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ORPA-pyOpenRPA/Resources/WPy64-3720/python-3.7.2.amd64/Lib/site-packages/sphinx/domains/c.py

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"""
sphinx.domains.c
~~~~~~~~~~~~~~~~
The C language domain.
:copyright: Copyright 2007-2020 by the Sphinx team, see AUTHORS.
:license: BSD, see LICENSE for details.
"""
import re
from typing import (Any, Callable, Dict, Generator, Iterator, List, Tuple, Type, TypeVar,
Union, cast)
from docutils import nodes
from docutils.nodes import Element, Node, TextElement, system_message
from docutils.parsers.rst import directives
from sphinx import addnodes
from sphinx.addnodes import pending_xref
from sphinx.application import Sphinx
from sphinx.builders import Builder
from sphinx.deprecation import RemovedInSphinx50Warning
from sphinx.directives import ObjectDescription
from sphinx.domains import Domain, ObjType
from sphinx.environment import BuildEnvironment
from sphinx.locale import _, __
from sphinx.roles import SphinxRole, XRefRole
from sphinx.transforms import SphinxTransform
from sphinx.transforms.post_transforms import ReferencesResolver
from sphinx.util import logging
from sphinx.util.cfamily import (ASTAttribute, ASTBaseBase, ASTBaseParenExprList, BaseParser,
DefinitionError, NoOldIdError, StringifyTransform,
UnsupportedMultiCharacterCharLiteral, anon_identifier_re,
binary_literal_re, char_literal_re, float_literal_re,
float_literal_suffix_re, hex_literal_re, identifier_re,
integer_literal_re, integers_literal_suffix_re,
octal_literal_re, verify_description_mode)
from sphinx.util.docfields import Field, TypedField
from sphinx.util.docutils import SphinxDirective
from sphinx.util.nodes import make_refnode
logger = logging.getLogger(__name__)
T = TypeVar('T')
DeclarationType = Union[
"ASTStruct", "ASTUnion", "ASTEnum", "ASTEnumerator",
"ASTType", "ASTTypeWithInit", "ASTMacro",
]
# https://en.cppreference.com/w/c/keyword
_keywords = [
'auto', 'break', 'case', 'char', 'const', 'continue', 'default', 'do', 'double',
'else', 'enum', 'extern', 'float', 'for', 'goto', 'if', 'inline', 'int', 'long',
'register', 'restrict', 'return', 'short', 'signed', 'sizeof', 'static', 'struct',
'switch', 'typedef', 'union', 'unsigned', 'void', 'volatile', 'while',
'_Alignas', 'alignas', '_Alignof', 'alignof', '_Atomic', '_Bool', 'bool',
'_Complex', 'complex', '_Generic', '_Imaginary', 'imaginary',
'_Noreturn', 'noreturn', '_Static_assert', 'static_assert',
'_Thread_local', 'thread_local',
]
# these are ordered by preceedence
_expression_bin_ops = [
['||', 'or'],
['&&', 'and'],
['|', 'bitor'],
['^', 'xor'],
['&', 'bitand'],
['==', '!=', 'not_eq'],
['<=', '>=', '<', '>'],
['<<', '>>'],
['+', '-'],
['*', '/', '%'],
['.*', '->*']
]
_expression_unary_ops = ["++", "--", "*", "&", "+", "-", "!", "not", "~", "compl"]
_expression_assignment_ops = ["=", "*=", "/=", "%=", "+=", "-=",
">>=", "<<=", "&=", "and_eq", "^=", "xor_eq", "|=", "or_eq"]
_max_id = 1
_id_prefix = [None, 'c.', 'Cv2.']
# Ids are used in lookup keys which are used across pickled files,
# so when _max_id changes, make sure to update the ENV_VERSION.
_string_re = re.compile(r"[LuU8]?('([^'\\]*(?:\\.[^'\\]*)*)'"
r'|"([^"\\]*(?:\\.[^"\\]*)*)")', re.S)
class _DuplicateSymbolError(Exception):
def __init__(self, symbol: "Symbol", declaration: "ASTDeclaration") -> None:
assert symbol
assert declaration
self.symbol = symbol
self.declaration = declaration
def __str__(self) -> str:
return "Internal C duplicate symbol error:\n%s" % self.symbol.dump(0)
class ASTBase(ASTBaseBase):
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
raise NotImplementedError(repr(self))
# Names
################################################################################
class ASTIdentifier(ASTBaseBase):
def __init__(self, identifier: str) -> None:
assert identifier is not None
assert len(identifier) != 0
self.identifier = identifier
def __eq__(self, other: Any) -> bool:
return type(other) is ASTIdentifier and self.identifier == other.identifier
def is_anon(self) -> bool:
return self.identifier[0] == '@'
# and this is where we finally make a difference between __str__ and the display string
def __str__(self) -> str:
return self.identifier
def get_display_string(self) -> str:
return "[anonymous]" if self.is_anon() else self.identifier
def describe_signature(self, signode: TextElement, mode: str, env: "BuildEnvironment",
prefix: str, symbol: "Symbol") -> None:
# note: slightly different signature of describe_signature due to the prefix
verify_description_mode(mode)
if mode == 'markType':
targetText = prefix + self.identifier
pnode = addnodes.pending_xref('', refdomain='c',
reftype='identifier',
reftarget=targetText, modname=None,
classname=None)
key = symbol.get_lookup_key()
pnode['c:parent_key'] = key
if self.is_anon():
pnode += nodes.strong(text="[anonymous]")
else:
pnode += nodes.Text(self.identifier)
signode += pnode
elif mode == 'lastIsName':
if self.is_anon():
signode += nodes.strong(text="[anonymous]")
else:
signode += addnodes.desc_name(self.identifier, self.identifier)
elif mode == 'noneIsName':
if self.is_anon():
signode += nodes.strong(text="[anonymous]")
else:
signode += nodes.Text(self.identifier)
else:
raise Exception('Unknown description mode: %s' % mode)
class ASTNestedName(ASTBase):
def __init__(self, names: List[ASTIdentifier], rooted: bool) -> None:
assert len(names) > 0
self.names = names
self.rooted = rooted
@property
def name(self) -> "ASTNestedName":
return self
def get_id(self, version: int) -> str:
return '.'.join(str(n) for n in self.names)
def _stringify(self, transform: StringifyTransform) -> str:
res = '.'.join(transform(n) for n in self.names)
if self.rooted:
return '.' + res
else:
return res
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
# just print the name part, with template args, not template params
if mode == 'noneIsName':
signode += nodes.Text(str(self))
elif mode == 'param':
name = str(self)
signode += nodes.emphasis(name, name)
elif mode == 'markType' or mode == 'lastIsName' or mode == 'markName':
# Each element should be a pending xref targeting the complete
# prefix.
prefix = ''
first = True
names = self.names[:-1] if mode == 'lastIsName' else self.names
# If lastIsName, then wrap all of the prefix in a desc_addname,
# else append directly to signode.
# TODO: also for C?
# NOTE: Breathe previously relied on the prefix being in the desc_addname node,
# so it can remove it in inner declarations.
dest = signode
if mode == 'lastIsName':
dest = addnodes.desc_addname()
if self.rooted:
prefix += '.'
if mode == 'lastIsName' and len(names) == 0:
signode += nodes.Text('.')
else:
dest += nodes.Text('.')
for i in range(len(names)):
ident = names[i]
if not first:
dest += nodes.Text('.')
prefix += '.'
first = False
txt_ident = str(ident)
if txt_ident != '':
ident.describe_signature(dest, 'markType', env, prefix, symbol)
prefix += txt_ident
if mode == 'lastIsName':
if len(self.names) > 1:
dest += addnodes.desc_addname('.', '.')
signode += dest
self.names[-1].describe_signature(signode, mode, env, '', symbol)
else:
raise Exception('Unknown description mode: %s' % mode)
################################################################################
# Expressions
################################################################################
class ASTExpression(ASTBase):
pass
# Primary expressions
################################################################################
class ASTLiteral(ASTExpression):
pass
class ASTBooleanLiteral(ASTLiteral):
def __init__(self, value: bool) -> None:
self.value = value
def _stringify(self, transform: StringifyTransform) -> str:
if self.value:
return 'true'
else:
return 'false'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text(str(self)))
class ASTNumberLiteral(ASTLiteral):
def __init__(self, data: str) -> None:
self.data = data
def _stringify(self, transform: StringifyTransform) -> str:
return self.data
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
txt = str(self)
signode.append(nodes.Text(txt, txt))
class ASTCharLiteral(ASTLiteral):
def __init__(self, prefix: str, data: str) -> None:
self.prefix = prefix # may be None when no prefix
self.data = data
decoded = data.encode().decode('unicode-escape')
if len(decoded) == 1:
self.value = ord(decoded)
else:
raise UnsupportedMultiCharacterCharLiteral(decoded)
def _stringify(self, transform: StringifyTransform) -> str:
if self.prefix is None:
return "'" + self.data + "'"
else:
return self.prefix + "'" + self.data + "'"
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
txt = str(self)
signode.append(nodes.Text(txt, txt))
class ASTStringLiteral(ASTLiteral):
def __init__(self, data: str) -> None:
self.data = data
def _stringify(self, transform: StringifyTransform) -> str:
return self.data
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
txt = str(self)
signode.append(nodes.Text(txt, txt))
class ASTIdExpression(ASTExpression):
def __init__(self, name: ASTNestedName):
# note: this class is basically to cast a nested name as an expression
self.name = name
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.name)
def get_id(self, version: int) -> str:
return self.name.get_id(version)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.name.describe_signature(signode, mode, env, symbol)
class ASTParenExpr(ASTExpression):
def __init__(self, expr):
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
return '(' + transform(self.expr) + ')'
def get_id(self, version: int) -> str:
return self.expr.get_id(version)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('(', '('))
self.expr.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')', ')'))
# Postfix expressions
################################################################################
class ASTPostfixOp(ASTBase):
pass
class ASTPostfixCallExpr(ASTPostfixOp):
def __init__(self, lst: Union["ASTParenExprList", "ASTBracedInitList"]) -> None:
self.lst = lst
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.lst)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.lst.describe_signature(signode, mode, env, symbol)
class ASTPostfixArray(ASTPostfixOp):
def __init__(self, expr: ASTExpression) -> None:
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
return '[' + transform(self.expr) + ']'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('['))
self.expr.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(']'))
class ASTPostfixInc(ASTPostfixOp):
def _stringify(self, transform: StringifyTransform) -> str:
return '++'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('++'))
class ASTPostfixDec(ASTPostfixOp):
def _stringify(self, transform: StringifyTransform) -> str:
return '--'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('--'))
class ASTPostfixMember(ASTPostfixOp):
def __init__(self, name):
self.name = name
def _stringify(self, transform: StringifyTransform) -> str:
return '.' + transform(self.name)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('.'))
self.name.describe_signature(signode, 'noneIsName', env, symbol)
class ASTPostfixMemberOfPointer(ASTPostfixOp):
def __init__(self, name):
self.name = name
def _stringify(self, transform: StringifyTransform) -> str:
return '->' + transform(self.name)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('->'))
self.name.describe_signature(signode, 'noneIsName', env, symbol)
class ASTPostfixExpr(ASTExpression):
def __init__(self, prefix: ASTExpression, postFixes: List[ASTPostfixOp]):
self.prefix = prefix
self.postFixes = postFixes
def _stringify(self, transform: StringifyTransform) -> str:
res = [transform(self.prefix)]
for p in self.postFixes:
res.append(transform(p))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.prefix.describe_signature(signode, mode, env, symbol)
for p in self.postFixes:
p.describe_signature(signode, mode, env, symbol)
# Unary expressions
################################################################################
class ASTUnaryOpExpr(ASTExpression):
def __init__(self, op: str, expr: ASTExpression):
self.op = op
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
if self.op[0] in 'cn':
return self.op + " " + transform(self.expr)
else:
return self.op + transform(self.expr)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text(self.op))
if self.op[0] in 'cn':
signode.append(nodes.Text(" "))
self.expr.describe_signature(signode, mode, env, symbol)
class ASTSizeofType(ASTExpression):
def __init__(self, typ):
self.typ = typ
def _stringify(self, transform: StringifyTransform) -> str:
return "sizeof(" + transform(self.typ) + ")"
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('sizeof('))
self.typ.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
class ASTSizeofExpr(ASTExpression):
def __init__(self, expr: ASTExpression):
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
return "sizeof " + transform(self.expr)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('sizeof '))
self.expr.describe_signature(signode, mode, env, symbol)
class ASTAlignofExpr(ASTExpression):
def __init__(self, typ: "ASTType"):
self.typ = typ
def _stringify(self, transform: StringifyTransform) -> str:
return "alignof(" + transform(self.typ) + ")"
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('alignof('))
self.typ.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
# Other expressions
################################################################################
class ASTCastExpr(ASTExpression):
def __init__(self, typ: "ASTType", expr: ASTExpression):
self.typ = typ
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
res = ['(']
res.append(transform(self.typ))
res.append(')')
res.append(transform(self.expr))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('('))
self.typ.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
self.expr.describe_signature(signode, mode, env, symbol)
class ASTBinOpExpr(ASTBase):
def __init__(self, exprs: List[ASTExpression], ops: List[str]):
assert len(exprs) > 0
assert len(exprs) == len(ops) + 1
self.exprs = exprs
self.ops = ops
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append(transform(self.exprs[0]))
for i in range(1, len(self.exprs)):
res.append(' ')
res.append(self.ops[i - 1])
res.append(' ')
res.append(transform(self.exprs[i]))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.exprs[0].describe_signature(signode, mode, env, symbol)
for i in range(1, len(self.exprs)):
signode.append(nodes.Text(' '))
signode.append(nodes.Text(self.ops[i - 1]))
signode.append(nodes.Text(' '))
self.exprs[i].describe_signature(signode, mode, env, symbol)
class ASTAssignmentExpr(ASTExpression):
def __init__(self, exprs: List[ASTExpression], ops: List[str]):
assert len(exprs) > 0
assert len(exprs) == len(ops) + 1
self.exprs = exprs
self.ops = ops
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append(transform(self.exprs[0]))
for i in range(1, len(self.exprs)):
res.append(' ')
res.append(self.ops[i - 1])
res.append(' ')
res.append(transform(self.exprs[i]))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.exprs[0].describe_signature(signode, mode, env, symbol)
for i in range(1, len(self.exprs)):
signode.append(nodes.Text(' '))
signode.append(nodes.Text(self.ops[i - 1]))
signode.append(nodes.Text(' '))
self.exprs[i].describe_signature(signode, mode, env, symbol)
class ASTFallbackExpr(ASTExpression):
def __init__(self, expr: str):
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
return self.expr
def get_id(self, version: int) -> str:
return str(self.expr)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode += nodes.Text(self.expr)
################################################################################
# Types
################################################################################
class ASTTrailingTypeSpec(ASTBase):
pass
class ASTTrailingTypeSpecFundamental(ASTTrailingTypeSpec):
def __init__(self, name: str) -> None:
self.name = name
def _stringify(self, transform: StringifyTransform) -> str:
return self.name
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode += nodes.Text(str(self.name))
class ASTTrailingTypeSpecName(ASTTrailingTypeSpec):
def __init__(self, prefix: str, nestedName: ASTNestedName) -> None:
self.prefix = prefix
self.nestedName = nestedName
@property
def name(self) -> ASTNestedName:
return self.nestedName
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.prefix:
res.append(self.prefix)
res.append(' ')
res.append(transform(self.nestedName))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
if self.prefix:
signode += addnodes.desc_annotation(self.prefix, self.prefix)
signode += nodes.Text(' ')
self.nestedName.describe_signature(signode, mode, env, symbol=symbol)
class ASTFunctionParameter(ASTBase):
def __init__(self, arg: "ASTTypeWithInit", ellipsis: bool = False) -> None:
self.arg = arg
self.ellipsis = ellipsis
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
# the anchor will be our parent
return symbol.parent.declaration.get_id(version, prefixed=False)
def _stringify(self, transform: StringifyTransform) -> str:
if self.ellipsis:
return '...'
else:
return transform(self.arg)
def describe_signature(self, signode: Any, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
if self.ellipsis:
signode += nodes.Text('...')
else:
self.arg.describe_signature(signode, mode, env, symbol=symbol)
class ASTParameters(ASTBase):
def __init__(self, args: List[ASTFunctionParameter], attrs: List[ASTAttribute]) -> None:
self.args = args
self.attrs = attrs
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.args
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append('(')
first = True
for a in self.args:
if not first:
res.append(', ')
first = False
res.append(str(a))
res.append(')')
for attr in self.attrs:
res.append(' ')
res.append(transform(attr))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
paramlist = addnodes.desc_parameterlist()
for arg in self.args:
param = addnodes.desc_parameter('', '', noemph=True)
if mode == 'lastIsName': # i.e., outer-function params
arg.describe_signature(param, 'param', env, symbol=symbol)
else:
arg.describe_signature(param, 'markType', env, symbol=symbol)
paramlist += param
signode += paramlist
for attr in self.attrs:
signode += nodes.Text(' ')
attr.describe_signature(signode)
class ASTDeclSpecsSimple(ASTBaseBase):
def __init__(self, storage: str, threadLocal: str, inline: bool,
restrict: bool, volatile: bool, const: bool, attrs: List[Any]) -> None:
self.storage = storage
self.threadLocal = threadLocal
self.inline = inline
self.restrict = restrict
self.volatile = volatile
self.const = const
self.attrs = attrs
def mergeWith(self, other: "ASTDeclSpecsSimple") -> "ASTDeclSpecsSimple":
if not other:
return self
return ASTDeclSpecsSimple(self.storage or other.storage,
self.threadLocal or other.threadLocal,
self.inline or other.inline,
self.volatile or other.volatile,
self.const or other.const,
self.restrict or other.restrict,
self.attrs + other.attrs)
def _stringify(self, transform: StringifyTransform) -> str:
res = [] # type: List[str]
res.extend(transform(attr) for attr in self.attrs)
if self.storage:
res.append(self.storage)
if self.threadLocal:
res.append(self.threadLocal)
if self.inline:
res.append('inline')
if self.restrict:
res.append('restrict')
if self.volatile:
res.append('volatile')
if self.const:
res.append('const')
return ' '.join(res)
def describe_signature(self, modifiers: List[Node]) -> None:
def _add(modifiers: List[Node], text: str) -> None:
if len(modifiers) > 0:
modifiers.append(nodes.Text(' '))
modifiers.append(addnodes.desc_annotation(text, text))
for attr in self.attrs:
if len(modifiers) > 0:
modifiers.append(nodes.Text(' '))
modifiers.append(attr.describe_signature(modifiers))
if self.storage:
_add(modifiers, self.storage)
if self.threadLocal:
_add(modifiers, self.threadLocal)
if self.inline:
_add(modifiers, 'inline')
if self.restrict:
_add(modifiers, 'restrict')
if self.volatile:
_add(modifiers, 'volatile')
if self.const:
_add(modifiers, 'const')
class ASTDeclSpecs(ASTBase):
def __init__(self, outer: str,
leftSpecs: ASTDeclSpecsSimple,
rightSpecs: ASTDeclSpecsSimple,
trailing: ASTTrailingTypeSpec) -> None:
# leftSpecs and rightSpecs are used for output
# allSpecs are used for id generation TODO: remove?
self.outer = outer
self.leftSpecs = leftSpecs
self.rightSpecs = rightSpecs
self.allSpecs = self.leftSpecs.mergeWith(self.rightSpecs)
self.trailingTypeSpec = trailing
def _stringify(self, transform: StringifyTransform) -> str:
res = [] # type: List[str]
l = transform(self.leftSpecs)
if len(l) > 0:
res.append(l)
if self.trailingTypeSpec:
if len(res) > 0:
res.append(" ")
res.append(transform(self.trailingTypeSpec))
r = str(self.rightSpecs)
if len(r) > 0:
if len(res) > 0:
res.append(" ")
res.append(r)
return "".join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
modifiers = [] # type: List[Node]
def _add(modifiers: List[Node], text: str) -> None:
if len(modifiers) > 0:
modifiers.append(nodes.Text(' '))
modifiers.append(addnodes.desc_annotation(text, text))
self.leftSpecs.describe_signature(modifiers)
for m in modifiers:
signode += m
if self.trailingTypeSpec:
if len(modifiers) > 0:
signode += nodes.Text(' ')
self.trailingTypeSpec.describe_signature(signode, mode, env,
symbol=symbol)
modifiers = []
self.rightSpecs.describe_signature(modifiers)
if len(modifiers) > 0:
signode += nodes.Text(' ')
for m in modifiers:
signode += m
# Declarator
################################################################################
class ASTArray(ASTBase):
def __init__(self, static: bool, const: bool, volatile: bool, restrict: bool,
vla: bool, size: ASTExpression):
self.static = static
self.const = const
self.volatile = volatile
self.restrict = restrict
self.vla = vla
self.size = size
if vla:
assert size is None
if size is not None:
assert not vla
def _stringify(self, transform: StringifyTransform) -> str:
el = []
if self.static:
el.append('static')
if self.restrict:
el.append('restrict')
if self.volatile:
el.append('volatile')
if self.const:
el.append('const')
if self.vla:
return '[' + ' '.join(el) + '*]'
elif self.size:
el.append(transform(self.size))
return '[' + ' '.join(el) + ']'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
signode.append(nodes.Text("["))
addSpace = False
def _add(signode: TextElement, text: str) -> bool:
if addSpace:
signode += nodes.Text(' ')
signode += addnodes.desc_annotation(text, text)
return True
if self.static:
addSpace = _add(signode, 'static')
if self.restrict:
addSpace = _add(signode, 'restrict')
if self.volatile:
addSpace = _add(signode, 'volatile')
if self.const:
addSpace = _add(signode, 'const')
if self.vla:
signode.append(nodes.Text('*'))
elif self.size:
if addSpace:
signode += nodes.Text(' ')
self.size.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text("]"))
class ASTDeclarator(ASTBase):
@property
def name(self) -> ASTNestedName:
raise NotImplementedError(repr(self))
@property
def function_params(self) -> List[ASTFunctionParameter]:
raise NotImplementedError(repr(self))
def require_space_after_declSpecs(self) -> bool:
raise NotImplementedError(repr(self))
class ASTDeclaratorNameParam(ASTDeclarator):
def __init__(self, declId: ASTNestedName,
arrayOps: List[ASTArray], param: ASTParameters) -> None:
self.declId = declId
self.arrayOps = arrayOps
self.param = param
@property
def name(self) -> ASTNestedName:
return self.declId
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.param.function_params
# ------------------------------------------------------------------------
def require_space_after_declSpecs(self) -> bool:
return self.declId is not None
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.declId:
res.append(transform(self.declId))
for op in self.arrayOps:
res.append(transform(op))
if self.param:
res.append(transform(self.param))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
if self.declId:
self.declId.describe_signature(signode, mode, env, symbol)
for op in self.arrayOps:
op.describe_signature(signode, mode, env, symbol)
if self.param:
self.param.describe_signature(signode, mode, env, symbol)
class ASTDeclaratorNameBitField(ASTDeclarator):
def __init__(self, declId: ASTNestedName, size: ASTExpression):
self.declId = declId
self.size = size
@property
def name(self) -> ASTNestedName:
return self.declId
# ------------------------------------------------------------------------
def require_space_after_declSpecs(self) -> bool:
return self.declId is not None
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.declId:
res.append(transform(self.declId))
res.append(" : ")
res.append(transform(self.size))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
if self.declId:
self.declId.describe_signature(signode, mode, env, symbol)
signode += nodes.Text(' : ', ' : ')
self.size.describe_signature(signode, mode, env, symbol)
class ASTDeclaratorPtr(ASTDeclarator):
def __init__(self, next: ASTDeclarator, restrict: bool, volatile: bool, const: bool,
attrs: Any) -> None:
assert next
self.next = next
self.restrict = restrict
self.volatile = volatile
self.const = const
self.attrs = attrs
@property
def name(self) -> ASTNestedName:
return self.next.name
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.next.function_params
def require_space_after_declSpecs(self) -> bool:
return self.const or self.volatile or self.restrict or \
len(self.attrs) > 0 or \
self.next.require_space_after_declSpecs()
def _stringify(self, transform: StringifyTransform) -> str:
res = ['*']
for a in self.attrs:
res.append(transform(a))
if len(self.attrs) > 0 and (self.restrict or self.volatile or self.const):
res.append(' ')
if self.restrict:
res.append('restrict')
if self.volatile:
if self.restrict:
res.append(' ')
res.append('volatile')
if self.const:
if self.restrict or self.volatile:
res.append(' ')
res.append('const')
if self.const or self.volatile or self.restrict or len(self.attrs) > 0:
if self.next.require_space_after_declSpecs():
res.append(' ')
res.append(transform(self.next))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
signode += nodes.Text("*")
for a in self.attrs:
a.describe_signature(signode)
if len(self.attrs) > 0 and (self.restrict or self.volatile or self.const):
signode += nodes.Text(' ')
def _add_anno(signode: TextElement, text: str) -> None:
signode += addnodes.desc_annotation(text, text)
if self.restrict:
_add_anno(signode, 'restrict')
if self.volatile:
if self.restrict:
signode += nodes.Text(' ')
_add_anno(signode, 'volatile')
if self.const:
if self.restrict or self.volatile:
signode += nodes.Text(' ')
_add_anno(signode, 'const')
if self.const or self.volatile or self.restrict or len(self.attrs) > 0:
if self.next.require_space_after_declSpecs():
signode += nodes.Text(' ')
self.next.describe_signature(signode, mode, env, symbol)
class ASTDeclaratorParen(ASTDeclarator):
def __init__(self, inner: ASTDeclarator, next: ASTDeclarator) -> None:
assert inner
assert next
self.inner = inner
self.next = next
# TODO: we assume the name and params are in inner
@property
def name(self) -> ASTNestedName:
return self.inner.name
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.inner.function_params
def require_space_after_declSpecs(self) -> bool:
return True
def _stringify(self, transform: StringifyTransform) -> str:
res = ['(']
res.append(transform(self.inner))
res.append(')')
res.append(transform(self.next))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
signode += nodes.Text('(')
self.inner.describe_signature(signode, mode, env, symbol)
signode += nodes.Text(')')
self.next.describe_signature(signode, "noneIsName", env, symbol)
# Initializer
################################################################################
class ASTParenExprList(ASTBaseParenExprList):
def __init__(self, exprs: List[ASTExpression]) -> None:
self.exprs = exprs
def _stringify(self, transform: StringifyTransform) -> str:
exprs = [transform(e) for e in self.exprs]
return '(%s)' % ', '.join(exprs)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
signode.append(nodes.Text('('))
first = True
for e in self.exprs:
if not first:
signode.append(nodes.Text(', '))
else:
first = False
e.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
class ASTBracedInitList(ASTBase):
def __init__(self, exprs: List[ASTExpression], trailingComma: bool) -> None:
self.exprs = exprs
self.trailingComma = trailingComma
def _stringify(self, transform: StringifyTransform) -> str:
exprs = [transform(e) for e in self.exprs]
trailingComma = ',' if self.trailingComma else ''
return '{%s%s}' % (', '.join(exprs), trailingComma)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
signode.append(nodes.Text('{'))
first = True
for e in self.exprs:
if not first:
signode.append(nodes.Text(', '))
else:
first = False
e.describe_signature(signode, mode, env, symbol)
if self.trailingComma:
signode.append(nodes.Text(','))
signode.append(nodes.Text('}'))
class ASTInitializer(ASTBase):
def __init__(self, value: Union[ASTBracedInitList, ASTExpression],
hasAssign: bool = True) -> None:
self.value = value
self.hasAssign = hasAssign
def _stringify(self, transform: StringifyTransform) -> str:
val = transform(self.value)
if self.hasAssign:
return ' = ' + val
else:
return val
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
if self.hasAssign:
signode.append(nodes.Text(' = '))
self.value.describe_signature(signode, 'markType', env, symbol)
class ASTType(ASTBase):
def __init__(self, declSpecs: ASTDeclSpecs, decl: ASTDeclarator) -> None:
assert declSpecs
assert decl
self.declSpecs = declSpecs
self.decl = decl
@property
def name(self) -> ASTNestedName:
return self.decl.name
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
return symbol.get_full_nested_name().get_id(version)
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.decl.function_params
def _stringify(self, transform: StringifyTransform) -> str:
res = []
declSpecs = transform(self.declSpecs)
res.append(declSpecs)
if self.decl.require_space_after_declSpecs() and len(declSpecs) > 0:
res.append(' ')
res.append(transform(self.decl))
return ''.join(res)
def get_type_declaration_prefix(self) -> str:
if self.declSpecs.trailingTypeSpec:
return 'typedef'
else:
return 'type'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
self.declSpecs.describe_signature(signode, 'markType', env, symbol)
if (self.decl.require_space_after_declSpecs() and
len(str(self.declSpecs)) > 0):
signode += nodes.Text(' ')
# for parameters that don't really declare new names we get 'markType',
# this should not be propagated, but be 'noneIsName'.
if mode == 'markType':
mode = 'noneIsName'
self.decl.describe_signature(signode, mode, env, symbol)
class ASTTypeWithInit(ASTBase):
def __init__(self, type: ASTType, init: ASTInitializer) -> None:
self.type = type
self.init = init
@property
def name(self) -> ASTNestedName:
return self.type.name
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
return self.type.get_id(version, objectType, symbol)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append(transform(self.type))
if self.init:
res.append(transform(self.init))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
self.type.describe_signature(signode, mode, env, symbol)
if self.init:
self.init.describe_signature(signode, mode, env, symbol)
class ASTMacroParameter(ASTBase):
def __init__(self, arg: ASTNestedName, ellipsis: bool = False,
variadic: bool = False) -> None:
self.arg = arg
self.ellipsis = ellipsis
self.variadic = variadic
def _stringify(self, transform: StringifyTransform) -> str:
if self.ellipsis:
return '...'
elif self.variadic:
return transform(self.arg) + '...'
else:
return transform(self.arg)
def describe_signature(self, signode: Any, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
if self.ellipsis:
signode += nodes.Text('...')
elif self.variadic:
name = str(self)
signode += nodes.emphasis(name, name)
else:
self.arg.describe_signature(signode, mode, env, symbol=symbol)
class ASTMacro(ASTBase):
def __init__(self, ident: ASTNestedName, args: List[ASTMacroParameter]) -> None:
self.ident = ident
self.args = args
@property
def name(self) -> ASTNestedName:
return self.ident
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
return symbol.get_full_nested_name().get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append(transform(self.ident))
if self.args is not None:
res.append('(')
first = True
for arg in self.args:
if not first:
res.append(', ')
first = False
res.append(transform(arg))
res.append(')')
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
self.ident.describe_signature(signode, mode, env, symbol)
if self.args is None:
return
paramlist = addnodes.desc_parameterlist()
for arg in self.args:
param = addnodes.desc_parameter('', '', noemph=True)
arg.describe_signature(param, 'param', env, symbol=symbol)
paramlist += param
signode += paramlist
class ASTStruct(ASTBase):
def __init__(self, name: ASTNestedName) -> None:
self.name = name
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
return symbol.get_full_nested_name().get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.name)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
self.name.describe_signature(signode, mode, env, symbol=symbol)
class ASTUnion(ASTBase):
def __init__(self, name: ASTNestedName) -> None:
self.name = name
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
return symbol.get_full_nested_name().get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.name)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
self.name.describe_signature(signode, mode, env, symbol=symbol)
class ASTEnum(ASTBase):
def __init__(self, name: ASTNestedName) -> None:
self.name = name
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
return symbol.get_full_nested_name().get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.name)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
self.name.describe_signature(signode, mode, env, symbol=symbol)
class ASTEnumerator(ASTBase):
def __init__(self, name: ASTNestedName, init: ASTInitializer) -> None:
self.name = name
self.init = init
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
return symbol.get_full_nested_name().get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append(transform(self.name))
if self.init:
res.append(transform(self.init))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
self.name.describe_signature(signode, mode, env, symbol)
if self.init:
self.init.describe_signature(signode, 'markType', env, symbol)
class ASTDeclaration(ASTBaseBase):
def __init__(self, objectType: str, directiveType: str,
declaration: Union[DeclarationType, ASTFunctionParameter],
semicolon: bool = False) -> None:
self.objectType = objectType
self.directiveType = directiveType
self.declaration = declaration
self.semicolon = semicolon
self.symbol = None # type: Symbol
# set by CObject._add_enumerator_to_parent
self.enumeratorScopedSymbol = None # type: Symbol
def clone(self) -> "ASTDeclaration":
return ASTDeclaration(self.objectType, self.directiveType,
self.declaration.clone(), self.semicolon)
@property
def name(self) -> ASTNestedName:
decl = cast(DeclarationType, self.declaration)
return decl.name
@property
def function_params(self) -> List[ASTFunctionParameter]:
if self.objectType != 'function':
return None
decl = cast(ASTType, self.declaration)
return decl.function_params
def get_id(self, version: int, prefixed: bool = True) -> str:
if self.objectType == 'enumerator' and self.enumeratorScopedSymbol:
return self.enumeratorScopedSymbol.declaration.get_id(version, prefixed)
id_ = self.declaration.get_id(version, self.objectType, self.symbol)
if prefixed:
return _id_prefix[version] + id_
else:
return id_
def get_newest_id(self) -> str:
return self.get_id(_max_id, True)
def _stringify(self, transform: StringifyTransform) -> str:
res = transform(self.declaration)
if self.semicolon:
res += ';'
return res
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", options: Dict) -> None:
verify_description_mode(mode)
assert self.symbol
# The caller of the domain added a desc_signature node.
# Always enable multiline:
signode['is_multiline'] = True
# Put each line in a desc_signature_line node.
mainDeclNode = addnodes.desc_signature_line()
mainDeclNode.sphinx_line_type = 'declarator'
mainDeclNode['add_permalink'] = not self.symbol.isRedeclaration
signode += mainDeclNode
if self.objectType == 'member':
pass
elif self.objectType == 'function':
pass
elif self.objectType == 'macro':
pass
elif self.objectType == 'struct':
mainDeclNode += addnodes.desc_annotation('struct ', 'struct ')
elif self.objectType == 'union':
mainDeclNode += addnodes.desc_annotation('union ', 'union ')
elif self.objectType == 'enum':
mainDeclNode += addnodes.desc_annotation('enum ', 'enum ')
elif self.objectType == 'enumerator':
mainDeclNode += addnodes.desc_annotation('enumerator ', 'enumerator ')
elif self.objectType == 'type':
decl = cast(ASTType, self.declaration)
prefix = decl.get_type_declaration_prefix()
prefix += ' '
mainDeclNode += addnodes.desc_annotation(prefix, prefix)
else:
assert False
self.declaration.describe_signature(mainDeclNode, mode, env, self.symbol)
if self.semicolon:
mainDeclNode += nodes.Text(';')
class SymbolLookupResult:
def __init__(self, symbols: Iterator["Symbol"], parentSymbol: "Symbol",
ident: ASTIdentifier) -> None:
self.symbols = symbols
self.parentSymbol = parentSymbol
self.ident = ident
class LookupKey:
def __init__(self, data: List[Tuple[ASTIdentifier, str]]) -> None:
self.data = data
def __str__(self) -> str:
return '[{}]'.format(', '.join("({}, {})".format(
ident, id_) for ident, id_ in self.data))
class Symbol:
debug_indent = 0
debug_indent_string = " "
debug_lookup = False
debug_show_tree = False
def __copy__(self):
assert False # shouldn't happen
def __deepcopy__(self, memo):
if self.parent:
assert False # shouldn't happen
else:
# the domain base class makes a copy of the initial data, which is fine
return Symbol(None, None, None, None, None)
@staticmethod
def debug_print(*args: Any) -> None:
print(Symbol.debug_indent_string * Symbol.debug_indent, end="")
print(*args)
def _assert_invariants(self) -> None:
if not self.parent:
# parent == None means global scope, so declaration means a parent
assert not self.declaration
assert not self.docname
else:
if self.declaration:
assert self.docname
def __setattr__(self, key: str, value: Any) -> None:
if key == "children":
assert False
else:
return super().__setattr__(key, value)
def __init__(self, parent: "Symbol", ident: ASTIdentifier,
declaration: ASTDeclaration, docname: str, line: int) -> None:
self.parent = parent
# declarations in a single directive are linked together
self.siblingAbove = None # type: Symbol
self.siblingBelow = None # type: Symbol
self.ident = ident
self.declaration = declaration
self.docname = docname
self.line = line
self.isRedeclaration = False
self._assert_invariants()
# Remember to modify Symbol.remove if modifications to the parent change.
self._children = [] # type: List[Symbol]
self._anonChildren = [] # type: List[Symbol]
# note: _children includes _anonChildren
if self.parent:
self.parent._children.append(self)
if self.declaration:
self.declaration.symbol = self
# Do symbol addition after self._children has been initialised.
self._add_function_params()
def _fill_empty(self, declaration: ASTDeclaration, docname: str, line: int) -> None:
self._assert_invariants()
assert self.declaration is None
assert self.docname is None
assert self.line is None
assert declaration is not None
assert docname is not None
assert line is not None
self.declaration = declaration
self.declaration.symbol = self
self.docname = docname
self.line = line
self._assert_invariants()
# and symbol addition should be done as well
self._add_function_params()
def _add_function_params(self) -> None:
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("_add_function_params:")
# Note: we may be called from _fill_empty, so the symbols we want
# to add may actually already be present (as empty symbols).
# add symbols for function parameters, if any
if self.declaration is not None and self.declaration.function_params is not None:
for p in self.declaration.function_params:
if p.arg is None:
continue
nn = p.arg.name
if nn is None:
continue
# (comparing to the template params: we have checked that we are a declaration)
decl = ASTDeclaration('functionParam', None, p)
assert not nn.rooted
assert len(nn.names) == 1
self._add_symbols(nn, decl, self.docname, self.line)
if Symbol.debug_lookup:
Symbol.debug_indent -= 1
def remove(self) -> None:
if self.parent is None:
return
assert self in self.parent._children
self.parent._children.remove(self)
self.parent = None
def clear_doc(self, docname: str) -> None:
for sChild in self._children:
sChild.clear_doc(docname)
if sChild.declaration and sChild.docname == docname:
sChild.declaration = None
sChild.docname = None
sChild.line = None
if sChild.siblingAbove is not None:
sChild.siblingAbove.siblingBelow = sChild.siblingBelow
if sChild.siblingBelow is not None:
sChild.siblingBelow.siblingAbove = sChild.siblingAbove
sChild.siblingAbove = None
sChild.siblingBelow = None
def get_all_symbols(self) -> Iterator["Symbol"]:
yield self
for sChild in self._children:
yield from sChild.get_all_symbols()
@property
def children(self) -> Iterator["Symbol"]:
yield from self._children
@property
def children_recurse_anon(self) -> Iterator["Symbol"]:
for c in self._children:
yield c
if not c.ident.is_anon():
continue
yield from c.children_recurse_anon
def get_lookup_key(self) -> "LookupKey":
# The pickle files for the environment and for each document are distinct.
# The environment has all the symbols, but the documents has xrefs that
# must know their scope. A lookup key is essentially a specification of
# how to find a specific symbol.
symbols = []
s = self
while s.parent:
symbols.append(s)
s = s.parent
symbols.reverse()
key = []
for s in symbols:
if s.declaration is not None:
# TODO: do we need the ID?
key.append((s.ident, s.declaration.get_newest_id()))
else:
key.append((s.ident, None))
return LookupKey(key)
def get_full_nested_name(self) -> ASTNestedName:
symbols = []
s = self
while s.parent:
symbols.append(s)
s = s.parent
symbols.reverse()
names = []
for s in symbols:
names.append(s.ident)
return ASTNestedName(names, rooted=False)
def _find_first_named_symbol(self, ident: ASTIdentifier,
matchSelf: bool, recurseInAnon: bool) -> "Symbol":
# TODO: further simplification from C++ to C
if Symbol.debug_lookup:
Symbol.debug_print("_find_first_named_symbol ->")
res = self._find_named_symbols(ident, matchSelf, recurseInAnon,
searchInSiblings=False)
try:
return next(res)
except StopIteration:
return None
def _find_named_symbols(self, ident: ASTIdentifier,
matchSelf: bool, recurseInAnon: bool,
searchInSiblings: bool) -> Iterator["Symbol"]:
# TODO: further simplification from C++ to C
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("_find_named_symbols:")
Symbol.debug_indent += 1
Symbol.debug_print("self:")
print(self.to_string(Symbol.debug_indent + 1), end="")
Symbol.debug_print("ident: ", ident)
Symbol.debug_print("matchSelf: ", matchSelf)
Symbol.debug_print("recurseInAnon: ", recurseInAnon)
Symbol.debug_print("searchInSiblings: ", searchInSiblings)
def candidates() -> Generator["Symbol", None, None]:
s = self
if Symbol.debug_lookup:
Symbol.debug_print("searching in self:")
print(s.to_string(Symbol.debug_indent + 1), end="")
while True:
if matchSelf:
yield s
if recurseInAnon:
yield from s.children_recurse_anon
else:
yield from s._children
if s.siblingAbove is None:
break
s = s.siblingAbove
if Symbol.debug_lookup:
Symbol.debug_print("searching in sibling:")
print(s.to_string(Symbol.debug_indent + 1), end="")
for s in candidates():
if Symbol.debug_lookup:
Symbol.debug_print("candidate:")
print(s.to_string(Symbol.debug_indent + 1), end="")
if s.ident == ident:
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("matches")
Symbol.debug_indent -= 3
yield s
if Symbol.debug_lookup:
Symbol.debug_indent += 2
if Symbol.debug_lookup:
Symbol.debug_indent -= 2
def _symbol_lookup(self, nestedName: ASTNestedName,
onMissingQualifiedSymbol: Callable[["Symbol", ASTIdentifier], "Symbol"], # NOQA
ancestorLookupType: str, matchSelf: bool,
recurseInAnon: bool, searchInSiblings: bool) -> SymbolLookupResult:
# TODO: further simplification from C++ to C
# ancestorLookupType: if not None, specifies the target type of the lookup
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("_symbol_lookup:")
Symbol.debug_indent += 1
Symbol.debug_print("self:")
print(self.to_string(Symbol.debug_indent + 1), end="")
Symbol.debug_print("nestedName: ", nestedName)
Symbol.debug_print("ancestorLookupType:", ancestorLookupType)
Symbol.debug_print("matchSelf: ", matchSelf)
Symbol.debug_print("recurseInAnon: ", recurseInAnon)
Symbol.debug_print("searchInSiblings: ", searchInSiblings)
names = nestedName.names
# find the right starting point for lookup
parentSymbol = self
if nestedName.rooted:
while parentSymbol.parent:
parentSymbol = parentSymbol.parent
if ancestorLookupType is not None:
# walk up until we find the first identifier
firstName = names[0]
while parentSymbol.parent:
if parentSymbol.find_identifier(firstName,
matchSelf=matchSelf,
recurseInAnon=recurseInAnon,
searchInSiblings=searchInSiblings):
break
parentSymbol = parentSymbol.parent
if Symbol.debug_lookup:
Symbol.debug_print("starting point:")
print(parentSymbol.to_string(Symbol.debug_indent + 1), end="")
# and now the actual lookup
for ident in names[:-1]:
symbol = parentSymbol._find_first_named_symbol(
ident, matchSelf=matchSelf, recurseInAnon=recurseInAnon)
if symbol is None:
symbol = onMissingQualifiedSymbol(parentSymbol, ident)
if symbol is None:
if Symbol.debug_lookup:
Symbol.debug_indent -= 2
return None
# We have now matched part of a nested name, and need to match more
# so even if we should matchSelf before, we definitely shouldn't
# even more. (see also issue #2666)
matchSelf = False
parentSymbol = symbol
if Symbol.debug_lookup:
Symbol.debug_print("handle last name from:")
print(parentSymbol.to_string(Symbol.debug_indent + 1), end="")
# handle the last name
ident = names[-1]
symbols = parentSymbol._find_named_symbols(
ident, matchSelf=matchSelf,
recurseInAnon=recurseInAnon,
searchInSiblings=searchInSiblings)
if Symbol.debug_lookup:
symbols = list(symbols) # type: ignore
Symbol.debug_indent -= 2
return SymbolLookupResult(symbols, parentSymbol, ident)
def _add_symbols(self, nestedName: ASTNestedName,
declaration: ASTDeclaration, docname: str, line: int) -> "Symbol":
# TODO: further simplification from C++ to C
# Used for adding a whole path of symbols, where the last may or may not
# be an actual declaration.
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("_add_symbols:")
Symbol.debug_indent += 1
Symbol.debug_print("nn: ", nestedName)
Symbol.debug_print("decl: ", declaration)
Symbol.debug_print("location: {}:{}".format(docname, line))
def onMissingQualifiedSymbol(parentSymbol: "Symbol", ident: ASTIdentifier) -> "Symbol":
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("_add_symbols, onMissingQualifiedSymbol:")
Symbol.debug_indent += 1
Symbol.debug_print("ident: ", ident)
Symbol.debug_indent -= 2
return Symbol(parent=parentSymbol, ident=ident,
declaration=None, docname=None, line=None)
lookupResult = self._symbol_lookup(nestedName,
onMissingQualifiedSymbol,
ancestorLookupType=None,
matchSelf=False,
recurseInAnon=False,
searchInSiblings=False)
assert lookupResult is not None # we create symbols all the way, so that can't happen
symbols = list(lookupResult.symbols)
if len(symbols) == 0:
if Symbol.debug_lookup:
Symbol.debug_print("_add_symbols, result, no symbol:")
Symbol.debug_indent += 1
Symbol.debug_print("ident: ", lookupResult.ident)
Symbol.debug_print("declaration: ", declaration)
Symbol.debug_print("location: {}:{}".format(docname, line))
Symbol.debug_indent -= 1
symbol = Symbol(parent=lookupResult.parentSymbol,
ident=lookupResult.ident,
declaration=declaration,
docname=docname, line=line)
if Symbol.debug_lookup:
Symbol.debug_indent -= 2
return symbol
if Symbol.debug_lookup:
Symbol.debug_print("_add_symbols, result, symbols:")
Symbol.debug_indent += 1
Symbol.debug_print("number symbols:", len(symbols))
Symbol.debug_indent -= 1
if not declaration:
if Symbol.debug_lookup:
Symbol.debug_print("no declaration")
Symbol.debug_indent -= 2
# good, just a scope creation
# TODO: what if we have more than one symbol?
return symbols[0]
noDecl = []
withDecl = []
dupDecl = []
for s in symbols:
if s.declaration is None:
noDecl.append(s)
elif s.isRedeclaration:
dupDecl.append(s)
else:
withDecl.append(s)
if Symbol.debug_lookup:
Symbol.debug_print("#noDecl: ", len(noDecl))
Symbol.debug_print("#withDecl:", len(withDecl))
Symbol.debug_print("#dupDecl: ", len(dupDecl))
# With partial builds we may start with a large symbol tree stripped of declarations.
# Essentially any combination of noDecl, withDecl, and dupDecls seems possible.
# TODO: make partial builds fully work. What should happen when the primary symbol gets
# deleted, and other duplicates exist? The full document should probably be rebuild.
# First check if one of those with a declaration matches.
# If it's a function, we need to compare IDs,
# otherwise there should be only one symbol with a declaration.
def makeCandSymbol() -> "Symbol":
if Symbol.debug_lookup:
Symbol.debug_print("begin: creating candidate symbol")
symbol = Symbol(parent=lookupResult.parentSymbol,
ident=lookupResult.ident,
declaration=declaration,
docname=docname, line=line)
if Symbol.debug_lookup:
Symbol.debug_print("end: creating candidate symbol")
return symbol
if len(withDecl) == 0:
candSymbol = None
else:
candSymbol = makeCandSymbol()
def handleDuplicateDeclaration(symbol: "Symbol", candSymbol: "Symbol") -> None:
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("redeclaration")
Symbol.debug_indent -= 1
Symbol.debug_indent -= 2
# Redeclaration of the same symbol.
# Let the new one be there, but raise an error to the client
# so it can use the real symbol as subscope.
# This will probably result in a duplicate id warning.
candSymbol.isRedeclaration = True
raise _DuplicateSymbolError(symbol, declaration)
if declaration.objectType != "function":
assert len(withDecl) <= 1
handleDuplicateDeclaration(withDecl[0], candSymbol)
# (not reachable)
# a function, so compare IDs
candId = declaration.get_newest_id()
if Symbol.debug_lookup:
Symbol.debug_print("candId:", candId)
for symbol in withDecl:
oldId = symbol.declaration.get_newest_id()
if Symbol.debug_lookup:
Symbol.debug_print("oldId: ", oldId)
if candId == oldId:
handleDuplicateDeclaration(symbol, candSymbol)
# (not reachable)
# no candidate symbol found with matching ID
# if there is an empty symbol, fill that one
if len(noDecl) == 0:
if Symbol.debug_lookup:
Symbol.debug_print("no match, no empty, candSybmol is not None?:", candSymbol is not None) # NOQA
Symbol.debug_indent -= 2
if candSymbol is not None:
return candSymbol
else:
return makeCandSymbol()
else:
if Symbol.debug_lookup:
Symbol.debug_print(
"no match, but fill an empty declaration, candSybmol is not None?:",
candSymbol is not None) # NOQA
Symbol.debug_indent -= 2
if candSymbol is not None:
candSymbol.remove()
# assert len(noDecl) == 1
# TODO: enable assertion when we at some point find out how to do cleanup
# for now, just take the first one, it should work fine ... right?
symbol = noDecl[0]
# If someone first opened the scope, and then later
# declares it, e.g,
# .. namespace:: Test
# .. namespace:: nullptr
# .. class:: Test
symbol._fill_empty(declaration, docname, line)
return symbol
def merge_with(self, other: "Symbol", docnames: List[str],
env: "BuildEnvironment") -> None:
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("merge_with:")
assert other is not None
for otherChild in other._children:
ourChild = self._find_first_named_symbol(
ident=otherChild.ident, matchSelf=False,
recurseInAnon=False)
if ourChild is None:
# TODO: hmm, should we prune by docnames?
self._children.append(otherChild)
otherChild.parent = self
otherChild._assert_invariants()
continue
if otherChild.declaration and otherChild.docname in docnames:
if not ourChild.declaration:
ourChild._fill_empty(otherChild.declaration,
otherChild.docname, otherChild.line)
elif ourChild.docname != otherChild.docname:
name = str(ourChild.declaration)
msg = __("Duplicate C declaration, also defined at %s:%s.\n"
"Declaration is '.. c:%s:: %s'.")
msg = msg % (ourChild.docname, ourChild.line,
ourChild.declaration.directiveType, name)
logger.warning(msg, location=(otherChild.docname, otherChild.line))
else:
# Both have declarations, and in the same docname.
# This can apparently happen, it should be safe to
# just ignore it, right?
pass
ourChild.merge_with(otherChild, docnames, env)
if Symbol.debug_lookup:
Symbol.debug_indent -= 1
def add_name(self, nestedName: ASTNestedName) -> "Symbol":
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("add_name:")
res = self._add_symbols(nestedName, declaration=None, docname=None, line=None)
if Symbol.debug_lookup:
Symbol.debug_indent -= 1
return res
def add_declaration(self, declaration: ASTDeclaration,
docname: str, line: int) -> "Symbol":
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("add_declaration:")
assert declaration is not None
assert docname is not None
assert line is not None
nestedName = declaration.name
res = self._add_symbols(nestedName, declaration, docname, line)
if Symbol.debug_lookup:
Symbol.debug_indent -= 1
return res
def find_identifier(self, ident: ASTIdentifier,
matchSelf: bool, recurseInAnon: bool, searchInSiblings: bool
) -> "Symbol":
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("find_identifier:")
Symbol.debug_indent += 1
Symbol.debug_print("ident: ", ident)
Symbol.debug_print("matchSelf: ", matchSelf)
Symbol.debug_print("recurseInAnon: ", recurseInAnon)
Symbol.debug_print("searchInSiblings:", searchInSiblings)
print(self.to_string(Symbol.debug_indent + 1), end="")
Symbol.debug_indent -= 2
current = self
while current is not None:
if Symbol.debug_lookup:
Symbol.debug_indent += 2
Symbol.debug_print("trying:")
print(current.to_string(Symbol.debug_indent + 1), end="")
Symbol.debug_indent -= 2
if matchSelf and current.ident == ident:
return current
children = current.children_recurse_anon if recurseInAnon else current._children
for s in children:
if s.ident == ident:
return s
if not searchInSiblings:
break
current = current.siblingAbove
return None
def direct_lookup(self, key: "LookupKey") -> "Symbol":
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("direct_lookup:")
Symbol.debug_indent += 1
s = self
for name, id_ in key.data:
res = None
for cand in s._children:
if cand.ident == name:
res = cand
break
s = res
if Symbol.debug_lookup:
Symbol.debug_print("name: ", name)
Symbol.debug_print("id: ", id_)
if s is not None:
print(s.to_string(Symbol.debug_indent + 1), end="")
else:
Symbol.debug_print("not found")
if s is None:
if Symbol.debug_lookup:
Symbol.debug_indent -= 2
return None
if Symbol.debug_lookup:
Symbol.debug_indent -= 2
return s
def find_declaration(self, nestedName: ASTNestedName, typ: str,
matchSelf: bool, recurseInAnon: bool) -> "Symbol":
# templateShorthand: missing template parameter lists for templates is ok
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("find_declaration:")
def onMissingQualifiedSymbol(parentSymbol: "Symbol",
ident: ASTIdentifier) -> "Symbol":
return None
lookupResult = self._symbol_lookup(nestedName,
onMissingQualifiedSymbol,
ancestorLookupType=typ,
matchSelf=matchSelf,
recurseInAnon=recurseInAnon,
searchInSiblings=False)
if Symbol.debug_lookup:
Symbol.debug_indent -= 1
if lookupResult is None:
return None
symbols = list(lookupResult.symbols)
if len(symbols) == 0:
return None
return symbols[0]
def to_string(self, indent: int) -> str:
res = [Symbol.debug_indent_string * indent]
if not self.parent:
res.append('::')
else:
if self.ident:
res.append(str(self.ident))
else:
res.append(str(self.declaration))
if self.declaration:
res.append(": ")
if self.isRedeclaration:
res.append('!!duplicate!! ')
res.append(str(self.declaration))
if self.docname:
res.append('\t(')
res.append(self.docname)
res.append(')')
res.append('\n')
return ''.join(res)
def dump(self, indent: int) -> str:
res = [self.to_string(indent)]
for c in self._children:
res.append(c.dump(indent + 1))
return ''.join(res)
class DefinitionParser(BaseParser):
# those without signedness and size modifiers
# see https://en.cppreference.com/w/cpp/language/types
_simple_fundamental_types = (
'void', '_Bool', 'bool', 'char', 'int', 'float', 'double',
'__int64',
)
_prefix_keys = ('struct', 'enum', 'union')
@property
def language(self) -> str:
return 'C'
@property
def id_attributes(self):
return self.config.c_id_attributes
@property
def paren_attributes(self):
return self.config.c_paren_attributes
def _parse_string(self) -> str:
if self.current_char != '"':
return None
startPos = self.pos
self.pos += 1
escape = False
while True:
if self.eof:
self.fail("Unexpected end during inside string.")
elif self.current_char == '"' and not escape:
self.pos += 1
break
elif self.current_char == '\\':
escape = True
else:
escape = False
self.pos += 1
return self.definition[startPos:self.pos]
def _parse_literal(self) -> ASTLiteral:
# -> integer-literal
# | character-literal
# | floating-literal
# | string-literal
# | boolean-literal -> "false" | "true"
self.skip_ws()
if self.skip_word('true'):
return ASTBooleanLiteral(True)
if self.skip_word('false'):
return ASTBooleanLiteral(False)
pos = self.pos
if self.match(float_literal_re):
self.match(float_literal_suffix_re)
return ASTNumberLiteral(self.definition[pos:self.pos])
for regex in [binary_literal_re, hex_literal_re,
integer_literal_re, octal_literal_re]:
if self.match(regex):
self.match(integers_literal_suffix_re)
return ASTNumberLiteral(self.definition[pos:self.pos])
string = self._parse_string()
if string is not None:
return ASTStringLiteral(string)
# character-literal
if self.match(char_literal_re):
prefix = self.last_match.group(1) # may be None when no prefix
data = self.last_match.group(2)
try:
return ASTCharLiteral(prefix, data)
except UnicodeDecodeError as e:
self.fail("Can not handle character literal. Internal error was: %s" % e)
except UnsupportedMultiCharacterCharLiteral:
self.fail("Can not handle character literal"
" resulting in multiple decoded characters.")
return None
def _parse_paren_expression(self) -> ASTExpression:
# "(" expression ")"
if self.current_char != '(':
return None
self.pos += 1
res = self._parse_expression()
self.skip_ws()
if not self.skip_string(')'):
self.fail("Expected ')' in end of parenthesized expression.")
return ASTParenExpr(res)
def _parse_primary_expression(self) -> ASTExpression:
# literal
# "(" expression ")"
# id-expression -> we parse this with _parse_nested_name
self.skip_ws()
res = self._parse_literal() # type: ASTExpression
if res is not None:
return res
res = self._parse_paren_expression()
if res is not None:
return res
nn = self._parse_nested_name()
if nn is not None:
return ASTIdExpression(nn)
return None
def _parse_initializer_list(self, name: str, open: str, close: str
) -> Tuple[List[ASTExpression], bool]:
# Parse open and close with the actual initializer-list inbetween
# -> initializer-clause '...'[opt]
# | initializer-list ',' initializer-clause '...'[opt]
# TODO: designators
self.skip_ws()
if not self.skip_string_and_ws(open):
return None, None
if self.skip_string(close):
return [], False
exprs = []
trailingComma = False
while True:
self.skip_ws()
expr = self._parse_expression()
self.skip_ws()
exprs.append(expr)
self.skip_ws()
if self.skip_string(close):
break
if not self.skip_string_and_ws(','):
self.fail("Error in %s, expected ',' or '%s'." % (name, close))
if self.current_char == close and close == '}':
self.pos += 1
trailingComma = True
break
return exprs, trailingComma
def _parse_paren_expression_list(self) -> ASTParenExprList:
# -> '(' expression-list ')'
# though, we relax it to also allow empty parens
# as it's needed in some cases
#
# expression-list
# -> initializer-list
exprs, trailingComma = self._parse_initializer_list("parenthesized expression-list",
'(', ')')
if exprs is None:
return None
return ASTParenExprList(exprs)
def _parse_braced_init_list(self) -> ASTBracedInitList:
# -> '{' initializer-list ','[opt] '}'
# | '{' '}'
exprs, trailingComma = self._parse_initializer_list("braced-init-list", '{', '}')
if exprs is None:
return None
return ASTBracedInitList(exprs, trailingComma)
def _parse_postfix_expression(self) -> ASTPostfixExpr:
# -> primary
# | postfix "[" expression "]"
# | postfix "[" braced-init-list [opt] "]"
# | postfix "(" expression-list [opt] ")"
# | postfix "." id-expression
# | postfix "->" id-expression
# | postfix "++"
# | postfix "--"
prefix = self._parse_primary_expression()
# and now parse postfixes
postFixes = [] # type: List[ASTPostfixOp]
while True:
self.skip_ws()
if self.skip_string_and_ws('['):
expr = self._parse_expression()
self.skip_ws()
if not self.skip_string(']'):
self.fail("Expected ']' in end of postfix expression.")
postFixes.append(ASTPostfixArray(expr))
continue
if self.skip_string('.'):
if self.skip_string('*'):
# don't steal the dot
self.pos -= 2
elif self.skip_string('..'):
# don't steal the dot
self.pos -= 3
else:
name = self._parse_nested_name()
postFixes.append(ASTPostfixMember(name))
continue
if self.skip_string('->'):
if self.skip_string('*'):
# don't steal the arrow
self.pos -= 3
else:
name = self._parse_nested_name()
postFixes.append(ASTPostfixMemberOfPointer(name))
continue
if self.skip_string('++'):
postFixes.append(ASTPostfixInc())
continue
if self.skip_string('--'):
postFixes.append(ASTPostfixDec())
continue
lst = self._parse_paren_expression_list()
if lst is not None:
postFixes.append(ASTPostfixCallExpr(lst))
continue
break
return ASTPostfixExpr(prefix, postFixes)
def _parse_unary_expression(self) -> ASTExpression:
# -> postfix
# | "++" cast
# | "--" cast
# | unary-operator cast -> (* | & | + | - | ! | ~) cast
# The rest:
# | "sizeof" unary
# | "sizeof" "(" type-id ")"
# | "alignof" "(" type-id ")"
self.skip_ws()
for op in _expression_unary_ops:
# TODO: hmm, should we be able to backtrack here?
if op[0] in 'cn':
res = self.skip_word(op)
else:
res = self.skip_string(op)
if res:
expr = self._parse_cast_expression()
return ASTUnaryOpExpr(op, expr)
if self.skip_word_and_ws('sizeof'):
if self.skip_string_and_ws('('):
typ = self._parse_type(named=False)
self.skip_ws()
if not self.skip_string(')'):
self.fail("Expecting ')' to end 'sizeof'.")
return ASTSizeofType(typ)
expr = self._parse_unary_expression()
return ASTSizeofExpr(expr)
if self.skip_word_and_ws('alignof'):
if not self.skip_string_and_ws('('):
self.fail("Expecting '(' after 'alignof'.")
typ = self._parse_type(named=False)
self.skip_ws()
if not self.skip_string(')'):
self.fail("Expecting ')' to end 'alignof'.")
return ASTAlignofExpr(typ)
return self._parse_postfix_expression()
def _parse_cast_expression(self) -> ASTExpression:
# -> unary | "(" type-id ")" cast
pos = self.pos
self.skip_ws()
if self.skip_string('('):
try:
typ = self._parse_type(False)
if not self.skip_string(')'):
self.fail("Expected ')' in cast expression.")
expr = self._parse_cast_expression()
return ASTCastExpr(typ, expr)
except DefinitionError as exCast:
self.pos = pos
try:
return self._parse_unary_expression()
except DefinitionError as exUnary:
errs = []
errs.append((exCast, "If type cast expression"))
errs.append((exUnary, "If unary expression"))
raise self._make_multi_error(errs,
"Error in cast expression.") from exUnary
else:
return self._parse_unary_expression()
def _parse_logical_or_expression(self) -> ASTExpression:
# logical-or = logical-and ||
# logical-and = inclusive-or &&
# inclusive-or = exclusive-or |
# exclusive-or = and ^
# and = equality &
# equality = relational ==, !=
# relational = shift <, >, <=, >=
# shift = additive <<, >>
# additive = multiplicative +, -
# multiplicative = pm *, /, %
# pm = cast .*, ->*
def _parse_bin_op_expr(self, opId):
if opId + 1 == len(_expression_bin_ops):
def parser() -> ASTExpression:
return self._parse_cast_expression()
else:
def parser() -> ASTExpression:
return _parse_bin_op_expr(self, opId + 1)
exprs = []
ops = []
exprs.append(parser())
while True:
self.skip_ws()
pos = self.pos
oneMore = False
for op in _expression_bin_ops[opId]:
if op[0] in 'abcnox':
if not self.skip_word(op):
continue
else:
if not self.skip_string(op):
continue
if op == '&' and self.current_char == '&':
# don't split the && 'token'
self.pos -= 1
# and btw. && has lower precedence, so we are done
break
try:
expr = parser()
exprs.append(expr)
ops.append(op)
oneMore = True
break
except DefinitionError:
self.pos = pos
if not oneMore:
break
return ASTBinOpExpr(exprs, ops)
return _parse_bin_op_expr(self, 0)
def _parse_conditional_expression_tail(self, orExprHead: Any) -> ASTExpression:
# -> "?" expression ":" assignment-expression
return None
def _parse_assignment_expression(self) -> ASTExpression:
# -> conditional-expression
# | logical-or-expression assignment-operator initializer-clause
# -> conditional-expression ->
# logical-or-expression
# | logical-or-expression "?" expression ":" assignment-expression
# | logical-or-expression assignment-operator initializer-clause
exprs = []
ops = []
orExpr = self._parse_logical_or_expression()
exprs.append(orExpr)
# TODO: handle ternary with _parse_conditional_expression_tail
while True:
oneMore = False
self.skip_ws()
for op in _expression_assignment_ops:
if op[0] in 'abcnox':
if not self.skip_word(op):
continue
else:
if not self.skip_string(op):
continue
expr = self._parse_logical_or_expression()
exprs.append(expr)
ops.append(op)
oneMore = True
if not oneMore:
break
return ASTAssignmentExpr(exprs, ops)
def _parse_constant_expression(self) -> ASTExpression:
# -> conditional-expression
orExpr = self._parse_logical_or_expression()
# TODO: use _parse_conditional_expression_tail
return orExpr
def _parse_expression(self) -> ASTExpression:
# -> assignment-expression
# | expression "," assignment-expresion
# TODO: actually parse the second production
return self._parse_assignment_expression()
def _parse_expression_fallback(
self, end: List[str],
parser: Callable[[], ASTExpression],
allow: bool = True) -> ASTExpression:
# Stupidly "parse" an expression.
# 'end' should be a list of characters which ends the expression.
# first try to use the provided parser
prevPos = self.pos
try:
return parser()
except DefinitionError as e:
# some places (e.g., template parameters) we really don't want to use fallback,
# and for testing we may want to globally disable it
if not allow or not self.allowFallbackExpressionParsing:
raise
self.warn("Parsing of expression failed. Using fallback parser."
" Error was:\n%s" % e)
self.pos = prevPos
# and then the fallback scanning
assert end is not None
self.skip_ws()
startPos = self.pos
if self.match(_string_re):
value = self.matched_text
else:
# TODO: add handling of more bracket-like things, and quote handling
brackets = {'(': ')', '{': '}', '[': ']'}
symbols = [] # type: List[str]
while not self.eof:
if (len(symbols) == 0 and self.current_char in end):
break
if self.current_char in brackets.keys():
symbols.append(brackets[self.current_char])
elif len(symbols) > 0 and self.current_char == symbols[-1]:
symbols.pop()
self.pos += 1
if len(end) > 0 and self.eof:
self.fail("Could not find end of expression starting at %d."
% startPos)
value = self.definition[startPos:self.pos].strip()
return ASTFallbackExpr(value.strip())
def _parse_nested_name(self) -> ASTNestedName:
names = [] # type: List[Any]
self.skip_ws()
rooted = False
if self.skip_string('.'):
rooted = True
while 1:
self.skip_ws()
if not self.match(identifier_re):
self.fail("Expected identifier in nested name.")
identifier = self.matched_text
# make sure there isn't a keyword
if identifier in _keywords:
self.fail("Expected identifier in nested name, "
"got keyword: %s" % identifier)
ident = ASTIdentifier(identifier)
names.append(ident)
self.skip_ws()
if not self.skip_string('.'):
break
return ASTNestedName(names, rooted)
def _parse_trailing_type_spec(self) -> ASTTrailingTypeSpec:
# fundamental types
self.skip_ws()
for t in self._simple_fundamental_types:
if self.skip_word(t):
return ASTTrailingTypeSpecFundamental(t)
# TODO: this could/should be more strict
elements = []
if self.skip_word_and_ws('signed'):
elements.append('signed')
elif self.skip_word_and_ws('unsigned'):
elements.append('unsigned')
while 1:
if self.skip_word_and_ws('short'):
elements.append('short')
elif self.skip_word_and_ws('long'):
elements.append('long')
else:
break
if self.skip_word_and_ws('char'):
elements.append('char')
elif self.skip_word_and_ws('int'):
elements.append('int')
elif self.skip_word_and_ws('double'):
elements.append('double')
elif self.skip_word_and_ws('__int64'):
elements.append('__int64')
if len(elements) > 0:
return ASTTrailingTypeSpecFundamental(' '.join(elements))
# prefixed
prefix = None
self.skip_ws()
for k in self._prefix_keys:
if self.skip_word_and_ws(k):
prefix = k
break
nestedName = self._parse_nested_name()
return ASTTrailingTypeSpecName(prefix, nestedName)
def _parse_parameters(self, paramMode: str) -> ASTParameters:
self.skip_ws()
if not self.skip_string('('):
if paramMode == 'function':
self.fail('Expecting "(" in parameters.')
else:
return None
args = []
self.skip_ws()
if not self.skip_string(')'):
while 1:
self.skip_ws()
if self.skip_string('...'):
args.append(ASTFunctionParameter(None, True))
self.skip_ws()
if not self.skip_string(')'):
self.fail('Expected ")" after "..." in parameters.')
break
# note: it seems that function arguments can always be named,
# even in function pointers and similar.
arg = self._parse_type_with_init(outer=None, named='single')
# TODO: parse default parameters # TODO: didn't we just do that?
args.append(ASTFunctionParameter(arg))
self.skip_ws()
if self.skip_string(','):
continue
elif self.skip_string(')'):
break
else:
self.fail(
'Expecting "," or ")" in parameters, '
'got "%s".' % self.current_char)
attrs = []
while True:
attr = self._parse_attribute()
if attr is None:
break
attrs.append(attr)
return ASTParameters(args, attrs)
def _parse_decl_specs_simple(self, outer: str, typed: bool) -> ASTDeclSpecsSimple:
"""Just parse the simple ones."""
storage = None
threadLocal = None
inline = None
restrict = None
volatile = None
const = None
attrs = []
while 1: # accept any permutation of a subset of some decl-specs
self.skip_ws()
if not storage:
if outer == 'member':
if self.skip_word('auto'):
storage = 'auto'
continue
if self.skip_word('register'):
storage = 'register'
continue
if outer in ('member', 'function'):
if self.skip_word('static'):
storage = 'static'
continue
if self.skip_word('extern'):
storage = 'extern'
continue
if outer == 'member' and not threadLocal:
if self.skip_word('thread_local'):
threadLocal = 'thread_local'
continue
if self.skip_word('_Thread_local'):
threadLocal = '_Thread_local'
continue
if outer == 'function' and not inline:
inline = self.skip_word('inline')
if inline:
continue
if not restrict and typed:
restrict = self.skip_word('restrict')
if restrict:
continue
if not volatile and typed:
volatile = self.skip_word('volatile')
if volatile:
continue
if not const and typed:
const = self.skip_word('const')
if const:
continue
attr = self._parse_attribute()
if attr:
attrs.append(attr)
continue
break
return ASTDeclSpecsSimple(storage, threadLocal, inline,
restrict, volatile, const, attrs)
def _parse_decl_specs(self, outer: str, typed: bool = True) -> ASTDeclSpecs:
if outer:
if outer not in ('type', 'member', 'function'):
raise Exception('Internal error, unknown outer "%s".' % outer)
leftSpecs = self._parse_decl_specs_simple(outer, typed)
rightSpecs = None
if typed:
trailing = self._parse_trailing_type_spec()
rightSpecs = self._parse_decl_specs_simple(outer, typed)
else:
trailing = None
return ASTDeclSpecs(outer, leftSpecs, rightSpecs, trailing)
def _parse_declarator_name_suffix(
self, named: Union[bool, str], paramMode: str, typed: bool
) -> ASTDeclarator:
# now we should parse the name, and then suffixes
if named == 'maybe':
pos = self.pos
try:
declId = self._parse_nested_name()
except DefinitionError:
self.pos = pos
declId = None
elif named == 'single':
if self.match(identifier_re):
identifier = ASTIdentifier(self.matched_text)
declId = ASTNestedName([identifier], rooted=False)
else:
declId = None
elif named:
declId = self._parse_nested_name()
else:
declId = None
arrayOps = []
while 1:
self.skip_ws()
if typed and self.skip_string('['):
self.skip_ws()
static = False
const = False
volatile = False
restrict = False
while True:
if not static:
if self.skip_word_and_ws('static'):
static = True
continue
if not const:
if self.skip_word_and_ws('const'):
const = True
continue
if not volatile:
if self.skip_word_and_ws('volatile'):
volatile = True
continue
if not restrict:
if self.skip_word_and_ws('restrict'):
restrict = True
continue
break
vla = False if static else self.skip_string_and_ws('*')
if vla:
if not self.skip_string(']'):
self.fail("Expected ']' in end of array operator.")
size = None
else:
if self.skip_string(']'):
size = None
else:
def parser():
return self._parse_expression()
size = self._parse_expression_fallback([']'], parser)
self.skip_ws()
if not self.skip_string(']'):
self.fail("Expected ']' in end of array operator.")
arrayOps.append(ASTArray(static, const, volatile, restrict, vla, size))
else:
break
param = self._parse_parameters(paramMode)
if param is None and len(arrayOps) == 0:
# perhaps a bit-field
if named and paramMode == 'type' and typed:
self.skip_ws()
if self.skip_string(':'):
size = self._parse_constant_expression()
return ASTDeclaratorNameBitField(declId=declId, size=size)
return ASTDeclaratorNameParam(declId=declId, arrayOps=arrayOps,
param=param)
def _parse_declarator(self, named: Union[bool, str], paramMode: str,
typed: bool = True) -> ASTDeclarator:
# 'typed' here means 'parse return type stuff'
if paramMode not in ('type', 'function'):
raise Exception(
"Internal error, unknown paramMode '%s'." % paramMode)
prevErrors = []
self.skip_ws()
if typed and self.skip_string('*'):
self.skip_ws()
restrict = False
volatile = False
const = False
attrs = []
while 1:
if not restrict:
restrict = self.skip_word_and_ws('restrict')
if restrict:
continue
if not volatile:
volatile = self.skip_word_and_ws('volatile')
if volatile:
continue
if not const:
const = self.skip_word_and_ws('const')
if const:
continue
attr = self._parse_attribute()
if attr is not None:
attrs.append(attr)
continue
break
next = self._parse_declarator(named, paramMode, typed)
return ASTDeclaratorPtr(next=next,
restrict=restrict, volatile=volatile, const=const,
attrs=attrs)
if typed and self.current_char == '(': # note: peeking, not skipping
# maybe this is the beginning of params, try that first,
# otherwise assume it's noptr->declarator > ( ptr-declarator )
pos = self.pos
try:
# assume this is params
res = self._parse_declarator_name_suffix(named, paramMode,
typed)
return res
except DefinitionError as exParamQual:
msg = "If declarator-id with parameters"
if paramMode == 'function':
msg += " (e.g., 'void f(int arg)')"
prevErrors.append((exParamQual, msg))
self.pos = pos
try:
assert self.current_char == '('
self.skip_string('(')
# TODO: hmm, if there is a name, it must be in inner, right?
# TODO: hmm, if there must be parameters, they must b
# inside, right?
inner = self._parse_declarator(named, paramMode, typed)
if not self.skip_string(')'):
self.fail("Expected ')' in \"( ptr-declarator )\"")
next = self._parse_declarator(named=False,
paramMode="type",
typed=typed)
return ASTDeclaratorParen(inner=inner, next=next)
except DefinitionError as exNoPtrParen:
self.pos = pos
msg = "If parenthesis in noptr-declarator"
if paramMode == 'function':
msg += " (e.g., 'void (*f(int arg))(double)')"
prevErrors.append((exNoPtrParen, msg))
header = "Error in declarator"
raise self._make_multi_error(prevErrors, header) from exNoPtrParen
pos = self.pos
try:
return self._parse_declarator_name_suffix(named, paramMode, typed)
except DefinitionError as e:
self.pos = pos
prevErrors.append((e, "If declarator-id"))
header = "Error in declarator or parameters"
raise self._make_multi_error(prevErrors, header) from e
def _parse_initializer(self, outer: str = None, allowFallback: bool = True
) -> ASTInitializer:
self.skip_ws()
if outer == 'member' and False: # TODO
bracedInit = self._parse_braced_init_list()
if bracedInit is not None:
return ASTInitializer(bracedInit, hasAssign=False)
if not self.skip_string('='):
return None
bracedInit = self._parse_braced_init_list()
if bracedInit is not None:
return ASTInitializer(bracedInit)
if outer == 'member':
fallbackEnd = [] # type: List[str]
elif outer is None: # function parameter
fallbackEnd = [',', ')']
else:
self.fail("Internal error, initializer for outer '%s' not "
"implemented." % outer)
def parser():
return self._parse_assignment_expression()
value = self._parse_expression_fallback(fallbackEnd, parser, allow=allowFallback)
return ASTInitializer(value)
def _parse_type(self, named: Union[bool, str], outer: str = None) -> ASTType:
"""
named=False|'maybe'|True: 'maybe' is e.g., for function objects which
doesn't need to name the arguments
"""
if outer: # always named
if outer not in ('type', 'member', 'function'):
raise Exception('Internal error, unknown outer "%s".' % outer)
assert named
if outer == 'type':
# We allow type objects to just be a name.
prevErrors = []
startPos = self.pos
# first try without the type
try:
declSpecs = self._parse_decl_specs(outer=outer, typed=False)
decl = self._parse_declarator(named=True, paramMode=outer,
typed=False)
self.assert_end(allowSemicolon=True)
except DefinitionError as exUntyped:
desc = "If just a name"
prevErrors.append((exUntyped, desc))
self.pos = startPos
try:
declSpecs = self._parse_decl_specs(outer=outer)
decl = self._parse_declarator(named=True, paramMode=outer)
except DefinitionError as exTyped:
self.pos = startPos
desc = "If typedef-like declaration"
prevErrors.append((exTyped, desc))
# Retain the else branch for easier debugging.
# TODO: it would be nice to save the previous stacktrace
# and output it here.
if True:
header = "Type must be either just a name or a "
header += "typedef-like declaration."
raise self._make_multi_error(prevErrors, header) from exTyped
else:
# For testing purposes.
# do it again to get the proper traceback (how do you
# reliably save a traceback when an exception is
# constructed?)
self.pos = startPos
typed = True
declSpecs = self._parse_decl_specs(outer=outer, typed=typed)
decl = self._parse_declarator(named=True, paramMode=outer,
typed=typed)
elif outer == 'function':
declSpecs = self._parse_decl_specs(outer=outer)
decl = self._parse_declarator(named=True, paramMode=outer)
else:
paramMode = 'type'
if outer == 'member': # i.e., member
named = True
declSpecs = self._parse_decl_specs(outer=outer)
decl = self._parse_declarator(named=named, paramMode=paramMode)
return ASTType(declSpecs, decl)
def _parse_type_with_init(self, named: Union[bool, str], outer: str) -> ASTTypeWithInit:
if outer:
assert outer in ('type', 'member', 'function')
type = self._parse_type(outer=outer, named=named)
init = self._parse_initializer(outer=outer)
return ASTTypeWithInit(type, init)
def _parse_macro(self) -> ASTMacro:
self.skip_ws()
ident = self._parse_nested_name()
if ident is None:
self.fail("Expected identifier in macro definition.")
self.skip_ws()
if not self.skip_string_and_ws('('):
return ASTMacro(ident, None)
if self.skip_string(')'):
return ASTMacro(ident, [])
args = []
while 1:
self.skip_ws()
if self.skip_string('...'):
args.append(ASTMacroParameter(None, True))
self.skip_ws()
if not self.skip_string(')'):
self.fail('Expected ")" after "..." in macro parameters.')
break
if not self.match(identifier_re):
self.fail("Expected identifier in macro parameters.")
nn = ASTNestedName([ASTIdentifier(self.matched_text)], rooted=False)
# Allow named variadic args:
# https://gcc.gnu.org/onlinedocs/cpp/Variadic-Macros.html
self.skip_ws()
if self.skip_string_and_ws('...'):
args.append(ASTMacroParameter(nn, False, True))
self.skip_ws()
if not self.skip_string(')'):
self.fail('Expected ")" after "..." in macro parameters.')
break
args.append(ASTMacroParameter(nn))
if self.skip_string_and_ws(','):
continue
elif self.skip_string_and_ws(')'):
break
else:
self.fail("Expected identifier, ')', or ',' in macro parameter list.")
return ASTMacro(ident, args)
def _parse_struct(self) -> ASTStruct:
name = self._parse_nested_name()
return ASTStruct(name)
def _parse_union(self) -> ASTUnion:
name = self._parse_nested_name()
return ASTUnion(name)
def _parse_enum(self) -> ASTEnum:
name = self._parse_nested_name()
return ASTEnum(name)
def _parse_enumerator(self) -> ASTEnumerator:
name = self._parse_nested_name()
self.skip_ws()
init = None
if self.skip_string('='):
self.skip_ws()
def parser() -> ASTExpression:
return self._parse_constant_expression()
initVal = self._parse_expression_fallback([], parser)
init = ASTInitializer(initVal)
return ASTEnumerator(name, init)
def parse_pre_v3_type_definition(self) -> ASTDeclaration:
self.skip_ws()
declaration = None # type: DeclarationType
if self.skip_word('struct'):
typ = 'struct'
declaration = self._parse_struct()
elif self.skip_word('union'):
typ = 'union'
declaration = self._parse_union()
elif self.skip_word('enum'):
typ = 'enum'
declaration = self._parse_enum()
else:
self.fail("Could not parse pre-v3 type directive."
" Must start with 'struct', 'union', or 'enum'.")
return ASTDeclaration(typ, typ, declaration, False)
def parse_declaration(self, objectType: str, directiveType: str) -> ASTDeclaration:
if objectType not in ('function', 'member',
'macro', 'struct', 'union', 'enum', 'enumerator', 'type'):
raise Exception('Internal error, unknown objectType "%s".' % objectType)
if directiveType not in ('function', 'member', 'var',
'macro', 'struct', 'union', 'enum', 'enumerator', 'type'):
raise Exception('Internal error, unknown directiveType "%s".' % directiveType)
declaration = None # type: DeclarationType
if objectType == 'member':
declaration = self._parse_type_with_init(named=True, outer='member')
elif objectType == 'function':
declaration = self._parse_type(named=True, outer='function')
elif objectType == 'macro':
declaration = self._parse_macro()
elif objectType == 'struct':
declaration = self._parse_struct()
elif objectType == 'union':
declaration = self._parse_union()
elif objectType == 'enum':
declaration = self._parse_enum()
elif objectType == 'enumerator':
declaration = self._parse_enumerator()
elif objectType == 'type':
declaration = self._parse_type(named=True, outer='type')
else:
assert False
if objectType != 'macro':
self.skip_ws()
semicolon = self.skip_string(';')
else:
semicolon = False
return ASTDeclaration(objectType, directiveType, declaration, semicolon)
def parse_namespace_object(self) -> ASTNestedName:
return self._parse_nested_name()
def parse_xref_object(self) -> ASTNestedName:
name = self._parse_nested_name()
# if there are '()' left, just skip them
self.skip_ws()
self.skip_string('()')
self.assert_end()
return name
def parse_expression(self) -> Union[ASTExpression, ASTType]:
pos = self.pos
res = None # type: Union[ASTExpression, ASTType]
try:
res = self._parse_expression()
self.skip_ws()
self.assert_end()
except DefinitionError as exExpr:
self.pos = pos
try:
res = self._parse_type(False)
self.skip_ws()
self.assert_end()
except DefinitionError as exType:
header = "Error when parsing (type) expression."
errs = []
errs.append((exExpr, "If expression"))
errs.append((exType, "If type"))
raise self._make_multi_error(errs, header) from exType
return res
def _make_phony_error_name() -> ASTNestedName:
return ASTNestedName([ASTIdentifier("PhonyNameDueToError")], rooted=False)
class CObject(ObjectDescription):
"""
Description of a C language object.
"""
doc_field_types = [
TypedField('parameter', label=_('Parameters'),
names=('param', 'parameter', 'arg', 'argument'),
typerolename='type', typenames=('type',)),
Field('returnvalue', label=_('Returns'), has_arg=False,
names=('returns', 'return')),
Field('returntype', label=_('Return type'), has_arg=False,
names=('rtype',)),
]
option_spec = {
'noindexentry': directives.flag,
}
def _add_enumerator_to_parent(self, ast: ASTDeclaration) -> None:
assert ast.objectType == 'enumerator'
# find the parent, if it exists && is an enum
# then add the name to the parent scope
symbol = ast.symbol
assert symbol
assert symbol.ident is not None
parentSymbol = symbol.parent
assert parentSymbol
if parentSymbol.parent is None:
# TODO: we could warn, but it is somewhat equivalent to
# enumeratorss, without the enum
return # no parent
parentDecl = parentSymbol.declaration
if parentDecl is None:
# the parent is not explicitly declared
# TODO: we could warn, but?
return
if parentDecl.objectType != 'enum':
# TODO: maybe issue a warning, enumerators in non-enums is weird,
# but it is somewhat equivalent to enumeratorss, without the enum
return
if parentDecl.directiveType != 'enum':
return
targetSymbol = parentSymbol.parent
s = targetSymbol.find_identifier(symbol.ident, matchSelf=False, recurseInAnon=True,
searchInSiblings=False)
if s is not None:
# something is already declared with that name
return
declClone = symbol.declaration.clone()
declClone.enumeratorScopedSymbol = symbol
Symbol(parent=targetSymbol, ident=symbol.ident,
declaration=declClone,
docname=self.env.docname, line=self.get_source_info()[1])
def add_target_and_index(self, ast: ASTDeclaration, sig: str,
signode: TextElement) -> None:
ids = []
for i in range(1, _max_id + 1):
try:
id = ast.get_id(version=i)
ids.append(id)
except NoOldIdError:
assert i < _max_id
# let's keep the newest first
ids = list(reversed(ids))
newestId = ids[0]
assert newestId # shouldn't be None
name = ast.symbol.get_full_nested_name().get_display_string().lstrip('.')
if newestId not in self.state.document.ids:
# always add the newest id
assert newestId
signode['ids'].append(newestId)
# only add compatibility ids when there are no conflicts
for id in ids[1:]:
if not id: # is None when the element didn't exist in that version
continue
if id not in self.state.document.ids:
signode['ids'].append(id)
self.state.document.note_explicit_target(signode)
if 'noindexentry' not in self.options:
indexText = self.get_index_text(name)
self.indexnode['entries'].append(('single', indexText, newestId, '', None))
@property
def object_type(self) -> str:
raise NotImplementedError()
@property
def display_object_type(self) -> str:
return self.object_type
def get_index_text(self, name: str) -> str:
return _('%s (C %s)') % (name, self.display_object_type)
def parse_definition(self, parser: DefinitionParser) -> ASTDeclaration:
return parser.parse_declaration(self.object_type, self.objtype)
def parse_pre_v3_type_definition(self, parser: DefinitionParser) -> ASTDeclaration:
return parser.parse_pre_v3_type_definition()
def describe_signature(self, signode: TextElement, ast: Any, options: Dict) -> None:
ast.describe_signature(signode, 'lastIsName', self.env, options)
def run(self) -> List[Node]:
env = self.state.document.settings.env # from ObjectDescription.run
if 'c:parent_symbol' not in env.temp_data:
root = env.domaindata['c']['root_symbol']
env.temp_data['c:parent_symbol'] = root
env.ref_context['c:parent_key'] = root.get_lookup_key()
# When multiple declarations are made in the same directive
# they need to know about each other to provide symbol lookup for function parameters.
# We use last_symbol to store the latest added declaration in a directive.
env.temp_data['c:last_symbol'] = None
return super().run()
def handle_signature(self, sig: str, signode: TextElement) -> ASTDeclaration:
parentSymbol = self.env.temp_data['c:parent_symbol'] # type: Symbol
parser = DefinitionParser(sig, location=signode, config=self.env.config)
try:
try:
ast = self.parse_definition(parser)
parser.assert_end()
except DefinitionError as eOrig:
if not self.env.config['c_allow_pre_v3']:
raise
if self.objtype != 'type':
raise
try:
ast = self.parse_pre_v3_type_definition(parser)
parser.assert_end()
except DefinitionError:
raise eOrig
self.object_type = ast.objectType # type: ignore
if self.env.config['c_warn_on_allowed_pre_v3']:
msg = "{}: Pre-v3 C type directive '.. c:type:: {}' converted to " \
"'.. c:{}:: {}'." \
"\nThe original parsing error was:\n{}"
msg = msg.format(RemovedInSphinx50Warning.__name__,
sig, ast.objectType, ast, eOrig)
logger.warning(msg, location=signode)
except DefinitionError as e:
logger.warning(e, location=signode)
# It is easier to assume some phony name than handling the error in
# the possibly inner declarations.
name = _make_phony_error_name()
symbol = parentSymbol.add_name(name)
self.env.temp_data['c:last_symbol'] = symbol
raise ValueError from e
try:
symbol = parentSymbol.add_declaration(
ast, docname=self.env.docname, line=self.get_source_info()[1])
# append the new declaration to the sibling list
assert symbol.siblingAbove is None
assert symbol.siblingBelow is None
symbol.siblingAbove = self.env.temp_data['c:last_symbol']
if symbol.siblingAbove is not None:
assert symbol.siblingAbove.siblingBelow is None
symbol.siblingAbove.siblingBelow = symbol
self.env.temp_data['c:last_symbol'] = symbol
except _DuplicateSymbolError as e:
# Assume we are actually in the old symbol,
# instead of the newly created duplicate.
self.env.temp_data['c:last_symbol'] = e.symbol
msg = __("Duplicate C declaration, also defined at %s:%s.\n"
"Declaration is '.. c:%s:: %s'.")
msg = msg % (e.symbol.docname, e.symbol.line, self.display_object_type, sig)
logger.warning(msg, location=signode)
if ast.objectType == 'enumerator':
self._add_enumerator_to_parent(ast)
# note: handle_signature may be called multiple time per directive,
# if it has multiple signatures, so don't mess with the original options.
options = dict(self.options)
self.describe_signature(signode, ast, options)
return ast
def before_content(self) -> None:
lastSymbol = self.env.temp_data['c:last_symbol'] # type: Symbol
assert lastSymbol
self.oldParentSymbol = self.env.temp_data['c:parent_symbol']
self.oldParentKey = self.env.ref_context['c:parent_key'] # type: LookupKey
self.env.temp_data['c:parent_symbol'] = lastSymbol
self.env.ref_context['c:parent_key'] = lastSymbol.get_lookup_key()
def after_content(self) -> None:
self.env.temp_data['c:parent_symbol'] = self.oldParentSymbol
self.env.ref_context['c:parent_key'] = self.oldParentKey
def make_old_id(self, name: str) -> str:
"""Generate old styled node_id for C objects.
.. note:: Old Styled node_id was used until Sphinx-3.0.
This will be removed in Sphinx-5.0.
"""
return 'c.' + name
class CMemberObject(CObject):
object_type = 'member'
@property
def display_object_type(self) -> str:
# the distinction between var and member is only cosmetic
assert self.objtype in ('member', 'var')
return self.objtype
class CFunctionObject(CObject):
object_type = 'function'
class CMacroObject(CObject):
object_type = 'macro'
class CStructObject(CObject):
object_type = 'struct'
class CUnionObject(CObject):
object_type = 'union'
class CEnumObject(CObject):
object_type = 'enum'
class CEnumeratorObject(CObject):
object_type = 'enumerator'
class CTypeObject(CObject):
object_type = 'type'
class CNamespaceObject(SphinxDirective):
"""
This directive is just to tell Sphinx that we're documenting stuff in
namespace foo.
"""
has_content = False
required_arguments = 1
optional_arguments = 0
final_argument_whitespace = True
option_spec = {} # type: Dict
def run(self) -> List[Node]:
rootSymbol = self.env.domaindata['c']['root_symbol']
if self.arguments[0].strip() in ('NULL', '0', 'nullptr'):
symbol = rootSymbol
stack = [] # type: List[Symbol]
else:
parser = DefinitionParser(self.arguments[0],
location=self.get_source_info(),
config=self.env.config)
try:
name = parser.parse_namespace_object()
parser.assert_end()
except DefinitionError as e:
logger.warning(e, location=self.get_source_info())
name = _make_phony_error_name()
symbol = rootSymbol.add_name(name)
stack = [symbol]
self.env.temp_data['c:parent_symbol'] = symbol
self.env.temp_data['c:namespace_stack'] = stack
self.env.ref_context['c:parent_key'] = symbol.get_lookup_key()
return []
class CNamespacePushObject(SphinxDirective):
has_content = False
required_arguments = 1
optional_arguments = 0
final_argument_whitespace = True
option_spec = {} # type: Dict
def run(self) -> List[Node]:
if self.arguments[0].strip() in ('NULL', '0', 'nullptr'):
return []
parser = DefinitionParser(self.arguments[0],
location=self.get_source_info(),
config=self.env.config)
try:
name = parser.parse_namespace_object()
parser.assert_end()
except DefinitionError as e:
logger.warning(e, location=self.get_source_info())
name = _make_phony_error_name()
oldParent = self.env.temp_data.get('c:parent_symbol', None)
if not oldParent:
oldParent = self.env.domaindata['c']['root_symbol']
symbol = oldParent.add_name(name)
stack = self.env.temp_data.get('c:namespace_stack', [])
stack.append(symbol)
self.env.temp_data['c:parent_symbol'] = symbol
self.env.temp_data['c:namespace_stack'] = stack
self.env.ref_context['c:parent_key'] = symbol.get_lookup_key()
return []
class CNamespacePopObject(SphinxDirective):
has_content = False
required_arguments = 0
optional_arguments = 0
final_argument_whitespace = True
option_spec = {} # type: Dict
def run(self) -> List[Node]:
stack = self.env.temp_data.get('c:namespace_stack', None)
if not stack or len(stack) == 0:
logger.warning("C namespace pop on empty stack. Defaulting to gobal scope.",
location=self.get_source_info())
stack = []
else:
stack.pop()
if len(stack) > 0:
symbol = stack[-1]
else:
symbol = self.env.domaindata['c']['root_symbol']
self.env.temp_data['c:parent_symbol'] = symbol
self.env.temp_data['c:namespace_stack'] = stack
self.env.ref_context['cp:parent_key'] = symbol.get_lookup_key()
return []
class AliasNode(nodes.Element):
def __init__(self, sig: str, maxdepth: int, document: Any, env: "BuildEnvironment" = None,
parentKey: LookupKey = None) -> None:
super().__init__()
self.sig = sig
self.maxdepth = maxdepth
assert maxdepth >= 0
self.document = document
if env is not None:
if 'c:parent_symbol' not in env.temp_data:
root = env.domaindata['c']['root_symbol']
env.temp_data['c:parent_symbol'] = root
self.parentKey = env.temp_data['c:parent_symbol'].get_lookup_key()
else:
assert parentKey is not None
self.parentKey = parentKey
def copy(self) -> 'AliasNode':
return self.__class__(self.sig, self.maxdepth, self.document,
env=None, parentKey=self.parentKey)
class AliasTransform(SphinxTransform):
default_priority = ReferencesResolver.default_priority - 1
def _render_symbol(self, s: Symbol, maxdepth: int, document: Any) -> List[Node]:
nodes = [] # type: List[Node]
options = dict() # type: ignore
signode = addnodes.desc_signature('', '')
nodes.append(signode)
s.declaration.describe_signature(signode, 'markName', self.env, options)
if maxdepth == 0:
recurse = True
elif maxdepth == 1:
recurse = False
else:
maxdepth -= 1
recurse = True
if recurse:
content = addnodes.desc_content()
desc = addnodes.desc()
content.append(desc)
desc.document = document
desc['domain'] = 'c'
# 'desctype' is a backwards compatible attribute
desc['objtype'] = desc['desctype'] = 'alias'
desc['noindex'] = True
for sChild in s.children:
childNodes = self._render_symbol(sChild, maxdepth, document)
desc.extend(childNodes)
if len(desc.children) != 0:
nodes.append(content)
return nodes
def apply(self, **kwargs: Any) -> None:
for node in self.document.traverse(AliasNode):
sig = node.sig
parentKey = node.parentKey
try:
parser = DefinitionParser(sig, location=node,
config=self.env.config)
name = parser.parse_xref_object()
except DefinitionError as e:
logger.warning(e, location=node)
name = None
if name is None:
# could not be parsed, so stop here
signode = addnodes.desc_signature(sig, '')
signode.clear()
signode += addnodes.desc_name(sig, sig)
node.replace_self(signode)
continue
rootSymbol = self.env.domains['c'].data['root_symbol'] # type: Symbol
parentSymbol = rootSymbol.direct_lookup(parentKey) # type: Symbol
if not parentSymbol:
print("Target: ", sig)
print("ParentKey: ", parentKey)
print(rootSymbol.dump(1))
assert parentSymbol # should be there
s = parentSymbol.find_declaration(
name, 'any',
matchSelf=True, recurseInAnon=True)
if s is None:
signode = addnodes.desc_signature(sig, '')
node.append(signode)
signode.clear()
signode += addnodes.desc_name(sig, sig)
logger.warning("Could not find C declaration for alias '%s'." % name,
location=node)
node.replace_self(signode)
continue
nodes = self._render_symbol(s, maxdepth=node.maxdepth, document=node.document)
node.replace_self(nodes)
class CAliasObject(ObjectDescription):
option_spec = {
'maxdepth': directives.nonnegative_int
} # type: Dict
def run(self) -> List[Node]:
if ':' in self.name:
self.domain, self.objtype = self.name.split(':', 1)
else:
self.domain, self.objtype = '', self.name
node = addnodes.desc()
node.document = self.state.document
node['domain'] = self.domain
# 'desctype' is a backwards compatible attribute
node['objtype'] = node['desctype'] = self.objtype
node['noindex'] = True
self.names = [] # type: List[str]
maxdepth = self.options.get('maxdepth', 1)
signatures = self.get_signatures()
for i, sig in enumerate(signatures):
node.append(AliasNode(sig, maxdepth, self.state.document, env=self.env))
return [node]
class CXRefRole(XRefRole):
def process_link(self, env: BuildEnvironment, refnode: Element,
has_explicit_title: bool, title: str, target: str) -> Tuple[str, str]:
refnode.attributes.update(env.ref_context)
if not has_explicit_title:
# major hax: replace anon names via simple string manipulation.
# Can this actually fail?
title = anon_identifier_re.sub("[anonymous]", str(title))
if not has_explicit_title:
target = target.lstrip('~') # only has a meaning for the title
# if the first character is a tilde, don't display the module/class
# parts of the contents
if title[0:1] == '~':
title = title[1:]
dot = title.rfind('.')
if dot != -1:
title = title[dot + 1:]
return title, target
def run(self) -> Tuple[List[Node], List[system_message]]:
if not self.env.config['c_allow_pre_v3']:
return super().run()
text = self.text.replace('\n', ' ')
parser = DefinitionParser(text, location=self.get_source_info(),
config=self.env.config)
try:
parser.parse_xref_object()
# it succeeded, so let it through
return super().run()
except DefinitionError as eOrig:
# try as if it was an c:expr
parser.pos = 0
try:
ast = parser.parse_expression()
except DefinitionError:
# that didn't go well, just default back
return super().run()
classes = ['xref', 'c', 'c-texpr']
parentSymbol = self.env.temp_data.get('cpp:parent_symbol', None)
if parentSymbol is None:
parentSymbol = self.env.domaindata['c']['root_symbol']
signode = nodes.inline(classes=classes)
ast.describe_signature(signode, 'markType', self.env, parentSymbol)
if self.env.config['c_warn_on_allowed_pre_v3']:
msg = "{}: Pre-v3 C type role ':c:type:`{}`' converted to ':c:expr:`{}`'."
msg += "\nThe original parsing error was:\n{}"
msg = msg.format(RemovedInSphinx50Warning.__name__, text, text, eOrig)
logger.warning(msg, location=self.get_source_info())
return [signode], []
class CExprRole(SphinxRole):
def __init__(self, asCode: bool) -> None:
super().__init__()
if asCode:
# render the expression as inline code
self.class_type = 'c-expr'
self.node_type = nodes.literal # type: Type[TextElement]
else:
# render the expression as inline text
self.class_type = 'c-texpr'
self.node_type = nodes.inline
def run(self) -> Tuple[List[Node], List[system_message]]:
text = self.text.replace('\n', ' ')
parser = DefinitionParser(text, location=self.get_source_info(),
config=self.env.config)
# attempt to mimic XRefRole classes, except that...
classes = ['xref', 'c', self.class_type]
try:
ast = parser.parse_expression()
except DefinitionError as ex:
logger.warning('Unparseable C expression: %r\n%s', text, ex,
location=self.get_source_info())
# see below
return [self.node_type(text, text, classes=classes)], []
parentSymbol = self.env.temp_data.get('cpp:parent_symbol', None)
if parentSymbol is None:
parentSymbol = self.env.domaindata['c']['root_symbol']
# ...most if not all of these classes should really apply to the individual references,
# not the container node
signode = self.node_type(classes=classes)
ast.describe_signature(signode, 'markType', self.env, parentSymbol)
return [signode], []
class CDomain(Domain):
"""C language domain."""
name = 'c'
label = 'C'
object_types = {
'function': ObjType(_('function'), 'func'),
'member': ObjType(_('member'), 'member'),
'macro': ObjType(_('macro'), 'macro'),
'type': ObjType(_('type'), 'type'),
'var': ObjType(_('variable'), 'data'),
'enum': ObjType(_('enum'), 'enum'),
'enumerator': ObjType(_('enumerator'), 'enumerator'),
'struct': ObjType(_('struct'), 'struct'),
'union': ObjType(_('union'), 'union'),
}
directives = {
'member': CMemberObject,
'var': CMemberObject,
'function': CFunctionObject,
'macro': CMacroObject,
'struct': CStructObject,
'union': CUnionObject,
'enum': CEnumObject,
'enumerator': CEnumeratorObject,
'type': CTypeObject,
# scope control
'namespace': CNamespaceObject,
'namespace-push': CNamespacePushObject,
'namespace-pop': CNamespacePopObject,
# other
'alias': CAliasObject
}
roles = {
'member': CXRefRole(),
'data': CXRefRole(),
'var': CXRefRole(),
'func': CXRefRole(fix_parens=True),
'macro': CXRefRole(),
'struct': CXRefRole(),
'union': CXRefRole(),
'enum': CXRefRole(),
'enumerator': CXRefRole(),
'type': CXRefRole(),
'expr': CExprRole(asCode=True),
'texpr': CExprRole(asCode=False)
}
initial_data = {
'root_symbol': Symbol(None, None, None, None, None),
'objects': {}, # fullname -> docname, node_id, objtype
} # type: Dict[str, Union[Symbol, Dict[str, Tuple[str, str, str]]]]
def clear_doc(self, docname: str) -> None:
if Symbol.debug_show_tree:
print("clear_doc:", docname)
print("\tbefore:")
print(self.data['root_symbol'].dump(1))
print("\tbefore end")
rootSymbol = self.data['root_symbol']
rootSymbol.clear_doc(docname)
if Symbol.debug_show_tree:
print("\tafter:")
print(self.data['root_symbol'].dump(1))
print("\tafter end")
print("clear_doc end:", docname)
def process_doc(self, env: BuildEnvironment, docname: str,
document: nodes.document) -> None:
if Symbol.debug_show_tree:
print("process_doc:", docname)
print(self.data['root_symbol'].dump(0))
print("process_doc end:", docname)
def process_field_xref(self, pnode: pending_xref) -> None:
pnode.attributes.update(self.env.ref_context)
def merge_domaindata(self, docnames: List[str], otherdata: Dict) -> None:
if Symbol.debug_show_tree:
print("merge_domaindata:")
print("\tself:")
print(self.data['root_symbol'].dump(1))
print("\tself end")
print("\tother:")
print(otherdata['root_symbol'].dump(1))
print("\tother end")
print("merge_domaindata end")
self.data['root_symbol'].merge_with(otherdata['root_symbol'],
docnames, self.env)
ourObjects = self.data['objects']
for fullname, (fn, id_, objtype) in otherdata['objects'].items():
if fn in docnames:
if fullname not in ourObjects:
ourObjects[fullname] = (fn, id_, objtype)
# no need to warn on duplicates, the symbol merge already does that
def _resolve_xref_inner(self, env: BuildEnvironment, fromdocname: str, builder: Builder,
typ: str, target: str, node: pending_xref,
contnode: Element) -> Tuple[Element, str]:
parser = DefinitionParser(target, location=node, config=env.config)
try:
name = parser.parse_xref_object()
except DefinitionError as e:
logger.warning('Unparseable C cross-reference: %r\n%s', target, e,
location=node)
return None, None
parentKey = node.get("c:parent_key", None) # type: LookupKey
rootSymbol = self.data['root_symbol']
if parentKey:
parentSymbol = rootSymbol.direct_lookup(parentKey) # type: Symbol
if not parentSymbol:
print("Target: ", target)
print("ParentKey: ", parentKey)
print(rootSymbol.dump(1))
assert parentSymbol # should be there
else:
parentSymbol = rootSymbol
s = parentSymbol.find_declaration(name, typ,
matchSelf=True, recurseInAnon=True)
if s is None or s.declaration is None:
return None, None
# TODO: check role type vs. object type
declaration = s.declaration
displayName = name.get_display_string()
docname = s.docname
assert docname
return make_refnode(builder, fromdocname, docname,
declaration.get_newest_id(), contnode, displayName
), declaration.objectType
def resolve_xref(self, env: BuildEnvironment, fromdocname: str, builder: Builder,
typ: str, target: str, node: pending_xref,
contnode: Element) -> Element:
return self._resolve_xref_inner(env, fromdocname, builder, typ,
target, node, contnode)[0]
def resolve_any_xref(self, env: BuildEnvironment, fromdocname: str, builder: Builder,
target: str, node: pending_xref, contnode: Element
) -> List[Tuple[str, Element]]:
with logging.suppress_logging():
retnode, objtype = self._resolve_xref_inner(env, fromdocname, builder,
'any', target, node, contnode)
if retnode:
return [('c:' + self.role_for_objtype(objtype), retnode)]
return []
def get_objects(self) -> Iterator[Tuple[str, str, str, str, str, int]]:
rootSymbol = self.data['root_symbol']
for symbol in rootSymbol.get_all_symbols():
if symbol.declaration is None:
continue
assert symbol.docname
fullNestedName = symbol.get_full_nested_name()
name = str(fullNestedName).lstrip('.')
dispname = fullNestedName.get_display_string().lstrip('.')
objectType = symbol.declaration.objectType
docname = symbol.docname
newestId = symbol.declaration.get_newest_id()
yield (name, dispname, objectType, docname, newestId, 1)
def setup(app: Sphinx) -> Dict[str, Any]:
app.add_domain(CDomain)
app.add_config_value("c_id_attributes", [], 'env')
app.add_config_value("c_paren_attributes", [], 'env')
app.add_post_transform(AliasTransform)
app.add_config_value("c_allow_pre_v3", False, 'env')
app.add_config_value("c_warn_on_allowed_pre_v3", True, 'env')
return {
'version': 'builtin',
'env_version': 2,
'parallel_read_safe': True,
'parallel_write_safe': True,
}
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