pmacs3/mode_python.py

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Python
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import commands, os.path, sets, string, sys
import color, completer, default, mode2, lex2, method, regex, tab2
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import ctag_python
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from point2 import Point
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from lex2 import Grammar, ConstantRule, PatternRule, RegionRule, DualRegionRule
class StringGrammar(Grammar):
rules = [
PatternRule(
name=r'octal',
pattern=r'\\[0-7]{3}',
),
PatternRule(
name=r'escaped',
pattern=r'\\.',
),
#PatternRule(
# name=r'format',
# pattern=r'%(?:\([a-zA-Z_]+\))?[-# +]*(?:[0-9]+|\*)?\.?(?:[0-9]+|\*)?[hlL]?[a-zA-Z%]',
#),
]
class PythonGrammar(Grammar):
rules = [
PatternRule(
name=r'functiondef',
pattern=r'(?<=def )[a-zA-Z_][a-zA-Z0-9_]*',
),
PatternRule(
name=r'classdef',
pattern=r'(?<=class )[a-zA-Z_][a-zA-Z0-9_]*',
),
PatternRule(
name=r'reserved',
pattern=r'(?:True|None|False|Exception|self)(?![a-zA-Z0-9_])',
),
PatternRule(
name=r'keyword',
pattern=r'(?:yield|while|try|return|raise|print|pass|or|not|lambda|is|in|import|if|global|from|for|finally|exec|except|else|elif|del|def|continue|class|break|assert|as|and)(?![a-zA-Z0-9_])',
),
PatternRule(
name=r"builtin",
pattern=r'(?<!\.)(?:zip|xrange|vars|unicode|unichr|type|tuple|super|sum|str|staticmethod|sorted|slice|setattr|set|round|repr|reduce|raw_input|range|property|pow|ord|open|oct|object|max|min|map|long|locals|list|len|iter|issubclass|isinstance|int|input|id|hex|hash|hasattr|globals|getattr|frozenset|float|filter|file|execfile|eval|enumerate|divmod|dir|dict|delattr|complex|compile|coerce|cmp|classmethod|chr|callable|bool)(?![a-zA-Z0-9_])',
),
PatternRule(
name=r'methodcall',
pattern=r'(?<=\. )[a-zA-Z_][a-zA-Z0-9_]*(?= *\()',
),
PatternRule(
name=r'functioncall',
pattern=r'[a-zA-Z_][a-zA-Z0-9_]*(?= *\()',
),
PatternRule(
name=r'system_identifier',
pattern=r'__[a-zA-Z0-9_]+__',
),
PatternRule(
name=r'private_identifier',
pattern=r'__[a-zA-Z0-9_]*',
),
PatternRule(
name=r'hidden_identifier',
pattern=r'_[a-zA-Z0-9_]*',
),
PatternRule(
name=r'identifier',
pattern=r'[a-zA-Z_][a-zA-Z0-9_]*',
),
PatternRule(
name=r'delimiter',
pattern=r'\(|\)|\[|\]|{|}|@|,|:|\.|`|=|;|\+=|-=|\*=|/=|//=|%=|&=|\|=|\^=|>>=|<<=|\*\*=',
),
PatternRule(
name=r"operator",
pattern=r"\+|<>|<<|<=|<|-|>>|>=|>|\*\*|&|\*|\||/|\^|==|//|~|!=|%",
),
PatternRule(
name=r"integer",
pattern=r"(?<![\.0-9a-zA-Z_])(?:0|[1-9][0-9]*|0[0-7]+|0[xX][0-9a-fA-F]+)[lL]?(?![\.0-9a-zA-Z_])",
),
PatternRule(
name=r"float",
pattern=r"(?<![\.0-9a-zA-Z_])(?:[0-9]+\.[0-9]*|\.[0-9]+|(?:[0-9]|[0-9]+\.[0-9]*|\.[0-9]+)[eE][\+-]?[0-9]+)(?![\.0-9a-zA-Z_])",
),
PatternRule(
name=r"imaginary",
pattern=r"(?<![\.0-9a-zA-Z_])(?:[0-9]+|(?:[0-9]+\.[0-9]*|\.[0-9]+|(?:[0-9]|[0-9]+\.[0-9]*|\.[0-9]+)[eE][\+-]?[0-9]+)[jJ])(?![\.0-9a-zA-Z_])",
),
RegionRule(
name=r'docstring',
start=r'^ *(?P<tag>"""|\'\'\')',
grammar=Grammar(),
end=r'%(tag)s',
),
RegionRule(
name=r'tq_string',
start=r'(?P<tag>"""|\'\'\')',
grammar=Grammar(),
end=r'%(tag)s',
),
RegionRule(
name=r'string',
start=r'(?P<tag>"|\')',
grammar=StringGrammar(),
end=r'%(tag)s',
),
PatternRule(
name=r'comment',
pattern=r'#.*$',
),
PatternRule(
name=r'continuation',
pattern=r'\\$',
),
]
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class Python(mode2.Fundamental):
#tabbercls = tab2.Tabber
grammar = PythonGrammar()
opentags = {'(': ')', '[': ']', '{': '}'}
closetags = {')': '(', ']': '[', '}': '{'}
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def __init__(self, w):
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mode2.Fundamental.__init__(self, w)
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# add python-specific methods
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self.add_action_and_bindings(PythonCheckSyntax(), ('C-c s',))
self.add_action_and_bindings(PythonDictCleanup(), ('C-c h',))
self.add_action_and_bindings(PythonUpdateTags(), ('C-c t',))
self.add_action_and_bindings(PythonTagComplete(), ('C-c k',))
# we want to do these kinds of tag matching
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self.add_bindings('close-paren', (')',))
self.add_bindings('close-brace', ('}',))
self.add_bindings('close-bracket', (']',))
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self.colors = {
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'keyword': color.build('cyan', 'default'),
'reserved': color.build('cyan', 'default'),
'builtin': color.build('cyan', 'default'),
'functiondef': color.build('blue', 'default'),
'classdef': color.build('green', 'default'),
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'string.start': color.build('green', 'default'),
'string.null': color.build('green', 'default'),
'string.escaped': color.build('magenta', 'default'),
'string.octal': color.build('magenta', 'default'),
'string.format': color.build('yellow', 'default'),
'string.end': color.build('green', 'default'),
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'integer': color.build('default', 'default'),
'float': color.build('default', 'default'),
'imaginary': color.build('default', 'default'),
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'tq_string.start': color.build('green', 'default'),
'tq_string.null': color.build('green', 'default'),
'tq_string.end': color.build('green', 'default'),
'docstring.start': color.build('green', 'default'),
'docstring.null': color.build('green', 'default'),
'docstring.end': color.build('green', 'default'),
'comment': color.build('red', 'default'),
'continuation': color.build('red', 'default'),
'system_identifier': color.build('cyan', 'default'),
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}
def name(self):
return "Python"
class PythonCheckSyntax(method.Method):
'''Check the syntax of the current python file'''
def _args(self):
return [method.Argument("lib", type=type(""), prompt="Python Path: ",
datatype='path',
default=default.build_constant("."))]
def _execute(self, w, **vargs):
a = vargs['lib']
mod = os.path.splitext(os.path.basename(w.buffer.path))[0]
cmd = "PYTHONPATH=%s python -c 'import %s'" % (a, mod)
(status, output) = commands.getstatusoutput(cmd)
if status == 0:
w.application.set_error("Syntax OK")
w.application.data_buffer("python-syntax", output, switch_to=False)
else:
output = output + "\ncommand exit status: %d" % (status)
w.application.data_buffer("python-syntax", output, switch_to=True)
class PythonUpdateTags(method.Method):
'''Update the CTag data associated with a python buffer'''
def _args(self):
return [method.Argument("lib", prompt="Module Base: ", datatype='path',
default=default.build_constant("."))]
def _execute(self, w, **vargs):
w.mode.ctagger = ctag_python.PythonCTagger()
w.mode.ctagger.process_paths([vargs['lib']])
w.application.set_error('Tag data updated')
class PythonTagComplete(method.Method):
'''Complete a symbol using tag data'''
def _execute(self, w, **vargs):
if not w.mode.ctagger.packages:
w.application.methods['python-update-tags'].execute(w)
return
cursor = w.logical_cursor()
b = w.buffer
line = b.lines[cursor.y]
end = cursor.x
start = cursor.x
word_chars = string.letters + string.digits + '_'
if start == 0:
w.application.set_error('walrus 1')
return
c = line[start - 1]
if c == '(':
w.application.set_error('goldfinch 1')
return
elif c not in word_chars:
w.application.set_error('walrus 2')
return
while start > 0 and line[start - 1] in word_chars:
start -= 1
if start == end:
w.application.set_error('walrus 3')
return
word = line[start:end]
candidates = []
seen = sets.Set()
for p in w.mode.ctagger.packages.iterkeys():
if p.startswith(word):
if p in seen:
continue
candidates.append(p)
seen.add(p)
for e in w.mode.ctagger.entries.itervalues():
if e.symbol.startswith(word):
if e.symbol in seen:
continue
candidates.append(e.symbol)
seen.add(e.symbol)
if len(candidates) == 0:
w.application.set_error('No match: %r' % word)
return
elif len(candidates) == 1:
newword = candidates[0]
if word == newword:
w.application.set_error('Already completed!')
return
else:
w.application.set_error('Unique match!')
else:
newword = completer.find_common_string(candidates)
w.application.set_error('Ambiguous match: %r' % (candidates))
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b.delete_string(Point(start, cursor.y), Point(end, cursor.y))
b.insert_string(Point(start, cursor.y), newword)
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class PythonDictCleanup(method.Method):
'''Align assignment blocks and literal dictionaries'''
def _execute(self, w, **vargs):
cursor = w.logical_cursor()
b = w.buffer
# so this is where we will store the groups that we find
groups_by_line = {}
# the regex we will try
regexes = [regex.python_dict_cleanup,
regex.python_assign_cleanup]
# if we aren't in a hash, inform the user and exit
line = b.lines[cursor.y]
myregex = None
for r in regexes:
if r.match(line):
myregex = r
if myregex is None:
raise Exception, "Not a python dict line"
groups_by_line[cursor.y] = myregex.match(line).groups()
# find the beginning of this hash block
start = 0
i = cursor.y - 1
while i >= 0:
line = b.lines[i]
m = myregex.match(line)
if not m:
start = i + 1
break
else:
groups_by_line[i] = m.groups()
i -= 1
# find the end of this hash block
end = len(b.lines) - 1
i = cursor.y + 1
while i < len(b.lines):
line = b.lines[i]
m = myregex.match(line)
if not m:
end = i - 1
break
else:
groups_by_line[i] = m.groups()
i += 1
# assume that the least indented line is correct
indent_w = min([len(groups_by_line[k][0]) for k in groups_by_line])
# find the longest hash key to base all the other padding on
key_w = max([len(groups_by_line[k][1]) for k in groups_by_line])
# for each line, format it correctly
keys = groups_by_line.keys()
keys.sort()
data = ''
for i in keys:
indent_pad = ' ' * indent_w
key = groups_by_line[i][1]
sep = groups_by_line[i][3]
value = groups_by_line[i][5]
key_pad = ' ' * (key_w - len(key))
if sep == '=':
data += indent_pad + key + key_pad + ' ' + sep + ' ' + value + '\n'
else:
data += indent_pad + key + sep + ' ' + key_pad + value + '\n'
# remove the old text and add the new
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start_p = Point(0, start)
end_p = Point(0, end + 1)
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w.kill(start_p, end_p)
w.insert(start_p, data)