"""Module to analyze Python source code; for syntax coloring tools.

Interface:
	tags = fontify(pytext, searchfrom, searchto)

The 'pytext' argument is a string containing Python source code.
The (optional) arguments 'searchfrom' and 'searchto' may contain a slice in pytext. 
The returned value is a list of tuples, formatted like this:
	[('keyword', 0, 6, None), ('keyword', 11, 17, None), ('comment', 23, 53, None), etc. ]
The tuple contents are always like this:
	(tag, startindex, endindex, sublist)
tag is one of 'keyword', 'string', 'comment' or 'identifier'
sublist is not used, hence always None. 
"""

# Based on FontText.py by Mitchell S. Chapman,
# which was modified by Zachary Roadhouse,
# then un-Tk'd by Just van Rossum.
# Many thanks for regular expression debugging & authoring are due to:
#	Tim (the-incredib-ly y'rs) Peters and Cristian Tismer
# So, who owns the copyright? ;-) How about this:
# Copyright 1996-2000: 
#	Mitchell S. Chapman,
#	Zachary Roadhouse,
#	Tim Peters,
#	Just van Rossum

__version__ = "0.3.3"

import string, regex

# First a little helper, since I don't like to repeat things. (Tismer speaking)
import string
def replace(where, what, with):
	return string.join(string.split(where, what), with)

# This list of keywords is taken from ref/node13.html of the
# Python 1.3 HTML documentation. ("access" is intentionally omitted.)
keywordsList = [
	"assert", "exec",
	"del", "from", "lambda", "return",
	"and", "elif", "global", "not", "try",
	"break", "else", "if", "or", "while",
	"class", "except", "import", "pass",
	"continue", "finally", "in", "print",
	"def", "for", "is", "raise"]

# Build up a regular expression which will match anything
# interesting, including multi-line triple-quoted strings.
commentPat = "#.*"

pat = "q[^\q\n]*\(\\\\[\000-\377][^\q\n]*\)*q"
quotePat = replace(pat, "q", "'") + "\|" + replace(pat, 'q', '"')

# Way to go, Tim!
pat = """
	qqq
	[^\\q]*
	\(
		\(	\\\\[\000-\377]
		\|	q
			\(	\\\\[\000-\377]
			\|	[^\\q]
			\|	q
				\(	\\\\[\000-\377]
				\|	[^\\q]
				\)
			\)
		\)
		[^\\q]*
	\)*
	qqq
"""
pat = string.join(string.split(pat), '')	# get rid of whitespace
tripleQuotePat = replace(pat, "q", "'") + "\|" + replace(pat, 'q', '"')

# Build up a regular expression which matches all and only
# Python keywords. This will let us skip the uninteresting
# identifier references.
# nonKeyPat identifies characters which may legally precede
# a keyword pattern.
nonKeyPat = "\(^\|[^a-zA-Z0-9_.\"']\)"

keyPat = nonKeyPat + "\("
for keyword in keywordsList:
	keyPat = keyPat + keyword + "\|"
keyPat = keyPat[:-2] + "\)" + nonKeyPat

matchPat = commentPat + "\|" + keyPat + "\|" + tripleQuotePat + "\|" + quotePat
matchRE = regex.compile(matchPat)

idKeyPat = "[ \t]*[A-Za-z_][A-Za-z_0-9.]*"	# Ident w. leading whitespace.
idRE = regex.compile(idKeyPat)


def fontify(pytext, searchfrom = 0, searchto = None):
	if searchto is None:
		searchto = len(pytext)
	# Cache a few attributes for quicker reference.
	search = matchRE.search
	group = matchRE.group
	idSearch = idRE.search
	idGroup = idRE.group
	
	tags = []
	tags_append = tags.append
	commentTag = 'comment'
	stringTag = 'string'
	keywordTag = 'keyword'
	identifierTag = 'identifier'
	
	start = 0
	end = searchfrom
	while 1:
		start = search(pytext, end)
		if start < 0 or start >= searchto:
			break	# EXIT LOOP
		match = group(0)
		end = start + len(match)
		c = match[0]
		if c not in "#'\"":
			# Must have matched a keyword.
			if start <> searchfrom:
				# there's still a redundant char before and after it, strip!
				match = match[1:-1]
				start = start + 1
			else:
				# this is the first keyword in the text.
				# Only a space at the end.
				match = match[:-1]
			end = end - 1
			tags_append((keywordTag, start, end, None))
			# If this was a defining keyword, look ahead to the
			# following identifier.
			if match in ["def", "class"]:
				start = idSearch(pytext, end)
				if start == end:
					match = idGroup(0)
					end = start + len(match)
					tags_append((identifierTag, start, end, None))
		elif c == "#":
			tags_append((commentTag, start, end, None))
		else:
			tags_append((stringTag, start, end, None))
	return tags


def test(path):
	f = open(path)
	text = f.read()
	f.close()
	tags = fontify(text)
	for tag, start, end, sublist in tags:
		print tag, `text[start:end]`