cpython/Lib/idlelib/format.py

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"""Format all or a selected region (line slice) of text.
Region formatting options: paragraph, comment block, indent, deindent,
comment, uncomment, tabify, and untabify.
File renamed from paragraph.py with functions added from editor.py.
"""
import re
from tkinter.messagebox import askyesno
from tkinter.simpledialog import askinteger
from idlelib.config import idleConf
class FormatParagraph:
"""Format a paragraph, comment block, or selection to a max width.
Does basic, standard text formatting, and also understands Python
comment blocks. Thus, for editing Python source code, this
extension is really only suitable for reformatting these comment
blocks or triple-quoted strings.
Known problems with comment reformatting:
* If there is a selection marked, and the first line of the
selection is not complete, the block will probably not be detected
as comments, and will have the normal "text formatting" rules
applied.
* If a comment block has leading whitespace that mixes tabs and
spaces, they will not be considered part of the same block.
* Fancy comments, like this bulleted list, aren't handled :-)
"""
def __init__(self, editwin):
self.editwin = editwin
@classmethod
def reload(cls):
cls.max_width = idleConf.GetOption('extensions', 'FormatParagraph',
'max-width', type='int', default=72)
def close(self):
self.editwin = None
def format_paragraph_event(self, event, limit=None):
"""Formats paragraph to a max width specified in idleConf.
If text is selected, format_paragraph_event will start breaking lines
at the max width, starting from the beginning selection.
If no text is selected, format_paragraph_event uses the current
cursor location to determine the paragraph (lines of text surrounded
by blank lines) and formats it.
The length limit parameter is for testing with a known value.
"""
limit = self.max_width if limit is None else limit
text = self.editwin.text
first, last = self.editwin.get_selection_indices()
if first and last:
data = text.get(first, last)
comment_header = get_comment_header(data)
else:
first, last, comment_header, data = \
find_paragraph(text, text.index("insert"))
if comment_header:
newdata = reformat_comment(data, limit, comment_header)
else:
newdata = reformat_paragraph(data, limit)
text.tag_remove("sel", "1.0", "end")
if newdata != data:
text.mark_set("insert", first)
text.undo_block_start()
text.delete(first, last)
text.insert(first, newdata)
text.undo_block_stop()
else:
text.mark_set("insert", last)
text.see("insert")
return "break"
FormatParagraph.reload()
def find_paragraph(text, mark):
"""Returns the start/stop indices enclosing the paragraph that mark is in.
Also returns the comment format string, if any, and paragraph of text
between the start/stop indices.
"""
lineno, col = map(int, mark.split("."))
line = text.get("%d.0" % lineno, "%d.end" % lineno)
# Look for start of next paragraph if the index passed in is a blank line
while text.compare("%d.0" % lineno, "<", "end") and is_all_white(line):
lineno = lineno + 1
line = text.get("%d.0" % lineno, "%d.end" % lineno)
first_lineno = lineno
comment_header = get_comment_header(line)
comment_header_len = len(comment_header)
# Once start line found, search for end of paragraph (a blank line)
while get_comment_header(line)==comment_header and \
not is_all_white(line[comment_header_len:]):
lineno = lineno + 1
line = text.get("%d.0" % lineno, "%d.end" % lineno)
last = "%d.0" % lineno
# Search back to beginning of paragraph (first blank line before)
lineno = first_lineno - 1
line = text.get("%d.0" % lineno, "%d.end" % lineno)
while lineno > 0 and \
get_comment_header(line)==comment_header and \
not is_all_white(line[comment_header_len:]):
lineno = lineno - 1
line = text.get("%d.0" % lineno, "%d.end" % lineno)
first = "%d.0" % (lineno+1)
return first, last, comment_header, text.get(first, last)
# This should perhaps be replaced with textwrap.wrap
def reformat_paragraph(data, limit):
"""Return data reformatted to specified width (limit)."""
lines = data.split("\n")
i = 0
n = len(lines)
while i < n and is_all_white(lines[i]):
i = i+1
if i >= n:
return data
indent1 = get_indent(lines[i])
if i+1 < n and not is_all_white(lines[i+1]):
indent2 = get_indent(lines[i+1])
else:
indent2 = indent1
new = lines[:i]
partial = indent1
while i < n and not is_all_white(lines[i]):
# XXX Should take double space after period (etc.) into account
words = re.split(r"(\s+)", lines[i])
for j in range(0, len(words), 2):
word = words[j]
if not word:
continue # Can happen when line ends in whitespace
if len((partial + word).expandtabs()) > limit and \
partial != indent1:
new.append(partial.rstrip())
partial = indent2
partial = partial + word + " "
if j+1 < len(words) and words[j+1] != " ":
partial = partial + " "
i = i+1
new.append(partial.rstrip())
# XXX Should reformat remaining paragraphs as well
new.extend(lines[i:])
return "\n".join(new)
def reformat_comment(data, limit, comment_header):
"""Return data reformatted to specified width with comment header."""
# Remove header from the comment lines
lc = len(comment_header)
data = "\n".join(line[lc:] for line in data.split("\n"))
# Reformat to maxformatwidth chars or a 20 char width,
# whichever is greater.
format_width = max(limit - len(comment_header), 20)
newdata = reformat_paragraph(data, format_width)
# re-split and re-insert the comment header.
newdata = newdata.split("\n")
# If the block ends in a \n, we don't want the comment prefix
# inserted after it. (Im not sure it makes sense to reformat a
# comment block that is not made of complete lines, but whatever!)
# Can't think of a clean solution, so we hack away
block_suffix = ""
if not newdata[-1]:
block_suffix = "\n"
newdata = newdata[:-1]
return '\n'.join(comment_header+line for line in newdata) + block_suffix
def is_all_white(line):
"""Return True if line is empty or all whitespace."""
return re.match(r"^\s*$", line) is not None
def get_indent(line):
"""Return the initial space or tab indent of line."""
return re.match(r"^([ \t]*)", line).group()
def get_comment_header(line):
"""Return string with leading whitespace and '#' from line or ''.
A null return indicates that the line is not a comment line. A non-
null return, such as ' #', will be used to find the other lines of
a comment block with the same indent.
"""
m = re.match(r"^([ \t]*#*)", line)
if m is None: return ""
return m.group(1)
# Copied from editor.py; importing it would cause an import cycle.
_line_indent_re = re.compile(r'[ \t]*')
def get_line_indent(line, tabwidth):
"""Return a line's indentation as (# chars, effective # of spaces).
The effective # of spaces is the length after properly "expanding"
the tabs into spaces, as done by str.expandtabs(tabwidth).
"""
m = _line_indent_re.match(line)
return m.end(), len(m.group().expandtabs(tabwidth))
class FormatRegion:
"Format selected text (region)."
def __init__(self, editwin):
self.editwin = editwin
def get_region(self):
"""Return line information about the selected text region.
If text is selected, the first and last indices will be
for the selection. If there is no text selected, the
indices will be the current cursor location.
Return a tuple containing (first index, last index,
string representation of text, list of text lines).
"""
text = self.editwin.text
first, last = self.editwin.get_selection_indices()
if first and last:
head = text.index(first + " linestart")
tail = text.index(last + "-1c lineend +1c")
else:
head = text.index("insert linestart")
tail = text.index("insert lineend +1c")
chars = text.get(head, tail)
lines = chars.split("\n")
return head, tail, chars, lines
def set_region(self, head, tail, chars, lines):
"""Replace the text between the given indices.
Args:
head: Starting index of text to replace.
tail: Ending index of text to replace.
chars: Expected to be string of current text
between head and tail.
lines: List of new lines to insert between head
and tail.
"""
text = self.editwin.text
newchars = "\n".join(lines)
if newchars == chars:
text.bell()
return
text.tag_remove("sel", "1.0", "end")
text.mark_set("insert", head)
text.undo_block_start()
text.delete(head, tail)
text.insert(head, newchars)
text.undo_block_stop()
text.tag_add("sel", head, "insert")
def indent_region_event(self, event=None):
"Indent region by indentwidth spaces."
head, tail, chars, lines = self.get_region()
for pos in range(len(lines)):
line = lines[pos]
if line:
raw, effective = get_line_indent(line, self.editwin.tabwidth)
effective = effective + self.editwin.indentwidth
lines[pos] = self.editwin._make_blanks(effective) + line[raw:]
self.set_region(head, tail, chars, lines)
return "break"
def dedent_region_event(self, event=None):
"Dedent region by indentwidth spaces."
head, tail, chars, lines = self.get_region()
for pos in range(len(lines)):
line = lines[pos]
if line:
raw, effective = get_line_indent(line, self.editwin.tabwidth)
effective = max(effective - self.editwin.indentwidth, 0)
lines[pos] = self.editwin._make_blanks(effective) + line[raw:]
self.set_region(head, tail, chars, lines)
return "break"
def comment_region_event(self, event=None):
"""Comment out each line in region.
## is appended to the beginning of each line to comment it out.
"""
head, tail, chars, lines = self.get_region()
for pos in range(len(lines) - 1):
line = lines[pos]
lines[pos] = '##' + line
self.set_region(head, tail, chars, lines)
return "break"
def uncomment_region_event(self, event=None):
"""Uncomment each line in region.
Remove ## or # in the first positions of a line. If the comment
is not in the beginning position, this command will have no effect.
"""
head, tail, chars, lines = self.get_region()
for pos in range(len(lines)):
line = lines[pos]
if not line:
continue
if line[:2] == '##':
line = line[2:]
elif line[:1] == '#':
line = line[1:]
lines[pos] = line
self.set_region(head, tail, chars, lines)
return "break"
def tabify_region_event(self, event=None):
"Convert leading spaces to tabs for each line in selected region."
head, tail, chars, lines = self.get_region()
tabwidth = self._asktabwidth()
if tabwidth is None:
return
for pos in range(len(lines)):
line = lines[pos]
if line:
raw, effective = get_line_indent(line, tabwidth)
ntabs, nspaces = divmod(effective, tabwidth)
lines[pos] = '\t' * ntabs + ' ' * nspaces + line[raw:]
self.set_region(head, tail, chars, lines)
return "break"
def untabify_region_event(self, event=None):
"Expand tabs to spaces for each line in region."
head, tail, chars, lines = self.get_region()
tabwidth = self._asktabwidth()
if tabwidth is None:
return
for pos in range(len(lines)):
lines[pos] = lines[pos].expandtabs(tabwidth)
self.set_region(head, tail, chars, lines)
return "break"
def _asktabwidth(self):
"Return value for tab width."
return askinteger(
"Tab width",
"Columns per tab? (2-16)",
parent=self.editwin.text,
initialvalue=self.editwin.indentwidth,
minvalue=2,
maxvalue=16)
# With mixed indents not allowed, these are semi-useless and not unittested.
class Indents: # pragma: no cover
"Change future indents."
def __init__(self, editwin):
self.editwin = editwin
def toggle_tabs_event(self, event):
editwin = self.editwin
usetabs = editwin.usetabs
if askyesno(
"Toggle tabs",
"Turn tabs " + ("on", "off")[usetabs] +
"?\nIndent width " +
("will be", "remains at")[usetabs] + " 8." +
"\n Note: a tab is always 8 columns",
parent=editwin.text):
editwin.usetabs = not usetabs
# Try to prevent inconsistent indentation.
# User must change indent width manually after using tabs.
editwin.indentwidth = 8
return "break"
def change_indentwidth_event(self, event):
editwin = self.editwin
new = askinteger(
"Indent width",
"New indent width (2-16)\n(Always use 8 when using tabs)",
parent=editwin.text,
initialvalue=editwin.indentwidth,
minvalue=2,
maxvalue=16)
if new and new != editwin.indentwidth and not editwin.usetabs:
editwin.indentwidth = new
return "break"
class Rstrip: # 'Strip Trailing Whitespace" on "Format" menu.
def __init__(self, editwin):
self.editwin = editwin
def do_rstrip(self, event=None):
text = self.editwin.text
undo = self.editwin.undo
undo.undo_block_start()
end_line = int(float(text.index('end')))
for cur in range(1, end_line):
txt = text.get('%i.0' % cur, '%i.end' % cur)
raw = len(txt)
cut = len(txt.rstrip())
# Since text.delete() marks file as changed, even if not,
# only call it when needed to actually delete something.
if cut < raw:
text.delete('%i.%i' % (cur, cut), '%i.end' % cur)
undo.undo_block_stop()
if __name__ == "__main__":
from unittest import main
main('idlelib.idle_test.test_format', verbosity=2, exit=False)