#!/usr/bin/env python # This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at https://mozilla.org/MPL/2.0/. import re import os import sys from io import BytesIO GECKO_DIR = os.path.dirname(__file__.replace("\\", "/")) sys.path.insert(0, os.path.join(os.path.dirname(GECKO_DIR), "properties")) import build # Matches lines like `GK_ATOM(foo, "foo", 0x12345678, true, nsStaticAtom, PseudoElementAtom)`. PATTERN = re.compile( r'^GK_ATOM\(([^,]*),[^"]*"([^"]*)",\s*(0x[0-9a-f]+),\s*[^,]*,\s*([^,]*),\s*([^)]*)\)', re.MULTILINE, ) FILE = "include/nsGkAtomList.h" def map_atom(ident): if ident in { "box", "loop", "match", "mod", "ref", "self", "type", "use", "where", "in", }: return ident + "_" return ident class Atom: def __init__(self, ident, value, hash, ty, atom_type): self.ident = "nsGkAtoms_{}".format(ident) self.original_ident = ident self.value = value self.hash = hash # The Gecko type: "nsStaticAtom", "nsCSSPseudoElementStaticAtom", or # "nsAnonBoxPseudoStaticAtom". self.ty = ty # The type of atom: "Atom", "PseudoElement", "NonInheritingAnonBox", # or "InheritingAnonBox". self.atom_type = atom_type if ( self.is_pseudo_element() or self.is_anon_box() or self.is_tree_pseudo_element() ): self.pseudo_ident = (ident.split("_", 1))[1] if self.is_anon_box(): assert self.is_inheriting_anon_box() or self.is_non_inheriting_anon_box() def type(self): return self.ty def capitalized_pseudo(self): return self.pseudo_ident[0].upper() + self.pseudo_ident[1:] def is_pseudo_element(self): return self.atom_type == "PseudoElementAtom" def is_anon_box(self): if self.is_tree_pseudo_element(): return False return self.is_non_inheriting_anon_box() or self.is_inheriting_anon_box() def is_non_inheriting_anon_box(self): assert not self.is_tree_pseudo_element() return self.atom_type == "NonInheritingAnonBoxAtom" def is_inheriting_anon_box(self): if self.is_tree_pseudo_element(): return False return self.atom_type == "InheritingAnonBoxAtom" def is_tree_pseudo_element(self): return self.value.startswith(":-moz-tree-") def is_named_view_transition_pseudo(self) -> bool: return ( self.pseudo_ident == "viewTransitionGroup" or self.pseudo_ident == "viewTransitionImagePair" or self.pseudo_ident == "viewTransitionOld" or self.pseudo_ident == "viewTransitionNew" ) def is_simple_pseudo_element(self) -> bool: return not ( self.is_tree_pseudo_element() or self.pseudo_ident == "highlight" or self.is_named_view_transition_pseudo() ) def collect_atoms(objdir): atoms = [] path = os.path.abspath(os.path.join(objdir, FILE)) print("cargo:rerun-if-changed={}".format(path)) with open(path) as f: content = f.read() for result in PATTERN.finditer(content): atoms.append( Atom( result.group(1), result.group(2), result.group(3), result.group(4), result.group(5), ) ) return atoms class FileAvoidWrite(BytesIO): """File-like object that buffers output and only writes if content changed.""" def __init__(self, filename): BytesIO.__init__(self) self.name = filename def write(self, buf): if isinstance(buf, str): buf = buf.encode("utf-8") BytesIO.write(self, buf) def close(self): buf = self.getvalue() BytesIO.close(self) try: with open(self.name, "rb") as f: old_content = f.read() if old_content == buf: print("{} is not changed, skip".format(self.name)) return except IOError: pass with open(self.name, "wb") as f: f.write(buf) def __enter__(self): return self def __exit__(self, type, value, traceback): if not self.closed: self.close() PRELUDE = """ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at https://mozilla.org/MPL/2.0/. */ // Autogenerated file created by components/style/gecko/regen_atoms.py. // DO NOT EDIT DIRECTLY """[ 1: ] RULE_TEMPLATE = """ ("{atom}") => {{{{ #[allow(unsafe_code)] #[allow(unused_unsafe)] unsafe {{ $crate::string_cache::Atom::from_index_unchecked({index}) }} }}}}; """[ 1: ] MACRO_TEMPLATE = """ /// Returns a static atom by passing the literal string it represents. #[macro_export] macro_rules! atom {{ {body}\ }} """ def write_atom_macro(atoms, file_name): with FileAvoidWrite(file_name) as f: f.write(PRELUDE) macro_rules = [ RULE_TEMPLATE.format(atom=atom.value, name=atom.ident, index=i) for (i, atom) in enumerate(atoms) ] f.write(MACRO_TEMPLATE.format(body="".join(macro_rules))) def write_pseudo_elements(atoms, target_filename): pseudos = [] for atom in atoms: if ( atom.type() == "nsCSSPseudoElementStaticAtom" or atom.type() == "nsCSSAnonBoxPseudoStaticAtom" ): pseudos.append(atom) pseudo_definition_template = os.path.join( GECKO_DIR, "pseudo_element_definition.mako.rs" ) print("cargo:rerun-if-changed={}".format(pseudo_definition_template)) contents = build.render(pseudo_definition_template, PSEUDOS=pseudos) with FileAvoidWrite(target_filename) as f: f.write(contents) def generate_atoms(dist, out): atoms = collect_atoms(dist) write_atom_macro(atoms, os.path.join(out, "atom_macro.rs")) write_pseudo_elements(atoms, os.path.join(out, "pseudo_element_definition.rs")) if __name__ == "__main__": if len(sys.argv) != 3: print("Usage: {} dist out".format(sys.argv[0])) exit(2) generate_atoms(sys.argv[1], sys.argv[2])