wanted_fields) + " \\\\")
if (options["border"] or options["preserve_internal_border"]) and options[
"hrules"
] in [ALL, HEADER]:
lines.append("\\hline")
# Data
rows = self._get_rows(options)
formatted_rows = self._format_rows(rows)
rows = self._get_rows(options)
for row in formatted_rows:
wanted_data = [
d for f, d in zip(self._field_names, row) if f in wanted_fields
]
lines.append(" & ".join(wanted_data) + " \\\\")
if options["border"] and options["hrules"] == ALL:
lines.append("\\hline")
if options["border"] and options["hrules"] == FRAME:
lines.append("\\hline")
lines.append("\\end{tabular}")
return "\r\n".join(lines)
##############################
# UNICODE WIDTH FUNCTION #
##############################
def _str_block_width(val):
return wcwidth.wcswidth(_re.sub("", val))
##############################
# TABLE FACTORIES #
##############################
def from_csv(fp, field_names: Any | None = None, **kwargs):
fmtparams = {}
for param in [
"delimiter",
"doublequote",
"escapechar",
"lineterminator",
"quotechar",
"quoting",
"skipinitialspace",
"strict",
]:
if param in kwargs:
fmtparams[param] = kwargs.pop(param)
if fmtparams:
reader = csv.reader(fp, **fmtparams)
else:
dialect = csv.Sniffer().sniff(fp.read(1024))
fp.seek(0)
reader = csv.reader(fp, dialect)
table = PrettyTable(**kwargs)
if field_names:
table.field_names = field_names
else:
table.field_names = [x.strip() for x in next(reader)]
for row in reader:
table.add_row([x.strip() for x in row])
return table
def from_db_cursor(cursor, **kwargs):
if cursor.description:
table = PrettyTable(**kwargs)
table.field_names = [col[0] for col in cursor.description]
for row in cursor.fetchall():
table.add_row(row)
return table
def from_json(json_string, **kwargs):
table = PrettyTable(**kwargs)
objects = json.loads(json_string)
table.field_names = objects[0]
for obj in objects[1:]:
row = [obj[key] for key in table.field_names]
table.add_row(row)
return table
class TableHandler(HTMLParser):
def __init__(self, **kwargs) -> None:
HTMLParser.__init__(self)
self.kwargs = kwargs
self.tables: list[list] = []
self.last_row: list[str] = []
self.rows: list[Any] = []
self.max_row_width = 0
self.active = None
self.last_content = ""
self.is_last_row_header = False
self.colspan = 0
def handle_starttag(self, tag, attrs) -> None:
self.active = tag
if tag == "th":
self.is_last_row_header = True
for key, value in attrs:
if key == "colspan":
self.colspan = int(value)
def handle_endtag(self, tag) -> None:
if tag in ["th", "td"]:
stripped_content = self.last_content.strip()
self.last_row.append(stripped_content)
if self.colspan:
for i in range(1, self.colspan):
self.last_row.append("")
self.colspan = 0
if tag == "tr":
self.rows.append((self.last_row, self.is_last_row_header))
self.max_row_width = max(self.max_row_width, len(self.last_row))
self.last_row = []
self.is_last_row_header = False
if tag == "table":
table = self.generate_table(self.rows)
self.tables.append(table)
self.rows = []
self.last_content = " "
self.active = None
def handle_data(self, data) -> None:
self.last_content += data
def generate_table(self, rows):
"""
Generates from a list of rows a PrettyTable object.
"""
table = PrettyTable(**self.kwargs)
for row in self.rows:
if len(row[0]) < self.max_row_width:
appends = self.max_row_width - len(row[0])
for i in range(1, appends):
row[0].append("-")
if row[1]:
self.make_fields_unique(row[0])
table.field_names = row[0]
else:
table.add_row(row[0])
return table
def make_fields_unique(self, fields) -> None:
"""
iterates over the row and make each field unique
"""
for i in range(0, len(fields)):
for j in range(i + 1, len(fields)):
if fields[i] == fields[j]:
fields[j] += "'"
def from_html(html_code, **kwargs):
"""
Generates a list of PrettyTables from a string of HTML code. Each <table> in
the HTML becomes one PrettyTable object.
"""
parser = TableHandler(**kwargs)
parser.feed(html_code)
return parser.tables
def from_html_one(html_code, **kwargs):
"""
Generates a PrettyTables from a string of HTML code which contains only a
single <table>
"""
tables = from_html(html_code, **kwargs)
try:
assert len(tables) == 1
except AssertionError:
raise ValueError(
"More than one <table> in provided HTML code. Use from_html instead."
)
return tables[0]