import commands, os.path, sets, string, sys, traceback import color, completer, default, mode, method, regex, tab from point import Point from lex import Grammar, PatternRule, RegionRule, OverridePatternRule class StringGrammar(Grammar): rules = [ PatternRule(r'octal', r'\\[0-7]{3}'), PatternRule(r'escaped', r'\\.'), ] class RawStringGrammar(Grammar): rules = [ PatternRule(r'escaped', r'\\\\'), PatternRule(r'escaped', r"\\'"), PatternRule(r'escaped', r'\\"'), ] class PythonGrammar(Grammar): rules = [ PatternRule(r'functionname', r'(?<=def )[a-zA-Z_][a-zA-Z0-9_]*'), PatternRule(r'classname', r'(?<=class )[a-zA-Z_][a-zA-Z0-9_]*'), PatternRule(r'reserved', r'(?:True|None|False|Exception|self)(?![a-zA-Z0-9_])'), PatternRule(r'keyword', 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(r"builtin", r'(?>=|<<=|\*\*='), PatternRule(r"operator", r"\+|<>|<<|<=|<|-|>>|>=|>|\*\*|&|\*|\||/|\^|==|//|~|!=|%"), PatternRule(r"integer", r"(?[.a-zA-Z0-9_]+):(?P[.a-zA-Z0-9_]+) *$'), PatternRule(r'comment', r'#.*$'), PatternRule(r'continuation', r'\\\n$'), PatternRule(r'eol', r'\n$'), ] class PythonTabber(tab.StackTabber): # NOTE: yield might initially seem like an endlevel name, but it's not one. endlevel_names = ('pass', 'return', 'raise', 'break', 'continue') startlevel_names = ('if', 'try', 'class', 'def', 'for', 'while', 'try') def __init__(self, m): tab.StackTabber.__init__(self, m) self.base_level = 0 def is_base(self, y): if y == 0: # we always know that line 0 is indented at the 0 level return True tokens = self.get_tokens(y) t0 = tokens[0] if t0.name == 'keyword' and t0.string in self.startlevel_names: # if a line has no whitespace and beings with something like # 'while','class','def','if',etc. then we can start at it return True else: # otherwise, we can't be sure that its level is correct return False def get_level(self, y): self._calc_level(y) return self.lines.get(y) def _calc_level(self, y): # ok, so first remember where we are going, and find our starting point target = y y = max(0, y - 1) while not self.is_base(y) and y > 0: y -= 1 # ok, so clear out our stack and then loop over each line self.popped = False self.markers = [] while y <= target: self.continued = False self.last_popped = self.popped self.popped = False tokens = self.get_tokens(y) currlvl = self.get_curr_level() # if we were continuing, let's pop that previous continuation token # and note that we're continuing if self.markers and self.markers[-1].name == 'cont': self.continued = True self._pop() # if we haven't reached the target-line yet, we can detect how many # levels of unindention, if any, the user chose on previous lines if y < target and len(tokens) > 2: if self.token_is_space(y, 0): l = len(tokens[0].string) else: l = 0 while currlvl > l: self._pop() currlvl = self.get_curr_level() self.popped = True # ok, having done all that, we can now process each token on the line for i in range(0, len(tokens)): currlvl = self._handle_token(currlvl, y, i) # so let's store the level for this line, as well as some debugging self.lines[y] = currlvl self.record[y] = tuple(self.markers) y += 1 def _handle_close_token(self, currlvl, y, i): try: return tab.StackTabber._handle_close_token(self, currlvl, y, i) except: return currlvl def _handle_other_token(self, currlvl, y, i): token = self.get_token(y, i) fqname = token.fqname() if fqname == 'continuation': # we need to pop the indentation level over, unless last line was # also a continued line if self.continued: self._opt_append('cont', currlvl) else: self._opt_append('cont', currlvl + 4) elif fqname == 'string.start': # while inside of a string, there is no indention leve self._opt_append('string', None) elif fqname == 'string.end': # since we're done with the string, resume our indentation level self._opt_pop('string') elif fqname == 'delimiter': # we only really care about a colon as part of a one-line statement, # i.e. "while ok: foo()" or "if True: print 3" if token.string == ':': if self.markers and self.markers[-1].name in ('[', '{'): pass elif self.is_rightmost_token(y, i): pass else: #self._pop() pass elif fqname == 'keyword': if token.string in self.endlevel_names: # we know we'll unindent at least once self._pop() self.popped = True elif token.string in self.startlevel_names and self.is_leftmost_token(y, i): # we know we will indent exactly once self._append(token.string, currlvl + 4) elif token.string in ('elif', 'else') and self.is_leftmost_token(y, i): # we know we'll unindent at least to the first if/elif if not self.popped and not self.last_popped: self._pop_until('if', 'elif') currlvl = self.get_curr_level() self._append(token.string, currlvl + 4) elif token.string == 'except' and self.is_leftmost_token(y, i): # we know we'll unindent at least to the first try if not self.popped and not self.last_popped: self._pop_until('try') currlvl = self.get_curr_level() self._append(token.string, currlvl + 4) elif token.string == 'finally' and self.is_leftmost_token(y, i): # we know we'll unindent at least to the first try/except if not self.popped and not self.last_popped: self._pop_until('try', 'except') currlvl = self.get_curr_level() self._append(token.string, currlvl + 4) return currlvl class Python(mode.Fundamental): modename = 'Python' extensions = ['.py'] detection = ['python'] tabbercls = PythonTabber grammar = PythonGrammar opentokens = ('delimiter',) opentags = {'(': ')', '[': ']', '{': '}'} closetokens = ('delimiter',) closetags = {')': '(', ']': '[', '}': '{'} colors = { 'keyword': ('cyan', 'default'), 'reserved': ('magenta', 'default'), 'builtin': ('cyan', 'default'), 'functionname': ('blue', 'default'), 'classname': ('green', 'default'), 'string.start': ('green', 'default'), 'string.null': ('green', 'default'), 'string.octal': ('magenta', 'default'), 'string.escaped': ('magenta', 'default'), 'string.end': ('green', 'default'), 'rawstring.start': ('green', 'default'), 'rawstring.null': ('green', 'default'), 'rawstring.escaped': ('green', 'default'), 'rawstring.end': ('green', 'default'), 'integer': ('default', 'default'), 'float': ('default', 'default'), 'imaginary': ('default', 'default'), 'comment': ('red', 'default'), 'continuation': ('red', 'default'), 'system_identifier': ('cyan', 'default'), } def __init__(self, w): mode.Fundamental.__init__(self, w) # tag matching self.add_bindings('close-paren', (')',)) self.add_bindings('close-brace', ('}',)) self.add_bindings('close-bracket', (']',)) # add python-specific methods self.add_action_and_bindings(PythonCheckSyntax(), ('C-c s',)) self.add_action_and_bindings(PythonDictCleanup(), ('C-c h',)) # highlighting self.pythonlib = "." class PythonSetLib(method.Method): '''Set the path(s) to find perl modules''' args = [method.Argument("lib", type=type(""), prompt="Python Path: ", default=default.build_constant("."))] def _execute(self, w, **vargs): w.mode.pythonlib = vargs['lib'] class PythonCheckSyntax(method.Method): '''Check the syntax of the current python file''' def _execute(self, w, **vargs): sys.path.insert(0, w.mode.pythonlib) source = w.buffer.make_string() try: code = compile(source, w.buffer.path, 'exec') w.set_error("Syntax OK") except Exception, e: output = traceback.format_exc() w.application.data_buffer("*PythonSyntax*", output, switch_to=True) del sys.path[0] 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 start_p = Point(0, start) if end + 1 < len(w.buffer.lines): end_p = Point(0, end + 1) else: end_p = Point(len(w.buffer.lines[-1]), len(w.buffer.lines) - 1) w.kill(start_p, end_p) w.insert_string(start_p, data) install = Python.install