"""CSS selector parser.""" from __future__ import annotations import re from functools import lru_cache from . import util from . import css_match as cm from . import css_types as ct from .util import SelectorSyntaxError import warnings from typing import Match, Any, Iterator, cast UNICODE_REPLACEMENT_CHAR = 0xFFFD # Simple pseudo classes that take no parameters PSEUDO_SIMPLE = { ":any-link", ":empty", ":first-child", ":first-of-type", ":in-range", ":out-of-range", ":last-child", ":last-of-type", ":link", ":only-child", ":only-of-type", ":root", ':checked', ':default', ':disabled', ':enabled', ':indeterminate', ':optional', ':placeholder-shown', ':read-only', ':read-write', ':required', ':scope', ':defined' } # Supported, simple pseudo classes that match nothing in the Soup Sieve environment PSEUDO_SIMPLE_NO_MATCH = { ':active', ':current', ':focus', ':focus-visible', ':focus-within', ':future', ':host', ':hover', ':local-link', ':past', ':paused', ':playing', ':target', ':target-within', ':user-invalid', ':visited' } # Complex pseudo classes that take selector lists PSEUDO_COMPLEX = { ':contains', ':-soup-contains', ':-soup-contains-own', ':has', ':is', ':matches', ':not', ':where' } PSEUDO_COMPLEX_NO_MATCH = { ':current', ':host', ':host-context' } # Complex pseudo classes that take very specific parameters and are handled special PSEUDO_SPECIAL = { ':dir', ':lang', ':nth-child', ':nth-last-child', ':nth-last-of-type', ':nth-of-type' } PSEUDO_SUPPORTED = PSEUDO_SIMPLE | PSEUDO_SIMPLE_NO_MATCH | PSEUDO_COMPLEX | PSEUDO_COMPLEX_NO_MATCH | PSEUDO_SPECIAL # Sub-patterns parts # Whitespace NEWLINE = r'(?:\r\n|(?!\r\n)[\n\f\r])' WS = fr'(?:[ \t]|{NEWLINE})' # Comments COMMENTS = r'(?:/\*[^*]*\*+(?:[^/*][^*]*\*+)*/)' # Whitespace with comments included WSC = fr'(?:{WS}|{COMMENTS})' # CSS escapes CSS_ESCAPES = fr'(?:\\(?:[a-f0-9]{{1,6}}{WS}?|[^\r\n\f]|$))' CSS_STRING_ESCAPES = fr'(?:\\(?:[a-f0-9]{{1,6}}{WS}?|[^\r\n\f]|$|{NEWLINE}))' # CSS Identifier IDENTIFIER = fr''' (?:(?:-?(?:[^\x00-\x2f\x30-\x40\x5B-\x5E\x60\x7B-\x9f]|{CSS_ESCAPES})+|--) (?:[^\x00-\x2c\x2e\x2f\x3A-\x40\x5B-\x5E\x60\x7B-\x9f]|{CSS_ESCAPES})*) ''' # `nth` content NTH = fr'(?:[-+])?(?:[0-9]+n?|n)(?:(?<=n){WSC}*(?:[-+]){WSC}*(?:[0-9]+))?' # Value: quoted string or identifier VALUE = fr'''(?:"(?:\\(?:.|{NEWLINE})|[^\\"\r\n\f]+)*?"|'(?:\\(?:.|{NEWLINE})|[^\\'\r\n\f]+)*?'|{IDENTIFIER}+)''' # Attribute value comparison. `!=` is handled special as it is non-standard. ATTR = fr'(?:{WSC}*(?P<cmp>[!~^|*$]?=){WSC}*(?P<value>{VALUE})(?:{WSC}*(?P<case>[is]))?)?{WSC}*\]' # Selector patterns # IDs (`#id`) PAT_ID = fr'\#{IDENTIFIER}' # Classes (`.class`) PAT_CLASS = fr'\.{IDENTIFIER}' # Prefix:Tag (`prefix|tag`) PAT_TAG = fr'(?P<tag_ns>(?:{IDENTIFIER}|\*)?\|)?(?P<tag_name>{IDENTIFIER}|\*)' # Attributes (`[attr]`, `[attr=value]`, etc.) PAT_ATTR = fr'\[{WSC}*(?P<attr_ns>(?:{IDENTIFIER}|\*)?\|)?(?P<attr_name>{IDENTIFIER}){ATTR}' # Pseudo class (`:pseudo-class`, `:pseudo-class(`) PAT_PSEUDO_CLASS = fr'(?P<name>:{IDENTIFIER})(?P<open>\({WSC}*)?' # Pseudo class special patterns. Matches `:pseudo-class(` for special case pseudo classes. PAT_PSEUDO_CLASS_SPECIAL = fr'(?P<name>:{IDENTIFIER})(?P<open>\({WSC}*)' # Custom pseudo class (`:--custom-pseudo`) PAT_PSEUDO_CLASS_CUSTOM = fr'(?P<name>:(?=--){IDENTIFIER})' # Nesting ampersand selector. Matches `&` PAT_AMP = r'&' # Closing pseudo group (`)`) PAT_PSEUDO_CLOSE = fr'{WSC}*\)' # Pseudo element (`::pseudo-element`) PAT_PSEUDO_ELEMENT = fr':{PAT_PSEUDO_CLASS}' # At rule (`@page`, etc.) (not supported) PAT_AT_RULE = fr'@P{IDENTIFIER}' # Pseudo class `nth-child` (`:nth-child(an+b [of S]?)`, `:first-child`, etc.) PAT_PSEUDO_NTH_CHILD = fr''' (?P<pseudo_nth_child>{PAT_PSEUDO_CLASS_SPECIAL} (?P<nth_child>{NTH}|even|odd))(?:{WSC}*\)|(?P<of>{COMMENTS}*{WS}{WSC}*of{COMMENTS}*{WS}{WSC}*)) ''' # Pseudo class `nth-of-type` (`:nth-of-type(an+b)`, `:first-of-type`, etc.) PAT_PSEUDO_NTH_TYPE = fr''' (?P<pseudo_nth_type>{PAT_PSEUDO_CLASS_SPECIAL} (?P<nth_type>{NTH}|even|odd)){WSC}*\) ''' # Pseudo class language (`:lang("*-de", en)`) PAT_PSEUDO_LANG = fr'{PAT_PSEUDO_CLASS_SPECIAL}(?P<values>{VALUE}(?:{WSC}*,{WSC}*{VALUE})*){WSC}*\)' # Pseudo class direction (`:dir(ltr)`) PAT_PSEUDO_DIR = fr'{PAT_PSEUDO_CLASS_SPECIAL}(?P<dir>ltr|rtl){WSC}*\)' # Combining characters (`>`, `~`, ` `, `+`, `,`) PAT_COMBINE = fr'{WSC}*?(?P<relation>[,+>~]|{WS}(?![,+>~])){WSC}*' # Extra: Contains (`:contains(text)`) PAT_PSEUDO_CONTAINS = fr'{PAT_PSEUDO_CLASS_SPECIAL}(?P<values>{VALUE}(?:{WSC}*,{WSC}*{VALUE})*){WSC}*\)' # Regular expressions # CSS escape pattern RE_CSS_ESC = re.compile(fr'(?:(\\[a-f0-9]{{1,6}}{WSC}?)|(\\[^\r\n\f])|(\\$))', re.I) RE_CSS_STR_ESC = re.compile(fr'(?:(\\[a-f0-9]{{1,6}}{WS}?)|(\\[^\r\n\f])|(\\$)|(\\{NEWLINE}))', re.I) # Pattern to break up `nth` specifiers RE_NTH = re.compile(fr'(?P<s1>[-+])?(?P<a>[0-9]+n?|n)(?:(?<=n){WSC}*(?P<s2>[-+]){WSC}*(?P<b>[0-9]+))?', re.I) # Pattern to iterate multiple values. RE_VALUES = re.compile(fr'(?:(?P<value>{VALUE})|(?P<split>{WSC}*,{WSC}*))', re.X) # Whitespace checks RE_WS = re.compile(WS) RE_WS_BEGIN = re.compile(fr'^{WSC}*') RE_WS_END = re.compile(fr'{WSC}*$') RE_CUSTOM = re.compile(fr'^{PAT_PSEUDO_CLASS_CUSTOM}$', re.X) # Constants # List split token COMMA_COMBINATOR = ',' # Relation token for descendant WS_COMBINATOR = " " # Parse flags FLG_PSEUDO = 0x01 FLG_NOT = 0x02 FLG_RELATIVE = 0x04 FLG_DEFAULT = 0x08 FLG_HTML = 0x10 FLG_INDETERMINATE = 0x20 FLG_OPEN = 0x40 FLG_IN_RANGE = 0x80 FLG_OUT_OF_RANGE = 0x100 FLG_PLACEHOLDER_SHOWN = 0x200 FLG_FORGIVE = 0x400 # Maximum cached patterns to store _MAXCACHE = 500 @lru_cache(maxsize=_MAXCACHE) def _cached_css_compile( pattern: str, namespaces: ct.Namespaces | None, custom: ct.CustomSelectors | None, flags: int ) -> cm.SoupSieve: """Cached CSS compile.""" custom_selectors = process_custom(custom) return cm.SoupSieve( pattern, CSSParser( pattern, custom=custom_selectors, flags=flags ).process_selectors(), namespaces, custom, flags ) def _purge_cache() -> None: """Purge the cache.""" _cached_css_compile.cache_clear() def process_custom(custom: ct.CustomSelectors | None) -> dict[str, str | ct.SelectorList]: """Process custom.""" custom_selectors = {} if custom is not None: for key, value in custom.items(): name = util.lower(key) if RE_CUSTOM.match(name) is None: raise SelectorSyntaxError(f"The name '{name}' is not a valid custom pseudo-class name") if name in custom_selectors: raise KeyError(f"The custom selector '{name}' has already been registered") custom_selectors[css_unescape(name)] = value return custom_selectors def css_unescape(content: str, string: bool = False) -> str: """ Unescape CSS value. Strings allow for spanning the value on multiple strings by escaping a new line. """ def replace(m: Match[str]) -> str: """Replace with the appropriate substitute.""" if m.group(1): codepoint = int(m.group(1)[1:], 16) if codepoint == 0: codepoint = UNICODE_REPLACEMENT_CHAR value = chr(codepoint) elif m.group(2): value = m.group(2)[1:] elif m.group(3): value = '\ufffd' else: value = '' return value return (RE_CSS_ESC if not string else RE_CSS_STR_ESC).sub(replace, content) def escape(ident: str) -> str: """Escape identifier.""" string = [] length = len(ident) start_dash = length > 0 and ident[0] == '-' if length == 1 and start_dash: # Need to escape identifier that is a single `-` with no other characters string.append(f'\\{ident}') else: for index, c in enumerate(ident): codepoint = ord(c) if codepoint == 0x00: string.append('\ufffd') elif (0x01 <= codepoint <= 0x1F) or codepoint == 0x7F: string.append(f'\\{codepoint:x} ') elif (index == 0 or (start_dash and index == 1)) and (0x30 <= codepoint <= 0x39): string.append(f'\\{codepoint:x} ') elif ( codepoint in (0x2D, 0x5F) or codepoint >= 0x80 or (0x30 <= codepoint <= 0x39) or (0x30 <= codepoint <= 0x39) or (0x41 <= codepoint <= 0x5A) or (0x61 <= codepoint <= 0x7A) ): string.append(c) else: string.append(f'\\{c}') return ''.join(string) class SelectorPattern: """Selector pattern.""" def __init__(self, name: str, pattern: str) -> None: """Initialize.""" self.name = name self.re_pattern = re.compile(pattern, re.I | re.X | re.U) def get_name(self) -> str: """Get name.""" return self.name def match(self, selector: str, index: int, flags: int) -> Match[str] | None: """Match the selector.""" return self.re_pattern.match(selector, index) class SpecialPseudoPattern(SelectorPattern): """Selector pattern.""" def __init__(self, patterns: tuple[tuple[str, tuple[str, ...], str, type[SelectorPattern]], ...]) -> None: """Initialize.""" self.patterns = {} for p in patterns: name = p[0] pattern = p[3](name, p[2]) for pseudo in p[1]: self.patterns[pseudo] = pattern self.matched_name = None # type: SelectorPattern | None self.re_pseudo_name = re.compile(PAT_PSEUDO_CLASS_SPECIAL, re.I | re.X | re.U) def get_name(self) -> str: """Get name.""" return '' if self.matched_name is None else self.matched_name.get_name() def match(self, selector: str, index: int, flags: int) -> Match[str] | None: """Match the selector.""" pseudo = None m = self.re_pseudo_name.match(selector, index) if m: name = util.lower(css_unescape(m.group('name'))) pattern = self.patterns.get(name) if pattern: pseudo = pattern.match(selector, index, flags) if pseudo: self.matched_name = pattern return pseudo class _Selector: """ Intermediate selector class. This stores selector data for a compound selector as we are acquiring them. Once we are done collecting the data for a compound selector, we freeze the data in an object that can be pickled and hashed. """ def __init__(self, **kwargs: Any) -> None: """Initialize.""" self.tag = kwargs.get('tag', None) # type: ct.SelectorTag | None self.ids = kwargs.get('ids', []) # type: list[str] self.classes = kwargs.get('classes', []) # type: list[str] self.attributes = kwargs.get('attributes', []) # type: list[ct.SelectorAttribute] self.nth = kwargs.get('nth', []) # type: list[ct.SelectorNth] self.selectors = kwargs.get('selectors', []) # type: list[ct.SelectorList] self.relations = kwargs.get('relations', []) # type: list[_Selector] self.rel_type = kwargs.get('rel_type', None) # type: str | None self.contains = kwargs.get('contains', []) # type: list[ct.SelectorContains] self.lang = kwargs.get('lang', []) # type: list[ct.SelectorLang] self.flags = kwargs.get('flags', 0) # type: int self.no_match = kwargs.get('no_match', False) # type: bool def _freeze_relations(self, relations: list[_Selector]) -> ct.SelectorList: """Freeze relation.""" if relations: sel = relations[0] sel.relations.extend(relations[1:]) return ct.SelectorList([sel.freeze()]) else: return ct.SelectorList() def freeze(self) -> ct.Selector | ct.SelectorNull: """Freeze self.""" if self.no_match: return ct.SelectorNull() else: return ct.Selector( self.tag, tuple(self.ids), tuple(self.classes), tuple(self.attributes), tuple(self.nth), tuple(self.selectors), self._freeze_relations(self.relations), self.rel_type, tuple(self.contains), tuple(self.lang), self.flags ) def __str__(self) -> str: # pragma: no cover """String representation.""" return ( f'_Selector(tag={self.tag!r}, ids={self.ids!r}, classes={self.classes!r}, attributes={self.attributes!r}, ' f'nth={self.nth!r}, selectors={self.selectors!r}, relations={self.relations!r}, ' f'rel_type={self.rel_type!r}, contains={self.contains!r}, lang={self.lang!r}, flags={self.flags!r}, ' f'no_match={self.no_match!r})' ) __repr__ = __str__ class CSSParser: """Parse CSS selectors.""" css_tokens = ( SelectorPattern("pseudo_close", PAT_PSEUDO_CLOSE), SpecialPseudoPattern( ( ( "pseudo_contains", (':contains', ':-soup-contains', ':-soup-contains-own'), PAT_PSEUDO_CONTAINS, SelectorPattern ), ("pseudo_nth_child", (':nth-child', ':nth-last-child'), PAT_PSEUDO_NTH_CHILD, SelectorPattern), ("pseudo_nth_type", (':nth-of-type', ':nth-last-of-type'), PAT_PSEUDO_NTH_TYPE, SelectorPattern), ("pseudo_lang", (':lang',), PAT_PSEUDO_LANG, SelectorPattern), ("pseudo_dir", (':dir',), PAT_PSEUDO_DIR, SelectorPattern) ) ), SelectorPattern("pseudo_class_custom", PAT_PSEUDO_CLASS_CUSTOM), SelectorPattern("pseudo_class", PAT_PSEUDO_CLASS), SelectorPattern("pseudo_element", PAT_PSEUDO_ELEMENT), SelectorPattern("amp", PAT_AMP), SelectorPattern("at_rule", PAT_AT_RULE), SelectorPattern("id", PAT_ID), SelectorPattern("class", PAT_CLASS), SelectorPattern("tag", PAT_TAG), SelectorPattern("attribute", PAT_ATTR), SelectorPattern("combine", PAT_COMBINE) ) def __init__( self, selector: str, custom: dict[str, str | ct.SelectorList] | None = None, flags: int = 0 ) -> None: """Initialize.""" self.pattern = selector.replace('\x00', '\ufffd') self.flags = flags self.debug = self.flags & util.DEBUG self.custom = {} if custom is None else custom def parse_attribute_selector(self, sel: _Selector, m: Match[str], has_selector: bool) -> bool: """Create attribute selector from the returned regex match.""" inverse = False op = m.group('cmp') case = util.lower(m.group('case')) if m.group('case') else None ns = css_unescape(m.group('attr_ns')[:-1]) if m.group('attr_ns') else '' attr = css_unescape(m.group('attr_name')) is_type = False pattern2 = None value = '' if case: flags = (re.I if case == 'i' else 0) | re.DOTALL elif util.lower(attr) == 'type': flags = re.I | re.DOTALL is_type = True else: flags = re.DOTALL if op: if m.group('value').startswith(('"', "'")): value = css_unescape(m.group('value')[1:-1], True) else: value = css_unescape(m.group('value')) if not op: # Attribute name pattern = None elif op.startswith('^'): # Value start with pattern = re.compile(r'^%s.*' % re.escape(value), flags) elif op.startswith('$'): # Value ends with pattern = re.compile(r'.*?%s$' % re.escape(value), flags) elif op.startswith('*'): # Value contains pattern = re.compile(r'.*?%s.*' % re.escape(value), flags) elif op.startswith('~'): # Value contains word within space separated list # `~=` should match nothing if it is empty or contains whitespace, # so if either of these cases is present, use `[^\s\S]` which cannot be matched. value = r'[^\s\S]' if not value or RE_WS.search(value) else re.escape(value) pattern = re.compile(r'.*?(?:(?<=^)|(?<=[ \t\r\n\f]))%s(?=(?:[ \t\r\n\f]|$)).*' % value, flags) elif op.startswith('|'): # Value starts with word in dash separated list pattern = re.compile(r'^%s(?:-.*)?$' % re.escape(value), flags) else: # Value matches pattern = re.compile(r'^%s$' % re.escape(value), flags) if op.startswith('!'): # Equivalent to `:not([attr=value])` inverse = True if is_type and pattern: pattern2 = re.compile(pattern.pattern) # Append the attribute selector sel_attr = ct.SelectorAttribute(attr, ns, pattern, pattern2) if inverse: # If we are using `!=`, we need to nest the pattern under a `:not()`. sub_sel = _Selector() sub_sel.attributes.append(sel_attr) not_list = ct.SelectorList([sub_sel.freeze()], True, False) sel.selectors.append(not_list) else: sel.attributes.append(sel_attr) has_selector = True return has_selector def parse_tag_pattern(self, sel: _Selector, m: Match[str], has_selector: bool) -> bool: """Parse tag pattern from regex match.""" prefix = css_unescape(m.group('tag_ns')[:-1]) if m.group('tag_ns') else None tag = css_unescape(m.group('tag_name')) sel.tag = ct.SelectorTag(tag, prefix) has_selector = True return has_selector def parse_pseudo_class_custom(self, sel: _Selector, m: Match[str], has_selector: bool) -> bool: """ Parse custom pseudo class alias. Compile custom selectors as we need them. When compiling a custom selector, set it to `None` in the dictionary so we can avoid an infinite loop. """ pseudo = util.lower(css_unescape(m.group('name'))) selector = self.custom.get(pseudo) if selector is None: raise SelectorSyntaxError( f"Undefined custom selector '{pseudo}' found at position {m.end(0)}", self.pattern, m.end(0) ) if not isinstance(selector, ct.SelectorList): del self.custom[pseudo] selector = CSSParser( selector, custom=self.custom, flags=self.flags ).process_selectors(flags=FLG_PSEUDO) self.custom[pseudo] = selector sel.selectors.append(selector) has_selector = True return has_selector def parse_pseudo_class( self, sel: _Selector, m: Match[str], has_selector: bool, iselector: Iterator[tuple[str, Match[str]]], is_html: bool ) -> tuple[bool, bool]: """Parse pseudo class.""" complex_pseudo = False pseudo = util.lower(css_unescape(m.group('name'))) if m.group('open'): complex_pseudo = True if complex_pseudo and pseudo in PSEUDO_COMPLEX: has_selector = self.parse_pseudo_open(sel, pseudo, has_selector, iselector, m.end(0)) elif not complex_pseudo and pseudo in PSEUDO_SIMPLE: if pseudo == ':root': sel.flags |= ct.SEL_ROOT elif pseudo == ':defined': sel.flags |= ct.SEL_DEFINED is_html = True elif pseudo == ':scope': sel.flags |= ct.SEL_SCOPE elif pseudo == ':empty': sel.flags |= ct.SEL_EMPTY elif pseudo in (':link', ':any-link'): sel.selectors.append(CSS_LINK) elif pseudo == ':checked': sel.selectors.append(CSS_CHECKED) elif pseudo == ':default': sel.selectors.append(CSS_DEFAULT) elif pseudo == ':indeterminate': sel.selectors.append(CSS_INDETERMINATE) elif pseudo == ":disabled": sel.selectors.append(CSS_DISABLED) elif pseudo == ":enabled": sel.selectors.append(CSS_ENABLED) elif pseudo == ":required": sel.selectors.append(CSS_REQUIRED) elif pseudo == ":optional": sel.selectors.append(CSS_OPTIONAL) elif pseudo == ":read-only": sel.selectors.append(CSS_READ_ONLY) elif pseudo == ":read-write": sel.selectors.append(CSS_READ_WRITE) elif pseudo == ":in-range": sel.selectors.append(CSS_IN_RANGE) elif pseudo == ":out-of-range": sel.selectors.append(CSS_OUT_OF_RANGE) elif pseudo == ":placeholder-shown": sel.selectors.append(CSS_PLACEHOLDER_SHOWN) elif pseudo == ':first-child': sel.nth.append(ct.SelectorNth(1, False, 0, False, False, ct.SelectorList())) elif pseudo == ':last-child': sel.nth.append(ct.SelectorNth(1, False, 0, False, True, ct.SelectorList())) elif pseudo == ':first-of-type': sel.nth.append(ct.SelectorNth(1, False, 0, True, False, ct.SelectorList())) elif pseudo == ':last-of-type': sel.nth.append(ct.SelectorNth(1, False, 0, True, True, ct.SelectorList())) elif pseudo == ':only-child': sel.nth.extend( [ ct.SelectorNth(1, False, 0, False, False, ct.SelectorList()), ct.SelectorNth(1, False, 0, False, True, ct.SelectorList()) ] ) elif pseudo == ':only-of-type': sel.nth.extend( [ ct.SelectorNth(1, False, 0, True, False, ct.SelectorList()), ct.SelectorNth(1, False, 0, True, True, ct.SelectorList()) ] ) has_selector = True elif complex_pseudo and pseudo in PSEUDO_COMPLEX_NO_MATCH: self.parse_selectors(iselector, m.end(0), FLG_PSEUDO | FLG_OPEN) sel.no_match = True has_selector = True elif not complex_pseudo and pseudo in PSEUDO_SIMPLE_NO_MATCH: sel.no_match = True has_selector = True elif pseudo in PSEUDO_SUPPORTED: raise SelectorSyntaxError( f"Invalid syntax for pseudo class '{pseudo}'", self.pattern, m.start(0) ) else: raise SelectorSyntaxError( f"'{pseudo}' was detected as a pseudo-class and is either unsupported or invalid. " "If the syntax was not intended to be recognized as a pseudo-class, please escape the colon.", self.pattern, m.start(0) ) return has_selector, is_html def parse_pseudo_nth( self, sel: _Selector, m: Match[str], has_selector: bool, iselector: Iterator[tuple[str, Match[str]]] ) -> bool: """Parse `nth` pseudo.""" mdict = m.groupdict() if mdict.get('pseudo_nth_child'): postfix = '_child' else: postfix = '_type' mdict['name'] = util.lower(css_unescape(mdict['name'])) content = util.lower(mdict.get('nth' + postfix)) if content == 'even': # 2n s1 = 2 s2 = 0 var = True elif content == 'odd': # 2n+1 s1 = 2 s2 = 1 var = True else: nth_parts = cast(Match[str], RE_NTH.match(content)) _s1 = '-' if nth_parts.group('s1') and nth_parts.group('s1') == '-' else '' a = nth_parts.group('a') var = a.endswith('n') if a.startswith('n'): _s1 += '1' elif var: _s1 += a[:-1] else: _s1 += a _s2 = '-' if nth_parts.group('s2') and nth_parts.group('s2') == '-' else '' if nth_parts.group('b'): _s2 += nth_parts.group('b') else: _s2 = '0' s1 = int(_s1, 10) s2 = int(_s2, 10) pseudo_sel = mdict['name'] if postfix == '_child': if m.group('of'): # Parse the rest of `of S`. nth_sel = self.parse_selectors(iselector, m.end(0), FLG_PSEUDO | FLG_OPEN) else: # Use default `*|*` for `of S`. nth_sel = CSS_NTH_OF_S_DEFAULT if pseudo_sel == ':nth-child': sel.nth.append(ct.SelectorNth(s1, var, s2, False, False, nth_sel)) elif pseudo_sel == ':nth-last-child': sel.nth.append(ct.SelectorNth(s1, var, s2, False, True, nth_sel)) else: if pseudo_sel == ':nth-of-type': sel.nth.append(ct.SelectorNth(s1, var, s2, True, False, ct.SelectorList())) elif pseudo_sel == ':nth-last-of-type': sel.nth.append(ct.SelectorNth(s1, var, s2, True, True, ct.SelectorList())) has_selector = True return has_selector def parse_pseudo_open( self, sel: _Selector, name: str, has_selector: bool, iselector: Iterator[tuple[str, Match[str]]], index: int ) -> bool: """Parse pseudo with opening bracket.""" flags = FLG_PSEUDO | FLG_OPEN if name == ':not': flags |= FLG_NOT elif name == ':has': flags |= FLG_RELATIVE elif name in (':where', ':is'): flags |= FLG_FORGIVE sel.selectors.append(self.parse_selectors(iselector, index, flags)) has_selector = True return has_selector def parse_has_combinator( self, sel: _Selector, m: Match[str], has_selector: bool, selectors: list[_Selector], rel_type: str, index: int ) -> tuple[bool, _Selector, str]: """Parse combinator tokens.""" combinator = m.group('relation').strip() if not combinator: combinator = WS_COMBINATOR if combinator == COMMA_COMBINATOR: sel.rel_type = rel_type selectors[-1].relations.append(sel) rel_type = ":" + WS_COMBINATOR selectors.append(_Selector()) else: if has_selector: # End the current selector and associate the leading combinator with this selector. sel.rel_type = rel_type selectors[-1].relations.append(sel) elif rel_type[1:] != WS_COMBINATOR: # It's impossible to have two whitespace combinators after each other as the patterns # will gobble up trailing whitespace. It is also impossible to have a whitespace # combinator after any other kind for the same reason. But we could have # multiple non-whitespace combinators. So if the current combinator is not a whitespace, # then we've hit the multiple combinator case, so we should fail. raise SelectorSyntaxError( f'The multiple combinators at position {index}', self.pattern, index ) # Set the leading combinator for the next selector. rel_type = ':' + combinator sel = _Selector() has_selector = False return has_selector, sel, rel_type def parse_combinator( self, sel: _Selector, m: Match[str], has_selector: bool, selectors: list[_Selector], relations: list[_Selector], is_pseudo: bool, is_forgive: bool, index: int ) -> tuple[bool, _Selector]: """Parse combinator tokens.""" combinator = m.group('relation').strip() if not combinator: combinator = WS_COMBINATOR if not has_selector: if not is_forgive or combinator != COMMA_COMBINATOR: raise SelectorSyntaxError( f"The combinator '{combinator}' at position {index}, must have a selector before it", self.pattern, index ) # If we are in a forgiving pseudo class, just make the selector a "no match" if combinator == COMMA_COMBINATOR: sel.no_match = True del relations[:] selectors.append(sel) else: if combinator == COMMA_COMBINATOR: if not sel.tag and not is_pseudo: # Implied `*` sel.tag = ct.SelectorTag('*', None) sel.relations.extend(relations) selectors.append(sel) del relations[:] else: sel.relations.extend(relations) sel.rel_type = combinator del relations[:] relations.append(sel) sel = _Selector() has_selector = False return has_selector, sel def parse_class_id(self, sel: _Selector, m: Match[str], has_selector: bool) -> bool: """Parse HTML classes and ids.""" selector = m.group(0) if selector.startswith('.'): sel.classes.append(css_unescape(selector[1:])) else: sel.ids.append(css_unescape(selector[1:])) has_selector = True return has_selector def parse_pseudo_contains(self, sel: _Selector, m: Match[str], has_selector: bool) -> bool: """Parse contains.""" pseudo = util.lower(css_unescape(m.group('name'))) if pseudo == ":contains": warnings.warn( # noqa: B028 "The pseudo class ':contains' is deprecated, ':-soup-contains' should be used moving forward.", FutureWarning ) contains_own = pseudo == ":-soup-contains-own" values = css_unescape(m.group('values')) patterns = [] for token in RE_VALUES.finditer(values): if token.group('split'): continue value = token.group('value') if value.startswith(("'", '"')): value = css_unescape(value[1:-1], True) else: value = css_unescape(value) patterns.append(value) sel.contains.append(ct.SelectorContains(patterns, contains_own)) has_selector = True return has_selector def parse_pseudo_lang(self, sel: _Selector, m: Match[str], has_selector: bool) -> bool: """Parse pseudo language.""" values = m.group('values') patterns = [] for token in RE_VALUES.finditer(values): if token.group('split'): continue value = token.group('value') if value.startswith(('"', "'")): value = css_unescape(value[1:-1], True) else: value = css_unescape(value) patterns.append(value) sel.lang.append(ct.SelectorLang(patterns)) has_selector = True return has_selector def parse_pseudo_dir(self, sel: _Selector, m: Match[str], has_selector: bool) -> bool: """Parse pseudo direction.""" value = ct.SEL_DIR_LTR if util.lower(m.group('dir')) == 'ltr' else ct.SEL_DIR_RTL sel.flags |= value has_selector = True return has_selector def parse_selectors( self, iselector: Iterator[tuple[str, Match[str]]], index: int = 0, flags: int = 0 ) -> ct.SelectorList: """Parse selectors.""" # Initialize important variables sel = _Selector() selectors = [] has_selector = False closed = False relations = [] # type: list[_Selector] rel_type = ":" + WS_COMBINATOR # Setup various flags is_open = bool(flags & FLG_OPEN) is_pseudo = bool(flags & FLG_PSEUDO) is_relative = bool(flags & FLG_RELATIVE) is_not = bool(flags & FLG_NOT) is_html = bool(flags & FLG_HTML) is_default = bool(flags & FLG_DEFAULT) is_indeterminate = bool(flags & FLG_INDETERMINATE) is_in_range = bool(flags & FLG_IN_RANGE) is_out_of_range = bool(flags & FLG_OUT_OF_RANGE) is_placeholder_shown = bool(flags & FLG_PLACEHOLDER_SHOWN) is_forgive = bool(flags & FLG_FORGIVE) # Print out useful debug stuff if self.debug: # pragma: no cover if is_pseudo: print(' is_pseudo: True') if is_open: print(' is_open: True') if is_relative: print(' is_relative: True') if is_not: print(' is_not: True') if is_html: print(' is_html: True') if is_default: print(' is_default: True') if is_indeterminate: print(' is_indeterminate: True') if is_in_range: print(' is_in_range: True') if is_out_of_range: print(' is_out_of_range: True') if is_placeholder_shown: print(' is_placeholder_shown: True') if is_forgive: print(' is_forgive: True') # The algorithm for relative selectors require an initial selector in the selector list if is_relative: selectors.append(_Selector()) try: while True: key, m = next(iselector) # Handle parts if key == "at_rule": raise NotImplementedError(f"At-rules found at position {m.start(0)}") elif key == "amp": sel.flags |= ct.SEL_SCOPE has_selector = True elif key == 'pseudo_class_custom': has_selector = self.parse_pseudo_class_custom(sel, m, has_selector) elif key == 'pseudo_class': has_selector, is_html = self.parse_pseudo_class(sel, m, has_selector, iselector, is_html) elif key == 'pseudo_element': raise NotImplementedError(f"Pseudo-element found at position {m.start(0)}") elif key == 'pseudo_contains': has_selector = self.parse_pseudo_contains(sel, m, has_selector) elif key in ('pseudo_nth_type', 'pseudo_nth_child'): has_selector = self.parse_pseudo_nth(sel, m, has_selector, iselector) elif key == 'pseudo_lang': has_selector = self.parse_pseudo_lang(sel, m, has_selector) elif key == 'pseudo_dir': has_selector = self.parse_pseudo_dir(sel, m, has_selector) # Currently only supports HTML is_html = True elif key == 'pseudo_close': if not has_selector: if not is_forgive: raise SelectorSyntaxError( f"Expected a selector at position {m.start(0)}", self.pattern, m.start(0) ) sel.no_match = True if is_open: closed = True break else: raise SelectorSyntaxError( f"Unmatched pseudo-class close at position {m.start(0)}", self.pattern, m.start(0) ) elif key == 'combine': if is_relative: has_selector, sel, rel_type = self.parse_has_combinator( sel, m, has_selector, selectors, rel_type, index ) else: has_selector, sel = self.parse_combinator( sel, m, has_selector, selectors, relations, is_pseudo, is_forgive, index ) elif key == 'attribute': has_selector = self.parse_attribute_selector(sel, m, has_selector) elif key == 'tag': if has_selector: raise SelectorSyntaxError( f"Tag name found at position {m.start(0)} instead of at the start", self.pattern, m.start(0) ) has_selector = self.parse_tag_pattern(sel, m, has_selector) elif key in ('class', 'id'): has_selector = self.parse_class_id(sel, m, has_selector) index = m.end(0) except StopIteration: pass # Handle selectors that are not closed if is_open and not closed: raise SelectorSyntaxError( f"Unclosed pseudo-class at position {index}", self.pattern, index ) # Cleanup completed selector piece if has_selector: if not sel.tag and not is_pseudo: # Implied `*` sel.tag = ct.SelectorTag('*', None) if is_relative: sel.rel_type = rel_type selectors[-1].relations.append(sel) else: sel.relations.extend(relations) del relations[:] selectors.append(sel) # Forgive empty slots in pseudo-classes that have lists (and are forgiving) elif is_forgive and (not selectors or not relations): # Handle normal pseudo-classes with empty slots like `:is()` etc. sel.no_match = True del relations[:] selectors.append(sel) has_selector = True if not has_selector: # We will always need to finish a selector when `:has()` is used as it leads with combining. # May apply to others as well. raise SelectorSyntaxError( f'Expected a selector at position {index}', self.pattern, index ) # Some patterns require additional logic, such as default. We try to make these the # last pattern, and append the appropriate flag to that selector which communicates # to the matcher what additional logic is required. if is_default: selectors[-1].flags = ct.SEL_DEFAULT if is_indeterminate: selectors[-1].flags = ct.SEL_INDETERMINATE if is_in_range: selectors[-1].flags = ct.SEL_IN_RANGE if is_out_of_range: selectors[-1].flags = ct.SEL_OUT_OF_RANGE if is_placeholder_shown: selectors[-1].flags = ct.SEL_PLACEHOLDER_SHOWN # Return selector list return ct.SelectorList([s.freeze() for s in selectors], is_not, is_html) def selector_iter(self, pattern: str) -> Iterator[tuple[str, Match[str]]]: """Iterate selector tokens.""" # Ignore whitespace and comments at start and end of pattern m = RE_WS_BEGIN.search(pattern) index = m.end(0) if m else 0 m = RE_WS_END.search(pattern) end = (m.start(0) - 1) if m else (len(pattern) - 1) if self.debug: # pragma: no cover print(f'## PARSING: {pattern!r}') while index <= end: m = None for v in self.css_tokens: m = v.match(pattern, index, self.flags) if m: name = v.get_name() if self.debug: # pragma: no cover print(f"TOKEN: '{name}' --> {m.group(0)!r} at position {m.start(0)}") index = m.end(0) yield name, m break if m is None: c = pattern[index] # If the character represents the start of one of the known selector types, # throw an exception mentioning that the known selector type is in error; # otherwise, report the invalid character. if c == '[': msg = f"Malformed attribute selector at position {index}" elif c == '.': msg = f"Malformed class selector at position {index}" elif c == '#': msg = f"Malformed id selector at position {index}" elif c == ':': msg = f"Malformed pseudo-class selector at position {index}" else: msg = f"Invalid character {c!r} position {index}" raise SelectorSyntaxError(msg, self.pattern, index) if self.debug: # pragma: no cover print('## END PARSING') def process_selectors(self, index: int = 0, flags: int = 0) -> ct.SelectorList: """Process selectors.""" return self.parse_selectors(self.selector_iter(self.pattern), index, flags) # Precompile CSS selector lists for pseudo-classes (additional logic may be required beyond the pattern) # A few patterns are order dependent as they use patterns previous compiled. # CSS pattern for `:link` and `:any-link` CSS_LINK = CSSParser( 'html|*:is(a, area)[href]' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML) # CSS pattern for `:checked` CSS_CHECKED = CSSParser( ''' html|*:is(input[type=checkbox], input[type=radio])[checked], html|option[selected] ''' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML) # CSS pattern for `:default` (must compile CSS_CHECKED first) CSS_DEFAULT = CSSParser( ''' :checked, /* This pattern must be at the end. Special logic is applied to the last selector. */ html|form html|*:is(button, input)[type="submit"] ''' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML | FLG_DEFAULT) # CSS pattern for `:indeterminate` CSS_INDETERMINATE = CSSParser( ''' html|input[type="checkbox"][indeterminate], html|input[type="radio"]:is(:not([name]), [name=""]):not([checked]), html|progress:not([value]), /* This pattern must be at the end. Special logic is applied to the last selector. */ html|input[type="radio"][name]:not([name='']):not([checked]) ''' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML | FLG_INDETERMINATE) # CSS pattern for `:disabled` CSS_DISABLED = CSSParser( ''' html|*:is(input:not([type=hidden]), button, select, textarea, fieldset, optgroup, option, fieldset)[disabled], html|optgroup[disabled] > html|option, html|fieldset[disabled] > html|*:is(input:not([type=hidden]), button, select, textarea, fieldset), html|fieldset[disabled] > html|*:not(legend:nth-of-type(1)) html|*:is(input:not([type=hidden]), button, select, textarea, fieldset) ''' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML) # CSS pattern for `:enabled` CSS_ENABLED = CSSParser( ''' html|*:is(input:not([type=hidden]), button, select, textarea, fieldset, optgroup, option, fieldset):not(:disabled) ''' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML) # CSS pattern for `:required` CSS_REQUIRED = CSSParser( 'html|*:is(input, textarea, select)[required]' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML) # CSS pattern for `:optional` CSS_OPTIONAL = CSSParser( 'html|*:is(input, textarea, select):not([required])' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML) # CSS pattern for `:placeholder-shown` CSS_PLACEHOLDER_SHOWN = CSSParser( ''' html|input:is( :not([type]), [type=""], [type=text], [type=search], [type=url], [type=tel], [type=email], [type=password], [type=number] )[placeholder]:not([placeholder='']):is(:not([value]), [value=""]), html|textarea[placeholder]:not([placeholder='']) ''' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML | FLG_PLACEHOLDER_SHOWN) # CSS pattern default for `:nth-child` "of S" feature CSS_NTH_OF_S_DEFAULT = CSSParser( '*|*' ).process_selectors(flags=FLG_PSEUDO) # CSS pattern for `:read-write` (CSS_DISABLED must be compiled first) CSS_READ_WRITE = CSSParser( ''' html|*:is( textarea, input:is( :not([type]), [type=""], [type=text], [type=search], [type=url], [type=tel], [type=email], [type=number], [type=password], [type=date], [type=datetime-local], [type=month], [type=time], [type=week] ) ):not([readonly], :disabled), html|*:is([contenteditable=""], [contenteditable="true" i]) ''' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML) # CSS pattern for `:read-only` CSS_READ_ONLY = CSSParser( ''' html|*:not(:read-write) ''' ).process_selectors(flags=FLG_PSEUDO | FLG_HTML) # CSS pattern for `:in-range` CSS_IN_RANGE = CSSParser( ''' html|input:is( [type="date"], [type="month"], [type="week"], [type="time"], [type="datetime-local"], [type="number"], [type="range"] ):is( [min], [max] ) ''' ).process_selectors(flags=FLG_PSEUDO | FLG_IN_RANGE | FLG_HTML) # CSS pattern for `:out-of-range` CSS_OUT_OF_RANGE = CSSParser( ''' html|input:is( [type="date"], [type="month"], [type="week"], [type="time"], [type="datetime-local"], [type="number"], [type="range"] ):is( [min], [max] ) ''' ).process_selectors(flags=FLG_PSEUDO | FLG_OUT_OF_RANGE | FLG_HTML)