mirror of https://github.com/python/cpython.git
555 lines
20 KiB
Python
555 lines
20 KiB
Python
import string
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#from Tkinter import TclError
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#import tkMessageBox
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#import tkSimpleDialog
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###$ event <<newline-and-indent>>
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###$ win <Key-Return>
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###$ win <KP_Enter>
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###$ unix <Key-Return>
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###$ unix <KP_Enter>
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###$ event <<indent-region>>
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###$ win <Control-bracketright>
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###$ unix <Alt-bracketright>
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###$ unix <Control-bracketright>
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###$ event <<dedent-region>>
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###$ win <Control-bracketleft>
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###$ unix <Alt-bracketleft>
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###$ unix <Control-bracketleft>
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###$ event <<comment-region>>
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###$ win <Alt-Key-3>
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###$ unix <Alt-Key-3>
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###$ event <<uncomment-region>>
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###$ win <Alt-Key-4>
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###$ unix <Alt-Key-4>
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###$ event <<tabify-region>>
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###$ win <Alt-Key-5>
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###$ unix <Alt-Key-5>
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###$ event <<untabify-region>>
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###$ win <Alt-Key-6>
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###$ unix <Alt-Key-6>
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import PyParse
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class AutoIndent:
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menudefs = [
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('format', [ # /s/edit/format dscherer@cmu.edu
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None,
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('_Indent region', '<<indent-region>>'),
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('_Dedent region', '<<dedent-region>>'),
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('Comment _out region', '<<comment-region>>'),
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('U_ncomment region', '<<uncomment-region>>'),
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('Tabify region', '<<tabify-region>>'),
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('Untabify region', '<<untabify-region>>'),
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('Toggle tabs', '<<toggle-tabs>>'),
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('New indent width', '<<change-indentwidth>>'),
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]),
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]
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keydefs = {
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'<<smart-backspace>>': ['<Key-BackSpace>'],
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'<<newline-and-indent>>': ['<Key-Return>', '<KP_Enter>'],
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'<<smart-indent>>': ['<Key-Tab>']
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}
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windows_keydefs = {
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'<<indent-region>>': ['<Control-bracketright>'],
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'<<dedent-region>>': ['<Shift-Tab>', # dscherer@cmu.edu
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'<Control-bracketleft>'],
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'<<comment-region>>': ['<Alt-Key-3>'],
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'<<uncomment-region>>': ['<Alt-Key-4>'],
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'<<tabify-region>>': ['<Alt-Key-5>'],
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'<<untabify-region>>': ['<Alt-Key-6>'],
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'<<toggle-tabs>>': ['<Alt-Key-t>'],
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'<<change-indentwidth>>': ['<Alt-Key-u>'],
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}
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unix_keydefs = {
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'<<indent-region>>': ['<Alt-bracketright>',
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'<Meta-bracketright>',
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'<Control-bracketright>'],
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'<<dedent-region>>': ['<Alt-bracketleft>',
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'<Meta-bracketleft>',
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'<Control-bracketleft>'],
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'<<comment-region>>': ['<Alt-Key-3>', '<Meta-Key-3>'],
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'<<uncomment-region>>': ['<Alt-Key-4>', '<Meta-Key-4>'],
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'<<tabify-region>>': ['<Alt-Key-5>', '<Meta-Key-5>'],
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'<<untabify-region>>': ['<Alt-Key-6>', '<Meta-Key-6>'],
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'<<toggle-tabs>>': ['<Alt-Key-t>'],
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'<<change-indentwidth>>': ['<Alt-Key-u>'],
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}
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# usetabs true -> literal tab characters are used by indent and
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# dedent cmds, possibly mixed with spaces if
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# indentwidth is not a multiple of tabwidth
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# false -> tab characters are converted to spaces by indent
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# and dedent cmds, and ditto TAB keystrokes
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# indentwidth is the number of characters per logical indent level.
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# tabwidth is the display width of a literal tab character.
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# CAUTION: telling Tk to use anything other than its default
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# tab setting causes it to use an entirely different tabbing algorithm,
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# treating tab stops as fixed distances from the left margin.
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# Nobody expects this, so for now tabwidth should never be changed.
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usetabs = 1
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indentwidth = 4
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tabwidth = 8 # for IDLE use, must remain 8 until Tk is fixed
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# If context_use_ps1 is true, parsing searches back for a ps1 line;
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# else searches for a popular (if, def, ...) Python stmt.
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context_use_ps1 = 0
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# When searching backwards for a reliable place to begin parsing,
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# first start num_context_lines[0] lines back, then
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# num_context_lines[1] lines back if that didn't work, and so on.
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# The last value should be huge (larger than the # of lines in a
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# conceivable file).
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# Making the initial values larger slows things down more often.
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num_context_lines = 50, 500, 5000000
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def __init__(self, editwin):
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self.editwin = editwin
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self.text = editwin.text
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def config(self, **options):
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for key, value in options.items():
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if key == 'usetabs':
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self.usetabs = value
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elif key == 'indentwidth':
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self.indentwidth = value
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elif key == 'tabwidth':
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self.tabwidth = value
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elif key == 'context_use_ps1':
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self.context_use_ps1 = value
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else:
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raise KeyError, "bad option name: %s" % `key`
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# If ispythonsource and guess are true, guess a good value for
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# indentwidth based on file content (if possible), and if
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# indentwidth != tabwidth set usetabs false.
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# In any case, adjust the Text widget's view of what a tab
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# character means.
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def set_indentation_params(self, ispythonsource, guess=1):
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if guess and ispythonsource:
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i = self.guess_indent()
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if 2 <= i <= 8:
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self.indentwidth = i
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if self.indentwidth != self.tabwidth:
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self.usetabs = 0
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self.editwin.set_tabwidth(self.tabwidth)
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def smart_backspace_event(self, event):
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text = self.text
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first, last = self.editwin.get_selection_indices()
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if first and last:
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text.delete(first, last)
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text.mark_set("insert", first)
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return "break"
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# Delete whitespace left, until hitting a real char or closest
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# preceding virtual tab stop.
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chars = text.get("insert linestart", "insert")
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if chars == '':
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if text.compare("insert", ">", "1.0"):
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# easy: delete preceding newline
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text.delete("insert-1c")
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else:
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text.bell() # at start of buffer
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return "break"
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if chars[-1] not in " \t":
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# easy: delete preceding real char
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text.delete("insert-1c")
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return "break"
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# Ick. It may require *inserting* spaces if we back up over a
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# tab character! This is written to be clear, not fast.
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expand, tabwidth = string.expandtabs, self.tabwidth
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have = len(expand(chars, tabwidth))
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assert have > 0
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want = int((have - 1) / self.indentwidth) * self.indentwidth
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ncharsdeleted = 0
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while 1:
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chars = chars[:-1]
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ncharsdeleted = ncharsdeleted + 1
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have = len(expand(chars, tabwidth))
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if have <= want or chars[-1] not in " \t":
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break
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text.undo_block_start()
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text.delete("insert-%dc" % ncharsdeleted, "insert")
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if have < want:
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text.insert("insert", ' ' * (want - have))
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text.undo_block_stop()
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return "break"
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def smart_indent_event(self, event):
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# if intraline selection:
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# delete it
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# elif multiline selection:
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# do indent-region & return
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# indent one level
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text = self.text
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first, last = self.editwin.get_selection_indices()
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text.undo_block_start()
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try:
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if first and last:
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if index2line(first) != index2line(last):
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return self.indent_region_event(event)
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text.delete(first, last)
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text.mark_set("insert", first)
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prefix = text.get("insert linestart", "insert")
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raw, effective = classifyws(prefix, self.tabwidth)
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if raw == len(prefix):
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# only whitespace to the left
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self.reindent_to(effective + self.indentwidth)
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else:
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if self.usetabs:
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pad = '\t'
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else:
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effective = len(string.expandtabs(prefix,
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self.tabwidth))
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n = self.indentwidth
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pad = ' ' * (n - effective % n)
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text.insert("insert", pad)
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text.see("insert")
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return "break"
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finally:
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text.undo_block_stop()
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def newline_and_indent_event(self, event):
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text = self.text
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first, last = self.editwin.get_selection_indices()
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text.undo_block_start()
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try:
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if first and last:
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text.delete(first, last)
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text.mark_set("insert", first)
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line = text.get("insert linestart", "insert")
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i, n = 0, len(line)
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while i < n and line[i] in " \t":
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i = i+1
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if i == n:
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# the cursor is in or at leading indentation; just inject
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# an empty line at the start
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text.insert("insert linestart", '\n')
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return "break"
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indent = line[:i]
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# strip whitespace before insert point
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i = 0
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while line and line[-1] in " \t":
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line = line[:-1]
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i = i+1
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if i:
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text.delete("insert - %d chars" % i, "insert")
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# strip whitespace after insert point
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while text.get("insert") in " \t":
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text.delete("insert")
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# start new line
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text.insert("insert", '\n')
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# adjust indentation for continuations and block
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# open/close first need to find the last stmt
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lno = index2line(text.index('insert'))
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y = PyParse.Parser(self.indentwidth, self.tabwidth)
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for context in self.num_context_lines:
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startat = max(lno - context, 1)
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startatindex = `startat` + ".0"
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rawtext = text.get(startatindex, "insert")
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y.set_str(rawtext)
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bod = y.find_good_parse_start(
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self.context_use_ps1,
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self._build_char_in_string_func(startatindex))
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if bod is not None or startat == 1:
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break
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y.set_lo(bod or 0)
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c = y.get_continuation_type()
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if c != PyParse.C_NONE:
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# The current stmt hasn't ended yet.
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if c == PyParse.C_STRING:
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# inside a string; just mimic the current indent
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text.insert("insert", indent)
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elif c == PyParse.C_BRACKET:
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# line up with the first (if any) element of the
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# last open bracket structure; else indent one
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# level beyond the indent of the line with the
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# last open bracket
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self.reindent_to(y.compute_bracket_indent())
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elif c == PyParse.C_BACKSLASH:
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# if more than one line in this stmt already, just
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# mimic the current indent; else if initial line
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# has a start on an assignment stmt, indent to
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# beyond leftmost =; else to beyond first chunk of
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# non-whitespace on initial line
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if y.get_num_lines_in_stmt() > 1:
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text.insert("insert", indent)
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else:
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self.reindent_to(y.compute_backslash_indent())
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else:
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assert 0, "bogus continuation type " + `c`
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return "break"
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# This line starts a brand new stmt; indent relative to
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# indentation of initial line of closest preceding
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# interesting stmt.
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indent = y.get_base_indent_string()
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text.insert("insert", indent)
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if y.is_block_opener():
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self.smart_indent_event(event)
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elif indent and y.is_block_closer():
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self.smart_backspace_event(event)
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return "break"
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finally:
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text.see("insert")
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text.undo_block_stop()
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auto_indent = newline_and_indent_event
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# Our editwin provides a is_char_in_string function that works
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# with a Tk text index, but PyParse only knows about offsets into
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# a string. This builds a function for PyParse that accepts an
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# offset.
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def _build_char_in_string_func(self, startindex):
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def inner(offset, _startindex=startindex,
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_icis=self.editwin.is_char_in_string):
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return _icis(_startindex + "+%dc" % offset)
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return inner
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def indent_region_event(self, event):
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head, tail, chars, lines = self.get_region()
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for pos in range(len(lines)):
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line = lines[pos]
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if line:
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raw, effective = classifyws(line, self.tabwidth)
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effective = effective + self.indentwidth
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lines[pos] = self._make_blanks(effective) + line[raw:]
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self.set_region(head, tail, chars, lines)
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return "break"
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def dedent_region_event(self, event):
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head, tail, chars, lines = self.get_region()
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for pos in range(len(lines)):
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line = lines[pos]
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if line:
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raw, effective = classifyws(line, self.tabwidth)
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effective = max(effective - self.indentwidth, 0)
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lines[pos] = self._make_blanks(effective) + line[raw:]
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self.set_region(head, tail, chars, lines)
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return "break"
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def comment_region_event(self, event):
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head, tail, chars, lines = self.get_region()
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for pos in range(len(lines) - 1):
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line = lines[pos]
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lines[pos] = '##' + line
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self.set_region(head, tail, chars, lines)
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def uncomment_region_event(self, event):
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head, tail, chars, lines = self.get_region()
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for pos in range(len(lines)):
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line = lines[pos]
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if not line:
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continue
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if line[:2] == '##':
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line = line[2:]
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elif line[:1] == '#':
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line = line[1:]
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lines[pos] = line
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self.set_region(head, tail, chars, lines)
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def tabify_region_event(self, event):
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head, tail, chars, lines = self.get_region()
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tabwidth = self._asktabwidth()
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for pos in range(len(lines)):
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line = lines[pos]
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if line:
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raw, effective = classifyws(line, tabwidth)
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ntabs, nspaces = divmod(effective, tabwidth)
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lines[pos] = '\t' * ntabs + ' ' * nspaces + line[raw:]
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self.set_region(head, tail, chars, lines)
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def untabify_region_event(self, event):
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head, tail, chars, lines = self.get_region()
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tabwidth = self._asktabwidth()
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for pos in range(len(lines)):
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lines[pos] = string.expandtabs(lines[pos], tabwidth)
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self.set_region(head, tail, chars, lines)
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def toggle_tabs_event(self, event):
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if self.editwin.askyesno(
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"Toggle tabs",
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"Turn tabs " + ("on", "off")[self.usetabs] + "?",
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parent=self.text):
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self.usetabs = not self.usetabs
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return "break"
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# XXX this isn't bound to anything -- see class tabwidth comments
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def change_tabwidth_event(self, event):
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new = self._asktabwidth()
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if new != self.tabwidth:
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self.tabwidth = new
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self.set_indentation_params(0, guess=0)
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return "break"
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def change_indentwidth_event(self, event):
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new = self.editwin.askinteger(
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"Indent width",
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"New indent width (1-16)",
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parent=self.text,
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initialvalue=self.indentwidth,
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minvalue=1,
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maxvalue=16)
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if new and new != self.indentwidth:
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self.indentwidth = new
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return "break"
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def get_region(self):
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text = self.text
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first, last = self.editwin.get_selection_indices()
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if first and last:
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head = text.index(first + " linestart")
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tail = text.index(last + "-1c lineend +1c")
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else:
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head = text.index("insert linestart")
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tail = text.index("insert lineend +1c")
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chars = text.get(head, tail)
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lines = string.split(chars, "\n")
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return head, tail, chars, lines
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def set_region(self, head, tail, chars, lines):
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text = self.text
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newchars = string.join(lines, "\n")
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if newchars == chars:
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text.bell()
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return
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text.tag_remove("sel", "1.0", "end")
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text.mark_set("insert", head)
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text.undo_block_start()
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text.delete(head, tail)
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text.insert(head, newchars)
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text.undo_block_stop()
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text.tag_add("sel", head, "insert")
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# Make string that displays as n leading blanks.
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def _make_blanks(self, n):
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if self.usetabs:
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ntabs, nspaces = divmod(n, self.tabwidth)
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return '\t' * ntabs + ' ' * nspaces
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else:
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return ' ' * n
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# Delete from beginning of line to insert point, then reinsert
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# column logical (meaning use tabs if appropriate) spaces.
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def reindent_to(self, column):
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text = self.text
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text.undo_block_start()
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if text.compare("insert linestart", "!=", "insert"):
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text.delete("insert linestart", "insert")
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if column:
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text.insert("insert", self._make_blanks(column))
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text.undo_block_stop()
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def _asktabwidth(self):
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return self.editwin.askinteger(
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"Tab width",
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"Spaces per tab?",
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parent=self.text,
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initialvalue=self.tabwidth,
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minvalue=1,
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maxvalue=16) or self.tabwidth
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# Guess indentwidth from text content.
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# Return guessed indentwidth. This should not be believed unless
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# it's in a reasonable range (e.g., it will be 0 if no indented
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# blocks are found).
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def guess_indent(self):
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opener, indented = IndentSearcher(self.text, self.tabwidth).run()
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if opener and indented:
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raw, indentsmall = classifyws(opener, self.tabwidth)
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raw, indentlarge = classifyws(indented, self.tabwidth)
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else:
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indentsmall = indentlarge = 0
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return indentlarge - indentsmall
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# "line.col" -> line, as an int
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def index2line(index):
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return int(float(index))
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# Look at the leading whitespace in s.
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# Return pair (# of leading ws characters,
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# effective # of leading blanks after expanding
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# tabs to width tabwidth)
|
|
|
|
def classifyws(s, tabwidth):
|
|
raw = effective = 0
|
|
for ch in s:
|
|
if ch == ' ':
|
|
raw = raw + 1
|
|
effective = effective + 1
|
|
elif ch == '\t':
|
|
raw = raw + 1
|
|
effective = (effective / tabwidth + 1) * tabwidth
|
|
else:
|
|
break
|
|
return raw, effective
|
|
|
|
import tokenize
|
|
_tokenize = tokenize
|
|
del tokenize
|
|
|
|
class IndentSearcher:
|
|
|
|
# .run() chews over the Text widget, looking for a block opener
|
|
# and the stmt following it. Returns a pair,
|
|
# (line containing block opener, line containing stmt)
|
|
# Either or both may be None.
|
|
|
|
def __init__(self, text, tabwidth):
|
|
self.text = text
|
|
self.tabwidth = tabwidth
|
|
self.i = self.finished = 0
|
|
self.blkopenline = self.indentedline = None
|
|
|
|
def readline(self):
|
|
if self.finished:
|
|
return ""
|
|
i = self.i = self.i + 1
|
|
mark = `i` + ".0"
|
|
if self.text.compare(mark, ">=", "end"):
|
|
return ""
|
|
return self.text.get(mark, mark + " lineend+1c")
|
|
|
|
def tokeneater(self, type, token, start, end, line,
|
|
INDENT=_tokenize.INDENT,
|
|
NAME=_tokenize.NAME,
|
|
OPENERS=('class', 'def', 'for', 'if', 'try', 'while')):
|
|
if self.finished:
|
|
pass
|
|
elif type == NAME and token in OPENERS:
|
|
self.blkopenline = line
|
|
elif type == INDENT and self.blkopenline:
|
|
self.indentedline = line
|
|
self.finished = 1
|
|
|
|
def run(self):
|
|
save_tabsize = _tokenize.tabsize
|
|
_tokenize.tabsize = self.tabwidth
|
|
try:
|
|
try:
|
|
_tokenize.tokenize(self.readline, self.tokeneater)
|
|
except _tokenize.TokenError:
|
|
# since we cut off the tokenizer early, we can trigger
|
|
# spurious errors
|
|
pass
|
|
finally:
|
|
_tokenize.tabsize = save_tabsize
|
|
return self.blkopenline, self.indentedline
|