from __future__ import annotations import rich.repr from dataclasses import dataclass, field from enum import Enum from typing import Iterable, TYPE_CHECKING from .styles import Styles from .tokenize import Token from .types import Specificity3 if TYPE_CHECKING: from ..dom import DOMNode class SelectorType(Enum): UNIVERSAL = 1 TYPE = 2 CLASS = 3 ID = 4 class CombinatorType(Enum): SAME = 1 DESCENDENT = 2 CHILD = 3 @dataclass class Selector: """Represents a CSS selector. Some examples of selectors: * Header.title App > Content """ name: str combinator: CombinatorType = CombinatorType.DESCENDENT type: SelectorType = SelectorType.TYPE pseudo_classes: list[str] = field(default_factory=list) specificity: Specificity3 = field(default_factory=lambda: (0, 0, 0)) _name_lower: str = field(default="", repr=False) advance: int = 1 @property def css(self) -> str: """Rebuilds the selector as it would appear in CSS.""" pseudo_suffix = "".join(f":{name}" for name in self.pseudo_classes) if self.type == SelectorType.UNIVERSAL: return "*" elif self.type == SelectorType.TYPE: return f"{self.name}{pseudo_suffix}" elif self.type == SelectorType.CLASS: return f".{self.name}{pseudo_suffix}" else: return f"#{self.name}{pseudo_suffix}" def __post_init__(self) -> None: self._name_lower = self.name.lower() self._checks = { SelectorType.UNIVERSAL: self._check_universal, SelectorType.TYPE: self._check_type, SelectorType.CLASS: self._check_class, SelectorType.ID: self._check_id, } def _add_pseudo_class(self, pseudo_class: str) -> None: """Adds a pseudo class and updates specificity. Args: pseudo_class (str): Name of pseudo class. """ self.pseudo_classes.append(pseudo_class) specificity1, specificity2, specificity3 = self.specificity self.specificity = (specificity1, specificity2 + 1, specificity3) def check(self, node: DOMNode) -> bool: """Check if a given node matches the selector. Args: node (DOMNode): A DOM node. Returns: bool: True if the selector matches, otherwise False. """ return self._checks[self.type](node) def _check_universal(self, node: DOMNode) -> bool: return node.has_pseudo_class(*self.pseudo_classes) def _check_type(self, node: DOMNode) -> bool: if self._name_lower not in node._css_type_names: return False if self.pseudo_classes and not node.has_pseudo_class(*self.pseudo_classes): return False return True def _check_class(self, node: DOMNode) -> bool: if not node.has_class(self._name_lower): return False if self.pseudo_classes and not node.has_pseudo_class(*self.pseudo_classes): return False return True def _check_id(self, node: DOMNode) -> bool: if not node.id == self._name_lower: return False if self.pseudo_classes and not node.has_pseudo_class(*self.pseudo_classes): return False return True @dataclass class Declaration: token: Token name: str tokens: list[Token] = field(default_factory=list) @rich.repr.auto(angular=True) @dataclass class SelectorSet: selectors: list[Selector] = field(default_factory=list) specificity: Specificity3 = (0, 0, 0) def __post_init__(self) -> None: SAME = CombinatorType.SAME for selector, next_selector in zip(self.selectors, self.selectors[1:]): selector.advance = int(next_selector.combinator != SAME) @property def css(self) -> str: return RuleSet._selector_to_css(self.selectors) def __rich_repr__(self) -> rich.repr.Result: selectors = RuleSet._selector_to_css(self.selectors) yield selectors yield None, self.specificity @classmethod def from_selectors(cls, selectors: list[list[Selector]]) -> Iterable[SelectorSet]: for selector_list in selectors: id_total = class_total = type_total = 0 for selector in selector_list: _id, _class, _type = selector.specificity id_total += _id class_total += _class type_total += _type yield SelectorSet(selector_list, (id_total, class_total, type_total)) @dataclass class RuleSet: selector_set: list[SelectorSet] = field(default_factory=list) styles: Styles = field(default_factory=Styles) errors: list[tuple[Token, str]] = field(default_factory=list) is_default_rules: bool = False tie_breaker: int = 0 selector_names: set[str] = field(default_factory=set) def __hash__(self): return id(self) @classmethod def _selector_to_css(cls, selectors: list[Selector]) -> str: tokens: list[str] = [] for selector in selectors: if selector.combinator == CombinatorType.DESCENDENT: tokens.append(" ") elif selector.combinator == CombinatorType.CHILD: tokens.append(" > ") tokens.append(selector.css) return "".join(tokens).strip() @property def selectors(self): return ", ".join( self._selector_to_css(selector_set.selectors) for selector_set in self.selector_set ) @property def css(self) -> str: """Generate the CSS this RuleSet Returns: str: A string containing CSS code. """ declarations = "\n".join(f" {line}" for line in self.styles.css_lines) css = f"{self.selectors} {{\n{declarations}\n}}" return css def _post_parse(self) -> None: """Called after the RuleSet is parsed.""" # Build a set of the class names that have been updated class_type = SelectorType.CLASS id_type = SelectorType.ID type_type = SelectorType.TYPE universal_type = SelectorType.UNIVERSAL update_selectors = self.selector_names.update for selector_set in self.selector_set: update_selectors( "*" for selector in selector_set.selectors if selector.type == universal_type ) update_selectors( selector.name for selector in selector_set.selectors if selector.type == type_type ) update_selectors( f".{selector.name}" for selector in selector_set.selectors if selector.type == class_type ) update_selectors( f"#{selector.name}" for selector in selector_set.selectors if selector.type == id_type ) update_selectors( f":{pseudo_class}" for selector in selector_set.selectors for pseudo_class in selector.pseudo_classes )