# parse_tree.py # # Copyright 2021 James Westman # # This file is free software; you can redistribute it and/or modify it # under the terms of the GNU Lesser General Public License as # published by the Free Software Foundation; either version 3 of the # License, or (at your option) any later version. # # This file is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this program. If not, see . # # SPDX-License-Identifier: LGPL-3.0-or-later """Utilities for parsing an AST from a token stream.""" import typing as T from enum import Enum from . import utils from .ast_utils import AstNode from .errors import ( CompileError, CompilerBugError, CompileWarning, UnexpectedTokenError, assert_true, ) from .tokenizer import Range, Token, TokenType SKIP_TOKENS = [TokenType.COMMENT, TokenType.WHITESPACE] class ParseResult(Enum): """Represents the result of parsing. The extra EMPTY result is necessary to avoid freezing the parser: imagine a ZeroOrMore node containing a node that can match empty. It will repeatedly match empty and never advance the parser. So, ZeroOrMore stops when a failed *or empty* match is made.""" SUCCESS = 0 FAILURE = 1 EMPTY = 2 def matched(self): return self == ParseResult.SUCCESS def succeeded(self): return self != ParseResult.FAILURE def failed(self): return self == ParseResult.FAILURE class ParseGroup: """A matching group. Match groups have an AST type, children grouped by type, and key=value pairs. At the end of parsing, the match groups will be converted to AST nodes by passing the children and key=value pairs to the AST node constructor.""" def __init__(self, ast_type: T.Type[AstNode], start: int, text: str): self.ast_type = ast_type self.children: T.List[ParseGroup] = [] self.keys: T.Dict[str, T.Any] = {} self.tokens: T.Dict[str, T.Optional[Token]] = {} self.ranges: T.Dict[str, Range] = {} self.start = start self.end: T.Optional[int] = None self.incomplete = False self.text = text def add_child(self, child: "ParseGroup"): self.children.append(child) def set_val(self, key: str, val: T.Any, token: T.Optional[Token]): assert_true(key not in self.keys) self.keys[key] = val self.tokens[key] = token if token: self.set_range(key, token.range) def set_range(self, key: str, range: Range): assert_true(key not in self.ranges) self.ranges[key] = range def to_ast(self): """Creates an AST node from the match group.""" children = [child.to_ast() for child in self.children] try: return self.ast_type(self, children, self.keys, incomplete=self.incomplete) except TypeError: # pragma: no cover raise CompilerBugError( f"Failed to construct ast.{self.ast_type.__name__} from ParseGroup. See the previous stacktrace." ) class ParseContext: """Contains the state of the parser.""" def __init__(self, tokens: T.List[Token], text: str, index=0): self.tokens = tokens self.text = text self.binding_power = 0 self.index = index self.start = index self.group: T.Optional[ParseGroup] = None self.group_keys: T.Dict[str, T.Tuple[T.Any, T.Optional[Token]]] = {} self.group_children: T.List[ParseGroup] = [] self.group_ranges: T.Dict[str, Range] = {} self.last_group: T.Optional[ParseGroup] = None self.group_incomplete = False self.errors: T.List[CompileError] = [] self.warnings: T.List[CompileWarning] = [] def create_child(self) -> "ParseContext": """Creates a new ParseContext at this context's position. The new context will be used to parse one node. If parsing is successful, the new context will be applied to "self". If parsing fails, the new context will be discarded.""" ctx = ParseContext(self.tokens, self.text, self.index) ctx.errors = self.errors ctx.warnings = self.warnings ctx.binding_power = self.binding_power return ctx def apply_child(self, other: "ParseContext"): """Applies a child context to this context.""" if other.group is not None: # If the other context had a match group, collect all the matched # values into it and then add it to our own match group. for key, (val, token) in other.group_keys.items(): other.group.set_val(key, val, token) for child in other.group_children: other.group.add_child(child) for key, range in other.group_ranges.items(): other.group.set_range(key, range) other.group.end = other.tokens[other.index - 1].end other.group.incomplete = other.group_incomplete self.group_children.append(other.group) else: # If the other context had no match group of its own, collect all # its matched values self.group_keys = {**self.group_keys, **other.group_keys} self.group_children += other.group_children self.group_ranges = {**self.group_ranges, **other.group_ranges} self.group_incomplete |= other.group_incomplete self.index = other.index # Propagate the last parsed group down the stack so it can be easily # retrieved at the end of the process if other.group: self.last_group = other.group elif other.last_group: self.last_group = other.last_group def start_group(self, ast_type: T.Type[AstNode]): """Sets this context to have its own match group.""" assert_true(self.group is None) self.group = ParseGroup(ast_type, self.tokens[self.index].start, self.text) def set_group_val(self, key: str, value: T.Any, token: T.Optional[Token]): """Sets a matched key=value pair on the current match group.""" assert_true(key not in self.group_keys) self.group_keys[key] = (value, token) def set_mark(self, key: str): """Sets a zero-length range on the current match group at the current position.""" self.group_ranges[key] = Range( self.tokens[self.index].start, self.tokens[self.index].start, self.text ) def set_group_incomplete(self): """Marks the current match group as incomplete (it could not be fully parsed, but the parser recovered).""" self.group_incomplete = True def skip(self): """Skips whitespace and comments.""" while ( self.index < len(self.tokens) and self.tokens[self.index].type in SKIP_TOKENS ): self.index += 1 def next_token(self) -> Token: """Advances the token iterator and returns the next token.""" self.skip() token = self.tokens[self.index] self.index += 1 return token def peek_token(self) -> Token: """Returns the next token without advancing the iterator.""" self.skip() token = self.tokens[self.index] return token def skip_unexpected_token(self): """Skips a token and logs an "unexpected token" error.""" self.skip() start = self.tokens[self.index].start self.next_token() self.skip() end = self.tokens[self.index - 1].end if ( len(self.errors) and isinstance((err := self.errors[-1]), UnexpectedTokenError) and err.range.end == start ): err.range.end = end else: self.errors.append(UnexpectedTokenError(Range(start, end, self.text))) def is_eof(self) -> bool: return self.index >= len(self.tokens) or self.peek_token().type == TokenType.EOF class ParseNode: """Base class for the nodes in the parser tree.""" def parse(self, ctx: ParseContext) -> ParseResult: """Attempts to match the ParseNode at the context's current location.""" start_idx = ctx.index inner_ctx = ctx.create_child() if self._parse(inner_ctx): ctx.apply_child(inner_ctx) if ctx.index == start_idx: return ParseResult.EMPTY else: return ParseResult.SUCCESS else: return ParseResult.FAILURE def _parse(self, ctx: ParseContext) -> bool: raise NotImplementedError() def err(self, message: str) -> "Err": """Causes this ParseNode to raise an exception if it fails to parse. This prevents the parser from backtracking, so you should understand what it does and how the parser works before using it.""" return Err(self, message) def expected(self, expect: str) -> "Err": """Convenience method for err().""" return self.err("Expected " + expect) class Err(ParseNode): """ParseNode that emits a compile error if it fails to parse.""" def __init__(self, child, message: str): self.child = to_parse_node(child) self.message = message def _parse(self, ctx: ParseContext): if self.child.parse(ctx).failed(): start_idx = ctx.start while ctx.tokens[start_idx].type in SKIP_TOKENS: start_idx += 1 start_token = ctx.tokens[start_idx] raise CompileError( self.message, Range(start_token.start, start_token.start, ctx.text) ) return True class Fail(ParseNode): """ParseNode that emits a compile error if it parses successfully.""" def __init__(self, child, message: str): self.child = to_parse_node(child) self.message = message def _parse(self, ctx: ParseContext): if self.child.parse(ctx).succeeded(): start_idx = ctx.start while ctx.tokens[start_idx].type in SKIP_TOKENS: start_idx += 1 start_token = ctx.tokens[start_idx] end_token = ctx.tokens[ctx.index] raise CompileError( self.message, Range.join(start_token.range, end_token.range) ) return True class Group(ParseNode): """ParseNode that creates a match group.""" def __init__(self, ast_type: T.Type[AstNode], child): self.ast_type = ast_type self.child = to_parse_node(child) def _parse(self, ctx: ParseContext) -> bool: ctx.skip() ctx.start_group(self.ast_type) return self.child.parse(ctx).succeeded() class Sequence(ParseNode): """ParseNode that attempts to match all of its children in sequence.""" def __init__(self, *children): self.children = [to_parse_node(child) for child in children] def _parse(self, ctx) -> bool: for child in self.children: if child.parse(ctx).failed(): return False return True class Statement(ParseNode): """ParseNode that attempts to match all of its children in sequence. If any child raises an error, the error will be logged but parsing will continue.""" def __init__(self, *children): self.children = [to_parse_node(child) for child in children] def _parse(self, ctx) -> bool: for child in self.children: try: if child.parse(ctx).failed(): return False except CompileError as e: ctx.errors.append(e) ctx.set_group_incomplete() return True token = ctx.peek_token() if str(token) != ";": ctx.errors.append(CompileError("Expected `;`", token.range)) else: ctx.next_token() return True class AnyOf(ParseNode): """ParseNode that attempts to match exactly one of its children. Child nodes are attempted in order.""" def __init__(self, *children): self.children = children @property def children(self): return self._children @children.setter def children(self, children): self._children = [to_parse_node(child) for child in children] def _parse(self, ctx): for child in self.children: if child.parse(ctx).succeeded(): return True return False class Until(ParseNode): """ParseNode that repeats its child until a delimiting token is found. If the child does not match, one token is skipped and the match is attempted again.""" def __init__(self, child, delimiter, between_delimiter=None): self.child = to_parse_node(child) self.delimiter = to_parse_node(delimiter) self.between_delimiter = ( to_parse_node(between_delimiter) if between_delimiter is not None else None ) def _parse(self, ctx: ParseContext): while not self.delimiter.parse(ctx).succeeded(): if ctx.is_eof(): return False try: if not self.child.parse(ctx).matched(): ctx.skip_unexpected_token() if ( self.between_delimiter is not None and not self.between_delimiter.parse(ctx).succeeded() ): if self.delimiter.parse(ctx).succeeded(): return True else: if ctx.is_eof(): return False ctx.skip_unexpected_token() except CompileError as e: ctx.errors.append(e) ctx.next_token() return True class ZeroOrMore(ParseNode): """ParseNode that matches its child any number of times (including zero times). It cannot fail to parse. If its child raises an exception, one token will be skipped and parsing will continue.""" def __init__(self, child): self.child = to_parse_node(child) def _parse(self, ctx): while True: try: if not self.child.parse(ctx).matched(): return True except CompileError as e: ctx.errors.append(e) ctx.next_token() class Delimited(ParseNode): """ParseNode that matches its first child any number of times (including zero times) with its second child in between and optionally at the end.""" def __init__(self, child, delimiter): self.child = to_parse_node(child) self.delimiter = to_parse_node(delimiter) def _parse(self, ctx): while self.child.parse(ctx).matched() and self.delimiter.parse(ctx).matched(): pass return True class Optional(ParseNode): """ParseNode that matches its child zero or one times. It cannot fail to parse.""" def __init__(self, child): self.child = to_parse_node(child) def _parse(self, ctx): self.child.parse(ctx) return True class Eof(ParseNode): """ParseNode that matches an EOF token.""" def _parse(self, ctx: ParseContext) -> bool: token = ctx.next_token() return token.type == TokenType.EOF class Match(ParseNode): """ParseNode that matches the given literal token.""" def __init__(self, op: str): self.op = op def _parse(self, ctx: ParseContext) -> bool: token = ctx.next_token() return str(token) == self.op def expected(self, expect: T.Optional[str] = None): """Convenience method for err().""" if expect is None: return self.err(f"Expected '{self.op}'") else: return self.err("Expected " + expect) class UseIdent(ParseNode): """ParseNode that matches any identifier and sets it in a key=value pair on the containing match group.""" def __init__(self, key: str): self.key = key def _parse(self, ctx: ParseContext): token = ctx.next_token() if token.type != TokenType.IDENT: return False ctx.set_group_val(self.key, str(token), token) return True class UseNumber(ParseNode): """ParseNode that matches a number and sets it in a key=value pair on the containing match group.""" def __init__(self, key: str): self.key = key def _parse(self, ctx: ParseContext): token = ctx.next_token() if token.type != TokenType.NUMBER: return False number = token.get_number() ctx.set_group_val(self.key, number, token) return True class UseNumberText(ParseNode): """ParseNode that matches a number, but sets its *original text* it in a key=value pair on the containing match group.""" def __init__(self, key: str): self.key = key def _parse(self, ctx: ParseContext): token = ctx.next_token() if token.type != TokenType.NUMBER: return False ctx.set_group_val(self.key, str(token), token) return True class UseQuoted(ParseNode): """ParseNode that matches a quoted string and sets it in a key=value pair on the containing match group.""" def __init__(self, key: str): self.key = key def _parse(self, ctx: ParseContext): token = ctx.next_token() if token.type != TokenType.QUOTED: return False unescaped = None try: unescaped = utils.unescape_quote(str(token)) except utils.UnescapeError as e: start = ctx.tokens[ctx.index - 1].start range = Range(start + e.start, start + e.end, ctx.text) ctx.errors.append( CompileError(f"Invalid escape sequence '{range.text}'", range) ) ctx.set_group_val(self.key, unescaped, token) return True class UseLiteral(ParseNode): """ParseNode that doesn't match anything, but rather sets a static key=value pair on the containing group. Useful for, e.g., property and signal flags: `Sequence(Keyword("swapped"), UseLiteral("swapped", True))`""" def __init__(self, key: str, literal: T.Any): self.key = key self.literal = literal def _parse(self, ctx: ParseContext): ctx.set_group_val(self.key, self.literal, None) return True class UseExact(ParseNode): """Matches the given identifier and sets it as a named token.""" def __init__(self, key: str, string: str): self.key = key self.string = string def _parse(self, ctx: ParseContext): token = ctx.next_token() ctx.set_group_val(self.key, self.string, token) return str(token) == self.string class Keyword(ParseNode): """Matches the given identifier and sets it as a named token, with the name being the identifier itself.""" def __init__(self, kw: str): self.kw = kw self.set_token = True def _parse(self, ctx: ParseContext): token = ctx.next_token() ctx.set_group_val(self.kw, True, token) return str(token) == self.kw class Mark(ParseNode): def __init__(self, key: str): self.key = key def _parse(self, ctx: ParseContext): ctx.set_mark(self.key) return True def to_parse_node(value) -> ParseNode: if isinstance(value, str): return Match(value) elif isinstance(value, list): return Sequence(*value) elif isinstance(value, type) and hasattr(value, "grammar"): return Group(value, getattr(value, "grammar")) elif isinstance(value, ParseNode): return value else: raise CompilerBugError()