mirror of
https://gitlab.torproject.org/tpo/core/tor.git
synced 2024-11-14 07:03:44 +01:00
299 lines
7.8 KiB
Python
Executable File
299 lines
7.8 KiB
Python
Executable File
#!/usr/bin/python
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# Copyright (c) 2014, The Tor Project, Inc.
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# See LICENSE for licensing information
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#
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# This script reformats a section of the changelog to wrap everything to
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# the right width and put blank lines in the right places. Eventually,
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# it might include a linter.
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#
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# To run it, pipe a section of the changelog (starting with "Changes
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# in Tor 0.x.y.z-alpha" through the script.)
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import os
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import re
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import sys
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# ==============================
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# Oh, look! It's a cruddy approximation to Knuth's elegant text wrapping
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# algorithm, with totally ad hoc parameters!
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#
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# We're trying to minimize:
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# The total of the cubes of ragged space on underflowed intermediate lines,
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# PLUS
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# 100 * the fourth power of overflowed characters
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# PLUS
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# .1 * a bit more than the cube of ragged space on the last line.
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# PLUS
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# OPENPAREN_PENALTY for each line that starts with (
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#
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# We use an obvious dynamic programming algorithm to sorta approximate this.
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# It's not coded right or optimally, but it's fast enough for changelogs
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#
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# (Code found in an old directory of mine, lightly cleaned. -NM)
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NO_HYPHENATE=set("""
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pf-divert
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""".split())
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LASTLINE_UNDERFLOW_EXPONENT = 1
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LASTLINE_UNDERFLOW_PENALTY = 1
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UNDERFLOW_EXPONENT = 3
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UNDERFLOW_PENALTY = 1
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OVERFLOW_EXPONENT = 4
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OVERFLOW_PENALTY = 2000
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ORPHAN_PENALTY = 10000
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OPENPAREN_PENALTY = 200
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def generate_wrapping(words, divisions):
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lines = []
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last = 0
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for i in divisions:
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w = words[last:i]
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last = i
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line = " ".join(w).replace("\xff ","-").replace("\xff","-")
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lines.append(line)
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return lines
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def wrapping_quality(words, divisions, width1, width2):
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total = 0.0
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lines = generate_wrapping(words, divisions)
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for line in lines:
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length = len(line)
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if line is lines[0]:
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width = width1
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else:
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width = width2
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if line[0:1] == '(':
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total += OPENPAREN_PENALTY
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if length > width:
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total += OVERFLOW_PENALTY * (
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(length - width) ** OVERFLOW_EXPONENT )
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else:
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if line is lines[-1]:
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e,p = (LASTLINE_UNDERFLOW_EXPONENT, LASTLINE_UNDERFLOW_PENALTY)
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if " " not in line:
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total += ORPHAN_PENALTY
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else:
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e,p = (UNDERFLOW_EXPONENT, UNDERFLOW_PENALTY)
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total += p * ((width - length) ** e)
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return total
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def wrap_graf(words, prefix_len1=0, prefix_len2=0, width=72):
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wrapping_after = [ (0,), ]
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w1 = width - prefix_len1
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w2 = width - prefix_len2
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for i in range(1, len(words)+1):
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best_so_far = None
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best_score = 1e300
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for j in range(i):
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t = wrapping_after[j]
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t1 = t[:-1] + (i,)
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t2 = t + (i,)
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wq1 = wrapping_quality(words, t1, w1, w2)
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wq2 = wrapping_quality(words, t2, w1, w2)
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if wq1 < best_score:
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best_so_far = t1
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best_score = wq1
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if wq2 < best_score:
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best_so_far = t2
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best_score = wq2
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wrapping_after.append( best_so_far )
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lines = generate_wrapping(words, wrapping_after[-1])
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return lines
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def hyphenateable(word):
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if re.match(r'^[^\d\-]\D*-', word):
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stripped = re.sub(r'^\W+','',word)
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stripped = re.sub(r'\W+$','',word)
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return stripped not in NO_HYPHENATE
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else:
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return False
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def split_paragraph(s):
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"Split paragraph into words; tuned for Tor."
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r = []
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for word in s.split():
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if hyphenateable(word):
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while "-" in word:
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a,word = word.split("-",1)
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r.append(a+"\xff")
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r.append(word)
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return r
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def fill(text, width, initial_indent, subsequent_indent):
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words = split_paragraph(text)
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lines = wrap_graf(words, len(initial_indent), len(subsequent_indent),
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width)
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res = [ initial_indent, lines[0], "\n" ]
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for line in lines[1:]:
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res.append(subsequent_indent)
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res.append(line)
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res.append("\n")
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return "".join(res)
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# ==============================
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TP_MAINHEAD = 0
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TP_HEADTEXT = 1
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TP_BLANK = 2
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TP_SECHEAD = 3
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TP_ITEMFIRST = 4
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TP_ITEMBODY = 5
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TP_END = 6
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def head_parser(line):
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if re.match(r'^[A-Z]', line):
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return TP_MAINHEAD
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elif re.match(r'^ o ', line):
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return TP_SECHEAD
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elif re.match(r'^\s*$', line):
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return TP_BLANK
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else:
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return TP_HEADTEXT
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def body_parser(line):
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if re.match(r'^ o ', line):
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return TP_SECHEAD
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elif re.match(r'^ -',line):
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return TP_ITEMFIRST
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elif re.match(r'^ \S', line):
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return TP_ITEMBODY
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elif re.match(r'^\s*$', line):
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return TP_BLANK
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elif re.match(r'^Changes in', line):
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return TP_END
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else:
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print "Weird line %r"%line
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class ChangeLog(object):
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def __init__(self):
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self.mainhead = None
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self.headtext = []
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self.curgraf = None
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self.sections = []
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self.cursection = None
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self.lineno = 0
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def addLine(self, tp, line):
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self.lineno += 1
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if tp == TP_MAINHEAD:
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assert not self.mainhead
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self.mainhead = line
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elif tp == TP_HEADTEXT:
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if self.curgraf is None:
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self.curgraf = []
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self.headtext.append(self.curgraf)
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self.curgraf.append(line)
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elif tp == TP_BLANK:
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self.curgraf = None
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elif tp == TP_SECHEAD:
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self.cursection = [ self.lineno, line, [] ]
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self.sections.append(self.cursection)
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elif tp == TP_ITEMFIRST:
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item = ( self.lineno, [ [line] ])
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self.curgraf = item[1][0]
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self.cursection[2].append(item)
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elif tp == TP_ITEMBODY:
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if self.curgraf is None:
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self.curgraf = []
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self.cursection[2][-1][1].append(self.curgraf)
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self.curgraf.append(line)
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else:
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assert "This" is "unreachable"
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def lint_head(self, line, head):
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m = re.match(r'^ *o ([^\(]+)((?:\([^\)]+\))?):', head)
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if not m:
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print >>sys.stderr, "Weird header format on line %s"%line
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def lint_item(self, line, grafs, head_type):
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pass
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def lint(self):
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self.head_lines = {}
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for sec_line, sec_head, items in self.sections:
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head_type = self.lint_head(sec_line, sec_head)
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for item_line, grafs in items:
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self.lint_item(item_line, grafs, head_type)
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def dumpGraf(self,par,indent1,indent2=-1):
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if indent2 == -1:
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indent2 = indent1
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text = " ".join(re.sub(r'\s+', ' ', line.strip()) for line in par)
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sys.stdout.write(fill(text,
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width=72,
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initial_indent=" "*indent1,
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subsequent_indent=" "*indent2))
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def dump(self):
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print self.mainhead
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for par in self.headtext:
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self.dumpGraf(par, 2)
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print
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for _,head,items in self.sections:
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if not head.endswith(':'):
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print >>sys.stderr, "adding : to %r"%head
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head = head + ":"
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print head
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for _,grafs in items:
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self.dumpGraf(grafs[0],4,6)
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for par in grafs[1:]:
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print
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self.dumpGraf(par,6,6)
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print
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print
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CL = ChangeLog()
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parser = head_parser
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sys.stdin = open('ChangeLog', 'r')
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for line in sys.stdin:
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line = line.rstrip()
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tp = parser(line)
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if tp == TP_SECHEAD:
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parser = body_parser
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elif tp == TP_END:
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nextline = line
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break
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CL.addLine(tp,line)
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CL.lint()
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sys.stdout = open('ChangeLog.new', 'w')
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CL.dump()
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print nextline
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for line in sys.stdin:
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sys.stdout.write(line)
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os.rename('ChangeLog.new', 'ChangeLog')
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