Source

tgext.scss / tgext / scss / compiler.py

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#!/usr/bin/env python
#-*- coding: utf-8 -*-
"""
pyScss, a Scss compiler for Python

@author     German M. Bravo (Kronuz) <german.mb@gmail.com>
@version    1.0
@see        https://github.com/Kronuz/pyScss
@copyright  (c) 2011 German M. Bravo (Kronuz)
@license    MIT License
            http://www.opensource.org/licenses/mit-license.php

pyScss compiles Scss, a superset of CSS that is more powerful, elegant and
easier to maintain than plain-vanilla CSS. The library acts as a CSS source code
preprocesor which allows you to use variables, nested rules, mixins, andhave
inheritance of rules, all with a CSS-compatible syntax which the preprocessor
then compiles to standard CSS.

Scss, as an extension of CSS, helps keep large stylesheets well-organized. It
borrows concepts and functionality from projects such as OOCSS and other similar
frameworks like as Sass. It's build on top of the original PHP xCSS codebase
structure but it's been completely rewritten, many bugs have been fixed and it
has been extensively extended to support almost the full range of Sass' Scss
syntax and functionality.

Bits of code in pyScss come from various projects:
Compass:
    (c) 2009 Christopher M. Eppstein
    http://compass-style.org/
Sass:
    (c) 2006-2009 Hampton Catlin and Nathan Weizenbaum
    http://sass-lang.com/
xCSS:
    (c) 2010 Anton Pawlik
    http://xcss.antpaw.org/docs/

"""

################################################################################
# Configuration:
import os
VERBOSITY = 1
DEBUG = 0
################################################################################

import logging
logging.basicConfig()
log = logging.getLogger(__name__)
log.setLevel(logging.INFO)

try:
    import cPickle as pickle
except ImportError:
    import pickle
import re
import sys
import time
import textwrap
from collections import deque

profiling = {}

# units and conversions
_units = ['em', 'ex', 'px', 'cm', 'mm', 'in', 'pt', 'pc', 'deg', 'rad'
                                                                 'grad', 'ms', 's', 'hz', 'khz', '%']
_zero_units = ['em', 'ex', 'px', 'cm', 'mm', 'in', 'pt', 'pc']  # units that can be zeroed
_units_weights = {
    'em': 10,
    'mm': 10,
    'ms': 10,
    'hz': 10,
    '%': 100,
    }
_conv = {
    'size': {
        'em': 13.0,
        'px': 1.0
    },
    'length': {
        'mm':  1.0,
        'cm':  10.0,
        'in':  25.4,
        'pt':  25.4 / 72,
        'pc':  25.4 / 6
    },
    'time': {
        'ms':  1.0,
        's':   1000.0
    },
    'freq': {
        'hz':  1.0,
        'khz': 1000.0
    },
    'any': {
        '%': 1.0 / 100
    }
}
_conv_type = {}
_conv_factor = {}
for t, m in _conv.items():
    for k, f in m.items():
        _conv_type[k] = t
        _conv_factor[k] = f
del t, m, k, f

# color literals
_colors = {
    'aliceblue': '#f0f8ff',
    'antiquewhite': '#faebd7',
    'aqua': '#00ffff',
    'aquamarine': '#7fffd4',
    'azure': '#f0ffff',
    'beige': '#f5f5dc',
    'bisque': '#ffe4c4',
    'black': '#000000',
    'blanchedalmond': '#ffebcd',
    'blue': '#0000ff',
    'blueviolet': '#8a2be2',
    'brown': '#a52a2a',
    'burlywood': '#deb887',
    'cadetblue': '#5f9ea0',
    'chartreuse': '#7fff00',
    'chocolate': '#d2691e',
    'coral': '#ff7f50',
    'cornflowerblue': '#6495ed',
    'cornsilk': '#fff8dc',
    'crimson': '#dc143c',
    'cyan': '#00ffff',
    'darkblue': '#00008b',
    'darkcyan': '#008b8b',
    'darkgoldenrod': '#b8860b',
    'darkgray': '#a9a9a9',
    'darkgreen': '#006400',
    'darkkhaki': '#bdb76b',
    'darkmagenta': '#8b008b',
    'darkolivegreen': '#556b2f',
    'darkorange': '#ff8c00',
    'darkorchid': '#9932cc',
    'darkred': '#8b0000',
    'darksalmon': '#e9967a',
    'darkseagreen': '#8fbc8f',
    'darkslateblue': '#483d8b',
    'darkslategray': '#2f4f4f',
    'darkturquoise': '#00ced1',
    'darkviolet': '#9400d3',
    'deeppink': '#ff1493',
    'deepskyblue': '#00bfff',
    'dimgray': '#696969',
    'dodgerblue': '#1e90ff',
    'firebrick': '#b22222',
    'floralwhite': '#fffaf0',
    'forestgreen': '#228b22',
    'fuchsia': '#ff00ff',
    'gainsboro': '#dcdcdc',
    'ghostwhite': '#f8f8ff',
    'gold': '#ffd700',
    'goldenrod': '#daa520',
    'gray': '#808080',
    'green': '#008000',
    'greenyellow': '#adff2f',
    'honeydew': '#f0fff0',
    'hotpink': '#ff69b4',
    'indianred': '#cd5c5c',
    'indigo': '#4b0082',
    'ivory': '#fffff0',
    'khaki': '#f0e68c',
    'lavender': '#e6e6fa',
    'lavenderblush': '#fff0f5',
    'lawngreen': '#7cfc00',
    'lemonchiffon': '#fffacd',
    'lightblue': '#add8e6',
    'lightcoral': '#f08080',
    'lightcyan': '#e0ffff',
    'lightgoldenrodyellow': '#fafad2',
    'lightgreen': '#90ee90',
    'lightgrey': '#d3d3d3',
    'lightpink': '#ffb6c1',
    'lightsalmon': '#ffa07a',
    'lightseagreen': '#20b2aa',
    'lightskyblue': '#87cefa',
    'lightslategray': '#778899',
    'lightsteelblue': '#b0c4de',
    'lightyellow': '#ffffe0',
    'lime': '#00ff00',
    'limegreen': '#32cd32',
    'linen': '#faf0e6',
    'magenta': '#ff00ff',
    'maroon': '#800000',
    'mediumaquamarine': '#66cdaa',
    'mediumblue': '#0000cd',
    'mediumorchid': '#ba55d3',
    'mediumpurple': '#9370db',
    'mediumseagreen': '#3cb371',
    'mediumslateblue': '#7b68ee',
    'mediumspringgreen': '#00fa9a',
    'mediumturquoise': '#48d1cc',
    'mediumvioletred': '#c71585',
    'midnightblue': '#191970',
    'mintcream': '#f5fffa',
    'mistyrose': '#ffe4e1',
    'moccasin': '#ffe4b5',
    'navajowhite': '#ffdead',
    'navy': '#000080',
    'oldlace': '#fdf5e6',
    'olive': '#808000',
    'olivedrab': '#6b8e23',
    'orange': '#ffa500',
    'orangered': '#ff4500',
    'orchid': '#da70d6',
    'palegoldenrod': '#eee8aa',
    'palegreen': '#98fb98',
    'paleturquoise': '#afeeee',
    'palevioletred': '#db7093',
    'papayawhip': '#ffefd5',
    'peachpuff': '#ffdab9',
    'peru': '#cd853f',
    'pink': '#ffc0cb',
    'plum': '#dda0dd',
    'powderblue': '#b0e0e6',
    'purple': '#800080',
    'red': '#ff0000',
    'rosybrown': '#bc8f8f',
    'royalblue': '#4169e1',
    'saddlebrown': '#8b4513',
    'salmon': '#fa8072',
    'sandybrown': '#f4a460',
    'seagreen': '#2e8b57',
    'seashell': '#fff5ee',
    'sienna': '#a0522d',
    'silver': '#c0c0c0',
    'skyblue': '#87ceeb',
    'slateblue': '#6a5acd',
    'slategray': '#708090',
    'snow': '#fffafa',
    'springgreen': '#00ff7f',
    'steelblue': '#4682b4',
    'tan': '#d2b48c',
    'teal': '#008080',
    'thistle': '#d8bfd8',
    'tomato': '#ff6347',
    'turquoise': '#40e0d0',
    'violet': '#ee82ee',
    'wheat': '#f5deb3',
    'white': '#ffffff',
    'whitesmoke': '#f5f5f5',
    'yellow': '#ffff00',
    'yellowgreen': '#9acd32'
}

_safe_strings = {
    '^doubleslash^': '//',
    '^bigcopen^': '/*',
    '^bigcclose^': '*/',
    '^doubledot^': ':',
    '^semicolon^': ';',
    '^curlybracketopen^': '{',
    '^curlybracketclosed^': '}',
    }
_reverse_safe_strings = dict((v, k) for k, v in _safe_strings.items())
_safe_strings_re = re.compile('|'.join(map(re.escape, _safe_strings)))
_reverse_safe_strings_re = re.compile('|'.join(map(re.escape, _reverse_safe_strings)))

_default_scss_files = {}  # Files to be compiled ({file: content, ...})

_default_scss_index = {0: '<unknown>:0'}

_default_scss_vars = {
    # unsafe chars will be hidden as vars
    '$__doubleslash': '//',
    '$__bigcopen': '/*',
    '$__bigcclose': '*/',
    '$__doubledot': ':',
    '$__semicolon': ';',
    '$__curlybracketopen': '{',
    '$__curlybracketclosed': '}',

    # shortcuts (it's "a hidden feature" for now)
    'bg:': 'background:',
    'bgc:': 'background-color:',
    }

_default_scss_opts = {
    'verbosity': VERBOSITY,
    'compress': 1,
    'compress_short_colors': 1,  # Converts things like #RRGGBB to #RGB
    'compress_reverse_colors': 1,  # Gets the shortest name of all for colors
    'short_colors': 0,  # Converts things like #RRGGBB to #RGB
    'reverse_colors': 0,  # Gets the shortest name of all for colors
}

SEPARATOR = '\x00'
_nl_re = re.compile(r'\n', re.MULTILINE)
_nl_num_re = re.compile(r'\n.+' + SEPARATOR, re.MULTILINE)
_nl_num_nl_re = re.compile(r'\n.+' + SEPARATOR + r'\s*\n', re.MULTILINE)

_short_color_re = re.compile(r'(?<!\w)#([a-f0-9])\1([a-f0-9])\2([a-f0-9])\3\b', re.IGNORECASE)
_long_color_re = re.compile(r'(?<!\w)#([a-f0-9]){2}([a-f0-9]){2}([a-f0-9]){2}\b', re.IGNORECASE)
_reverse_colors = dict((v, k) for k, v in _colors.items())
for long_k, v in _colors.items():
    # Calculate the different possible representations of a color:
    short_k = _short_color_re.sub(r'#\1\2\3', v).lower()
    rgb_k = _long_color_re.sub(lambda m: 'rgb(%d, %d, %d)' % (int(m.group(1), 16), int(m.group(2), 16), int(m.group(3), 16)), v)
    rgba_k = _long_color_re.sub(lambda m: 'rgba(%d, %d, %d, 1)' % (int(m.group(1), 16), int(m.group(2), 16), int(m.group(3), 16)), v)
    # get the shortest of all to use it:
    k = min([short_k, long_k, rgb_k, rgba_k], key=len)
    _reverse_colors[long_k] = k
    _reverse_colors[short_k] = k
    _reverse_colors[rgb_k] = k
    _reverse_colors[rgba_k] = k
_reverse_colors_re = re.compile(r'(?<![-\w.#$])(' + '|'.join(map(re.escape, _reverse_colors)) + r')(?![-\w])', re.IGNORECASE)
_colors_re = re.compile(r'(?<![-\w.#$])(' + '|'.join(map(re.escape, _colors)) + r')(?![-\w])', re.IGNORECASE)

_expr_glob_re = re.compile(r'''
    \#\{(.*?)\}                   # Global Interpolation only
''', re.VERBOSE)

_ml_comment_re = re.compile(r'\/\*(.*?)\*\/', re.DOTALL)
_sl_comment_re = re.compile(r'(?<!\w{2}:)\/\/.*')
_zero_units_re = re.compile(r'\b0(' + '|'.join(map(re.escape, _zero_units)) + r')(?!\w)', re.IGNORECASE)
_zero_re = re.compile(r'\b0\.(?=\d)')

_escape_chars_re = re.compile(r'([^-a-zA-Z0-9_])')
_variable_re = re.compile('^\\$[-a-zA-Z0-9_]+$')
_interpolate_re = re.compile(r'(#\{\s*)?(\$[-\w]+)(?(1)\s*\})')
_spaces_re = re.compile(r'\s+')
_expand_rules_space_re = re.compile(r'\s*{')
_collapse_properties_space_re = re.compile(r'([:#])\s*{')

_strings_re = re.compile(r'([\'"]).*?\1')
_blocks_re = re.compile(r'[{},;()\'"\n]')

_prop_split_re = re.compile(r'[:=]')
_skip_word_re = re.compile(r'-?[\w\s#.,:%]*$|[\w\-#.,:%]*$', re.MULTILINE)
_skip_re = re.compile(r'''
    (?:url|alpha)\([^)]*\)$
|
    [\w\-#.,:%]+(?:\s+[\w\-#.,:%]+)*$
''', re.MULTILINE | re.IGNORECASE | re.VERBOSE)
_has_code_re = re.compile('''
    (?:^|(?<=[{;}]))            # the character just before it should be a '{', a ';' or a '}'
    \s*                         # ...followed by any number of spaces
    (?:
        (?:
            \+
        |
            @include
        |
            @warn
        |
            @mixin
        |
            @function
        |
            @if
        |
            @else
        |
            @for
        |
            @each
        )
        (?![^(:;}]*['"])
    |
        @import
    )
''', re.VERBOSE)

_css_function_re = re.compile(r'^(from|to|mask|rotate|format|local|url|attr|counter|counters|color-stop|rect|-webkit-.*|-webkit-.*|-moz-.*|-pie-.*|-ms-.*|-o-.*)$')

FILEID = 0
POSITION = 1
CODESTR = 2
DEPS = 3
CONTEXT = 4
OPTIONS = 5
SELECTORS = 6
PROPERTIES = 7
PATH = 8
INDEX = 9
LINENO = 10
FINAL = 11
MEDIA = 12
RULE_VARS = {
    'FILEID': FILEID,
    'POSITION': POSITION,
    'CODESTR': CODESTR,
    'DEPS': DEPS,
    'CONTEXT': CONTEXT,
    'OPTIONS': OPTIONS,
    'SELECTORS': SELECTORS,
    'PROPERTIES': PROPERTIES,
    'PATH': PATH,
    'INDEX': INDEX,
    'LINENO': LINENO,
    'FINAL': FINAL,
    'MEDIA': MEDIA,
    }


def spawn_rule(rule=None, **kwargs):
    if rule is None:
        rule = [None] * len(RULE_VARS)
        rule[DEPS] = set()
        rule[SELECTORS] = ''
        rule[PROPERTIES] = []
        rule[PATH] = './'
        rule[INDEX] = {}
        rule[LINENO] = 0
        rule[FINAL] = False
    else:
        rule = list(rule)
    for k, v in kwargs.items():
        rule[RULE_VARS[k.upper()]] = v
    return rule


def print_timing(level=0):
    def _print_timing(func):
        if VERBOSITY:
            def wrapper(*arg):
                if VERBOSITY >= level:
                    t1 = time.time()
                    res = func(*arg)
                    t2 = time.time()
                    profiling.setdefault(func.func_name, 0)
                    profiling[func.func_name] += (t2 - t1)
                    return res
                else:
                    return func(*arg)
            return wrapper
        else:
            return func
    return _print_timing


def split_params(params):
    params = params.split(',') or []
    if params:
        final_params = []
        param = params.pop(0)
        try:
            while True:
                while param.count('(') != param.count(')'):
                    try:
                        param = param + ',' + params.pop(0)
                    except IndexError:
                        break
                final_params.append(param)
                param = params.pop(0)
        except IndexError:
            pass
        params = final_params
    return params


def dequote(s):
    if s and s[0] in ('"', "'") and s[-1] == s[0]:
        s = s[1:-1]
        s = unescape(s)
    return s


def depar(s):
    while s and s[0] == '(' and s[-1] == ')':
        s = s[1:-1]
    return s


class Scss(object):
    import_re = re.compile(r'^\s*@import +url\(\s*["\']?([^\)\'\"]+)["\']?\s*\)\s*;?\s*$', re.MULTILINE)

    # configuration:
    construct = 'self'

    def __init__(self, scss_vars=None, scss_opts=None):
        if scss_vars is None:
            self.scss_vars = None
        else:
            self.scss_vars = _default_scss_vars.copy()
            self.scss_vars.update(scss_vars)
        if scss_opts is None:
            self.scss_opts = None
        else:
            self.scss_opts = _default_scss_opts.copy()
            self.scss_opts.update(scss_opts)
        self.scss_files = None
        self.scss_index = None
        self.reset()

    def clean(self):
        self.children = deque()
        self.rules = []
        self._rules = {}
        self.parts = {}

    def reset(self, input_scss=None):
        # Initialize
        self.css_files = []
        self._scss_vars = self.scss_vars.copy() if self.scss_vars is not None else _default_scss_vars.copy()
        self._scss_opts = self.scss_opts.copy() if self.scss_opts is not None else _default_scss_opts.copy()
        self._scss_files = self.scss_files.copy() if self.scss_files is not None else _default_scss_files.copy()
        self._scss_index = self.scss_index.copy() if self.scss_index is not None else _default_scss_index.copy()

        self._contexts = {}
        self._replaces = {}

        self.clean()

    def longest_common_prefix(self, seq1, seq2):
        start = 0
        common = 0
        length = min(len(seq1), len(seq2))
        while start < length:
            if seq1[start] != seq2[start]:
                break
            if seq1[start] == ' ':
                common = start + 1
            elif seq1[start] in ('#', ':', '.'):
                common = start
            start += 1
        return common

    def longest_common_suffix(self, seq1, seq2):
        seq1, seq2 = seq1[::-1], seq2[::-1]
        start = 0
        common = 0
        length = min(len(seq1), len(seq2))
        while start < length:
            if seq1[start] != seq2[start]:
                break
            if seq1[start] == ' ':
                common = start + 1
            elif seq1[start] in ('#', ':', '.'):
                common = start + 1
            start += 1
        return common

    def locate_blocks(self, codestr):
        """
        Returns all code blocks between `{` and `}` and a proper key
        that can be multilined as long as it's joined by `,` or enclosed in
        `(` and `)`.
        Returns the "lose" code that's not part of the block as a third item.
        """
        def _strip_selprop(selprop, lineno):
            _lineno, _sep, selprop = selprop.partition(SEPARATOR)
            if _sep == SEPARATOR:
                lineno = _lineno.strip()
                lineno = int(lineno) if lineno else 0
            else:
                selprop = _lineno
            selprop = _nl_num_re.sub('\n', selprop)
            selprop = selprop.strip()
            return selprop, lineno

        def _strip(selprop):
            selprop, _ = _strip_selprop(selprop, 0)
            return selprop

        lineno = 0

        par = 0
        instr = None
        depth = 0
        skip = False
        thin = None
        i = init = safe = lose = 0
        start = end = None

        for m in _blocks_re.finditer(codestr):
            _s = m.start(0)
            _e = m.end(0)
            i = _e - 1
            if _s == _e:
                break
            if instr is not None:
                if codestr[i] == instr:
                    instr = None
            elif codestr[i] in ('"', "'"):
                instr = codestr[i]
            elif codestr[i] == '(':
                par += 1
                thin = None
                safe = i + 1
            elif codestr[i] == ')':
                par -= 1
            elif not par and not instr:
                if codestr[i] == '{':
                    if depth == 0:
                        if i > 0 and codestr[i - 1] == '#':
                            skip = True
                        else:
                            start = i
                            if thin is not None and _strip(codestr[thin:i - 1]):
                                init = thin
                            if lose < init:
                                losestr = codestr[lose:init]
                                for _property in losestr.split(';'):
                                    _property, lineno = _strip_selprop(_property, lineno)
                                    if _property:
                                        yield lineno, _property, None
                                lose = init
                            thin = None
                    depth += 1
                elif codestr[i] == '}':
                    if depth > 0:
                        depth -= 1
                        if depth == 0:
                            if not skip:
                                end = i
                                _selectors, lineno = _strip_selprop(codestr[init:start], lineno)
                                _codestr = codestr[start + 1:end].strip()
                                if _selectors:
                                    yield lineno, _selectors, _codestr
                                init = safe = lose = end + 1
                                thin = None
                            skip = False
                elif depth == 0:
                    if codestr[i] == ';':
                        init = safe = i + 1
                        thin = None
                    elif codestr[i] == ',':
                        if thin is not None and _strip(codestr[thin:i - 1]):
                            init = thin
                        thin = None
                        safe = i + 1
                    elif codestr[i] == '\n':
                        if thin is None and _strip(codestr[safe:i - 1]):
                            thin = i + 1
                        elif thin is not None and _strip(codestr[thin:i - 1]):
                            init = i + 1
                            thin = None
        if depth > 0:
            if not skip:
                _selectors, lineno = _strip_selprop(codestr[init:start], lineno)
                _codestr = codestr[start + 1:].strip()
                if _selectors:
                    yield lineno, _selectors, _codestr
                if par:
                    raise Exception("Missing closing parenthesis somewhere in block: '%s'" % _selectors)
                elif instr:
                    raise Exception("Missing closing string somewhere in block: '%s'" % _selectors)
                else:
                    raise Exception("Block never closed: '%s'" % _selectors)
        losestr = codestr[lose:]
        for _property in losestr.split(';'):
            _property, lineno = _strip_selprop(_property, lineno)
            if _property:
                yield lineno, _property, None

    def normalize_selectors(self, _selectors, extra_selectors=None, extra_parents=None):
        """
        Normalizes or extends selectors in a string.
        An optional extra parameter that can be a list of extra selectors to be
        added to the final normalized selectors string.
        """
        # Fixe tabs and spaces in selectors
        _selectors = _spaces_re.sub(' ', _selectors)

        if isinstance(extra_selectors, basestring):
            extra_selectors = extra_selectors.split(',')

        if isinstance(extra_parents, basestring):
            extra_parents = extra_parents.split('&')

        parents = set()
        if ' extends ' in _selectors:
            selectors = set()
            for key in _selectors.split(','):
                child, _, parent = key.partition(' extends ')
                child = child.strip()
                parent = parent.strip()
                selectors.add(child)
                parents.update(s.strip() for s in parent.split('&') if s.strip())
        else:
            selectors = set(s.strip() for s in _selectors.split(',') if s.strip())
        if extra_selectors:
            selectors.update(s.strip() for s in extra_selectors if s.strip())
        selectors.discard('')
        if not selectors:
            return ''
        if extra_parents:
            parents.update(s.strip() for s in extra_parents if s.strip())
        parents.discard('')
        if parents:
            return ','.join(sorted(selectors)) + ' extends ' + '&'.join(sorted(parents))
        return ','.join(sorted(selectors))

    def apply_vars(self, cont, context, options=None, rule=None, _dequote=False):
        if isinstance(cont, basestring) and '$' in cont:
            if cont in context:
                # Optimization: the full cont is a variable in the context,
                # flatten the interpolation and use it:
                while isinstance(cont, basestring) and cont in context:
                    _cont = context[cont]
                    if _cont == cont:
                        break
                    cont = _cont
            else:
                # Flatten the context (no variables mapping to variables)
                flat_context = {}
                for k, v in context.items():
                    while isinstance(v, basestring) and v in context:
                        _v = context[v]
                        if _v == v:
                            break
                        v = _v
                    flat_context[k] = v

                # Interpolate variables:
                def _av(m):
                    v = flat_context.get(m.group(2))
                    if v:
                        v = to_str(v)
                        if _dequote and m.group(1):
                            v = dequote(v)
                    elif v is not None:
                        v = to_str(v)
                    else:
                        v = m.group(0)
                    return v

                cont = _interpolate_re.sub(_av, cont)
        if options is not None:
            # ...apply math:
            cont = self.do_glob_math(cont, context, options, rule, _dequote)
        return cont

    @print_timing(2)
    def Compilation(self, input_scss=None):
        self.reset()

        if input_scss is not None:
            self._scss_files = {'<string>': input_scss}

        # Compile
        for fileid, codestr in self._scss_files.iteritems():
            codestr = self.load_string(codestr, fileid)
            self._scss_files[fileid] = codestr
            rule = spawn_rule(fileid=fileid, codestr=codestr, context=self._scss_vars, options=self._scss_opts, index=self._scss_index)
            self.children.append(rule)

        # this will manage rule: child objects inside of a node
        self.parse_children()

        # this will manage rule: ' extends '
        self.parse_extends()

        # this will manage the order of the rules
        self.manage_order()

        self.parse_properties()

        final_cont = ''
        for fileid in self.css_files:
            if fileid != '<string>':
                final_cont += '/* Generated from: ' + fileid + ' */\n'
            fcont = self.create_css(fileid)
            final_cont += fcont

        final_cont = self.post_process(final_cont)

        return final_cont
    compile = Compilation

    def load_string(self, codestr, filename=None):
        if filename is not None:
            codestr += '\n'

            idx = {
                'next_id': len(self._scss_index),
                'line': 1,
                }

            def _cnt(m):
                idx['line'] += 1
                lineno = '%s:%d' % (filename, idx['line'])
                next_id = idx['next_id']
                self._scss_index[next_id] = lineno
                idx['next_id'] += 1
                return '\n' + str(next_id) + SEPARATOR
            lineno = '%s:%d' % (filename, idx['line'])
            next_id = idx['next_id']
            self._scss_index[next_id] = lineno
            codestr = str(next_id) + SEPARATOR + _nl_re.sub(_cnt, codestr)

        # remove empty lines
        codestr = _nl_num_nl_re.sub('\n', codestr)

        # protects codestr: "..." strings
        codestr = _strings_re.sub(lambda m: _reverse_safe_strings_re.sub(lambda n: _reverse_safe_strings[n.group(0)], m.group(0)), codestr)

        # removes multiple line comments
        codestr = _ml_comment_re.sub('', codestr)

        # removes inline comments, but not :// (protocol)
        codestr = _sl_comment_re.sub('', codestr)

        codestr = _safe_strings_re.sub(lambda m: _safe_strings[m.group(0)], codestr)

        # expand the space in rules
        codestr = _expand_rules_space_re.sub(' {', codestr)

        # collapse the space in properties blocks
        codestr = _collapse_properties_space_re.sub(r'\1{', codestr)

        # to do math operations, we need to get the color's hex values (for color names):
        def _pp(m):
            v = m.group(0)
            return _colors.get(v, v)
        codestr = _colors_re.sub(_pp, codestr)

        return codestr

    @print_timing(3)
    def parse_children(self):
        pos = 0
        while True:
            try:
                rule = self.children.popleft()
            except:
                break
                # Check if the block has nested blocks and work it out:
            _selectors, _, _parents = rule[SELECTORS].partition(' extends ')
            _selectors = _selectors.split(',')
            _parents = set(_parents.split('&'))
            _parents.discard('')

            # manage children or expand children:
            _children = deque()
            self.manage_children(rule, _selectors, _parents, _children, None, rule[MEDIA])
            self.children.extendleft(_children)

            # prepare maps:
            if _parents:
                rule[SELECTORS] = ','.join(_selectors) + ' extends ' + '&'.join(_parents)
            rule[POSITION] = pos
            selectors = rule[SELECTORS]
            self.parts.setdefault(selectors, [])
            self.parts[selectors].append(rule)
            self.rules.append(rule)
            pos += 1

            #print >>sys.stderr, '='*80
            #for r in [rule]+list(self.children)[:5]: print >>sys.stderr, repr(r[POSITION]), repr(r[SELECTORS]), repr(r[CODESTR][:80]+('...' if len(r[CODESTR])>80 else ''))
            #for r in [rule]+list(self.children)[:5]: print >>sys.stderr, repr(r[POSITION]), repr(r[SELECTORS]), repr(r[CODESTR][:80]+('...' if len(r[CODESTR])>80 else '')), dict((k, v) for k, v in r[CONTEXT].items() if k.startswith('$') and not k.startswith('$__')), dict(r[PROPERTIES]).keys()

    @print_timing(4)
    def manage_children(self, rule, p_selectors, p_parents, p_children, scope, media):
        for c_lineno, c_property, c_codestr in self.locate_blocks(rule[CODESTR]):
            if '@return' in rule[OPTIONS]:
                return
                # Rules preprocessing...
            if c_property.startswith('+'):  # expands a '+' at the beginning of a rule as @include
                c_property = '@include ' + c_property[1:]
                try:
                    if '(' not in c_property or c_property.index(':') < c_property.index('('):
                        c_property = c_property.replace(':', '(', 1)
                        if '(' in c_property:
                            c_property += ')'
                except ValueError:
                    pass
            elif c_property.startswith('='):  # expands a '=' at the beginning of a rule as @mixin
                c_property = '@mixin' + c_property[1:]
            elif c_property == '@prototype ':  # Remove '@prototype '
                c_property = c_property[11:]
                ####################################################################

            if c_property.startswith('@'):
                code, name = (c_property.split(None, 1) + [''])[:2]
                code = code.lower()
                if code == '@warn':
                    name = self.calculate(name, rule[CONTEXT], rule[OPTIONS], rule)
                    log.warn(dequote(to_str(name)))
                elif code == '@print':
                    name = self.calculate(name, rule[CONTEXT], rule[OPTIONS], rule)
                    log.info(dequote(to_str(name)))
                elif code == '@raw':
                    name = self.calculate(name, rule[CONTEXT], rule[OPTIONS], rule)
                    log.info(repr(name))
                elif code == '@debug':
                    global DEBUG
                    name = name.strip()
                    if name.lower() in ('1', 'true', 't', 'yes', 'y', 'on'):
                        name = 1
                    elif name.lower() in ('0', 'false', 'f', 'no', 'n', 'off'):
                        name = 0
                    DEBUG = name
                    log.info("Debug mode is %s", 'On' if DEBUG else 'Off')
                elif code == '@option':
                    self._settle_options(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name)
                elif code == '@import':
                    self._do_import(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name)
                elif code == '@extend':
                    name = self.apply_vars(name, rule[CONTEXT], rule[OPTIONS], rule)
                    p_parents.update(p.strip() for p in name.replace(',', '&').split('&'))
                    p_parents.discard('')
                elif c_codestr is not None and code in ('@mixin', '@function'):
                    self._do_functions(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name)
                elif code == '@return':
                    ret = self.calculate(name, rule[CONTEXT], rule[OPTIONS], rule)
                    rule[OPTIONS]['@return'] = ret
                elif code == '@include':
                    self._do_include(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name)
                elif c_codestr is not None and (code == '@if' or c_property.startswith('@else if ')):
                    self._do_if(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name)
                elif c_codestr is not None and code == '@else':
                    self._do_else(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name)
                elif c_codestr is not None and code == '@for':
                    self._do_for(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name)
                elif c_codestr is not None and code == '@each':
                    self._do_each(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name)
                # elif c_codestr is not None and code == '@while':
                #     self._do_while(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name)
                elif c_codestr is not None and code in ('@variables', '@vars'):
                    self._get_variables(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr)
                elif c_codestr is not None and code == '@media':
                    _media = (media or []) + [name]
                    rule[CODESTR] = self.construct + ' {' + c_codestr + '}'
                    self.manage_children(rule, p_selectors, p_parents, p_children, scope, _media)
                elif c_codestr is None:
                    rule[PROPERTIES].append((c_lineno, c_property, None))
                elif scope is None:  # needs to have no scope to crawl down the nested rules
                    self._nest_rules(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr)
            ####################################################################
            # Properties
            elif c_codestr is None:
                self._get_properties(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr)
            # Nested properties
            elif c_property.endswith(':'):
                rule[CODESTR] = c_codestr
                self.manage_children(rule, p_selectors, p_parents, p_children, (scope or '') + c_property[:-1] + '-', media)
            ####################################################################
            # Nested rules
            elif scope is None:  # needs to have no scope to crawl down the nested rules
                self._nest_rules(rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr)

    @print_timing(10)
    def _settle_options(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name):
        for option in name.split(','):
            option, value = (option.split(':', 1) + [''])[:2]
            option = option.strip().lower()
            value = value.strip()
            if option:
                if value.lower() in ('1', 'true', 't', 'yes', 'y', 'on'):
                    value = 1
                elif value.lower() in ('0', 'false', 'f', 'no', 'n', 'off'):
                    value = 0
                rule[OPTIONS][option] = value

    @print_timing(10)
    def _do_functions(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name):
        """
        Implements @mixin and @function
        """
        if name:
            funct, params, _ = name.partition('(')
            funct = funct.strip()
            params = split_params(depar(params + _))
            defaults = {}
            new_params = []
            for param in params:
                param, _, default = param.partition(':')
                param = param.strip()
                default = default.strip()
                if param:
                    new_params.append(param)
                    if default:
                        default = self.apply_vars(default, rule[CONTEXT], None, rule)
                        defaults[param] = default
            context = rule[CONTEXT].copy()
            for p in new_params:
                context.pop(p, None)
            mixin = [list(new_params), defaults, self.apply_vars(c_codestr, context, None, rule)]
            if code == '@function':
                def _call(mixin):
                    def __call(R, *args, **kwargs):
                        m_params = mixin[0]
                        m_vars = rule[CONTEXT].copy()
                        m_vars.update(mixin[1])
                        m_codestr = mixin[2]
                        for i, a in enumerate(args):
                            m_vars[m_params[i]] = a
                        m_vars.update(kwargs)
                        _options = rule[OPTIONS].copy()
                        _rule = spawn_rule(R, codestr=m_codestr, context=m_vars, options=_options, deps=set(), properties=[], final=False, lineno=c_lineno)
                        self.manage_children(_rule, p_selectors, p_parents, p_children, (scope or '') + '', R[MEDIA])
                        ret = _rule[OPTIONS].pop('@return', '')
                        return ret
                    return __call
                _mixin = _call(mixin)
                _mixin.mixin = mixin
                mixin = _mixin
                # Insert as many @mixin options as the default parameters:
            while len(new_params):
                rule[OPTIONS]['%s %s:%d' % (code, funct, len(new_params))] = mixin
                param = new_params.pop()
                if param not in defaults:
                    break
            if not new_params:
                rule[OPTIONS][code + ' ' + funct + ':0'] = mixin

    @print_timing(10)
    def _do_include(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name):
        """
        Implements @include, for @mixins
        """
        funct, params, _ = name.partition('(')
        funct = funct.strip()
        funct = self.do_glob_math(funct, rule[CONTEXT], rule[OPTIONS], rule, True)
        params = split_params(depar(params + _))
        new_params = {}
        num_args = 0
        for param in params:
            varname, _, param = param.partition(':')
            if param:
                param = param.strip()
                varname = varname.strip()
            else:
                param = varname.strip()
                varname = num_args
                if param:
                    num_args += 1
            if param:
                new_params[varname] = param
        mixin = rule[OPTIONS].get('@mixin %s:%s' % (funct, num_args))
        if not mixin:
            # Fallback to single parmeter:
            mixin = rule[OPTIONS].get('@mixin %s:1' % (funct,))
            if mixin and all(map(lambda o: isinstance(o, int), new_params.keys())):
                new_params = {0: ', '.join(new_params.values())}
        if mixin:
            m_params = mixin[0]
            m_vars = mixin[1].copy()
            m_codestr = mixin[2]
            for varname, value in new_params.items():
                try:
                    m_param = m_params[varname]
                except:
                    m_param = varname
                value = self.calculate(value, rule[CONTEXT], rule[OPTIONS], rule)
                m_vars[m_param] = value
            for p in m_vars:
                if p not in new_params:
                    if isinstance(m_vars[p], basestring):
                        value = self.calculate(m_vars[p], m_vars, rule[OPTIONS], rule)
                        m_vars[p] = value
            _context = rule[CONTEXT].copy()
            _context.update(m_vars)
            _rule = spawn_rule(rule, codestr=m_codestr, context=_context, lineno=c_lineno)
            self.manage_children(_rule, p_selectors, p_parents, p_children, scope, media)
        else:
            log.error("Required mixin not found: %s:%d (%s)", funct, num_args, rule[INDEX][rule[LINENO]])

    def _do_import(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name):
        """
        Implements @import
        Load and import mixins and functions and rules
        """
        i_codestr = None

        #This is here for backward compatibility with tgext.scss version 2.
        if 'url("/' in name or "url('/" in name:
            match = self.import_re.match('@import ' + name)
            if match:
                name = match.group(1)

        # Protect against going to prohibited places...
        if '..' not in name and '://' not in name and 'url(' not in name:
            names = name.split(',')
            for name in names:
                name = dequote(name.strip())

                #Avoid making possible to import files from root
                if name[0] == '/':
                    name = name[1:]

                if '@import ' + name not in rule[OPTIONS]:  # If already imported in this scope, skip...
                    filename = os.path.basename(name)
                    dirname = os.path.dirname(name)
                    load_paths = []
                    i_codestr = None
                    for path in ['./'] + self._scss_opts['root_path'].split(','):
                        for basepath in ['./', os.path.dirname(rule[PATH])]:
                            i_codestr = None
                            full_path = os.path.realpath(os.path.join(path, basepath, dirname))
                            if full_path not in load_paths:
                                try:
                                    full_filename = os.path.join(full_path, '_' + filename + '.scss')
                                    i_codestr = open(full_filename).read()
                                except:
                                    try:
                                        full_filename = os.path.join(full_path, filename + '.scss')
                                        i_codestr = open(full_filename).read()
                                    except:
                                        try:
                                            full_filename = os.path.join(full_path, '_' + filename)
                                            i_codestr = open(full_filename).read()
                                        except:
                                            try:
                                                full_filename = os.path.join(full_path, filename)
                                                i_codestr = open(full_filename).read()
                                            except:
                                                pass
                                if i_codestr is not None:
                                    break
                                else:
                                    load_paths.append(full_path)
                        if i_codestr is not None:
                            break
                    i_codestr = i_codestr and self.load_string(i_codestr, full_filename)
                    if i_codestr is None:
                        log.warn("File to import not found or unreadable: '%s'\nLoad paths:\n\t%s", filename, "\n\t".join(load_paths))
                    else:
                        _rule = spawn_rule(rule, codestr=i_codestr, path=full_filename, lineno=c_lineno)
                        self.manage_children(_rule, p_selectors, p_parents, p_children, scope, media)
                        rule[OPTIONS]['@import ' + name] = True
        else:
            rule[PROPERTIES].append((c_lineno, c_property, None))

    @print_timing(10)
    def _do_if(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name):
        """
        Implements @if and @else if
        """
        if code != '@if':
            if '@if' not in rule[OPTIONS]:
                log.error("@else with no @if (%s)", rule[INDEX][rule[LINENO]])
            val = not rule[OPTIONS].get('@if', True)
            name = c_property[9:].strip()
        else:
            val = True
        if val:
            val = self.calculate(name, rule[CONTEXT], rule[OPTIONS], rule)
            val = bool(False if not val or val in('0', 'false',) or (isinstance(val, basestring) and _variable_re.match(val)) else val)
            if val:
                rule[CODESTR] = c_codestr
                self.manage_children(rule, p_selectors, p_parents, p_children, scope, media)
            rule[OPTIONS]['@if'] = val

    @print_timing(10)
    def _do_else(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name):
        """
        Implements @else
        """
        if '@if' not in rule[OPTIONS]:
            log.error("@else with no @if (%s", rule[INDEX][rule[LINENO]])
        val = rule[OPTIONS].pop('@if', True)
        if not val:
            rule[CODESTR] = c_codestr
            self.manage_children(rule, p_selectors, p_parents, p_children, scope, media)

    @print_timing(10)
    def _do_for(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name):
        """
        Implements @for
        """
        var, _, name = name.partition('from')
        frm, _, through = name.partition('through')
        if not through:
            frm, _, through = frm.partition('to')
        frm = self.calculate(frm, rule[CONTEXT], rule[OPTIONS], rule)
        through = self.calculate(through, rule[CONTEXT], rule[OPTIONS], rule)
        try:
            frm = int(float(frm))
            through = int(float(through))
        except ValueError:
            pass
        else:
            if frm > through:
                frm, through = through, frm
                rev = reversed
            else:
                rev = lambda x: x
            var = var.strip()
            var = self.do_glob_math(var, rule[CONTEXT], rule[OPTIONS], rule, True)

            for i in rev(range(frm, through + 1)):
                rule[CODESTR] = c_codestr
                rule[CONTEXT][var] = str(i)
                self.manage_children(rule, p_selectors, p_parents, p_children, scope, media)

    @print_timing(10)
    def _do_each(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name):
        """
        Implements @each
        """
        var, _, name = name.partition('in')
        name = self.calculate(name, rule[CONTEXT], rule[OPTIONS], rule)
        if name:
            name = ListValue(name)
            var = var.strip()
            var = self.do_glob_math(var, rule[CONTEXT], rule[OPTIONS], rule, True)

            for n, v in name.items():
                v = to_str(v)
                rule[CODESTR] = c_codestr
                rule[CONTEXT][var] = v
                if not isinstance(n, int):
                    rule[CONTEXT][n] = v
                self.manage_children(rule, p_selectors, p_parents, p_children, scope, media)

    # @print_timing(10)
    # def _do_while(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr, code, name):
    #     THIS DOES NOT WORK AS MODIFICATION OF INNER VARIABLES ARE NOT KNOWN AT THIS POINT!!
    #     """
    #     Implements @while
    #     """
    #     first_val = None
    #     while True:
    #         val = self.calculate(name, rule[CONTEXT], rule[OPTIONS], rule)
    #         val = bool(False if not val or val in('0', 'false',) or (isinstance(val, basestring) and _variable_re.match(val)) else val)
    #         if first_val is None:
    #             first_val = val
    #         if not val:
    #             break
    #         rule[CODESTR] = c_codestr
    #         self.manage_children(rule, p_selectors, p_parents, p_children, scope, media)
    #     rule[OPTIONS]['@if'] = first_val

    @print_timing(10)
    def _get_variables(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr):
        """
        Implements @variables and @vars
        """
        _rule = list(rule)
        _rule[CODESTR] = c_codestr
        _rule[PROPERTIES] = rule[CONTEXT]
        self.manage_children(_rule, p_selectors, p_parents, p_children, scope, media)

    @print_timing(10)
    def _get_properties(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr):
        """
        Implements properties and variables extraction
        """
        prop, value = (_prop_split_re.split(c_property, 1) + [None])[:2]
        try:
            is_var = (c_property[len(prop)] == '=')
        except IndexError:
            is_var = False
        prop = prop.strip()
        prop = self.do_glob_math(prop, rule[CONTEXT], rule[OPTIONS], rule, True)
        if prop:
            if value:
                value = value.strip()
                value = self.calculate(value, rule[CONTEXT], rule[OPTIONS], rule)
            _prop = (scope or '') + prop
            if is_var or prop.startswith('$') and value is not None:
                if isinstance(value, basestring):
                    if '!default' in value:
                        if _prop in rule[CONTEXT]:
                            value = None
                        else:
                            value = value.replace('!default', '').replace('  ', ' ').strip()
                elif isinstance(value, ListValue):
                    value = ListValue(value)
                    for k, v in value.value.items():
                        if v == '!default':
                            if _prop in rule[CONTEXT]:
                                value = None
                            else:
                                del value.value[k]
                                value = value.first() if len(value) == 1 else value
                            break
                if value is not None:
                    rule[CONTEXT][_prop] = value
            else:
                _prop = self.apply_vars(_prop, rule[CONTEXT], rule[OPTIONS], rule, True)
                rule[PROPERTIES].append((c_lineno, _prop, to_str(value) if value is not None else None))

    @print_timing(10)
    def _nest_rules(self, rule, p_selectors, p_parents, p_children, scope, media, c_lineno, c_property, c_codestr):
        """
        Implements Nested CSS rules
        """
        if c_property == self.construct and rule[MEDIA] == media:
            rule[CODESTR] = c_codestr
            self.manage_children(rule, p_selectors, p_parents, p_children, scope, media)
        else:
            c_property = self.apply_vars(c_property, rule[CONTEXT], rule[OPTIONS], rule, True)

            c_selectors = self.normalize_selectors(c_property)
            c_selectors, _, c_parents = c_selectors.partition(' extends ')

            better_selectors = set()
            c_selectors = c_selectors.split(',')
            for c_selector in c_selectors:
                for p_selector in p_selectors:
                    if c_selector == self.construct:
                        better_selectors.add(p_selector)
                    elif '&' in c_selector:  # Parent References
                        better_selectors.add(c_selector.replace('&', p_selector))
                    elif p_selector:
                        better_selectors.add(p_selector + ' ' + c_selector)
                    else:
                        better_selectors.add(c_selector)
            better_selectors = ','.join(sorted(better_selectors))

            if c_parents:
                parents = set(p.strip() for p in c_parents.split('&'))
                parents.discard('')
                if parents:
                    better_selectors += ' extends ' + '&'.join(sorted(parents))

            _rule = spawn_rule(rule, codestr=c_codestr, deps=set(), context=rule[CONTEXT].copy(), options=rule[OPTIONS].copy(), selectors=better_selectors, properties=[], final=False, media=media, lineno=c_lineno)

            p_children.appendleft(_rule)

    @print_timing(4)
    def link_with_parents(self, parent, c_selectors, c_rules):
        """
        Link with a parent for the current child rule.
        If parents found, returns a list of parent rules to the child
        """
        parent_found = None
        for p_selectors, p_rules in self.parts.items():
            _p_selectors, _, _ = p_selectors.partition(' extends ')
            _p_selectors = _p_selectors.split(',')

            new_selectors = set()
            found = False

            # Finds all the parent selectors and parent selectors with another
            # bind selectors behind. For example, if `.specialClass extends .baseClass`,
            # and there is a `.baseClass` selector, the extension should create
            # `.specialClass` for that rule, but if there's also a `.baseClass a`
            # it also should create `.specialClass a`
            for p_selector in _p_selectors:
                if parent in p_selector:
                    # get the new child selector to add (same as the parent selector but with the child name)
                    # since selectors can be together, separated with # or . (i.e. something.parent) check that too:
                    for c_selector in c_selectors.split(','):
                        # Get whatever is different between the two selectors:
                        _c_selector, _parent = c_selector, parent
                        lcp = self.longest_common_prefix(_c_selector, _parent)
                        if lcp:
                            _c_selector = _c_selector[lcp:]
                            _parent = _parent[lcp:]
                        lcs = self.longest_common_suffix(_c_selector, _parent)
                        if lcs:
                            _c_selector = _c_selector[:-lcs]
                            _parent = _parent[:-lcs]
                        if _c_selector and _parent:
                            # Get the new selectors:
                            prev_symbol = '(?<![#.:])' if _parent[0] in ('#', '.', ':') else r'(?<![-\w#.:])'
                            post_symbol = r'(?![-\w])'
                            new_parent = re.sub(prev_symbol + _parent + post_symbol, _c_selector, p_selector)
                            if p_selector != new_parent:
                                new_selectors.add(new_parent)
                                found = True

            if found:
                # add parent:
                parent_found = parent_found or []
                parent_found.extend(p_rules)

            if new_selectors:
                new_selectors = self.normalize_selectors(p_selectors, new_selectors)
                # rename node:
                if new_selectors != p_selectors:
                    del self.parts[p_selectors]
                    self.parts.setdefault(new_selectors, [])
                    self.parts[new_selectors].extend(p_rules)

                deps = set()
                # save child dependencies:
                for c_rule in c_rules or []:
                    c_rule[SELECTORS] = c_selectors  # re-set the SELECTORS for the rules
                    deps.add(c_rule[POSITION])

                for p_rule in p_rules:
                    p_rule[SELECTORS] = new_selectors  # re-set the SELECTORS for the rules
                    p_rule[DEPS].update(deps)  # position is the "index" of the object

        return parent_found

    @print_timing(3)
    def parse_extends(self):
        """
        For each part, create the inheritance parts from the ' extends '
        """
        # To be able to manage multiple extends, you need to
        # destroy the actual node and create many nodes that have
        # mono extend. The first one gets all the css rules
        for _selectors, rules in self.parts.items():
            if ' extends ' in _selectors:
                selectors, _, parent = _selectors.partition(' extends ')
                parents = parent.split('&')
                del self.parts[_selectors]
                for parent in parents:
                    new_selectors = selectors + ' extends ' + parent
                    self.parts.setdefault(new_selectors, [])
                    self.parts[new_selectors].extend(rules)
                    rules = []  # further rules extending other parents will be empty

        cnt = 0
        parents_left = True
        while parents_left and cnt < 10:
            cnt += 1
            parents_left = False
            for _selectors in self.parts.keys():
                selectors, _, parent = _selectors.partition(' extends ')
                if parent:
                    parents_left = True
                    if _selectors not in self.parts:
                        continue  # Nodes might have been renamed while linking parents...

                    rules = self.parts[_selectors]

                    del self.parts[_selectors]
                    self.parts.setdefault(selectors, [])
                    self.parts[selectors].extend(rules)

                    parents = self.link_with_parents(parent, selectors, rules)

                    if parents is None:
                        log.warn("Parent rule not found: %s", parent)
                    else:
                        # from the parent, inherit the context and the options:
                        new_context = {}
                        new_options = {}
                        for parent in parents:
                            new_context.update(parent[CONTEXT])
                            new_options.update(parent[OPTIONS])
                        for rule in rules:
                            _new_context = new_context.copy()
                            _new_context.update(rule[CONTEXT])
                            rule[CONTEXT] = _new_context
                            _new_options = new_options.copy()
                            _new_options.update(rule[OPTIONS])
                            rule[OPTIONS] = _new_options

    @print_timing(3)
    def manage_order(self):
        # order rules according with their dependencies
        for rule in self.rules:
            if rule[POSITION] is not None:
                rule[DEPS].add(rule[POSITION] + 1)
                # This moves the rules just above the topmost dependency during the sorted() below:
                rule[POSITION] = min(rule[DEPS])
        self.rules = sorted(self.rules, key=lambda o: o[POSITION])

    @print_timing(3)
    def parse_properties(self):
        self.css_files = []
        self._rules = {}
        css_files = set()
        old_fileid = None
        for rule in self.rules:
            #print >>sys.stderr, rule[FILEID], rule[POSITION], [ c for c in rule[CONTEXT] if c[1] != '_' ], rule[OPTIONS].keys(), rule[SELECTORS], rule[DEPS]
            if rule[POSITION] is not None and rule[PROPERTIES]:
                fileid = rule[FILEID]
                self._rules.setdefault(fileid, [])
                self._rules[fileid].append(rule)
                if old_fileid != fileid:
                    old_fileid = fileid
                    if fileid not in css_files:
                        css_files.add(fileid)
                        self.css_files.append(fileid)

    @print_timing(3)
    def create_css(self, fileid=None):
        """
        Generate the final CSS string
        """
        if fileid:
            rules = self._rules.get(fileid) or []
        else:
            rules = self.rules

        compress = self._scss_opts.get('compress', True)
        if compress:
            sc, sp, tb, nl = False, '', '', ''
        else:
            sc, sp, tb, nl = True, ' ', '  ', '\n'

        scope = set()
        return self._create_css(rules, scope, sc, sp, tb, nl, not compress and self._scss_opts.get('debug_info', False))

    def _create_css(self, rules, scope=None, sc=True, sp=' ', tb='  ', nl='\n', debug_info=False):
        scope = set() if scope is None else scope

        open_selectors = False
        old_selectors = None
        open_media = False
        old_media = None
        old_property = None

        wrap = textwrap.TextWrapper(break_long_words=False)
        wrap.wordsep_re = re.compile(r'(?<=,)(\s*)')
        wrap = wrap.wrap

        result = ''
        for rule in rules:
            #print >>sys.stderr, rule[FILEID], rule[MEDIA], rule[POSITION], [ c for c in rule[CONTEXT] if not c.startswith('$__') ], rule[OPTIONS].keys(), rule[SELECTORS], rule[DEPS]
            if rule[POSITION] is not None and rule[PROPERTIES]:
                selectors = rule[SELECTORS]
                media = rule[MEDIA]
                _tb = tb if old_media else ''
                if old_media != media or media is not None:
                    if open_selectors:
                        if not sc:
                            if result[-1] == ';':
                                result = result[:-1]
                        result += _tb + '}' + nl
                        open_selectors = False
                    if open_media:
                        if not sc:
                            if result[-1] == ';':
                                result = result[:-1]
                        result += '}' + nl
                        open_media = False
                    if media:
                        result += '@media ' + (' and ').join(set(media)) + sp + '{' + nl
                        open_media = True
                    old_media = media
                    old_selectors = None  # force entrance to add a new selector
                _tb = tb if media else ''
                if old_selectors != selectors or selectors is not None:
                    if open_selectors:
                        if not sc:
                            if result[-1] == ';':
                                result = result[:-1]
                        result += _tb + '}' + nl
                        open_selectors = False
                    if selectors:
                        if debug_info:
                            filename, lineno = rule[INDEX][rule[LINENO]].rsplit(':', 1)
                            filename = _escape_chars_re.sub(r'\\\1', filename)
                            sass_debug_info = '@media -sass-debug-info{filename{font-family:file\:\/\/%s}line{font-family:\\00003%s}}' % (filename, lineno)
                            result += sass_debug_info + nl
                        selector = (',' + sp).join(selectors.split(',')) + sp + '{'
                        if nl:
                            selector = nl.join(wrap(selector))
                        result += _tb + selector + nl
                        open_selectors = True
                    old_selectors = selectors
                    scope = set()
                if selectors:
                    _tb += tb
                if rule[OPTIONS].get('verbosity', 0) > 1:
                    result += _tb + '/* file: ' + rule[FILEID] + ' */' + nl
                    if rule[CONTEXT]:
                        result += _tb + '/* vars:' + nl
                        for k, v in rule[CONTEXT].items():
                            result += _tb + _tb + k + ' = ' + v + ';' + nl
                        result += _tb + '*/' + nl
                result += self._print_properties(rule[PROPERTIES], scope, [old_property], sc, sp, _tb, nl, wrap)

        if open_media:
            _tb = tb
        else:
            _tb = ''
        if open_selectors:
            if not sc:
                if result[-1] == ';':
                    result = result[:-1]
            result += _tb + '}' + nl

        if open_media:
            if not sc:
                if result[-1] == ';':
                    result = result[:-1]
            result += '}' + nl

        return result + '\n'

    def _print_properties(self, properties, scope=None, old_property=None, sc=True, sp=' ', _tb='', nl='\n', wrap=None):
        if wrap is None:
            wrap = textwrap.TextWrapper(break_long_words=False)
            wrap.wordsep_re = re.compile(r'(?<=,)(\s*)')
            wrap = wrap.wrap
        result = ''
        old_property = [None] if old_property is None else old_property
        scope = set() if scope is None else scope
        for lineno, prop, value in properties:
            if value is not None:
                if nl:
                    value = (nl + _tb + _tb).join(wrap(value))
                property = prop + ':' + sp + value
            else:
                property = prop
            if '!default' in property:
                property = property.replace('!default', '').replace('  ', ' ').strip()
                if prop in scope:
                    continue
            if old_property[0] != property:
                old_property[0] = property
                scope.add(prop)
                old_property[0] = property
                result += _tb + property + ';' + nl
        return result

    def calculate(self, _base_str, context, options, rule):
        try:
            better_expr_str = self._replaces[_base_str]
        except KeyError:
            better_expr_str = _base_str

            if _skip_word_re.match(better_expr_str) and '- ' not in better_expr_str and ' and ' not in better_expr_str and ' or ' not in better_expr_str and 'not ' not in better_expr_str:
                self._replaces[_base_str] = better_expr_str
                return better_expr_str

            better_expr_str = self.do_glob_math(better_expr_str, context, options, rule)

            better_expr_str = eval_expr(better_expr_str, rule, True)
            if better_expr_str is None:
                better_expr_str = self.apply_vars(_base_str, context, options, rule)

            if '$' not in _base_str:
                self._replaces[_base_str] = better_expr_str
        return better_expr_str

    def _calculate_expr(self, context, options, rule, _dequote):
        def __calculate_expr(result):
            _group0 = result.group(1)
            _base_str = _group0
            try:
                better_expr_str = self._replaces[_group0]
            except KeyError:
                better_expr_str = _base_str

                if _skip_re.match(better_expr_str) and '- ' not in better_expr_str:
                    self._replaces[_group0] = better_expr_str
                    return better_expr_str

                better_expr_str = eval_expr(better_expr_str, rule)

                if better_expr_str is None:
                    better_expr_str = _base_str
                elif _dequote:
                    better_expr_str = dequote(better_expr_str)

                if '$' not in _group0:
                    self._replaces[_group0] = better_expr_str

            return better_expr_str
        return __calculate_expr

    def do_glob_math(self, cont, context, options, rule, _dequote=False):
        cont = str(cont)
        if '#{' not in cont:
            return cont
        cont = _expr_glob_re.sub(self._calculate_expr(context, options, rule, _dequote), cont)
        return cont

    @print_timing(3)
    def post_process(self, cont):
        compress = self._scss_opts.get('compress', 1) and 'compress_' or ''
        # short colors:
        if self._scss_opts.get(compress + 'short_colors', 1):
            cont = _short_color_re.sub(r'#\1\2\3', cont)
            # color names:
        if self._scss_opts.get(compress + 'reverse_colors', 1):
            cont = _reverse_colors_re.sub(lambda m: _reverse_colors[m.group(0).lower()], cont)
        if compress:
            # zero units out (i.e. 0px or 0em -> 0):
            cont = _zero_units_re.sub('0', cont)
            # remove zeros before decimal point (i.e. 0.3 -> .3)
            cont = _zero_re.sub('.', cont)
        return cont


import hashlib
import base64
import datetime
import mimetypes
import glob
import math
import operator
import colorsys

try:
    import cStringIO as StringIO
except:
    import StringIO

try:
    from PIL import Image, ImageDraw
except ImportError:
    try:
        import Image, ImageDraw
    except:
        Image = None


################################################################################


def to_str(num):
    if isinstance(num, dict):
        s = sorted(num.items())
        sp = num.get('_', '')
        return (sp + ' ').join(to_str(v) for n, v in s if n != '_')
    elif isinstance(num, float):
        num = ('%0.03f' % round(num, 3)).rstrip('0').rstrip('.')
        return num
    elif isinstance(num, bool):
        return 'true' if num else 'false'
    elif num is None:
        return ''
    return str(num)


def to_float(num):
    if isinstance(num, (float, int)):
        return float(num)
    num = to_str(num)
    if num and num[-1] == '%':
        return float(num[:-1]) / 100.0
    else:
        return float(num)


hex2rgba = {
    9: lambda c: (int(c[1:3], 16), int(c[3:5], 16), int(c[5:7], 16), int(c[7:9], 16)),
    7: lambda c: (int(c[1:3], 16), int(c[3:5], 16), int(c[5:7], 16), 1.0),
    5: lambda c: (int(c[1] * 2, 16), int(c[2] * 2, 16), int(c[3] * 2, 16), int(c[4] * 2, 16)),
    4: lambda c: (int(c[1] * 2, 16), int(c[2] * 2, 16), int(c[3] * 2, 16), 1.0),
    }


def escape(s):
    return re.sub(r'''(["'])''', r'\\\1', s)


def unescape(s):
    return re.sub(r'''\\(['"])''', r'\1', s)


################################################################################
# Sass/Compass Library Functions:


def _rgb(r, g, b, type='rgb'):
    return _rgba(r, g, b, 1.0, type)


def _rgba(r, g, b, a, type='rgba'):
    c = NumberValue(r), NumberValue(g), NumberValue(b), NumberValue(a)

    col = [c[i].value * 255.0 if (c[i].unit == '%' or c[i].value > 0 and c[i].value <= 1) else
           0.0 if c[i].value < 0 else
           255.0 if c[i].value > 255 else
           c[i].value
           for i in range(3)
    ]
    col += [0.0 if c[3].value < 0 else 1.0 if c[3].value > 1 else c[3].value]
    col += [type]
    return ColorValue(col)


def _color_type(color, a, type):
    color = ColorValue(color).value
    a = NumberValue(a).value if a is not None else color[3]
    col = list(color[:3])
    col += [0.0 if a < 0 else 1.0 if a > 1 else a]
    col += [type]
    return ColorValue(col)


def _rgb2(color):
    return _color_type(color, 1.0, 'rgb')


def _rgba2(color, a=None):
    return _color_type(color, a, 'rgba')


def _hsl2(color):
    return _color_type(color, 1.0, 'hsl')


def _hsla2(color, a=None):
    return _color_type(color, a, 'hsla')


def _ie_hex_str(color):
    c = ColorValue(color).value
    return StringValue('#%02X%02X%02X%02X' % (round(c[3] * 255), round(c[0]), round(c[1]), round(c[2])))


def _hsl(h, s, l, type='hsl'):
    return _hsla(h, s, l, 1.0, type)


def _hsla(h, s, l, a, type='hsla'):
    c = NumberValue(h), NumberValue(s), NumberValue(l), NumberValue(a)
    col = [c[0] if (c[0].unit == '%' and c[0].value > 0 and c[0].value <= 1) else (c[0].value % 360.0) / 360.0]
    col += [0.0 if cl <= 0 else 1.0 if cl >= 1.0 else cl
            for cl in [
    c[i].value if (c[i].unit == '%' or c[i].value > 0 and c[i].value <= 1) else
    c[i].value / 100.0
    for i in range(1, 4)
    ]
    ]
    col += [type]
    c = [c * 255.0 for c in colorsys.hls_to_rgb(col[0], 0.999999 if col[2] == 1 else col[2], 0.999999 if col[1] == 1 else col[1])] + [col[3], type]
    col = ColorValue(c)
    return col


def __rgba_op(op, color, r, g, b, a):
    color = ColorValue(color)
    c = color.value
    a = [
        None if r is None else NumberValue(r).value,
        None if g is None else NumberValue(g).value,
        None if b is None else NumberValue(b).value,
        None if a is None else NumberValue(a).value,
        ]
    # Do the additions:
    c = [op(c[i], a[i]) if op is not None and a[i] is not None else a[i] if a[i] is not None else c[i] for i in range(4)]
    # Validations:
    r = 255.0, 255.0, 255.0, 1.0
    c = [0.0 if c[i] < 0 else r[i] if c[i] > r[i] else c[i] for i in range(4)]
    color.value = tuple(c)
    return color


def _opacify(color, amount):
    return __rgba_op(operator.__add__, color, 0, 0, 0, amount)


def _transparentize(color, amount):
    return __rgba_op(operator.__sub__, color, 0, 0, 0, amount)


def __hsl_op(op, color, h, s, l):
    color = ColorValue(color)
    c = color.value
    h = None if h is None else NumberValue(h)
    s = None if s is None else NumberValue(s)
    l = None if l is None else NumberValue(l)
    a = [
        None if h is None else h.value / 360.0,
        None if s is None else s.value / 100.0 if s.unit != '%' and s.value >= 1 else s.value,
        None if l is None else l.value / 100.0 if l.unit != '%' and l.value >= 1 else l.value,
        ]
    # Convert to HSL:
    h, l, s = list(colorsys.rgb_to_hls(c[0] / 255.0, c[1] / 255.0, c[2] / 255.0))
    c = h, s, l
    # Do the additions:
    c = [0.0 if c[i] < 0 else 1.0 if c[i] > 1 else op(c[i], a[i]) if op is not None and a[i] is not None else a[i] if a[i] is not None else c[i] for i in range(3)]
    # Validations:
    c[0] = (c[0] * 360.0) % 360
    r = 360.0, 1.0, 1.0
    c = [0.0 if c[i] < 0 else r[i] if c[i] > r[i] else c[i] for i in range(3)]
    # Convert back to RGB:
    c = colorsys.hls_to_rgb(c[0] / 360.0, 0.999999 if c[2] == 1 else c[2], 0.999999 if c[1] == 1 else c[1])
    color.value = (c[0] * 255.0, c[1] * 255.0, c[2] * 255.0, color.value[3])
    return color


def _lighten(color, amount):
    return __hsl_op(operator.__add__, color, 0, 0, amount)


def _darken(color, amount):
    return __hsl_op(operator.__sub__, color, 0, 0, amount)


def _saturate(color, amount):
    return __hsl_op(operator.__add__, color, 0, amount, 0)


def _desaturate(color, amount):
    return __hsl_op(operator.__sub__, color, 0, amount, 0)


def _grayscale(color):
    return __hsl_op(operator.__sub__, color, 0, 100.0, 0)


def _adjust_hue(color, degrees):
    return __hsl_op(operator.__add__, color, degrees, 0, 0)


def _complement(color):
    return __hsl_op(operator.__add__, color, 180.0, 0, 0)


def _invert(color):
    """
    Returns the inverse (negative) of a color.
    The red, green, and blue values are inverted, while the opacity is left alone.
    """
    col = ColorValue(color)
    c = col.value
    c[0] = 255.0 - c[0]
    c[1] = 255.0 - c[1]
    c[2] = 255.0 - c[2]
    return col


def _adjust_lightness(color, amount):
    return __hsl_op(operator.__add__, color, 0, 0, amount)


def _adjust_saturation(color, amount):
    return __hsl_op(operator.__add__, color, 0, amount, 0)


def _scale_lightness(color, amount):
    return __hsl_op(operator.__mul__, color, 0, 0, amount)


def _scale_saturation(color, amount):
    return __hsl_op(operator.__mul__, color, 0, amount, 0)


def _asc_color(op, color, saturation=None, lightness=None, red=None, green=None, blue=None, alpha=None):
    if lightness or saturation:
        color = __hsl_op(op, color, 0, saturation, lightness)
    if red or green or blue or alpha:
        color = __rgba_op(op, color, red, green, blue, alpha)
    return color


def _adjust_color(color, saturation=None, lightness=None, red=None, green=None, blue=None, alpha=None):
    return _asc_color(operator.__add__, color, saturation, lightness, red, green, blue, alpha)


def _scale_color(color, saturation=None, lightness=None, red=None, green=None, blue=None, alpha=None):
    return _asc_color(operator.__mul__, color, saturation, lightness, red, green, blue, alpha)


def _change_color(color, saturation=None, lightness=None, red=None, green=None, blue=None, alpha=None):
    return _asc_color(None, color, saturation, lightness, red, green, blue, alpha)


def _mix(color1, color2, weight=None):
    """
    Mixes together two colors. Specifically, takes the average of each of the
    RGB components, optionally weighted by the given percentage.
    The opacity of the colors is also considered when weighting the components.

    Specifically, takes the average of each of the RGB components,
    optionally weighted by the given percentage.
    The opacity of the colors is also considered when weighting the components.

    The weight specifies the amount of the first color that should be included
    in the returned color.
    50%, means that half the first color
        and half the second color should be used.
    25% means that a quarter of the first color
        and three quarters of the second color should be used.

    For example:

        mix(#f00, #00f) => #7f007f
        mix(#f00, #00f, 25%) => #3f00bf
        mix(rgba(255, 0, 0, 0.5), #00f) => rgba(63, 0, 191, 0.75)

    """
    # This algorithm factors in both the user-provided weight
    # and the difference between the alpha values of the two colors
    # to decide how to perform the weighted average of the two RGB values.
    #
    # It works by first normalizing both parameters to be within [-1, 1],
    # where 1 indicates "only use color1", -1 indicates "only use color 0",
    # and all values in between indicated a proportionately weighted average.
    #
    # Once we have the normalized variables w and a,
    # we apply the formula (w + a)/(1 + w*a)
    # to get the combined weight (in [-1, 1]) of color1.
    # This formula has two especially nice properties:
    #
    #   * When either w or a are -1 or 1, the combined weight is also that number
    #     (cases where w * a == -1 are undefined, and handled as a special case).
    #
    #   * When a is 0, the combined weight is w, and vice versa
    #
    # Finally, the weight of color1 is renormalized to be within [0, 1]
    # and the weight of color2 is given by 1 minus the weight of color1.
    #
    # Algorithm from the Sass project: http://sass-lang.com/

    c1 = ColorValue(color1).value
    c2 = ColorValue(color2).value
    p = NumberValue(weight).value if weight is not None else 0.5
    p = 0.0 if p < 0 else 1.0 if p > 1 else p

    w = p * 2 - 1
    a = c1[3] - c2[3]

    w1 = ((w if (w * a == -1) else (w + a) / (1 + w * a)) + 1) / 2.0

    w2 = 1 - w1
    q = [w1, w1, w1, p]
    r = [w2, w2, w2, 1 - p]

    color = ColorValue(None).merge(c1).merge(c2)
    color.value = [c1[i] * q[i] + c2[i] * r[i] for i in range(4)]

    return color


def _red(color):
    c = ColorValue(color).value
    return NumberValue(c[0])


def _green(color):
    c = ColorValue(color).value
    return NumberValue(c[1])


def _blue(color):
    c = ColorValue(color).value
    return NumberValue(c[2])


def _alpha(color):
    c = ColorValue(color).value
    return NumberValue(c[3])


def _hue(color):
    c = ColorValue(color).value
    h, l, s = colorsys.rgb_to_hls(c[0] / 255.0, c[1] / 255.0, c[2] / 255.0)
    ret = NumberValue(h * 360.0)
    ret.units = {'deg': _units_weights.get('deg', 1), '_': 'deg'}
    return ret


def _saturation(color):
    c = ColorValue(color).value
    h, l, s = colorsys.rgb_to_hls(c[0] / 255.0, c[1] / 255.0, c[2] / 255.0)
    ret = NumberValue(s)
    ret.units = {'%': _units_weights.get('%', 1), '_': '%'}
    return ret


def _lightness(color):
    c = ColorValue(color).value
    h, l, s = colorsys.rgb_to_hls(c[0] / 255.0, c[1] / 255.0, c[2] / 255.0)
    ret = NumberValue(l)
    ret.units = {'%': _units_weights.get('%', 1), '_': '%'}
    return ret


def __color_stops(percentages, *args):
    if len(args) == 1:
        if isinstance(args[0], list):
            return args[0]
        elif isinstance(args[0], StringValue):
            color_stops = []
            colors = split_params(args[0].value)
            for color in colors:
                color = color.strip()
                if color.startswith('color-stop('):
                    s, c = split_params(color[11:].rstrip(')'))
                    s = s.strip()
                    c = c.strip()
                else:
                    c, s = color.split()
                color_stops.append((to_float(s), c))
            return color_stops

    colors = []
    stops = []
    prev_color = False
    for c in args:
        if isinstance(c, ListValue):
            for i, c in c.items():
                if isinstance(c, ColorValue):
                    if prev_color:
                        stops.append(None)
                    colors.append(c)
                    prev_color = True
                elif isinstance(c, NumberValue):
                    stops.append(c)
                    prev_color = False
        else:
            if isinstance(c, ColorValue):
                if prev_color:
                    stops.append(None)
                colors.append(c)
                prev_color = True
            elif isinstance(c, NumberValue):
                stops.append(NumberValue(c))
                prev_color = False
    if prev_color:
        stops.append(None)
    stops = stops[:len(colors)]
    if percentages:
        max_stops = max(s and (s.value if s.unit != '%' else None) or None for s in stops)
    else:
        max_stops = max(s and (s if s.unit != '%' else None) or None for s in stops)
    stops = [s and (s.value / max_stops if s.unit != '%' else s.value) for s in stops]
    stops[0] = 0

    init = 0
    start = None
    for i, s in enumerate(stops + [1.0]):
        if s is None:
            if start is None:
                start = i
            end = i
        else:
            final = s
            if start is not None:
                stride = (final - init) / (end - start + 1 + (1 if i < len(stops) else 0))
                for j in range(start, end + 1):
                    stops[j] = init + stride * (j - start + 1)
            init = final
            start = None

    if not max_stops or percentages:
        stops = [NumberValue(s, '%') for s in stops]
    else:
        stops = [s * max_stops for s in stops]
    return zip(stops, colors)


def _grad_color_stops(*args):
    color_stops = __color_stops(True, *args)
    ret = ', '.join(['color-stop(%s, %s)' % (to_str(s), c) for s, c in color_stops])
    return StringValue(ret)


def __grad_end_position(radial, color_stops):
    return __grad_position(-1, 100, radial, color_stops)


def __grad_position(index, default, radial, color_stops):
    try:
        stops = NumberValue(color_stops[index][0])
        if radial and stops.unit != 'px' and (index == 0 or index == -1 or index == len(color_stops) - 1):
            log.warn("Webkit only supports pixels for the start and end stops for radial gradients. Got %s", stops)
    except IndexError:
        stops = NumberValue(default)
    return stops


def _grad_end_position(*color_stops):
    color_stops = __color_stops(False, *color_stops)
    return NumberValue(__grad_end_position(False, color_stops))


def _color_stops(*args):
    color_stops = __color_stops(False, *args)
    ret = ', '.join(['%s %s' % (c, to_str(s)) for s, c in color_stops])
    return StringValue(ret)


def _color_stops_in_percentages(*args):
    color_stops = __color_stops(True, *args)
    ret = ', '.join(['%s %s' % (c, to_str(s)) for s, c in color_stops])
    return StringValue(ret)


def _radial_gradient(*args):
    color_stops = args
    position_and_angle = None
    shape_and_size = None
    if isinstance(args[0], (StringValue, NumberValue, basestring)):
        position_and_angle = args[0]
        if isinstance(args[1], (StringValue, NumberValue, basestring)):
            shape_and_size = args[1]
            color_stops = args[2:]
        else:
            color_stops = args[1:]

    color_stops = __color_stops(False, *color_stops)

    args = [
        position_and_angle if position_and_angle is not None else None,
        shape_and_size if shape_and_size is not None else None,
        ]
    args.extend('%s %s' % (c, to_str(s)) for s, c in color_stops)
    to__s = 'radial-gradient(' + ', '.join(to_str(a) for a in args or [] if a is not None) + ')'
    ret = StringValue(to__s)

    def to__moz():
        return StringValue('-moz-' + to__s)
    ret.to__moz = to__moz

    def to__pie():
        log.warn("PIE does not support radial-gradient.")
        return StringValue('-pie-radial-gradient(unsupported)')
    ret.to__pie = to__pie

    def to__css2():
        return StringValue('')
    ret.to__css2 = to__css2

    def to__webkit():
        return StringValue('-webkit-' + to__s)
    ret.to__webkit = to__webkit

    def to__owg():
        args = [
            'radial',
            _grad_point(position_and_angle) if position_and_angle is not None else 'center',
            '0',
            _grad_point(position_and_angle) if position_and_angle is not None else 'center',
            __grad_end_position(True, color_stops),
            ]
        args.extend('color-stop(%s, %s)' % (to_str(s), c) for s, c in color_stops)
        ret = '-webkit-gradient(' + ', '.join(to_str(a) for a in args or [] if a is not None) + ')'
        return StringValue(ret)
    ret.to__owg = to__owg

    def to__svg():
        return _radial_svg_gradient(color_stops, position_and_angle or 'center')
    ret.to__svg = to__svg

    return ret


def _linear_gradient(*args):
    color_stops = args
    position_and_angle = None
    if isinstance(args[0], (StringValue, NumberValue, basestring)):
        position_and_angle = args[0]
        color_stops = args[1:]
    color_stops = __color_stops(False, *color_stops)

    args = [
        _position(position_and_angle) if position_and_angle is not None else None,
        ]
    args.extend('%s %s' % (c, to_str(s)) for s, c in color_stops)
    to__s = 'linear-gradient(' + ', '.join(to_str(a) for a in args or [] if a is not None) + ')'
    ret = StringValue(to__s)

    def to__moz():
        return StringValue('-moz-' + to__s)
    ret.to__moz = to__moz

    def to__pie():
        return StringValue('-pie-' + to__s)
    ret.to__pie = to__pie

    def to__ms():
        return StringValue('-ms-' + to__s)
    ret.to__ms = to__ms

    def to__o():
        return StringValue('-o-' + to__s)
    ret.to__o = to__o

    def to__css2():
        return StringValue('')
    ret.to__css2 = to__css2

    def to__webkit():
        return StringValue('-webkit-' + to__s)
    ret.to__webkit = to__webkit

    def to__owg():
        args = [
            'linear',
            _position(position_and_angle or 'center top'),
            _opposite_position(position_and_angle or 'center top'),
            ]
        args.extend('color-stop(%s, %s)' % (to_str(s), c) for s, c in color_stops)
        ret = '-webkit-gradient(' + ', '.join(to_str(a) for a in args or [] if a is not None) + ')'
        return StringValue(ret)
    ret.to__owg = to__owg

    def to__svg():
        return _linear_svg_gradient(color_stops, position_and_angle or 'top')
    ret.to__svg = to__svg

    return ret


def _radial_svg_gradient(*args):
    color_stops = args
    center = None
    if isinstance(args[-1], (StringValue, NumberValue)):
        center = args[-1]
        color_stops = args[:-1]
    if len(color_stops) == 1 and isinstance(color_stops[0], list):
        color_stops = color_stops[0]
    color_stops = __color_stops(False, *color_stops)
    cx, cy = zip(*_grad_point(center).items())[1]
    r = __grad_end_position(True, color_stops)
    svg = __radial_svg(color_stops, cx, cy, r)
    url = 'data:' + 'image/svg+xml' + ';base64,' + base64.b64encode(svg)
    inline = 'url("%s")' % escape(url)
    return StringValue(inline)


def _linear_svg_gradient(*args):
    color_stops = args
    start = None
    if isinstance(args[-1], (StringValue, NumberValue)):
        start = args[-1]
        color_stops = args[:-1]
    if len(color_stops) == 1 and isinstance(color_stops[0], list):
        color_stops = color_stops[0]
    color_stops = __color_stops(False, *color_stops)
    x1, y1 = zip(*_grad_point(start).items())[1]
    x2, y2 = zip(*_grad_point(_opposite_position(start)).items())[1]
    svg = __linear_svg(color_stops, x1, y1, x2, y2)
    url = 'data:' + 'image/svg+xml' + ';base64,' + base64.b64encode(svg)
    inline = 'url("%s")' % escape(url)
    return StringValue(inline)


def __color_stops_svg(color_stops):
    ret = ''.join('<stop offset="%s" stop-color="%s"/>' % (to_str(s), c) for s, c in color_stops)
    return ret


def __svg_template(gradient):
    ret = '<?xml version="1.0" encoding="utf-8"?>\
<svg version="1.1" xmlns="http://www.w3.org/2000/svg">\
<defs>%s</defs>\
<rect x="0" y="0" width="100%%" height="100%%" fill="url(#grad)" />\
</svg>' % gradient
    return ret


def __linear_svg(color_stops, x1, y1, x2, y2):
    gradient = '<linearGradient id="grad" x1="%s" y1="%s" x2="%s" y2="%s">%s</linearGradient>' % (
        to_str(NumberValue(x1)),
        to_str(NumberValue(y1)),
        to_str(NumberValue(x2)),
        to_str(NumberValue(y2)),
        __color_stops_svg(color_stops)
        )
    return __svg_template(gradient)


def __radial_svg(color_stops, cx, cy, r):
    gradient = '<radialGradient id="grad" gradientUnits="userSpaceOnUse" cx="%s" cy="%s" r="%s">%s</radialGradient>' % (
        to_str(NumberValue(cx)),
        to_str(NumberValue(cy)),
        to_str(NumberValue(r)),
        __color_stops_svg(color_stops)
        )
    return __svg_template(gradient)

def _image_color(color, width=1, height=1):
    if not Image:
        raise Exception("Images manipulation require PIL")
    c = ColorValue(color).value
    w = int(NumberValue(width).value)
    h = int(NumberValue(height).value)
    if w <= 0 or h <= 0:
        raise ValueError
    new_image = Image.new(
        mode='RGB' if c[3] == 1 else 'RGBA',
        size=(w, h),
        color=(c[0], c[1], c[2], int(c[3] * 255.0))
    )
    output = StringIO.StringIO()
    new_image.save(output, format='PNG')
    contents = output.getvalue()
    output.close()
    mime_type = 'image/png'
    url = 'data:' + mime_type + ';base64,' + base64.b64encode(contents)
    inline = 'url("%s")' % escape(url)
    return StringValue(inline)


def _sprite_map_name(map):
    """
    Returns the name of a sprite map The name is derived from the folder than
    contains the sprites.
    """
    map = StringValue(map).value
    sprite_map = sprite_maps.get(map)
    if not sprite_map:
        log.error("No sprite map found: %s", map)
    if sprite_map:
        return StringValue(sprite_map['*n*'])
    return StringValue(None)


def _sprite_file(map, sprite):
    """
    Returns the relative path (from the images directory) to the original file
    used when construction the sprite. This is suitable for passing to the
    image_width and image_height helpers.
    """
    map = StringValue(map).value
    sprite_name = StringValue(sprite).value
    sprite_map = sprite_maps.get(map)
    sprite = sprite_map and sprite_map.get(sprite_name)
    if not sprite_map:
        log.error("No sprite map found: %s", map)
    elif not sprite:
        log.error("No sprite found: %s in %s", sprite_name, sprite_map['*n*'])
    if sprite:
        return QuotedStringValue(sprite[1][0])
    return StringValue(None)


def _sprites(map):
    map = StringValue(map).value
    sprite_map = sprite_maps.get(map, {})
    return ListValue(sorted(s for s in sprite_map if not s.startswith('*')))


def _sprite_position(map, sprite, offset_x=None, offset_y=None):
    """
    Returns the position for the original image in the sprite.
    This is suitable for use as a value to background-position.
    """
    map = StringValue(map).value
    sprite_name = StringValue(sprite).value
    sprite_map = sprite_maps.get(map)
    sprite = sprite_map and sprite_map.get(sprite_name)
    if not sprite_map:
        log.error("No sprite map found: %s", map)
    elif not sprite:
        log.error("No sprite found: %s in %s", sprite_name, sprite_map['*n*'])
    if sprite:
        x = None
        if offset_x is not None and not isinstance(offset_x, NumberValue):
            x = str(offset_x)
        if x not in ('left', 'right', 'center'):
            if x:
                offset_x = None
            x = NumberValue(offset_x or 0, 'px')
            if not x or (x <= -1 or x >= 1) and x.unit != '%':
                x -= sprite[2]
        y = None
        if offset_y is not None and not isinstance(offset_y, NumberValue):
            y = str(offset_y)
        if y not in ('top', 'bottom', 'center'):
            if y:
                offset_y = None
            y = NumberValue(offset_y or 0, 'px')
            if not y or (y <= -1 or y >= 1) and y.unit != '%':
                y -= sprite[3]
        pos = '%s %s' % (x, y)
        return StringValue(pos)
    return StringValue('0 0')


################################################################################


def __position(opposite, *p):
    pos = set()
    hrz = vrt = None
    for _p in p:
        pos.update(StringValue(_p).value.split())
    if 'left' in pos:
        hrz = 'right' if opposite else 'left'
    elif 'right' in pos:
        hrz = 'left' if opposite else 'right'
    else:
        hrz = 'center'
    if 'top' in pos:
        vrt = 'bottom' if opposite else 'top'
    elif 'bottom' in pos:
        vrt = 'top' if opposite else 'bottom'
    else:
        vrt = 'center'
    if hrz == vrt:
        vrt = None
    return ListValue(list(v for v in (hrz, vrt) if v is not None))


def _position(*p):
    return __position(False, *p)


def _opposite_position(*p):
    return __position(True, *p)


def _grad_point(*p):
    pos = set()
    hrz = vrt = NumberValue(0.5, '%')
    for _p in p:
        pos.update(StringValue(_p).value.split())
    if 'left' in pos:
        hrz = NumberValue(0, '%')
    elif 'right' in pos:
        hrz = NumberValue(1, '%')
    if 'top' in pos:
        vrt = NumberValue(0, '%')
    elif 'bottom' in pos:
        vrt = NumberValue(1, '%')
    return ListValue(list(v for v in (hrz, vrt) if v is not None))


################################################################################


def __compass_list(*args):
    if len(args) == 1 and isinstance(args[0], ListValue):
        args = args[0]
    return ListValue(args)


def __compass_space_list(*lst):
    """
    If the argument is a list, it will return a new list that is space delimited
    Otherwise it returns a new, single element, space-delimited list.
    """
    ret = __compass_list(*lst)
    ret.value.pop('_', None)
    return ret


def _blank(*objs):
    """Returns true when the object is false, an empty string, or an empty list"""
    for o in objs:
        if bool(o):
            return BooleanValue(False)
    return BooleanValue(True)


def _compact(*args):
    """Returns a new list after removing any non-true values"""
    ret = {}
    if len(args) == 1:
        args = args[0]
        if isinstance(args, ListValue):
            args = args.value
        if isinstance(args, dict):
            for i, item in args.items():
                if bool(item):
                    ret[i] = item
        elif bool(args):
            ret[0] = args
    else:
        for i, item in enumerate(args):
            if bool(item):
                ret[i] = item
    return ListValue(ret)


def __compass_slice(lst, start_index, end_index=None):
    start_index = NumberValue(start_index).value
    end_index = NumberValue(end_index).value if end_index is not None else None
    ret = {}
    lst = ListValue(lst).value
    for i, item in lst.items():
        if not isinstance(i, int):
            if i == '_':
                ret[i] = item
        elif i > start_index and end_index is None or i <= end_index:
            ret[i] = item
    return ListValue(ret)


def _first_value_of(*lst):
    if len(lst) == 1 and isinstance(lst[0], ListValue):
        lst = lst[0]
    ret = ListValue(lst).first()
    return ret.__class__(ret)


def _nth(lst, n=1):
    """
    Return the Nth item in the string
    """
    n = StringValue(n).value
    lst = ListValue(lst).value
    try:
        n = int(float(n)) - 1
        n = n % len(lst)
    except:
        if n.lower() == 'first':
            n = 0
        elif n.lower() == 'last':
            n = -1
    try:
        ret = lst[n]
    except KeyError:
        lst = [v for k, v in sorted(lst.items()) if isinstance(k, int)]
        try:
            ret = lst[n]
        except:
            ret = ''
    return ret.__class__(ret)


def _join(lst1, lst2, separator=None):
    ret = ListValue(lst1)
    lst2 = ListValue(lst2).value
    lst_len = len(ret.value)
    ret.value.update((k + lst_len if isinstance(k, int) else k, v) for k, v in lst2.items())
    if separator is not None:
        separator = StringValue(separator).value
        if separator:
            ret.value['_'] = separator
    return ret


def _length(*lst):
    if len(lst) == 1 and isinstance(lst[0], ListValue):
        lst = lst[0]
    lst = ListValue(lst)
    return NumberValue(len(lst))


def _max(*lst):
    if len(lst) == 1 and isinstance(lst[0], ListValue):
        lst = lst[0]
    lst = ListValue(lst).value
    return max(lst.values())


def _append(lst, val, separator=None):
    separator = separator and StringValue(separator).value
    ret = ListValue(lst, separator)
    val = ListValue(val)
    for v in val:
        ret.value[len(ret)] = v
    return ret


################################################################################


def _prefixed(prefix, *args):
    to_fnct_str = 'to_' + to_str(prefix).replace('-', '_')
    for arg in args:
        if isinstance(arg, ListValue):
            for k, iarg in arg.value.items():
                if hasattr(iarg, to_fnct_str):
                    return BooleanValue(True)
        else:
            if hasattr(arg, to_fnct_str):
                return BooleanValue(True)
    return BooleanValue(False)


def _prefix(prefix, *args):
    to_fnct_str = 'to_' + to_str(prefix).replace('-', '_')
    args = list(args)
    for i, arg in enumerate(args):
        if isinstance(arg, ListValue):
            _value = {}
            for k, iarg in arg.value.items():
                to_fnct = getattr(iarg, to_fnct_str, None)
                if to_fnct:
                    _value[k] = to_fnct()
                else:
                    _value[k] = iarg
            args[i] = ListValue(_value)
        else:
            to_fnct = getattr(arg, to_fnct_str, None)
            if to_fnct:
                args[i] = to_fnct()
    if len(args) == 1:
        return args[0]
    return ListValue(args, ',')


def __moz(*args):
    return _prefix('_moz', *args)


def __svg(*args):
    return _prefix('_svg', *args)


def __css2(*args):
    return _prefix('_css2', *args)


def __pie(*args):
    return _prefix('_pie', *args)


def __webkit(*args):
    return _prefix('_webkit', *args)

def __owg(*args):
    return _prefix('_owg', *args)

def __khtml(*args):
    return _prefix('_khtml', *args)


def __ms(*args):
    return _prefix('_ms', *args)


def __o(*args):
    return _prefix('_o', *args)

################################################################################


def _percentage(value):
    value = NumberValue(value)
    value.units = {'%': _units_weights.get('%', 1), '_': '%'}
    return value


def _unitless(value):
    value = NumberValue(value)
    return BooleanValue(not bool(value.unit))


def _unquote(*args):
    return StringValue(' '.join([StringValue(s).value for s in args]))


def _quote(*args):
    return QuotedStringValue(' '.join([StringValue(s).value for s in args]))


def _pi():
    return NumberValue(math.pi)


def _comparable(number1, number2):
    n1, n2 = NumberValue(number1), NumberValue(number2)
    type1 = _conv_type.get(n1.unit)
    type2 = _conv_type.get(n2.unit)
    return BooleanValue(type1 == type2)


def _type_of(obj):  # -> bool, number, string, color, list
    if isinstance(obj, BooleanValue):
        return StringValue('bool')
    if isinstance(obj, NumberValue):
        return StringValue('number')
    if isinstance(obj, ColorValue):
        return StringValue('color')
    if isinstance(obj, ListValue):
        return StringValue('list')
    if isinstance(obj, basestring) and _variable_re.match(obj):
        return StringValue('undefined')
    return StringValue('string')


def _if(condition, if_true, if_false=''):
    condition = bool(False if not condition or condition in('0', 'false',) or (isinstance(condition, basestring) and _variable_re.match(condition)) else condition)
    return if_true.__class__(if_true) if condition else if_true.__class__(if_false)


def _unit(number):  # -> px, em, cm, etc.
    unit = NumberValue(number).unit
    return StringValue(unit)


__elements_of_type = {
    'block': dict(enumerate(sorted(['address', 'article', 'aside', 'blockquote', 'center', 'dd', 'dialog', 'dir', 'div', 'dl', 'dt', 'fieldset', 'figure', 'footer', 'form', 'frameset', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'header', 'hgroup', 'hr', 'isindex', 'menu', 'nav', 'noframes', 'noscript', 'ol', 'p', 'pre', 'section', 'ul']))),
    'inline': dict(enumerate(sorted(['a', 'abbr', 'acronym', 'b', 'basefont', 'bdo', 'big', 'br', 'cite', 'code', 'dfn', 'em', 'font', 'i', 'img', 'input', 'kbd', 'label', 'q', 's', 'samp', 'select', 'small', 'span', 'strike', 'strong', 'sub', 'sup', 'textarea', 'tt', 'u', 'var']))),
    'table': dict(enumerate(sorted(['table']))),
    'list-item': dict(enumerate(sorted(['li']))),
    'table-row-group': dict(enumerate(sorted(['tbody']))),
    'table-header-group': dict(enumerate(sorted(['thead']))),
    'table-footer-group': dict(enumerate(sorted(['tfoot']))),
    'table-row': dict(enumerate(sorted(['tr']))),
    'table-cell': dict(enumerate(sorted(['td', 'th']))),
    'html5': dict(enumerate(sorted(['article', 'aside', 'dialog', 'figure', 'footer', 'header', 'hgroup', 'nav', 'section']))),
    }


def _elements_of_type(display):
    d = StringValue(display)
    ret = __elements_of_type.get(d.value, [])
    ret['_'] = ','
    return ListValue(ret)


def _nest(*arguments):
    if isinstance(arguments[0], ListValue):
        lst = arguments[0].values()
    else:
        lst = StringValue(arguments[0]).value.split(',')
    ret = [s.strip() for s in lst if s.strip()]
    for arg in arguments[1:]:
        if isinstance(arg, ListValue):
            lst = arg.values()
        else:
            lst = StringValue(arg).value.split(',')
        new_ret = []
        for s in lst:
            s = s.strip()
            if s:
                for r in ret:
                    new_ret.append(r + ' ' + s)
        ret = new_ret
    ret = sorted(set(ret))
    ret = dict(enumerate(ret))
    ret['_'] = ','
    return ret


def _append_selector(selector, to_append):
    if isinstance(selector, ListValue):
        lst = selector.values()
    else:
        lst = StringValue(selector).value.split(',')
    to_append = StringValue(to_append).value.strip()
    ret = sorted(set(s.strip() + to_append for s in lst if s.strip()))
    ret = dict(enumerate(ret))
    ret['_'] = ','
    return ret


def _headers(frm=None, to=None):
    if frm and to is None:
        if isinstance(frm, StringValue) and frm.value.lower() == 'all':
            frm = 1
            to = 6
        else:
            frm = 1
            try:
                to = int(getattr(frm, 'value', frm))
            except ValueError:
                to = 6
    else:
        try:
            frm = 1 if frm is None else int(getattr(frm, 'value', frm))
        except ValueError:
            frm = 1
        try:
            to = 6 if to is None else int(getattr(to, 'value', to))
        except ValueError:
            to = 6
    ret = ['h' + str(i) for i in range(frm, to + 1)]
    ret = dict(enumerate(ret))
    ret['_'] = ','
    return ret


def _enumerate(prefix, frm, through, separator='-'):
    prefix = StringValue(prefix).value
    separator = StringValue(separator).value
    try:
        frm = int(getattr(frm, 'value', frm))
    except ValueError:
        frm = 1
    try:
        through = int(getattr(through, 'value', through))
    except ValueError:
        through = frm
    if frm > through:
        frm, through = through, frm
        rev = reversed
    else:
        rev = lambda x: x
    if prefix:
        ret = [prefix + separator + str(i) for i in rev(range(frm, through + 1))]
    else:
        ret = [NumberValue(i) for i in rev(range(frm, through + 1))]
    ret = dict(enumerate(ret))
    ret['_'] = ','
    return ret


def _range(frm, through=None):
    if through is None:
        through = frm
        frm = 1
    return _enumerate(None, frm, through)


################################################################################
# Specific to pyScss parser functions:


def _convert_to(value, type):
    return value.convert_to(type)


def _inv(sign, value):
    if isinstance(value, NumberValue):
        return value * -1
    elif isinstance(value, BooleanValue):
        return not value
    val = StringValue(value)
    val.value = sign + val.value
    return val


################################################################################
# pyScss data types:


class ParserValue(object):
    def __init__(self, value):
        self.value = value


class Value(object):
    @staticmethod
    def _operatorOperands(tokenlist):
        "generator to extract operators and operands in pairs"
        it = iter(tokenlist)
        while 1:
            try:
                yield (it.next(), it.next())
            except StopIteration:
                break

    @staticmethod
    def _merge_type(a, b):
        if a.__class__ == b.__class__:
            return a.__class__
        if isinstance(a, QuotedStringValue) or isinstance(b, QuotedStringValue):
            return QuotedStringValue
        return StringValue

    @staticmethod
    def _wrap(fn):
        """
        Wrapper function to allow calling any function
        using Value objects as parameters.
        """
        def _func(*args):
            merged = None
            _args = []
            for arg in args:
                if merged.__class__ != arg.__class__:
                    if merged is None:
                        merged = arg.__class__(None)
                    else:
                        merged = Value._merge_type(merged, arg)(None)
                merged.merge(arg)
                if isinstance(arg, Value):
                    arg = arg.value
                _args.append(arg)
            merged.value = fn(*_args)
            return merged
        return _func

    @classmethod
    def _do_bitops(cls, first, second, op):
        first = StringValue(first)
        second = StringValue(second)
        k = op(first.value, second.value)
        return first if first.value == k else second

    def __repr__(self):
        return '<%s: %s>' % (self.__class__.__name__, repr(self.value))

    def __lt__(self, other):
        return self._do_cmps(self, other, operator.__lt__)

    def __le__(self, other):
        return self._do_cmps(self, other, operator.__le__)

    def __eq__(self, other):
        return self._do_cmps(self, other, operator.__eq__)

    def __ne__(self, other):
        return self._do_cmps(self, other, operator.__ne__)

    def __gt__(self, other):
        return self._do_cmps(self, other, operator.__gt__)

    def __ge__(self, other):
        return self._do_cmps(self, other, operator.__ge__)

    def __cmp__(self, other):
        return self._do_cmps(self, other, operator.__cmp__)

    def __rcmp__(self, other):
        return self._do_cmps(other, self, operator.__cmp__)

    def __and__(self, other):
        return self._do_bitops(self, other, operator.__and__)

    def __or__(self, other):
        return self._do_bitops(self, other, operator.__or__)

    def __xor__(self, other):
        return self._do_bitops(self, other, operator.__xor__)

    def __rand__(self, other):
        return self._do_bitops(other, self, operator.__rand__)

    def __ror__(self, other):
        return self._do_bitops(other, self, operator.__ror__)

    def __rxor__(self, other):
        return self._do_bitops(other, self, operator.__rxor__)

    def __nonzero__(self):
        return bool(self.value)

    def __add__(self, other):
        return self._do_op(self, other, operator.__add__)

    def __radd__(self, other):
        return self._do_op(other, self, operator.__add__)

    def __div__(self, other):
        return self._do_op(self, other, operator.__div__)

    def __rdiv__(self, other):
        return self._do_op(other, self, operator.__div__)

    def __sub__(self, other):
        return self._do_op(self, other, operator.__sub__)

    def __rsub__(self, other):
        return self._do_op(other, self, operator.__sub__)

    def __mul__(self, other):
        return self._do_op(self, other, operator.__mul__)

    def __rmul__(self, other):
        return self._do_op(other, self, operator.__mul__)

    def convert_to(self, type):
        return self.value.convert_to(type)

    def merge(self, obj):
        if isinstance(obj, Value):
            self.value = obj.value
        else:
            self.value = obj
        return self


class BooleanValue(Value):
    def __init__(self, tokens):
        self.tokens = tokens
        if tokens is None:
            self.value = False
        elif isinstance(tokens, ParserValue):
            self.value = (tokens.value.lower() == 'true')
        elif isinstance(tokens, BooleanValue):
            self.value = tokens.value
        elif isinstance(tokens, NumberValue):
            self.value = bool(tokens.value)
        elif isinstance(tokens, (float, int)):
            self.value = bool(tokens)
        else:
            self.value = to_str(tokens).lower() in ('true', '1', 'on', 'yes', 't', 'y') or bool(tokens)

    def __str__(self):
        return 'true' if self.value else 'false'

    @classmethod
    def _do_cmps(cls, first, second, op):
        first = first.value if isinstance(first, Value) else first
        second = second.value if isinstance(second, Value) else second
        if first in ('true', '1', 'on', 'yes', 't', 'y'):
            first = True
        elif first in ('false', '0', 'off', 'no', 'f', 'n'):
            first = False
        if second in ('true', '1', 'on', 'yes', 't', 'y'):
            second = True
        elif second in ('false', '0', 'off', 'no', 'f', 'n'):
            second = False
        return op(first, second)

    @classmethod
    def _do_op(cls, first, second, op):
        if isinstance(first, ListValue) and isinstance(second, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                try:
                    ret.value[k] = op(ret.value[k], second.value[k])
                except KeyError:
                    pass
            return ret
        if isinstance(first, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                ret.value[k] = op(ret.value[k], second)
            return ret
        if isinstance(second, ListValue):
            ret = ListValue(second)
            for k, v in ret.items():
                ret.value[k] = op(first, ret.value[k])
            return ret

        first = BooleanValue(first)
        second = BooleanValue(second)
        val = op(first.value, second.value)
        ret = BooleanValue(None).merge(first).merge(second)
        ret.value = val
        return ret

    def merge(self, obj):
        obj = BooleanValue(obj)
        self.value = obj.value
        return self


class NumberValue(Value):
    def __init__(self, tokens, type=None):
        self.tokens = tokens
        self.units = {}
        if tokens is None:
            self.value = 0.0
        elif isinstance(tokens, ParserValue):
            self.value = float(tokens.value)
        elif isinstance(tokens, NumberValue):
            self.value = tokens.value
            self.units = tokens.units.copy()
            if tokens.units:
                type = None
        elif isinstance(tokens, (StringValue, basestring)):
            tokens = getattr(tokens, 'value', tokens)
            try:
                if tokens and tokens[-1] == '%':
                    self.value = to_float(tokens[:-1]) / 100.0
                    self.units = {'%': _units_weights.get('%', 1), '_': '%'}
                else:
                    self.value = to_float(tokens)
            except ValueError:
                raise ValueError("Value is not a Number! (%s)" % tokens)
        elif isinstance(tokens, (int, float)):
            self.value = float(tokens)
        elif isinstance(tokens, (list, tuple)):
            raise ValueError("Value is not a Number! (%r)" % list(tokens))
        elif isinstance(tokens, (dict, ListValue)):
            raise ValueError("Value is not a Number! (%r)" % tokens.values())
        else:
            raise ValueError("Value is not a Number! (%s)" % tokens)
        if type is not None:
            self.units = {type: _units_weights.get(type, 1), '_': type}

    def __repr__(self):
        return '<%s: %s, %s>' % (self.__class__.__name__, repr(self.value), repr(self.units))

    def __int__(self):
        return int(self.value)

    def __float__(self):
        return float(self.value)

    def __str__(self):
        unit = self.unit
        val = self.value / _conv_factor.get(unit, 1.0)
        val = to_str(val) + unit
        return val

    @classmethod
    def _do_cmps(cls, first, second, op):
        try:
            first = NumberValue(first)
            second = NumberValue(second)
        except ValueError:
            return op(getattr(first, 'value', first), getattr(second, 'value', second))
        first_type = _conv_type.get(first.unit)
        second_type = _conv_type.get(second.unit)
        if first_type == second_type or first_type is None or second_type is None:
            return op(first.value, second.value)
        else:
            return op(first_type, second_type)

    @classmethod
    def _do_op(cls, first, second, op):
        if isinstance(first, ListValue) and isinstance(second, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                try:
                    ret.value[k] = op(ret.value[k], second.value[k])
                except KeyError:
                    pass
            return ret
        if isinstance(first, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                ret.value[k] = op(ret.value[k], second)
            return ret
        if isinstance(second, ListValue):
            ret = ListValue(second)
            for k, v in ret.items():
                ret.value[k] = op(first, ret.value[k])
            return ret

        if isinstance(first, basestring):
            first = StringValue(first)
        elif isinstance(first, (int, float)):
            first = NumberValue(first)
        if isinstance(second, basestring):
            second = StringValue(second)
        elif isinstance(second, (int, float)):
            second = NumberValue(second)

        if op in (operator.__div__, operator.__sub__):
            if isinstance(first, QuotedStringValue):
                first = NumberValue(first)
            if isinstance(second, QuotedStringValue):
                second = NumberValue(second)
        elif op == operator.__mul__:
            if isinstance(first, NumberValue) and isinstance(second, QuotedStringValue):
                first.value = int(first.value)
                val = op(second.value, first.value)
                return second.__class__(val)
            if isinstance(first, QuotedStringValue) and isinstance(second, NumberValue):
                second.value = int(second.value)
                val = op(first.value, second.value)
                return first.__class__(val)

        if not isinstance(first, NumberValue) or not isinstance(second, NumberValue):
            return op(first.value if isinstance(first, NumberValue) else first, second.value if isinstance(second, NumberValue) else second)

        first_unit = first.unit
        second_unit = second.unit
        if op == operator.__add__ or op == operator.__sub__:
            if first_unit == '%' and not second_unit:
                second.units = {'%': _units_weights.get('%', 1), '_': '%'}
                second.value /= 100.0
            elif first_unit == '%' and second_unit != '%':
                first = NumberValue(second) * first.value
            elif second_unit == '%' and not first_unit:
                first.units = {'%': _units_weights.get('%', 1), '_': '%'}
                first.value /= 100.0
            elif second_unit == '%' and first_unit != '%':
                second = NumberValue(first) * second.value

        val = op(first.value, second.value)

        ret = NumberValue(None).merge(first)
        ret = ret.merge(second)
        ret.value = val
        return ret

    def merge(self, obj):
        obj = NumberValue(obj)
        self.value = obj.value
        for unit, val in obj.units.items():
            if unit != '_':
                self.units.setdefault(unit, 0)
                self.units[unit] += val
        unit = obj.unit
        if _units_weights.get(self.units.get('_'), 1) <= _units_weights.get(unit, 1):
            self.units['_'] = unit
        return self

    def convert_to(self, type):
        val = self.value
        if not self.unit:
            val *= _conv_factor.get(type, 1.0)
        ret = NumberValue(val)
        if type == 'deg':
            ret.value = ret.value % 360.0
        ret.units = {type: _units_weights.get(type, 1), '_': type}
        return ret

    @property
    def unit(self):
        unit = ''
        if self.units:
            if '_'in self.units:
                units = self.units.copy()
                _unit = units.pop('_')
                units.setdefault(_unit, 0)
                units[_unit] += _units_weights.get(_unit, 1)  # Give more weight to the first unit ever set
            else:
                units = self.units
            units = sorted(units, key=units.get)
            while len(units):
                unit = units.pop()
                if unit:
                    break
        return unit


class ListValue(Value):
    def __init__(self, tokens, separator=None):
        self.tokens = tokens
        if tokens is None:
            self.value = {}
        elif isinstance(tokens, ParserValue):
            self.value = self._reorder_list(tokens.value)
        elif isinstance(tokens, ListValue):
            self.value = tokens.value.copy()
        elif isinstance(tokens, Value):
            self.value = {0: tokens}
        elif isinstance(tokens, dict):
            self.value = self._reorder_list(tokens)
        elif isinstance(tokens, (list, tuple)):
            self.value = dict(enumerate(tokens))
        else:
            lst = [i for i in to_str(tokens).split() if i]
            if len(lst) == 1:
                lst = [i.strip() for i in lst[0].split(',') if i.strip()]
                if len(lst) > 1:
                    separator = ',' if separator is None else separator
                else:
                    lst = [tokens]
            self.value = dict(enumerate(lst))
        if separator is None:
            separator = self.value.pop('_', None)
        if separator:
            self.value['_'] = separator

    @classmethod
    def _do_cmps(cls, first, second, op):
        try:
            first = ListValue(first)
            second = ListValue(second)
        except ValueError:
            return op(getattr(first, 'value', first), getattr(second, 'value', second))
        return op(first.value, second.value)

    @classmethod
    def _do_op(cls, first, second, op):
        if isinstance(first, ListValue) and isinstance(second, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                try:
                    ret.value[k] = op(ret.value[k], second.value[k])
                except KeyError:
                    pass
            return ret
        if isinstance(first, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                ret.value[k] = op(ret.value[k], second)
            return ret
        if isinstance(second, ListValue):
            ret = ListValue(second)

            for k, v in ret.items():
                ret.value[k] = op(first, ret.value[k])
            return ret

    def _reorder_list(self, lst):
        return dict((i if isinstance(k, int) else k, v) for i, (k, v) in enumerate(sorted(lst.items())))

    def __nonzero__(self):
        return len(self)

    def __len__(self):
        return len(self.value) - (1 if '_' in self.value else 0)

    def __str__(self):
        return to_str(self.value)

    def __tuple__(self):
        return tuple(sorted((k, v) for k, v in self.value.items() if k != '_'))

    def __iter__(self):
        return iter(self.values())

    def values(self):
        return zip(*self.items())[1]

    def keys(self):
        return zip(*self.items())[1]

    def items(self):
        return sorted((k, v) for k, v in self.value.items() if k != '_')

    def first(self):
        try:
            return self.items()[0][1]
        except IndexError:
            return None


class ColorValue(Value):
    def __init__(self, tokens):
        self.tokens = tokens
        self.types = {}
        self.value = (0, 0, 0, 1)
        if tokens is None:
            self.value = (0, 0, 0, 1)
        elif isinstance(tokens, ParserValue):
            hex = tokens.value
            self.value = hex2rgba[len(hex)](hex)
            self.types = {'rgba': 1}
        elif isinstance(tokens, ColorValue):
            self.value = tokens.value
            self.types = tokens.types.copy()
        elif isinstance(tokens, NumberValue):
            val = tokens.value
            self.value = (val, val, val, 1)
        elif isinstance(tokens, (list, tuple)):
            c = tokens[:4]
            r = 255.0, 255.0, 255.0, 1.0
            c = [0.0 if c[i] < 0 else r[i] if c[i] > r[i] else c[i] for i in range(4)]
            self.value = tuple(c)
            type = tokens[-1]
            if type in ('rgb', 'rgba', 'hsl', 'hsla'):
                self.types = {type: 1}
        elif isinstance(tokens, (int, float)):
            val = float(tokens)
            self.value = (val, val, val, 1)
        else:
            hex = to_str(tokens)
            try:
                self.value = hex2rgba[len(hex)](hex)
            except:
                try:
                    val = to_float(hex)
                    self.values = (val, val, val, 1)
                except ValueError:
                    try:
                        hex.replace(' ', '').lower()
                        type, _, colors = hex.partition('(')
                        colors = colors.rstrip(')')
                        if type in ('rgb', 'rgba'):
                            c = tuple(colors.split(','))
                            try:
                                c = [to_float(c[i]) for i in range(4)]
                                col = [0.0 if c[i] < 0 else 255.0 if c[i] > 255 else c[i] for i in range(3)]
                                col += [0.0 if c[3] < 0 else 1.0 if c[3] > 1 else c[3]]
                                self.value = tuple(col)
                                self.types = {type: 1}
                            except:
                                raise ValueError("Value is not a Color!")
                        elif type in ('hsl', 'hsla'):
                            c = colors.split(',')
                            try:
                                c = [to_float(c[i]) for i in range(4)]
                                col = [c[0] % 360.0] / 360.0
                                col += [0.0 if c[i] < 0 else 1.0 if c[i] > 1 else c[i] for i in range(1, 4)]
                                self.value = tuple([c * 255.0 for c in colorsys.hls_to_rgb(col[0], 0.999999 if col[2] == 1 else col[2], 0.999999 if col[1] == 1 else col[1])] + [col[3]])
                                self.types = {type: 1}
                            except:
                                raise ValueError("Value is not a Color!")
                    except:
                        raise ValueError("Value is not a Color!")

    def __repr__(self):
        return '<%s: %s, %s>' % (self.__class__.__name__, repr(self.value), repr(self.types))

    def __str__(self):
        type = self.type
        c = self.value
        if type == 'hsl' or type == 'hsla' and c[3] == 1:
            h, l, s = colorsys.rgb_to_hls(c[0] / 255.0, c[1] / 255.0, c[2] / 255.0)
            return 'hsl(%s, %s%%, %s%%)' % (to_str(h * 360.0), to_str(s * 100.0), to_str(l * 100.0))
        if type == 'hsla':
            h, l, s = colorsys.rgb_to_hls(c[0] / 255.0, c[1] / 255.0, c[2] / 255.0)
            return 'hsla(%s, %s%%, %s%%, %s)' % (to_str(h * 360.0), to_str(s * 100.0), to_str(l * 100.0), to_str(c[3]))
        r, g, b = to_str(c[0]), to_str(c[1]), to_str(c[2])
        _, _, r = r.partition('.')
        _, _, g = g.partition('.')
        _, _, b = b.partition('.')
        if c[3] == 1:
            if len(r) > 2 or len(g) > 2 or len(b) > 2:
                return 'rgb(%s%%, %s%%, %s%%)' % (to_str(c[0] * 100.0 / 255.0), to_str(c[1] * 100.0 / 255.0), to_str(c[2] * 100.0 / 255.0))
            return '#%02x%02x%02x' % (round(c[0]), round(c[1]), round(c[2]))
        if len(r) > 2 or len(g) > 2 or len(b) > 2:
            return 'rgba(%s%%, %s%%, %s%%, %s)' % (to_str(c[0] * 100.0 / 255.0), to_str(c[1] * 100.0 / 255.0), to_str(c[2] * 100.0 / 255.0), to_str(c[3]))
        return 'rgba(%d, %d, %d, %s)' % (round(c[0]), round(c[1]), round(c[2]), to_str(c[3]))

    @classmethod
    def _do_cmps(cls, first, second, op):
        try:
            first = ColorValue(first)
            second = ColorValue(second)
        except ValueError:
            return op(getattr(first, 'value', first), getattr(second, 'value', second))
        return op(first.value, second.value)

    @classmethod
    def _do_op(cls, first, second, op):
        if isinstance(first, ListValue) and isinstance(second, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                try:
                    ret.value[k] = op(ret.value[k], second.value[k])
                except KeyError:
                    pass
            return ret
        if isinstance(first, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                ret.value[k] = op(ret.value[k], second)
            return ret
        if isinstance(second, ListValue):
            ret = ListValue(second)
            for k, v in ret.items():
                ret.value[k] = op(first, ret.value[k])
            return ret

        first = ColorValue(first)
        second = ColorValue(second)
        val = [op(first.value[i], second.value[i]) for i in range(4)]
        val[3] = (first.value[3] + second.value[3]) / 2
        c = val
        r = 255.0, 255.0, 255.0, 1.0
        c = [0.0 if c[i] < 0 else r[i] if c[i] > r[i] else c[i] for i in range(4)]
        ret = ColorValue(None).merge(first).merge(second)
        ret.value = tuple(c)
        return ret

    def merge(self, obj):
        obj = ColorValue(obj)
        self.value = obj.value
        for type, val in obj.types.items():
            self.types.setdefault(type, 0)
            self.types[type] += val
        return self

    def convert_to(self, type):
        val = self.value
        ret = ColorValue(val)
        ret.types[type] = 1
        return ret

    @property
    def type(self):
        type = ''
        if self.types:
            types = sorted(self.types, key=self.types.get)
            while len(types):
                type = types.pop()
                if type:
                    break
        return type


class QuotedStringValue(Value):
    def __init__(self, tokens):
        self.tokens = tokens
        if tokens is None:
            self.value = ''
        elif isinstance(tokens, ParserValue):
            self.value = dequote(tokens.value)
        elif isinstance(tokens, QuotedStringValue):
            self.value = tokens.value
        else:
            self.value = to_str(tokens)

    def convert_to(self, type):
        return QuotedStringValue(self.value + type)

    def __str__(self):
        return '"%s"' % escape(self.value)

    @classmethod
    def _do_cmps(cls, first, second, op):
        first = QuotedStringValue(first)
        second = QuotedStringValue(second)
        return op(first.value, second.value)

    @classmethod
    def _do_op(cls, first, second, op):
        if isinstance(first, ListValue) and isinstance(second, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                try:
                    ret.value[k] = op(ret.value[k], second.value[k])
                except KeyError:
                    pass
            return ret
        if isinstance(first, ListValue):
            ret = ListValue(first)
            for k, v in ret.items():
                ret.value[k] = op(ret.value[k], second)
            return ret
        if isinstance(second, ListValue):
            ret = ListValue(second)
            for k, v in ret.items():
                ret.value[k] = op(first, ret.value[k])
            return ret

        first = QuotedStringValue(first)
        first_value = first.value
        if op == operator.__mul__:
            second = NumberValue(second)
            second_value = int(second.value)
        else:
            second = QuotedStringValue(second)
            second_value = second.value
        val = op(first_value, second_value)
        ret = QuotedStringValue(None).merge(first).merge(second)
        ret.value = val
        return ret

    def merge(self, obj):
        obj = QuotedStringValue(obj)
        self.value = obj.value
        return self


class StringValue(QuotedStringValue):
    def __str__(self):
        return self.value

    def __add__(self, other):
        if isinstance(other, ListValue):
            return self._do_op(self, other, operator.__add__)
        string_class = StringValue
        if self.__class__ == QuotedStringValue or other.__class__ == QuotedStringValue:
            string_class = QuotedStringValue
        other = string_class(other)
        if not isinstance(other, (QuotedStringValue, basestring)):
            return string_class(self.value + '+' + other.value)
        return string_class(self.value + other.value)

    def __radd__(self, other):
        if isinstance(other, ListValue):
            return self._do_op(other, self, operator.__add__)
        string_class = StringValue
        if self.__class__ == QuotedStringValue or other.__class__ == QuotedStringValue:
            string_class = QuotedStringValue
        other = string_class(other)
        if not isinstance(other, (QuotedStringValue, basestring)):
            return string_class(other.value + '+' + self.value)
        return string_class(other.value + self.value)

# Parser/functions map:
fnct = {
    'image-color:1': _image_color,
    'image-color:2': _image_color,
    'image-color:3': _image_color,

    'opposite-position:n': _opposite_position,
    'grad-point:n': _grad_point,
    'grad-end-position:n': _grad_end_position,
    'color-stops:n': _color_stops,
    'color-stops-in-percentages:n': _color_stops_in_percentages,
    'grad-color-stops:n': _grad_color_stops,
    'radial-gradient:n': _radial_gradient,
    'linear-gradient:n': _linear_gradient,
    'radial-svg-gradient:n': _radial_svg_gradient,
    'linear-svg-gradient:n': _linear_svg_gradient,

    'opacify:2': _opacify,
    'fadein:2': _opacify,
    'fade-in:2': _opacify,
    'transparentize:2': _transparentize,
    'fadeout:2': _transparentize,
    'fade-out:2': _transparentize,
    'lighten:2': _lighten,
    'darken:2': _darken,
    'saturate:2': _saturate,
    'desaturate:2': _desaturate,
    'grayscale:1': _grayscale,
    'greyscale:1': _grayscale,
    'adjust-hue:2': _adjust_hue,
    'adjust-lightness:2': _adjust_lightness,
    'adjust-saturation:2': _adjust_saturation,
    'scale-lightness:2': _scale_lightness,
    'scale-saturation:2': _scale_saturation,
    'adjust-color:n': _adjust_color,
    'scale-color:n': _scale_color,
    'change-color:n': _change_color,
    'spin:2': _adjust_hue,
    'complement:1': _complement,
    'invert:1': _invert,
    'mix:2': _mix,
    'mix:3': _mix,
    'hsl:3': _hsl,
    'hsl:1': _hsl2,
    'hsla:1': _hsla2,
    'hsla:2': _hsla2,
    'hsla:4': _hsla,
    'rgb:3': _rgb,
    'rgb:1': _rgb2,
    'rgba:1': _rgba2,
    'rgba:2': _rgba2,
    'rgba:4': _rgba,
    'ie-hex-str:1': _ie_hex_str,

    'red:1': _red,
    'green:1': _green,
    'blue:1': _blue,
    'alpha:1': _alpha,
    'opacity:1': _alpha,
    'hue:1': _hue,
    'saturation:1': _saturation,
    'lightness:1': _lightness,

    'prefixed:n': _prefixed,
    'prefix:n': _prefix,
    '-moz:n': __moz,
    '-svg:n': __svg,
    '-css2:n': __css2,
    '-pie:n': __pie,
    '-webkit:n': __webkit,
    '-owg:n': __owg,
    '-ms:n': __ms,
    '-o:n': __o,

    '-compass-list:n': __compass_list,
    '-compass-space-list:n': __compass_space_list,
    'blank:n': _blank,
    'compact:n': _compact,
    '-compass-slice:3': __compass_slice,
    'nth:2': _nth,
    'max:n': _max,
    '-compass-nth:2': _nth,
    'first-value-of:n': _first_value_of,
    'join:2': _join,
    'join:3': _join,
    'length:n': _length,
    '-compass-list-size:n': _length,
    'append:2': _append,
    'append:3': _append,

    'nest:n': _nest,
    'append-selector:2': _append_selector,
    'headers:0': _headers,
    'headers:1': _headers,
    'headers:2': _headers,
    'enumerate:3': _enumerate,
    'enumerate:4': _enumerate,
    'range:1': _range,
    'range:2': _range,

    'percentage:1': _percentage,
    'unitless:1': _unitless,
    'unit:1': _unit,
    'if:2': _if,
    'if:3': _if,
    'type-of:1': _type_of,
    'comparable:2': _comparable,
    'elements-of-type:1': _elements_of_type,
    'quote:n': _quote,
    'unquote:n': _unquote,
    'escape:1': _unquote,
    'e:1': _unquote,

    'sin:1': Value._wrap(math.sin),
    'cos:1': Value._wrap(math.cos),
    'tan:1': Value._wrap(math.tan),
    'abs:1': Value._wrap(abs),
    'round:1': Value._wrap(round),
    'ceil:1': Value._wrap(math.ceil),
    'floor:1': Value._wrap(math.floor),
    'pi:0': _pi,
    }
for u in _units:
    fnct[u + ':2'] = _convert_to


def interpolate(v, R):
    C, O = R[CONTEXT], R[OPTIONS]
    vi = C.get(v, v)
    if v != vi and isinstance(vi, basestring):
        _vi = eval_expr(vi, R, True)
        if _vi is not None:
            vi = _vi
    return vi


def call(name, args, R, is_function=True):
    C, O = R[CONTEXT], R[OPTIONS]
    # Function call:
    _name = name.replace('_', '-')
    s = args and args.value.items() or []
    _args = [v for n, v in s if isinstance(n, int)]
    _kwargs = dict((str(n[1:]).replace('-', '_'), v) for n, v in s if not isinstance(n, int) and n != '_')
    _fn_a = '%s:%d' % (_name, len(_args))
    #print >>sys.stderr, '#', _fn_a, _args, _kwargs
    _fn_n = '%s:n' % _name
    try:
        fn = O and O.get('@function ' + _fn_a)
        if fn:
            node = fn(R, *_args, **_kwargs)
        else:
            fn = fnct.get(_fn_a) or fnct[_fn_n]
            node = fn(*_args, **_kwargs)
        if args and isinstance(node, ListValue):
            separator = args.value.get('_')
            if separator is not None:
                if separator:
                    node.value['_'] = separator
                else:
                    node.value.pop('_', None)
    except KeyError:
        sp = args and args.value.get('_') or ''
        if is_function:
            if not _css_function_re.match(_name):
                log.error("Required function not found: %s (%s)", _fn_a, R[INDEX][R[LINENO]])
            _args = (sp + ' ').join(to_str(v) for n, v in s if isinstance(n, int))
            _kwargs = (sp + ' ').join('%s: %s' % (n, to_str(v)) for n, v in s if not isinstance(n, int) and n != '_')
            if _args and _kwargs:
                _args += (sp + ' ')
                # Function not found, simply write it as a string:
            node = StringValue(name + '(' + _args + _kwargs + ')')
        else:
            node = StringValue((sp + ' ').join(str(v) for n, v in s if n != '_'))
    return node


################################################################################
# Parser


class SyntaxError(Exception):
    """
    When we run into an unexpected token, this is the exception to use
    """
    def __init__(self, pos=-1, msg="Bad Token"):
        Exception.__init__(self)
        self.pos = pos
        self.msg = msg

    def __repr__(self):
        if self.pos < 0:
            return "#<syntax-error>"
        else:
            return "SyntaxError[@ char %s: %s]" % (repr(self.pos), self.msg)


class NoMoreTokens(Exception):
    """
    Another exception object, for when we run out of tokens
    """
    pass


class Scanner(object):
    def __init__(self, patterns, ignore, input=None):
        """
        Patterns is [(terminal,regex)...]
        Ignore is [terminal,...];
        Input is a string
        """
        self.reset(input)
        self.ignore = ignore
        # The stored patterns are a pair (compiled regex,source
        # regex).  If the patterns variable passed in to the
        # constructor is None, we assume that the class already has a
        # proper .patterns list constructed
        if patterns is not None:
            self.patterns = []
            for k, r in patterns:
                self.patterns.append((k, re.compile(r)))

    def reset(self, input):
        self.tokens = []
        self.restrictions = []
        self.input = input
        self.pos = 0

    def __repr__(self):
        """
        Print the last 10 tokens that have been scanned in
        """
        output = ''
        for t in self.tokens[-10:]:
            output = "%s\n  (@%s)  %s  =  %s" % (output, t[0], t[2], repr(t[3]))
        return output

    def token(self, i, restrict=None):
        """
        Get the i'th token, and if i is one past the end, then scan
        for another token; restrict is a list of tokens that
        are allowed, or 0 for any token.
        """
        tokens_len = len(self.tokens)
        if i == tokens_len:  # We are at the end, ge the next...
            tokens_len += self.scan(restrict)
        if i < tokens_len:
            if restrict and self.restrictions[i] and restrict > self.restrictions[i]:
                raise NotImplementedError("Unimplemented: restriction set changed")
            return self.tokens[i]
        raise NoMoreTokens()

    def rewind(self, i):
        tokens_len = len(self.tokens)
        if i <= tokens_len:
            token = self.tokens[i]
            self.tokens = self.tokens[:i]
            self.restrictions = self.restrictions[:i]
            self.pos = token[0]

    def scan(self, restrict):
        """
        Should scan another token and add it to the list, self.tokens,
        and add the restriction to self.restrictions
        """
        # Keep looking for a token, ignoring any in self.ignore
        while True:
            # Search the patterns for a match, with earlier
            # tokens in the list having preference
            best_pat = None
            best_pat_len = 0
            for p, regexp in self.patterns:
                # First check to see if we're restricting to this token
                if restrict and p not in restrict and p not in self.ignore:
                    continue
                m = regexp.match(self.input, self.pos)
                if m:
                    # We got a match
                    best_pat = p
                    best_pat_len = len(m.group(0))
                    break

            # If we didn't find anything, raise an error
            if best_pat is None:
                msg = "Bad Token"
                if restrict:
                    msg = "Trying to find one of " + ", ".join(restrict)
                raise SyntaxError(self.pos, msg)

            # If we found something that isn't to be ignored, return it
            if best_pat in self.ignore:
                # This token should be ignored ..
                self.pos += best_pat_len
            else:
                end_pos = self.pos + best_pat_len
                # Create a token with this data
                token = (
                    self.pos,
                    end_pos,
                    best_pat,
                    self.input[self.pos:end_pos]
                    )
                self.pos = end_pos
                # Only add this token if it's not in the list
                # (to prevent looping)
                if not self.tokens or token != self.tokens[-1]:
                    self.tokens.append(token)
                    self.restrictions.append(restrict)
                    return 1
                break
        return 0


class Parser(object):
    def __init__(self, scanner):
        self._scanner = scanner
        self._pos = 0

    def reset(self, input):
        self._scanner.reset(input)
        self._pos = 0

    def _peek(self, types):
        """
        Returns the token type for lookahead; if there are any args
        then the list of args is the set of token types to allow
        """
        tok = self._scanner.token(self._pos, types)
        return tok[2]

    def _scan(self, type):
        """
        Returns the matched text, and moves to the next token
        """
        tok = self._scanner.token(self._pos, set([type]))
        if tok[2] != type:
            raise SyntaxError(tok[0], "Trying to find " + type)
        self._pos += 1
        return tok[3]

    def _rewind(self, n=1):
        self._pos -= min(n, self._pos)
        self._scanner.rewind(self._pos)


################################################################################
#'(?<!\\s)(?:' + '|'.join(_units) + ')(?![-\\w])'
## Grammar compiled using Yapps:
class CalculatorScanner(Scanner):
    patterns = [
        ('":"', re.compile(':')),
        ('[ \r\t\n]+', re.compile('[ \r\t\n]+')),
        ('COMMA', re.compile(',')),
        ('LPAR', re.compile('\\(|\\[')),
        ('RPAR', re.compile('\\)|\\]')),
        ('END', re.compile('$')),
        ('MUL', re.compile('[*]')),
        ('DIV', re.compile('/')),
        ('ADD', re.compile('[+]')),
        ('SUB', re.compile('-\\s')),
        ('SIGN', re.compile('-(?![a-zA-Z_])')),
        ('AND', re.compile('(?<![-\\w])and(?![-\\w])')),
        ('OR', re.compile('(?<![-\\w])or(?![-\\w])')),
        ('NOT', re.compile('(?<![-\\w])not(?![-\\w])')),
        ('NE', re.compile('!=')),
        ('INV', re.compile('!')),
        ('EQ', re.compile('==')),
        ('LE', re.compile('<=')),
        ('GE', re.compile('>=')),
        ('LT', re.compile('<')),
        ('GT', re.compile('>')),
        ('STR', re.compile("'[^']*'")),
        ('QSTR', re.compile('"[^"]*"')),
        ('UNITS', re.compile('(?<!\\s)(?:' + '|'.join(_units) + ')(?![-\\w])')),
        ('NUM', re.compile('(?:\\d+(?:\\.\\d*)?|\\.\\d+)')),
        ('BOOL', re.compile('(?<![-\\w])(?:true|false)(?![-\\w])')),
        ('COLOR', re.compile('#(?:[a-fA-F0-9]{6}|[a-fA-F0-9]{3})(?![a-fA-F0-9])')),
        ('VAR', re.compile('\\$[-a-zA-Z0-9_]+')),
        ('FNCT', re.compile('[-a-zA-Z_][-a-zA-Z0-9_]*(?=\\()')),
        ('ID', re.compile('[-a-zA-Z_][-a-zA-Z0-9_]*')),
    ]
    def __init__(self):
        Scanner.__init__(self,None,['[ \r\t\n]+'])

class Calculator(Parser):
    def goal(self, R):
        expr_lst = self.expr_lst(R)
        v = expr_lst.first() if len(expr_lst) == 1 else expr_lst
        END = self._scan('END')
        return v

    def expr(self, R):
        and_test = self.and_test(R)
        v = and_test
        while self._peek(self.expr_rsts) == 'OR':
            OR = self._scan('OR')
            and_test = self.and_test(R)
            v = v or and_test
        return v

    def and_test(self, R):
        not_test = self.not_test(R)
        v = not_test
        while self._peek(self.and_test_rsts) == 'AND':
            AND = self._scan('AND')
            not_test = self.not_test(R)
            v = v and not_test
        return v

    def not_test(self, R):
        _token_ = self._peek(self.not_test_rsts)
        if _token_ not in self.not_test_chks:
            comparison = self.comparison(R)
            return comparison
        else:# in self.not_test_chks
            while 1:
                _token_ = self._peek(self.not_test_chks)
                if _token_ == 'NOT':
                    NOT = self._scan('NOT')
                    not_test = self.not_test(R)
                    v = not not_test
                else:# == 'INV'
                    INV = self._scan('INV')
                    not_test = self.not_test(R)
                    v = _inv('!', not_test)
                if self._peek(self.not_test_rsts_) not in self.not_test_chks: break
            return v

    def comparison(self, R):
        a_expr = self.a_expr(R)
        v = a_expr
        while self._peek(self.comparison_rsts) in self.comparison_chks:
            _token_ = self._peek(self.comparison_chks)
            if _token_ == 'LT':
                LT = self._scan('LT')
                a_expr = self.a_expr(R)
                v = v < a_expr
            elif _token_ == 'GT':
                GT = self._scan('GT')
                a_expr = self.a_expr(R)
                v = v > a_expr
            elif _token_ == 'LE':
                LE = self._scan('LE')
                a_expr = self.a_expr(R)
                v = v <= a_expr
            elif _token_ == 'GE':
                GE = self._scan('GE')
                a_expr = self.a_expr(R)
                v = v >= a_expr
            elif _token_ == 'EQ':
                EQ = self._scan('EQ')
                a_expr = self.a_expr(R)
                v = v == a_expr
            else:# == 'NE'
                NE = self._scan('NE')
                a_expr = self.a_expr(R)
                v = v != a_expr
        return v

    def a_expr(self, R):
        m_expr = self.m_expr(R)
        v = m_expr
        while self._peek(self.a_expr_rsts) in self.a_expr_chks:
            _token_ = self._peek(self.a_expr_chks)
            if _token_ == 'ADD':
                ADD = self._scan('ADD')
                m_expr = self.m_expr(R)
                v = v + m_expr
            else:# == 'SUB'
                SUB = self._scan('SUB')
                m_expr = self.m_expr(R)
                v = v - m_expr
        return v

    def m_expr(self, R):
        u_expr = self.u_expr(R)
        v = u_expr
        while self._peek(self.m_expr_rsts) in self.m_expr_chks:
            _token_ = self._peek(self.m_expr_chks)
            if _token_ == 'MUL':
                MUL = self._scan('MUL')
                u_expr = self.u_expr(R)
                v = v * u_expr
            else:# == 'DIV'
                DIV = self._scan('DIV')
                u_expr = self.u_expr(R)
                v = v / u_expr
        return v

    def u_expr(self, R):
        _token_ = self._peek(self.u_expr_rsts)
        if _token_ == 'SIGN':
            SIGN = self._scan('SIGN')
            u_expr = self.u_expr(R)
            return _inv('-', u_expr)
        elif _token_ == 'ADD':
            ADD = self._scan('ADD')
            u_expr = self.u_expr(R)
            return u_expr
        else:# in self.u_expr_chks
            atom = self.atom(R)
            v = atom
            if self._peek(self.u_expr_rsts_) == 'UNITS':
                UNITS = self._scan('UNITS')
                v = call(UNITS, ListValue(ParserValue({ 0: v, 1: UNITS })), R, False)
            return v

    def atom(self, R):
        _token_ = self._peek(self.u_expr_chks)
        if _token_ == 'LPAR':
            LPAR = self._scan('LPAR')
            expr_lst = self.expr_lst(R)
            RPAR = self._scan('RPAR')
            return expr_lst.first() if len(expr_lst) == 1 else expr_lst
        elif _token_ == 'ID':
            ID = self._scan('ID')
            return ID
        elif _token_ == 'FNCT':
            FNCT = self._scan('FNCT')
            v = None
            LPAR = self._scan('LPAR')
            if self._peek(self.atom_rsts) != 'RPAR':
                expr_lst = self.expr_lst(R)
                v = expr_lst
            RPAR = self._scan('RPAR')
            return call(FNCT, v, R)
        elif _token_ == 'NUM':
            NUM = self._scan('NUM')
            return NumberValue(ParserValue(NUM))
        elif _token_ == 'STR':
            STR = self._scan('STR')
            return StringValue(ParserValue(STR))
        elif _token_ == 'QSTR':
            QSTR = self._scan('QSTR')
            return QuotedStringValue(ParserValue(QSTR))
        elif _token_ == 'BOOL':
            BOOL = self._scan('BOOL')
            return BooleanValue(ParserValue(BOOL))
        elif _token_ == 'COLOR':
            COLOR = self._scan('COLOR')
            return ColorValue(ParserValue(COLOR))
        else:# == 'VAR'
            VAR = self._scan('VAR')
            return interpolate(VAR, R)

    def expr_lst(self, R):
        n = None
        if self._peek(self.expr_lst_rsts) == 'VAR':
            VAR = self._scan('VAR')
            if self._peek(self.expr_lst_rsts_) == '":"':
                self._scan('":"')
                n = VAR
            else: self._rewind()
        expr_slst = self.expr_slst(R)
        v = { n or 0: expr_slst }
        while self._peek(self.expr_lst_rsts__) == 'COMMA':
            n = None
            COMMA = self._scan('COMMA')
            v['_'] = COMMA
            if self._peek(self.expr_lst_rsts) == 'VAR':
                VAR = self._scan('VAR')
                if self._peek(self.expr_lst_rsts_) == '":"':
                    self._scan('":"')
                    n = VAR
                else: self._rewind()
            expr_slst = self.expr_slst(R)
            v[n or len(v)] = expr_slst
        return ListValue(ParserValue(v))

    def expr_slst(self, R):
        expr = self.expr(R)
        v = { 0: expr }
        while self._peek(self.expr_slst_rsts) not in self.expr_lst_rsts__:
            expr = self.expr(R)
            v[len(v)] = expr
        return ListValue(ParserValue(v)) if len(v) > 1 else v[0]

    not_test_rsts_ = set(['AND', 'LPAR', 'QSTR', 'END', 'COLOR', 'INV', 'SIGN', 'VAR', 'ADD', 'NUM', 'COMMA', 'FNCT', 'STR', 'NOT', 'BOOL', 'ID', 'RPAR', 'OR'])
    m_expr_chks = set(['MUL', 'DIV'])
    comparison_rsts = set(['LPAR', 'QSTR', 'RPAR', 'LE', 'COLOR', 'NE', 'LT', 'NUM', 'COMMA', 'GT', 'END', 'SIGN', 'ADD', 'FNCT', 'STR', 'VAR', 'EQ', 'ID', 'AND', 'INV', 'GE', 'BOOL', 'NOT', 'OR'])
    atom_rsts = set(['LPAR', 'QSTR', 'COLOR', 'INV', 'SIGN', 'NOT', 'ADD', 'NUM', 'BOOL', 'FNCT', 'STR', 'VAR', 'RPAR', 'ID'])
    not_test_chks = set(['NOT', 'INV'])
    u_expr_chks = set(['LPAR', 'COLOR', 'QSTR', 'NUM', 'BOOL', 'FNCT', 'STR', 'VAR', 'ID'])
    m_expr_rsts = set(['LPAR', 'SUB', 'QSTR', 'RPAR', 'MUL', 'DIV', 'LE', 'COLOR', 'NE', 'LT', 'NUM', 'COMMA', 'GT', 'END', 'SIGN', 'GE', 'FNCT', 'STR', 'VAR', 'EQ', 'ID', 'AND', 'INV', 'ADD', 'BOOL', 'NOT', 'OR'])
    expr_lst_rsts_ = set(['LPAR', 'QSTR', 'COLOR', 'INV', 'SIGN', 'VAR', 'ADD', 'NUM', 'BOOL', '":"', 'STR', 'NOT', 'ID', 'FNCT'])
    expr_lst_rsts = set(['LPAR', 'QSTR', 'COLOR', 'INV', 'SIGN', 'NOT', 'ADD', 'NUM', 'BOOL', 'FNCT', 'STR', 'VAR', 'ID'])
    and_test_rsts = set(['AND', 'LPAR', 'QSTR', 'END', 'COLOR', 'INV', 'SIGN', 'VAR', 'ADD', 'NUM', 'COMMA', 'FNCT', 'STR', 'NOT', 'BOOL', 'ID', 'RPAR', 'OR'])
    u_expr_rsts_ = set(['LPAR', 'SUB', 'QSTR', 'RPAR', 'VAR', 'MUL', 'DIV', 'LE', 'COLOR', 'NE', 'LT', 'NUM', 'COMMA', 'GT', 'END', 'SIGN', 'GE', 'FNCT', 'STR', 'UNITS', 'EQ', 'ID', 'AND', 'INV', 'ADD', 'BOOL', 'NOT', 'OR'])
    u_expr_rsts = set(['LPAR', 'COLOR', 'QSTR', 'SIGN', 'ADD', 'NUM', 'BOOL', 'FNCT', 'STR', 'VAR', 'ID'])
    expr_rsts = set(['LPAR', 'QSTR', 'END', 'COLOR', 'INV', 'SIGN', 'VAR', 'ADD', 'NUM', 'COMMA', 'FNCT', 'STR', 'NOT', 'BOOL', 'ID', 'RPAR', 'OR'])
    not_test_rsts = set(['LPAR', 'QSTR', 'COLOR', 'INV', 'SIGN', 'VAR', 'ADD', 'NUM', 'BOOL', 'FNCT', 'STR', 'NOT', 'ID'])
    comparison_chks = set(['GT', 'GE', 'NE', 'LT', 'LE', 'EQ'])
    expr_slst_rsts = set(['LPAR', 'QSTR', 'END', 'COLOR', 'INV', 'RPAR', 'VAR', 'ADD', 'NUM', 'COMMA', 'FNCT', 'STR', 'NOT', 'BOOL', 'SIGN', 'ID'])
    a_expr_chks = set(['ADD', 'SUB'])
    a_expr_rsts = set(['LPAR', 'SUB', 'QSTR', 'RPAR', 'LE', 'COLOR', 'NE', 'LT', 'NUM', 'COMMA', 'GT', 'END', 'SIGN', 'GE', 'FNCT', 'STR', 'VAR', 'EQ', 'ID', 'AND', 'INV', 'ADD', 'BOOL', 'NOT', 'OR'])
    expr_lst_rsts__ = set(['END', 'COMMA', 'RPAR'])


    expr_lst_rsts_ = None

### Grammar ends.
################################################################################


def eval_expr(expr, rule, raw=False):
    # print >>sys.stderr, '>>',expr,'<<'
    val = None
    try:
        P = Calculator(CalculatorScanner())
        P.reset(expr)
        results = P.goal(rule)
        if raw:
            #print >>sys.stderr, '%%',repr(results),'%%'
            return results
        if results is not None:
            val = to_str(results)
            #print >>sys.stderr, '==',val,'=='
            return val
    except SyntaxError:
        if DEBUG:
            raise
    except Exception as e:
        log.error("Exception raised: %s in `%s' (%s)", e, expr, rule[INDEX][rule[LINENO]])
        if DEBUG:
            raise