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pmacs3/tab.py

224 lines
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Python
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import regex, util
from point import Point
class Marker(object):
def __init__(self, name, level):
self.name = name
self.level = level
def __repr__(self):
return '<Marker(%r, %r)>' % (self.name, self.level)
class Tabber(object):
wsre = regex.whitespace
wst = ('null', 'eol',)
sre = regex.space
st = ('null',)
def __init__(self, m):
self.mode = m
self.lines = {}
def get_highlighter(self):
return self.mode.window.buffer.highlights[self.mode.name()]
def get_tokens(self, y):
return self.mode.window.buffer.highlights[self.mode.name()].tokens[y]
def get_token(self, y, i):
return self.mode.window.buffer.highlights[self.mode.name()].tokens[y][i]
def token_is_whitespace(self, y, i):
token = self.get_token(y, i)
return token.fqname() in self.wst and self.wsre.match(token.string)
def token_is_space(self, y, i):
token = self.get_token(y, i)
return token.fqname() in self.st and self.sre.match(token.string)
def get_next_left_token(self, y, i):
tokens = self.get_tokens(y)
assert i >= 0 and i < len(tokens)
for j in range(1, i):
if not self.token_is_whitespace(y, i - j):
return tokens[i - j]
return None
def get_next_right_token(self, y, i):
tokens = self.get_tokens(y)
assert i >= 0 and i < len(tokens)
for j in range(i + 1, len(tokens)):
if not self.token_is_whitespace(y, j):
return tokens[j]
return None
def is_leftmost_token(self, y, i):
return self.get_next_left_token(y, i) is None
def is_rightmost_token(self, y, i):
return self.get_next_right_token(y, i) is None
def is_only_token(self, y, i):
return self.is_leftmost_token(y, i) and self.is_rightmost_token(y, i)
def get_leftmost_token(self, y):
tokens = self.get_tokens(y)
for i in range(0, len(tokens)):
if not self.token_is_whitespace(y, i):
return tokens[i]
return None
def get_rightmost_token(self, y):
tokens = self.get_tokens(y)
i = len(tokens) - 1
for j in range(0, len(tokens)):
if not self.token_is_whitespace(y, i - j):
return tokens[i - j]
return None
def get_nonws_tokens(self, y):
tokens = self.get_tokens(y)
for i in range(0, len(tokens)):
if not self.token_is_whitespace(y, i):
yield tokens[i]
raise StopIteration
def get_nons_tokens(self, y):
tokens = self.get_tokens(y)
for i in range(0, len(tokens)):
if not self.token_is_space(y, i):
yield tokens[i]
raise StopIteration
def region_added(self, p, newlines):
self.lines = {}
def region_removed(self, p1, p2):
self.lines = {}
def is_base(self, y):
return True
def get_level(self, y):
if y in self.lines:
return self.lines[y]
else:
self._calc_level(y)
return self.lines.get(y)
def _calc_level(self, y):
pass
class StackTabber(Tabber):
def __init__(self, m):
self.mode = m
self.lines = {}
self.record = {}
self.markers = []
def get_curr_level(self):
if self.markers:
return self.markers[-1].level
else:
return 0
def region_added(self, p, newlines):
self.lines = {}
self.record = {}
self.markers = []
def region_removed(self, p1, p2):
self.lines = {}
self.record = {}
self.markers = []
def is_base(self, y):
return y == 0
def _calc_level(self, y):
# first we need to step back to find the last place where we have tab
# stops figured out, or a suitable place to start
target = y
while not self.is_base(y) and y > 0:
y -= 1
# ok now, let's do this shit
self.markers = []
currlvl = 0
while y <= target:
currlvl = self.get_curr_level()
tokens = self.get_tokens(y)
for i in range(0, len(tokens)):
currlvl = self._handle_token(currlvl, y, i)
self.lines[y] = currlvl
self.record[y] = tuple(self.markers)
y += 1
def _handle_token(self, currlvl, y, i):
token = self.get_token(y, i)
s = token.string
fqname = token.fqname()
if fqname in self.mode.closetokens and s in self.mode.closetags:
currlvl = self._handle_close_token(currlvl, y, i)
elif fqname in self.mode.opentokens and s in self.mode.opentags:
currlvl = self._handle_open_token(currlvl, y, i)
else:
currlvl = self._handle_other_token(currlvl, y, i)
return currlvl
def _handle_open_token(self, currlvl, y, i):
token = self.get_token(y, i)
rtoken = self.get_next_right_token(y, i)
if rtoken is None:
level = self.get_curr_level() + self.mode.tabwidth
else:
level = rtoken.x
self._append(token.string, level)
return currlvl
def _handle_close_token(self, currlvl, y, i):
token = self.get_token(y, i)
s1 = token.string
if not self.markers:
raise Exception, "unmatched closing token %r" % s1
s2 = self.markers[-1].name
if self.mode.closetags[s1] == s2:
self._pop()
if self.is_leftmost_token(y, i):
currlvl = self.get_curr_level()
else:
raise Exception, "mismatched closing tag %r vs %r" % (s2, s1)
return currlvl
def _handle_other_token(self, currlvl, y, i):
return currlvl
def _has_markers(self):
return len(self.markers) > 0
def _empty(self):
return len(self.markers) == 0
def _append(self, name, level):
self.markers.append(Marker(name, level))
def _peek(self):
if self.markers:
return self.markers[-1]
else:
return None
def _peek_name(self):
if self.markers:
return self.markers[-1].name
else:
return None
def _peek_level(self):
if self.markers:
return self.markers[-1].level
else:
return None
def _pop(self):
self.markers.pop(-1)
def _pop_while(self, *names):
while self.markers and self.markers[-1].name in names:
self.markers.pop(-1)
def _pop_unless(self, *names):
if self.markers and self.markers[-1].name not in names:
self.markers.pop(-1)
def _pop_until(self, *names):
while self.markers:
if self.markers[-1].name in names:
self.markers.pop(-1)
return
else:
self.markers.pop(-1)
def _opt_append(self, name, level):
if self.markers and self.markers[-1].name == name:
pass
else:
self._append(name, level)
def _opt_pop(self, *names):
if self.markers and self.markers[-1].name in names:
self.markers.pop(-1)
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