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

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"""
sphinx.domains.cpp
~~~~~~~~~~~~~~~~~~
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, Optional, Tuple, Type,
TypeVar, Union)
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 desc_signature, pending_xref
from sphinx.application import Sphinx
from sphinx.builders import Builder
from sphinx.directives import ObjectDescription
from sphinx.domains import Domain, ObjType
from sphinx.environment import BuildEnvironment
from sphinx.errors import NoUri
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, GroupedField
from sphinx.util.docutils import SphinxDirective
from sphinx.util.nodes import make_refnode
logger = logging.getLogger(__name__)
T = TypeVar('T')
"""
Important note on ids
----------------------------------------------------------------------------
Multiple id generation schemes are used due to backwards compatibility.
- v1: 1.2.3 <= version < 1.3
The style used before the rewrite.
It is not the actual old code, but a replication of the behaviour.
- v2: 1.3 <= version < now
Standardised mangling scheme from
https://itanium-cxx-abi.github.io/cxx-abi/abi.html#mangling
though not completely implemented.
All versions are generated and attached to elements. The newest is used for
the index. All of the versions should work as permalinks.
Signature Nodes and Tagnames
----------------------------------------------------------------------------
Each signature is in a desc_signature node, where all children are
desc_signature_line nodes. Each of these lines will have the attribute
'sphinx_line_type' set to one of the following (prioritized):
- 'declarator', if the line contains the name of the declared object.
- 'templateParams', if the line starts a template parameter list,
- 'templateParams', if the line has template parameters
Note: such lines might get a new tag in the future.
- 'templateIntroduction, if the line is on the form 'conceptName{...}'
No other desc_signature nodes should exist (so far).
Grammar
----------------------------------------------------------------------------
See https://www.nongnu.org/hcb/ for the grammar,
and https://github.com/cplusplus/draft/blob/master/source/grammar.tex,
and https://github.com/cplusplus/concepts-ts
for the newest grammar.
common grammar things:
template-declaration ->
"template" "<" template-parameter-list ">" declaration
template-parameter-list ->
template-parameter
| template-parameter-list "," template-parameter
template-parameter ->
type-parameter
| parameter-declaration # i.e., same as a function argument
type-parameter ->
"class" "..."[opt] identifier[opt]
| "class" identifier[opt] "=" type-id
| "typename" "..."[opt] identifier[opt]
| "typename" identifier[opt] "=" type-id
| "template" "<" template-parameter-list ">"
"class" "..."[opt] identifier[opt]
| "template" "<" template-parameter-list ">"
"class" identifier[opt] "=" id-expression
# also, from C++17 we can have "typename" in template templates
templateDeclPrefix ->
"template" "<" template-parameter-list ">"
simple-declaration ->
attribute-specifier-seq[opt] decl-specifier-seq[opt]
init-declarator-list[opt] ;
# Make the semicolon optional.
# For now: drop the attributes (TODO).
# Use at most 1 init-declarator.
-> decl-specifier-seq init-declarator
-> decl-specifier-seq declarator initializer
decl-specifier ->
storage-class-specifier ->
( "static" (only for member_object and function_object)
| "extern" (only for member_object and function_object)
| "register"
)
thread_local[opt] (only for member_object)
(it can also appear before the others)
| type-specifier -> trailing-type-specifier
| function-specifier -> "inline" | "virtual" | "explicit" (only
for function_object)
| "friend" (only for function_object)
| "constexpr" (only for member_object and function_object)
trailing-type-specifier ->
simple-type-specifier
| elaborated-type-specifier
| typename-specifier
| cv-qualifier -> "const" | "volatile"
stricter grammar for decl-specifier-seq (with everything, each object
uses a subset):
visibility storage-class-specifier function-specifier "friend"
"constexpr" "volatile" "const" trailing-type-specifier
# where trailing-type-specifier can no be cv-qualifier
# Inside e.g., template parameters a strict subset is used
# (see type-specifier-seq)
trailing-type-specifier ->
simple-type-specifier ->
::[opt] nested-name-specifier[opt] type-name
| ::[opt] nested-name-specifier "template" simple-template-id
| "char" | "bool" | ect.
| decltype-specifier
| elaborated-type-specifier ->
class-key attribute-specifier-seq[opt] ::[opt]
nested-name-specifier[opt] identifier
| class-key ::[opt] nested-name-specifier[opt] template[opt]
simple-template-id
| "enum" ::[opt] nested-name-specifier[opt] identifier
| typename-specifier ->
"typename" ::[opt] nested-name-specifier identifier
| "typename" ::[opt] nested-name-specifier template[opt]
simple-template-id
class-key -> "class" | "struct" | "union"
type-name ->* identifier | simple-template-id
# ignoring attributes and decltype, and then some left-factoring
trailing-type-specifier ->
rest-of-trailing
("class" | "struct" | "union" | "typename") rest-of-trailing
build-in -> "char" | "bool" | ect.
decltype-specifier
rest-of-trailing -> (with some simplification)
"::"[opt] list-of-elements-separated-by-::
element ->
"template"[opt] identifier ("<" template-argument-list ">")[opt]
template-argument-list ->
template-argument "..."[opt]
| template-argument-list "," template-argument "..."[opt]
template-argument ->
constant-expression
| type-specifier-seq abstract-declarator
| id-expression
declarator ->
ptr-declarator
| noptr-declarator parameters-and-qualifiers trailing-return-type
(TODO: for now we don't support trailing-eturn-type)
ptr-declarator ->
noptr-declarator
| ptr-operator ptr-declarator
noptr-declarator ->
declarator-id attribute-specifier-seq[opt] ->
"..."[opt] id-expression
| rest-of-trailing
| noptr-declarator parameters-and-qualifiers
| noptr-declarator "[" constant-expression[opt] "]"
attribute-specifier-seq[opt]
| "(" ptr-declarator ")"
ptr-operator ->
"*" attribute-specifier-seq[opt] cv-qualifier-seq[opt]
| "& attribute-specifier-seq[opt]
| "&&" attribute-specifier-seq[opt]
| "::"[opt] nested-name-specifier "*" attribute-specifier-seq[opt]
cv-qualifier-seq[opt]
# function_object must use a parameters-and-qualifiers, the others may
# use it (e.g., function poitners)
parameters-and-qualifiers ->
"(" parameter-clause ")" attribute-specifier-seq[opt]
cv-qualifier-seq[opt] ref-qualifier[opt]
exception-specification[opt]
ref-qualifier -> "&" | "&&"
exception-specification ->
"noexcept" ("(" constant-expression ")")[opt]
"throw" ("(" type-id-list ")")[opt]
# TODO: we don't implement attributes
# member functions can have initializers, but we fold them into here
memberFunctionInit -> "=" "0"
# (note: only "0" is allowed as the value, according to the standard,
# right?)
enum-head ->
enum-key attribute-specifier-seq[opt] nested-name-specifier[opt]
identifier enum-base[opt]
enum-key -> "enum" | "enum struct" | "enum class"
enum-base ->
":" type
enumerator-definition ->
identifier
| identifier "=" constant-expression
We additionally add the possibility for specifying the visibility as the
first thing.
concept_object:
goal:
just a declaration of the name (for now)
grammar: only a single template parameter list, and the nested name
may not have any template argument lists
"template" "<" template-parameter-list ">"
nested-name-specifier
type_object:
goal:
either a single type (e.g., "MyClass:Something_T" or a typedef-like
thing (e.g. "Something Something_T" or "int I_arr[]"
grammar, single type: based on a type in a function parameter, but
without a name:
parameter-declaration
-> attribute-specifier-seq[opt] decl-specifier-seq
abstract-declarator[opt]
# Drop the attributes
-> decl-specifier-seq abstract-declarator[opt]
grammar, typedef-like: no initilizer
decl-specifier-seq declarator
Can start with a templateDeclPrefix.
member_object:
goal: as a type_object which must have a declarator, and optionally
with a initializer
grammar:
decl-specifier-seq declarator initializer
Can start with a templateDeclPrefix.
function_object:
goal: a function declaration, TODO: what about templates? for now: skip
grammar: no initializer
decl-specifier-seq declarator
Can start with a templateDeclPrefix.
class_object:
goal: a class declaration, but with specification of a base class
grammar:
nested-name "final"[opt] (":" base-specifier-list)[opt]
base-specifier-list ->
base-specifier "..."[opt]
| base-specifier-list, base-specifier "..."[opt]
base-specifier ->
base-type-specifier
| "virtual" access-spe"cifier[opt] base-type-specifier
| access-specifier[opt] "virtual"[opt] base-type-specifier
Can start with a templateDeclPrefix.
enum_object:
goal: an unscoped enum or a scoped enum, optionally with the underlying
type specified
grammar:
("class" | "struct")[opt] visibility[opt] nested-name (":" type)[opt]
enumerator_object:
goal: an element in a scoped or unscoped enum. The name should be
injected according to the scopedness.
grammar:
nested-name ("=" constant-expression)
namespace_object:
goal: a directive to put all following declarations in a specific scope
grammar:
nested-name
"""
udl_identifier_re = re.compile(r'''(?x)
[a-zA-Z_][a-zA-Z0-9_]*\b # note, no word boundary in the beginning
''')
_string_re = re.compile(r"[LuU8]?('([^'\\]*(?:\\.[^'\\]*)*)'"
r'|"([^"\\]*(?:\\.[^"\\]*)*)")', re.S)
_visibility_re = re.compile(r'\b(public|private|protected)\b')
_operator_re = re.compile(r'''(?x)
\[\s*\]
| \(\s*\)
| \+\+ | --
| ->\*? | \,
| (<<|>>)=? | && | \|\|
| [!<>=/*%+|&^~-]=?
| (\b(and|and_eq|bitand|bitor|compl|not|not_eq|or|or_eq|xor|xor_eq)\b)
''')
_fold_operator_re = re.compile(r'''(?x)
->\* | \.\* | \,
| (<<|>>)=? | && | \|\|
| !=
| [<>=/*%+|&^~-]=?
''')
# see https://en.cppreference.com/w/cpp/keyword
_keywords = [
'alignas', 'alignof', 'and', 'and_eq', 'asm', 'auto', 'bitand', 'bitor',
'bool', 'break', 'case', 'catch', 'char', 'char16_t', 'char32_t', 'class',
'compl', 'concept', 'const', 'constexpr', 'const_cast', 'continue',
'decltype', 'default', 'delete', 'do', 'double', 'dynamic_cast', 'else',
'enum', 'explicit', 'export', 'extern', 'false', 'float', 'for', 'friend',
'goto', 'if', 'inline', 'int', 'long', 'mutable', 'namespace', 'new',
'noexcept', 'not', 'not_eq', 'nullptr', 'operator', 'or', 'or_eq',
'private', 'protected', 'public', 'register', 'reinterpret_cast',
'requires', 'return', 'short', 'signed', 'sizeof', 'static',
'static_assert', 'static_cast', 'struct', 'switch', 'template', 'this',
'thread_local', 'throw', 'true', 'try', 'typedef', 'typeid', 'typename',
'union', 'unsigned', 'using', 'virtual', 'void', 'volatile', 'wchar_t',
'while', 'xor', 'xor_eq'
]
_max_id = 4
_id_prefix = [None, '', '_CPPv2', '_CPPv3', '_CPPv4']
# Ids are used in lookup keys which are used across pickled files,
# so when _max_id changes, make sure to update the ENV_VERSION.
# ------------------------------------------------------------------------------
# Id v1 constants
# ------------------------------------------------------------------------------
_id_fundamental_v1 = {
'char': 'c',
'signed char': 'c',
'unsigned char': 'C',
'int': 'i',
'signed int': 'i',
'unsigned int': 'U',
'long': 'l',
'signed long': 'l',
'unsigned long': 'L',
'bool': 'b'
}
_id_shorthands_v1 = {
'std::string': 'ss',
'std::ostream': 'os',
'std::istream': 'is',
'std::iostream': 'ios',
'std::vector': 'v',
'std::map': 'm'
}
_id_operator_v1 = {
'new': 'new-operator',
'new[]': 'new-array-operator',
'delete': 'delete-operator',
'delete[]': 'delete-array-operator',
# the arguments will make the difference between unary and binary
# '+(unary)' : 'ps',
# '-(unary)' : 'ng',
# '&(unary)' : 'ad',
# '*(unary)' : 'de',
'~': 'inv-operator',
'+': 'add-operator',
'-': 'sub-operator',
'*': 'mul-operator',
'/': 'div-operator',
'%': 'mod-operator',
'&': 'and-operator',
'|': 'or-operator',
'^': 'xor-operator',
'=': 'assign-operator',
'+=': 'add-assign-operator',
'-=': 'sub-assign-operator',
'*=': 'mul-assign-operator',
'/=': 'div-assign-operator',
'%=': 'mod-assign-operator',
'&=': 'and-assign-operator',
'|=': 'or-assign-operator',
'^=': 'xor-assign-operator',
'<<': 'lshift-operator',
'>>': 'rshift-operator',
'<<=': 'lshift-assign-operator',
'>>=': 'rshift-assign-operator',
'==': 'eq-operator',
'!=': 'neq-operator',
'<': 'lt-operator',
'>': 'gt-operator',
'<=': 'lte-operator',
'>=': 'gte-operator',
'!': 'not-operator',
'&&': 'sand-operator',
'||': 'sor-operator',
'++': 'inc-operator',
'--': 'dec-operator',
',': 'comma-operator',
'->*': 'pointer-by-pointer-operator',
'->': 'pointer-operator',
'()': 'call-operator',
'[]': 'subscript-operator'
}
# ------------------------------------------------------------------------------
# Id v > 1 constants
# ------------------------------------------------------------------------------
_id_fundamental_v2 = {
# not all of these are actually parsed as fundamental types, TODO: do that
'void': 'v',
'bool': 'b',
'char': 'c',
'signed char': 'a',
'unsigned char': 'h',
'wchar_t': 'w',
'char32_t': 'Di',
'char16_t': 'Ds',
'short': 's',
'short int': 's',
'signed short': 's',
'signed short int': 's',
'unsigned short': 't',
'unsigned short int': 't',
'int': 'i',
'signed': 'i',
'signed int': 'i',
'unsigned': 'j',
'unsigned int': 'j',
'long': 'l',
'long int': 'l',
'signed long': 'l',
'signed long int': 'l',
'unsigned long': 'm',
'unsigned long int': 'm',
'long long': 'x',
'long long int': 'x',
'signed long long': 'x',
'signed long long int': 'x',
'unsigned long long': 'y',
'unsigned long long int': 'y',
'float': 'f',
'double': 'd',
'long double': 'e',
'auto': 'Da',
'decltype(auto)': 'Dc',
'std::nullptr_t': 'Dn'
}
_id_operator_v2 = {
'new': 'nw',
'new[]': 'na',
'delete': 'dl',
'delete[]': 'da',
# the arguments will make the difference between unary and binary
# in operator definitions
# '+(unary)' : 'ps',
# '-(unary)' : 'ng',
# '&(unary)' : 'ad',
# '*(unary)' : 'de',
'~': 'co', 'compl': 'co',
'+': 'pl',
'-': 'mi',
'*': 'ml',
'/': 'dv',
'%': 'rm',
'&': 'an', 'bitand': 'an',
'|': 'or', 'bitor': 'or',
'^': 'eo', 'xor': 'eo',
'=': 'aS',
'+=': 'pL',
'-=': 'mI',
'*=': 'mL',
'/=': 'dV',
'%=': 'rM',
'&=': 'aN', 'and_eq': 'aN',
'|=': 'oR', 'or_eq': 'oR',
'^=': 'eO', 'xor_eq': 'eO',
'<<': 'ls',
'>>': 'rs',
'<<=': 'lS',
'>>=': 'rS',
'==': 'eq',
'!=': 'ne', 'not_eq': 'ne',
'<': 'lt',
'>': 'gt',
'<=': 'le',
'>=': 'ge',
'!': 'nt', 'not': 'nt',
'&&': 'aa', 'and': 'aa',
'||': 'oo', 'or': 'oo',
'++': 'pp',
'--': 'mm',
',': 'cm',
'->*': 'pm',
'->': 'pt',
'()': 'cl',
'[]': 'ix',
'.*': 'ds' # this one is not overloadable, but we need it for expressions
}
_id_operator_unary_v2 = {
'++': 'pp_',
'--': 'mm_',
'*': 'de',
'&': 'ad',
'+': 'ps',
'-': 'ng',
'!': 'nt', 'not': 'nt',
'~': 'co', 'compl': 'co'
}
_id_char_from_prefix = {
None: 'c', 'u8': 'c',
'u': 'Ds', 'U': 'Di', 'L': 'w'
} # type: Dict[Any, str]
# 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"]
_id_explicit_cast = {
'dynamic_cast': 'dc',
'static_cast': 'sc',
'const_cast': 'cc',
'reinterpret_cast': 'rc'
}
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):
pass
# Names
################################################################################
class ASTIdentifier(ASTBase):
def __init__(self, identifier: str) -> None:
assert identifier is not None
assert len(identifier) != 0
self.identifier = identifier
def is_anon(self) -> bool:
return self.identifier[0] == '@'
def get_id(self, version: int) -> str:
if self.is_anon() and version < 3:
raise NoOldIdError()
if version == 1:
if self.identifier == 'size_t':
return 's'
else:
return self.identifier
if self.identifier == "std":
return 'St'
elif self.identifier[0] == "~":
# a destructor, just use an arbitrary version of dtors
return 'D0'
else:
if self.is_anon():
return 'Ut%d_%s' % (len(self.identifier) - 1, self.identifier[1:])
else:
return str(len(self.identifier)) + self.identifier
# 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, templateArgs: str, symbol: "Symbol") -> None:
verify_description_mode(mode)
if mode == 'markType':
targetText = prefix + self.identifier + templateArgs
pnode = addnodes.pending_xref('', refdomain='cpp',
reftype='identifier',
reftarget=targetText, modname=None,
classname=None)
pnode['cpp:parent_key'] = symbol.get_lookup_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)
elif mode == 'udl':
# the target is 'operator""id' instead of just 'id'
assert len(prefix) == 0
assert len(templateArgs) == 0
assert not self.is_anon()
targetText = 'operator""' + self.identifier
pnode = addnodes.pending_xref('', refdomain='cpp',
reftype='identifier',
reftarget=targetText, modname=None,
classname=None)
pnode['cpp:parent_key'] = symbol.get_lookup_key()
pnode += nodes.Text(self.identifier)
signode += pnode
else:
raise Exception('Unknown description mode: %s' % mode)
class ASTNestedNameElement(ASTBase):
def __init__(self, identOrOp: Union[ASTIdentifier, "ASTOperator"],
templateArgs: "ASTTemplateArgs") -> None:
self.identOrOp = identOrOp
self.templateArgs = templateArgs
def is_operator(self) -> bool:
return False
def get_id(self, version: int) -> str:
res = self.identOrOp.get_id(version)
if self.templateArgs:
res += self.templateArgs.get_id(version)
return res
def _stringify(self, transform: StringifyTransform) -> str:
res = transform(self.identOrOp)
if self.templateArgs:
res += transform(self.templateArgs)
return res
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", prefix: str, symbol: "Symbol") -> None:
tArgs = str(self.templateArgs) if self.templateArgs is not None else ''
self.identOrOp.describe_signature(signode, mode, env, prefix, tArgs, symbol)
if self.templateArgs is not None:
self.templateArgs.describe_signature(signode, mode, env, symbol)
class ASTNestedName(ASTBase):
def __init__(self, names: List[ASTNestedNameElement],
templates: List[bool], rooted: bool) -> None:
assert len(names) > 0
self.names = names
self.templates = templates
assert len(self.names) == len(self.templates)
self.rooted = rooted
@property
def name(self) -> "ASTNestedName":
return self
def num_templates(self) -> int:
count = 0
for n in self.names:
if n.is_operator():
continue
if n.templateArgs:
count += 1
return count
def get_id(self, version: int, modifiers: str = '') -> str:
if version == 1:
tt = str(self)
if tt in _id_shorthands_v1:
return _id_shorthands_v1[tt]
else:
return '::'.join(n.get_id(version) for n in self.names)
res = []
if len(self.names) > 1 or len(modifiers) > 0:
res.append('N')
res.append(modifiers)
for n in self.names:
res.append(n.get_id(version))
if len(self.names) > 1 or len(modifiers) > 0:
res.append('E')
return ''.join(res)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.rooted:
res.append('')
for i in range(len(self.names)):
n = self.names[i]
t = self.templates[i]
if t:
res.append("template " + transform(n))
else:
res.append(transform(n))
return '::'.join(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. however, only the identifier part should be a link, such
# that template args can be a link as well.
# For 'lastIsName' we should also prepend template parameter lists.
templateParams = [] # type: List[Any]
if mode == 'lastIsName':
assert symbol is not None
if symbol.declaration.templatePrefix is not None:
templateParams = symbol.declaration.templatePrefix.templates
iTemplateParams = 0
templateParamsPrefix = ''
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.
# 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)):
nne = names[i]
template = self.templates[i]
if not first:
dest += nodes.Text('::')
prefix += '::'
if template:
dest += nodes.Text("template ")
first = False
txt_nne = str(nne)
if txt_nne != '':
if nne.templateArgs and iTemplateParams < len(templateParams):
templateParamsPrefix += str(templateParams[iTemplateParams])
iTemplateParams += 1
nne.describe_signature(dest, 'markType',
env, templateParamsPrefix + prefix, symbol)
prefix += txt_nne
if mode == 'lastIsName':
if len(self.names) > 1:
dest += addnodes.desc_addname('::', '::')
signode += dest
if self.templates[-1]:
signode += nodes.Text("template ")
self.names[-1].describe_signature(signode, mode, env, '', symbol)
else:
raise Exception('Unknown description mode: %s' % mode)
################################################################################
# Expressions
################################################################################
class ASTExpression(ASTBase):
def get_id(self, version: int) -> str:
raise NotImplementedError(repr(self))
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
raise NotImplementedError(repr(self))
# Primary expressions
################################################################################
class ASTLiteral(ASTExpression):
pass
class ASTPointerLiteral(ASTLiteral):
def _stringify(self, transform: StringifyTransform) -> str:
return 'nullptr'
def get_id(self, version: int) -> str:
return 'LDnE'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('nullptr'))
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 get_id(self, version: int) -> str:
if self.value:
return 'L1E'
else:
return 'L0E'
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 get_id(self, version: int) -> str:
# TODO: floats should be mangled by writing the hex of the binary representation
return "L%sE" % 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 get_id(self, version: int) -> str:
# note: the length is not really correct with escaping
return "LA%d_KcE" % (len(self.data) - 2)
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
assert prefix in _id_char_from_prefix
self.type = _id_char_from_prefix[prefix]
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 get_id(self, version: int) -> str:
# TODO: the ID should be have L E around it
return self.type + str(self.value)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
txt = str(self)
signode.append(nodes.Text(txt, txt))
class ASTUserDefinedLiteral(ASTLiteral):
def __init__(self, literal: ASTLiteral, ident: ASTIdentifier):
self.literal = literal
self.ident = ident
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.literal) + transform(self.ident)
def get_id(self, version: int) -> str:
# mangle as if it was a function call: ident(literal)
return 'clL_Zli{}E{}E'.format(self.ident.get_id(version), self.literal.get_id(version))
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.literal.describe_signature(signode, mode, env, symbol)
self.ident.describe_signature(signode, "udl", env, "", "", symbol)
################################################################################
class ASTThisLiteral(ASTExpression):
def _stringify(self, transform: StringifyTransform) -> str:
return "this"
def get_id(self, version: int) -> str:
return "fpT"
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text("this"))
class ASTFoldExpr(ASTExpression):
def __init__(self, leftExpr: ASTExpression,
op: str, rightExpr: ASTExpression) -> None:
assert leftExpr is not None or rightExpr is not None
self.leftExpr = leftExpr
self.op = op
self.rightExpr = rightExpr
def _stringify(self, transform: StringifyTransform) -> str:
res = ['(']
if self.leftExpr:
res.append(transform(self.leftExpr))
res.append(' ')
res.append(self.op)
res.append(' ')
res.append('...')
if self.rightExpr:
res.append(' ')
res.append(self.op)
res.append(' ')
res.append(transform(self.rightExpr))
res.append(')')
return ''.join(res)
def get_id(self, version: int) -> str:
assert version >= 3
if version == 3:
return str(self)
# https://github.com/itanium-cxx-abi/cxx-abi/pull/67
res = []
if self.leftExpr is None: # (... op expr)
res.append('fl')
elif self.rightExpr is None: # (expr op ...)
res.append('fr')
else: # (expr op ... op expr)
# we don't check where the parameter pack is,
# we just always call this a binary left fold
res.append('fL')
res.append(_id_operator_v2[self.op])
if self.leftExpr:
res.append(self.leftExpr.get_id(version))
if self.rightExpr:
res.append(self.rightExpr.get_id(version))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('('))
if self.leftExpr:
self.leftExpr.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(' '))
signode.append(nodes.Text(self.op))
signode.append(nodes.Text(' '))
signode.append(nodes.Text('...'))
if self.rightExpr:
signode.append(nodes.Text(' '))
signode.append(nodes.Text(self.op))
signode.append(nodes.Text(' '))
self.rightExpr.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
class ASTParenExpr(ASTExpression):
def __init__(self, expr: ASTExpression):
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(')', ')'))
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)
# Postfix expressions
################################################################################
class ASTPostfixOp(ASTBase):
def get_id(self, idPrefix: str, version: int) -> str:
raise NotImplementedError(repr(self))
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
raise NotImplementedError(repr(self))
class ASTPostfixArray(ASTPostfixOp):
def __init__(self, expr: ASTExpression):
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
return '[' + transform(self.expr) + ']'
def get_id(self, idPrefix: str, version: int) -> str:
return 'ix' + idPrefix + 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(']'))
class ASTPostfixMember(ASTPostfixOp):
def __init__(self, name: ASTNestedName):
self.name = name
def _stringify(self, transform: StringifyTransform) -> str:
return '.' + transform(self.name)
def get_id(self, idPrefix: str, version: int) -> str:
return 'dt' + idPrefix + self.name.get_id(version)
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: ASTNestedName):
self.name = name
def _stringify(self, transform: StringifyTransform) -> str:
return '->' + transform(self.name)
def get_id(self, idPrefix: str, version: int) -> str:
return 'pt' + idPrefix + self.name.get_id(version)
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 ASTPostfixInc(ASTPostfixOp):
def _stringify(self, transform: StringifyTransform) -> str:
return '++'
def get_id(self, idPrefix: str, version: int) -> str:
return 'pp' + idPrefix
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 get_id(self, idPrefix: str, version: int) -> str:
return 'mm' + idPrefix
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('--'))
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 get_id(self, idPrefix: str, version: int) -> str:
res = ['cl', idPrefix]
for e in self.lst.exprs:
res.append(e.get_id(version))
res.append('E')
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.lst.describe_signature(signode, mode, env, symbol)
class ASTPostfixExpr(ASTExpression):
def __init__(self, prefix: "ASTType", 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 get_id(self, version: int) -> str:
id = self.prefix.get_id(version)
for p in self.postFixes:
id = p.get_id(id, version)
return id
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)
class ASTExplicitCast(ASTExpression):
def __init__(self, cast: str, typ: "ASTType", expr: ASTExpression):
assert cast in _id_explicit_cast
self.cast = cast
self.typ = typ
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
res = [self.cast]
res.append('<')
res.append(transform(self.typ))
res.append('>(')
res.append(transform(self.expr))
res.append(')')
return ''.join(res)
def get_id(self, version: int) -> str:
return (_id_explicit_cast[self.cast] +
self.typ.get_id(version) +
self.expr.get_id(version))
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text(self.cast))
signode.append(nodes.Text('<'))
self.typ.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text('>'))
signode.append(nodes.Text('('))
self.expr.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
class ASTTypeId(ASTExpression):
def __init__(self, typeOrExpr: Union["ASTType", ASTExpression], isType: bool):
self.typeOrExpr = typeOrExpr
self.isType = isType
def _stringify(self, transform: StringifyTransform) -> str:
return 'typeid(' + transform(self.typeOrExpr) + ')'
def get_id(self, version: int) -> str:
prefix = 'ti' if self.isType else 'te'
return prefix + self.typeOrExpr.get_id(version)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('typeid'))
signode.append(nodes.Text('('))
self.typeOrExpr.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
# 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 get_id(self, version: int) -> str:
return _id_operator_unary_v2[self.op] + self.expr.get_id(version)
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 ASTSizeofParamPack(ASTExpression):
def __init__(self, identifier: ASTIdentifier):
self.identifier = identifier
def _stringify(self, transform: StringifyTransform) -> str:
return "sizeof...(" + transform(self.identifier) + ")"
def get_id(self, version: int) -> str:
return 'sZ' + self.identifier.get_id(version)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('sizeof...('))
self.identifier.describe_signature(signode, mode, env,
symbol=symbol, prefix="", templateArgs="")
signode.append(nodes.Text(')'))
class ASTSizeofType(ASTExpression):
def __init__(self, typ: "ASTType"):
self.typ = typ
def _stringify(self, transform: StringifyTransform) -> str:
return "sizeof(" + transform(self.typ) + ")"
def get_id(self, version: int) -> str:
return 'st' + self.typ.get_id(version)
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 get_id(self, version: int) -> str:
return 'sz' + self.expr.get_id(version)
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 get_id(self, version: int) -> str:
return 'at' + self.typ.get_id(version)
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(')'))
class ASTNoexceptExpr(ASTExpression):
def __init__(self, expr: ASTExpression):
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
return 'noexcept(' + transform(self.expr) + ')'
def get_id(self, version: int) -> str:
return 'nx' + self.expr.get_id(version)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('noexcept('))
self.expr.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
class ASTNewExpr(ASTExpression):
def __init__(self, rooted: bool, isNewTypeId: bool, typ: "ASTType",
initList: Union["ASTParenExprList", "ASTBracedInitList"]) -> None:
self.rooted = rooted
self.isNewTypeId = isNewTypeId
self.typ = typ
self.initList = initList
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.rooted:
res.append('::')
res.append('new ')
# TODO: placement
if self.isNewTypeId:
res.append(transform(self.typ))
else:
assert False
if self.initList is not None:
res.append(transform(self.initList))
return ''.join(res)
def get_id(self, version: int) -> str:
# the array part will be in the type mangling, so na is not used
res = ['nw']
# TODO: placement
res.append('_')
res.append(self.typ.get_id(version))
if self.initList is not None:
res.append(self.initList.get_id(version))
else:
res.append('E')
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
if self.rooted:
signode.append(nodes.Text('::'))
signode.append(nodes.Text('new '))
# TODO: placement
if self.isNewTypeId:
self.typ.describe_signature(signode, mode, env, symbol)
else:
assert False
if self.initList is not None:
self.initList.describe_signature(signode, mode, env, symbol)
class ASTDeleteExpr(ASTExpression):
def __init__(self, rooted: bool, array: bool, expr: ASTExpression):
self.rooted = rooted
self.array = array
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.rooted:
res.append('::')
res.append('delete ')
if self.array:
res.append('[] ')
res.append(transform(self.expr))
return ''.join(res)
def get_id(self, version: int) -> str:
if self.array:
id = "da"
else:
id = "dl"
return id + self.expr.get_id(version)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
if self.rooted:
signode.append(nodes.Text('::'))
signode.append(nodes.Text('delete '))
if self.array:
signode.append(nodes.Text('[] '))
self.expr.describe_signature(signode, mode, env, symbol)
# 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 get_id(self, version: int) -> str:
return 'cv' + self.typ.get_id(version) + self.expr.get_id(version)
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(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 get_id(self, version: int) -> str:
assert version >= 2
res = []
for i in range(len(self.ops)):
res.append(_id_operator_v2[self.ops[i]])
res.append(self.exprs[i].get_id(version))
res.append(self.exprs[-1].get_id(version))
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 ASTBracedInitList(ASTBase):
def __init__(self, exprs: List[Union[ASTExpression, "ASTBracedInitList"]],
trailingComma: bool) -> None:
self.exprs = exprs
self.trailingComma = trailingComma
def get_id(self, version: int) -> str:
return "il%sE" % ''.join(e.get_id(version) for e in self.exprs)
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 ASTAssignmentExpr(ASTExpression):
def __init__(self, exprs: List[Union[ASTExpression, ASTBracedInitList]], 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 get_id(self, version: int) -> str:
res = []
for i in range(len(self.ops)):
res.append(_id_operator_v2[self.ops[i]])
res.append(self.exprs[i].get_id(version))
res.append(self.exprs[-1].get_id(version))
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 ASTCommaExpr(ASTExpression):
def __init__(self, exprs: List[ASTExpression]):
assert len(exprs) > 0
self.exprs = exprs
def _stringify(self, transform: StringifyTransform) -> str:
return ', '.join(transform(e) for e in self.exprs)
def get_id(self, version: int) -> str:
id_ = _id_operator_v2[',']
res = []
for i in range(len(self.exprs) - 1):
res.append(id_)
res.append(self.exprs[i].get_id(version))
res.append(self.exprs[-1].get_id(version))
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(', '))
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
################################################################################
# Things for ASTNestedName
################################################################################
class ASTOperator(ASTBase):
def is_anon(self) -> bool:
return False
def is_operator(self) -> bool:
return True
def get_id(self, version: int) -> str:
raise NotImplementedError()
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", prefix: str, templateArgs: str,
symbol: "Symbol") -> None:
verify_description_mode(mode)
identifier = str(self)
if mode == 'lastIsName':
signode += addnodes.desc_name(identifier, identifier)
else:
signode += addnodes.desc_addname(identifier, identifier)
class ASTOperatorBuildIn(ASTOperator):
def __init__(self, op: str) -> None:
self.op = op
def get_id(self, version: int) -> str:
if version == 1:
ids = _id_operator_v1
if self.op not in ids:
raise NoOldIdError()
else:
ids = _id_operator_v2
if self.op not in ids:
raise Exception('Internal error: Build-in operator "%s" can not '
'be mapped to an id.' % self.op)
return ids[self.op]
def _stringify(self, transform: StringifyTransform) -> str:
if self.op in ('new', 'new[]', 'delete', 'delete[]') or self.op[0] in "abcnox":
return 'operator ' + self.op
else:
return 'operator' + self.op
class ASTOperatorLiteral(ASTOperator):
def __init__(self, identifier: ASTIdentifier) -> None:
self.identifier = identifier
def get_id(self, version: int) -> str:
if version == 1:
raise NoOldIdError()
else:
return 'li' + self.identifier.get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
return 'operator""' + transform(self.identifier)
class ASTOperatorType(ASTOperator):
def __init__(self, type: "ASTType") -> None:
self.type = type
def get_id(self, version: int) -> str:
if version == 1:
return 'castto-%s-operator' % self.type.get_id(version)
else:
return 'cv' + self.type.get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
return ''.join(['operator ', transform(self.type)])
def get_name_no_template(self) -> str:
return str(self)
class ASTTemplateArgConstant(ASTBase):
def __init__(self, value: ASTExpression) -> None:
self.value = value
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.value)
def get_id(self, version: int) -> str:
if version == 1:
return str(self).replace(' ', '-')
if version == 2:
return 'X' + str(self) + 'E'
return 'X' + self.value.get_id(version) + 'E'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
self.value.describe_signature(signode, mode, env, symbol)
class ASTTemplateArgs(ASTBase):
def __init__(self, args: List[Union["ASTType", ASTTemplateArgConstant]],
packExpansion: bool) -> None:
assert args is not None
self.args = args
self.packExpansion = packExpansion
def get_id(self, version: int) -> str:
if version == 1:
res = []
res.append(':')
res.append('.'.join(a.get_id(version) for a in self.args))
res.append(':')
return ''.join(res)
res = []
res.append('I')
if len(self.args) > 0:
for a in self.args[:-1]:
res.append(a.get_id(version))
if self.packExpansion:
res.append('J')
res.append(self.args[-1].get_id(version))
if self.packExpansion:
res.append('E')
res.append('E')
return ''.join(res)
def _stringify(self, transform: StringifyTransform) -> str:
res = ', '.join(transform(a) for a in self.args)
if self.packExpansion:
res += '...'
return '<' + res + '>'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
signode += nodes.Text('<')
first = True
for a in self.args:
if not first:
signode += nodes.Text(', ')
first = False
a.describe_signature(signode, 'markType', env, symbol=symbol)
if self.packExpansion:
signode += nodes.Text('...')
signode += nodes.Text('>')
# Main part of declarations
################################################################################
class ASTTrailingTypeSpec(ASTBase):
def get_id(self, version: int) -> str:
raise NotImplementedError(repr(self))
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
raise NotImplementedError(repr(self))
class ASTTrailingTypeSpecFundamental(ASTTrailingTypeSpec):
def __init__(self, name: str) -> None:
self.name = name
def _stringify(self, transform: StringifyTransform) -> str:
return self.name
def get_id(self, version: int) -> str:
if version == 1:
res = []
for a in self.name.split(' '):
if a in _id_fundamental_v1:
res.append(_id_fundamental_v1[a])
else:
res.append(a)
return '-'.join(res)
if self.name not in _id_fundamental_v2:
raise Exception(
'Semi-internal error: Fundamental type "%s" can not be mapped '
'to an id. Is it a true fundamental type? If not so, the '
'parser should have rejected it.' % self.name)
return _id_fundamental_v2[self.name]
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode += nodes.Text(str(self.name))
class ASTTrailingTypeSpecDecltypeAuto(ASTTrailingTypeSpec):
def _stringify(self, transform: StringifyTransform) -> str:
return 'decltype(auto)'
def get_id(self, version: int) -> str:
if version == 1:
raise NoOldIdError()
return 'Dc'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text(str(self)))
class ASTTrailingTypeSpecDecltype(ASTTrailingTypeSpec):
def __init__(self, expr: ASTExpression):
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
return 'decltype(' + transform(self.expr) + ')'
def get_id(self, version: int) -> str:
if version == 1:
raise NoOldIdError()
return 'DT' + self.expr.get_id(version) + "E"
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode.append(nodes.Text('decltype('))
self.expr.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
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 get_id(self, version: int) -> str:
return self.nestedName.get_id(version)
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: Union["ASTTypeWithInit",
"ASTTemplateParamConstrainedTypeWithInit"],
ellipsis: bool = False) -> None:
self.arg = arg
self.ellipsis = ellipsis
def get_id(self, version: int, objectType: str = None, symbol: "Symbol" = None) -> str:
# this is not part of the normal name mangling in C++
if symbol:
# the anchor will be our parent
return symbol.parent.declaration.get_id(version, prefixed=False)
# else, do the usual
if self.ellipsis:
return 'z'
else:
return self.arg.get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
if self.ellipsis:
return '...'
else:
return transform(self.arg)
def describe_signature(self, signode: TextElement, 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 ASTNoexceptSpec(ASTBase):
def __init__(self, expr: Optional[ASTExpression]):
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
if self.expr:
return 'noexcept(' + transform(self.expr) + ')'
return 'noexcept'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode += addnodes.desc_annotation('noexcept', 'noexcept')
if self.expr:
signode.append(nodes.Text('('))
self.expr.describe_signature(signode, mode, env, symbol)
signode.append(nodes.Text(')'))
class ASTParametersQualifiers(ASTBase):
def __init__(self, args: List[ASTFunctionParameter], volatile: bool, const: bool,
refQual: str, exceptionSpec: ASTNoexceptSpec, trailingReturn: "ASTType",
override: bool, final: bool, attrs: List[ASTAttribute],
initializer: str) -> None:
self.args = args
self.volatile = volatile
self.const = const
self.refQual = refQual
self.exceptionSpec = exceptionSpec
self.trailingReturn = trailingReturn
self.override = override
self.final = final
self.attrs = attrs
self.initializer = initializer
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.args
def get_modifiers_id(self, version: int) -> str:
res = []
if self.volatile:
res.append('V')
if self.const:
if version == 1:
res.append('C')
else:
res.append('K')
if self.refQual == '&&':
res.append('O')
elif self.refQual == '&':
res.append('R')
return ''.join(res)
def get_param_id(self, version: int) -> str:
if version == 1:
if len(self.args) == 0:
return ''
else:
return '__' + '.'.join(a.get_id(version) for a in self.args)
if len(self.args) == 0:
return 'v'
else:
return ''.join(a.get_id(version) for a in 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(')')
if self.volatile:
res.append(' volatile')
if self.const:
res.append(' const')
if self.refQual:
res.append(' ')
res.append(self.refQual)
if self.exceptionSpec:
res.append(' ')
res.append(transform(self.exceptionSpec))
if self.trailingReturn:
res.append(' -> ')
res.append(transform(self.trailingReturn))
if self.final:
res.append(' final')
if self.override:
res.append(' override')
for attr in self.attrs:
res.append(' ')
res.append(transform(attr))
if self.initializer:
res.append(' = ')
res.append(self.initializer)
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
def _add_anno(signode: TextElement, text: str) -> None:
signode += nodes.Text(' ')
signode += addnodes.desc_annotation(text, text)
def _add_text(signode: TextElement, text: str) -> None:
signode += nodes.Text(' ' + text)
if self.volatile:
_add_anno(signode, 'volatile')
if self.const:
_add_anno(signode, 'const')
if self.refQual:
_add_text(signode, self.refQual)
if self.exceptionSpec:
signode += nodes.Text(' ')
self.exceptionSpec.describe_signature(signode, mode, env, symbol)
if self.trailingReturn:
signode += nodes.Text(' -> ')
self.trailingReturn.describe_signature(signode, mode, env, symbol)
if self.final:
_add_anno(signode, 'final')
if self.override:
_add_anno(signode, 'override')
for attr in self.attrs:
signode += nodes.Text(' ')
attr.describe_signature(signode)
if self.initializer:
_add_text(signode, '= ' + str(self.initializer))
class ASTDeclSpecsSimple(ASTBase):
def __init__(self, storage: str, threadLocal: bool, inline: bool, virtual: bool,
explicit: bool, constexpr: bool, volatile: bool, const: bool,
friend: bool, attrs: List[ASTAttribute]) -> None:
self.storage = storage
self.threadLocal = threadLocal
self.inline = inline
self.virtual = virtual
self.explicit = explicit
self.constexpr = constexpr
self.volatile = volatile
self.const = const
self.friend = friend
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.virtual or other.virtual,
self.explicit or other.explicit,
self.constexpr or other.constexpr,
self.volatile or other.volatile,
self.const or other.const,
self.friend or other.friend,
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('thread_local')
if self.inline:
res.append('inline')
if self.friend:
res.append('friend')
if self.virtual:
res.append('virtual')
if self.explicit:
res.append('explicit')
if self.constexpr:
res.append('constexpr')
if self.volatile:
res.append('volatile')
if self.const:
res.append('const')
return ' '.join(res)
def describe_signature(self, signode: TextElement) -> None:
addSpace = False
for attr in self.attrs:
if addSpace:
signode += nodes.Text(' ')
addSpace = True
attr.describe_signature(signode)
def _add(signode: TextElement, text: str) -> bool:
if addSpace:
signode += nodes.Text(' ')
signode += addnodes.desc_annotation(text, text)
return True
if self.storage:
addSpace = _add(signode, self.storage)
if self.threadLocal:
addSpace = _add(signode, 'thread_local')
if self.inline:
addSpace = _add(signode, 'inline')
if self.friend:
addSpace = _add(signode, 'friend')
if self.virtual:
addSpace = _add(signode, 'virtual')
if self.explicit:
addSpace = _add(signode, 'explicit')
if self.constexpr:
addSpace = _add(signode, 'constexpr')
if self.volatile:
addSpace = _add(signode, 'volatile')
if self.const:
addSpace = _add(signode, '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
self.outer = outer
self.leftSpecs = leftSpecs
self.rightSpecs = rightSpecs
self.allSpecs = self.leftSpecs.mergeWith(self.rightSpecs)
self.trailingTypeSpec = trailing
def get_id(self, version: int) -> str:
if version == 1:
res = []
res.append(self.trailingTypeSpec.get_id(version))
if self.allSpecs.volatile:
res.append('V')
if self.allSpecs.const:
res.append('C')
return ''.join(res)
res = []
if self.allSpecs.volatile:
res.append('V')
if self.allSpecs.const:
res.append('K')
if self.trailingTypeSpec is not None:
res.append(self.trailingTypeSpec.get_id(version))
return ''.join(res)
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)
numChildren = len(signode)
self.leftSpecs.describe_signature(signode)
addSpace = len(signode) != numChildren
if self.trailingTypeSpec:
if addSpace:
signode += nodes.Text(' ')
numChildren = len(signode)
self.trailingTypeSpec.describe_signature(signode, mode, env,
symbol=symbol)
addSpace = len(signode) != numChildren
if len(str(self.rightSpecs)) > 0:
if addSpace:
signode += nodes.Text(' ')
self.rightSpecs.describe_signature(signode)
# Declarator
################################################################################
class ASTArray(ASTBase):
def __init__(self, size: ASTExpression):
self.size = size
def _stringify(self, transform: StringifyTransform) -> str:
if self.size:
return '[' + transform(self.size) + ']'
else:
return '[]'
def get_id(self, version: int) -> str:
if version == 1:
return 'A'
if version == 2:
if self.size:
return 'A' + str(self.size) + '_'
else:
return 'A_'
if self.size:
return 'A' + self.size.get_id(version) + '_'
else:
return 'A_'
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
signode.append(nodes.Text("["))
if self.size:
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 isPack(self) -> bool:
raise NotImplementedError(repr(self))
@property
def function_params(self) -> List[ASTFunctionParameter]:
raise NotImplementedError(repr(self))
@property
def trailingReturn(self) -> "ASTType":
raise NotImplementedError(repr(self))
def require_space_after_declSpecs(self) -> bool:
raise NotImplementedError(repr(self))
def get_modifiers_id(self, version: int) -> str:
raise NotImplementedError(repr(self))
def get_param_id(self, version: int) -> str:
raise NotImplementedError(repr(self))
def get_ptr_suffix_id(self, version: int) -> str:
raise NotImplementedError(repr(self))
def get_type_id(self, version: int, returnTypeId: str) -> str:
raise NotImplementedError(repr(self))
def is_function_type(self) -> bool:
raise NotImplementedError(repr(self))
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
raise NotImplementedError(repr(self))
class ASTDeclaratorNameParamQual(ASTDeclarator):
def __init__(self, declId: ASTNestedName,
arrayOps: List[ASTArray],
paramQual: ASTParametersQualifiers) -> None:
self.declId = declId
self.arrayOps = arrayOps
self.paramQual = paramQual
@property
def name(self) -> ASTNestedName:
return self.declId
@property
def isPack(self) -> bool:
return False
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.paramQual.function_params
@property
def trailingReturn(self) -> "ASTType":
return self.paramQual.trailingReturn
# only the modifiers for a function, e.g.,
def get_modifiers_id(self, version: int) -> str:
# cv-qualifiers
if self.paramQual:
return self.paramQual.get_modifiers_id(version)
raise Exception("This should only be called on a function: %s" % self)
def get_param_id(self, version: int) -> str: # only the parameters (if any)
if self.paramQual:
return self.paramQual.get_param_id(version)
else:
return ''
def get_ptr_suffix_id(self, version: int) -> str: # only the array specifiers
return ''.join(a.get_id(version) for a in self.arrayOps)
def get_type_id(self, version: int, returnTypeId: str) -> str:
assert version >= 2
res = []
# TOOD: can we actually have both array ops and paramQual?
res.append(self.get_ptr_suffix_id(version))
if self.paramQual:
res.append(self.get_modifiers_id(version))
res.append('F')
res.append(returnTypeId)
res.append(self.get_param_id(version))
res.append('E')
else:
res.append(returnTypeId)
return ''.join(res)
# ------------------------------------------------------------------------
def require_space_after_declSpecs(self) -> bool:
return self.declId is not None
def is_function_type(self) -> bool:
return self.paramQual 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.paramQual:
res.append(transform(self.paramQual))
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.paramQual:
self.paramQual.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 get_param_id(self, version: int) -> str: # only the parameters (if any)
return ''
def get_ptr_suffix_id(self, version: int) -> str: # only the array specifiers
return ''
# ------------------------------------------------------------------------
def require_space_after_declSpecs(self) -> bool:
return self.declId is not None
def is_function_type(self) -> bool:
return False
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.append(nodes.Text(' : ', ' : '))
self.size.describe_signature(signode, mode, env, symbol)
class ASTDeclaratorPtr(ASTDeclarator):
def __init__(self, next: ASTDeclarator, volatile: bool, const: bool,
attrs: List[ASTAttribute]) -> None:
assert next
self.next = next
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
@property
def trailingReturn(self) -> "ASTType":
return self.next.trailingReturn
def require_space_after_declSpecs(self) -> bool:
return 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.volatile or self.const):
res.append(' ')
if self.volatile:
res.append('volatile')
if self.const:
if self.volatile:
res.append(' ')
res.append('const')
if self.const or self.volatile or len(self.attrs) > 0:
if self.next.require_space_after_declSpecs():
res.append(' ')
res.append(transform(self.next))
return ''.join(res)
def get_modifiers_id(self, version: int) -> str:
return self.next.get_modifiers_id(version)
def get_param_id(self, version: int) -> str:
return self.next.get_param_id(version)
def get_ptr_suffix_id(self, version: int) -> str:
if version == 1:
res = ['P']
if self.volatile:
res.append('V')
if self.const:
res.append('C')
res.append(self.next.get_ptr_suffix_id(version))
return ''.join(res)
res = [self.next.get_ptr_suffix_id(version)]
res.append('P')
if self.volatile:
res.append('V')
if self.const:
res.append('C')
return ''.join(res)
def get_type_id(self, version: int, returnTypeId: str) -> str:
# ReturnType *next, so we are part of the return type of 'next
res = ['P']
if self.volatile:
res.append('V')
if self.const:
res.append('C')
res.append(returnTypeId)
return self.next.get_type_id(version, returnTypeId=''.join(res))
def is_function_type(self) -> bool:
return self.next.is_function_type()
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.volatile or self.const):
signode += nodes.Text(' ')
def _add_anno(signode: TextElement, text: str) -> None:
signode += addnodes.desc_annotation(text, text)
if self.volatile:
_add_anno(signode, 'volatile')
if self.const:
if self.volatile:
signode += nodes.Text(' ')
_add_anno(signode, 'const')
if self.const or self.volatile or len(self.attrs) > 0:
if self.next.require_space_after_declSpecs():
signode += nodes.Text(' ')
self.next.describe_signature(signode, mode, env, symbol)
class ASTDeclaratorRef(ASTDeclarator):
def __init__(self, next: ASTDeclarator, attrs: List[ASTAttribute]) -> None:
assert next
self.next = next
self.attrs = attrs
@property
def name(self) -> ASTNestedName:
return self.next.name
@property
def isPack(self) -> bool:
return True
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.next.function_params
@property
def trailingReturn(self) -> "ASTType":
return self.next.trailingReturn
def require_space_after_declSpecs(self) -> bool:
return 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.next.require_space_after_declSpecs():
res.append(' ')
res.append(transform(self.next))
return ''.join(res)
def get_modifiers_id(self, version: int) -> str:
return self.next.get_modifiers_id(version)
def get_param_id(self, version: int) -> str: # only the parameters (if any)
return self.next.get_param_id(version)
def get_ptr_suffix_id(self, version: int) -> str:
if version == 1:
return 'R' + self.next.get_ptr_suffix_id(version)
else:
return self.next.get_ptr_suffix_id(version) + 'R'
def get_type_id(self, version: int, returnTypeId: str) -> str:
assert version >= 2
# ReturnType &next, so we are part of the return type of 'next
return self.next.get_type_id(version, returnTypeId='R' + returnTypeId)
def is_function_type(self) -> bool:
return self.next.is_function_type()
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.next.require_space_after_declSpecs():
signode += nodes.Text(' ')
self.next.describe_signature(signode, mode, env, symbol)
class ASTDeclaratorParamPack(ASTDeclarator):
def __init__(self, next: ASTDeclarator) -> None:
assert next
self.next = next
@property
def name(self) -> ASTNestedName:
return self.next.name
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.next.function_params
@property
def trailingReturn(self) -> "ASTType":
return self.next.trailingReturn
def require_space_after_declSpecs(self) -> bool:
return False
def _stringify(self, transform: StringifyTransform) -> str:
res = transform(self.next)
if self.next.name:
res = ' ' + res
return '...' + res
def get_modifiers_id(self, version: int) -> str:
return self.next.get_modifiers_id(version)
def get_param_id(self, version: int) -> str: # only the parameters (if any)
return self.next.get_param_id(version)
def get_ptr_suffix_id(self, version: int) -> str:
if version == 1:
return 'Dp' + self.next.get_ptr_suffix_id(version)
else:
return self.next.get_ptr_suffix_id(version) + 'Dp'
def get_type_id(self, version: int, returnTypeId: str) -> str:
assert version >= 2
# ReturnType... next, so we are part of the return type of 'next
return self.next.get_type_id(version, returnTypeId='Dp' + returnTypeId)
def is_function_type(self) -> bool:
return self.next.is_function_type()
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
signode += nodes.Text("...")
if self.next.name:
signode += nodes.Text(' ')
self.next.describe_signature(signode, mode, env, symbol)
class ASTDeclaratorMemPtr(ASTDeclarator):
def __init__(self, className: ASTNestedName,
const: bool, volatile: bool, next: ASTDeclarator) -> None:
assert className
assert next
self.className = className
self.const = const
self.volatile = volatile
self.next = next
@property
def name(self) -> ASTNestedName:
return self.next.name
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.next.function_params
@property
def trailingReturn(self) -> "ASTType":
return self.next.trailingReturn
def require_space_after_declSpecs(self) -> bool:
return True
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append(transform(self.className))
res.append('::*')
if self.volatile:
res.append('volatile')
if self.const:
if self.volatile:
res.append(' ')
res.append('const')
if self.next.require_space_after_declSpecs():
res.append(' ')
res.append(transform(self.next))
return ''.join(res)
def get_modifiers_id(self, version: int) -> str:
if version == 1:
raise NoOldIdError()
else:
return self.next.get_modifiers_id(version)
def get_param_id(self, version: int) -> str: # only the parameters (if any)
if version == 1:
raise NoOldIdError()
else:
return self.next.get_param_id(version)
def get_ptr_suffix_id(self, version: int) -> str:
if version == 1:
raise NoOldIdError()
else:
raise NotImplementedError()
return self.next.get_ptr_suffix_id(version) + 'Dp'
def get_type_id(self, version: int, returnTypeId: str) -> str:
assert version >= 2
# ReturnType name::* next, so we are part of the return type of next
nextReturnTypeId = ''
if self.volatile:
nextReturnTypeId += 'V'
if self.const:
nextReturnTypeId += 'K'
nextReturnTypeId += 'M'
nextReturnTypeId += self.className.get_id(version)
nextReturnTypeId += returnTypeId
return self.next.get_type_id(version, nextReturnTypeId)
def is_function_type(self) -> bool:
return self.next.is_function_type()
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
self.className.describe_signature(signode, mode, env, symbol)
signode += nodes.Text('::*')
def _add_anno(signode: TextElement, text: str) -> None:
signode += addnodes.desc_annotation(text, text)
if self.volatile:
_add_anno(signode, 'volatile')
if self.const:
if self.volatile:
signode += nodes.Text(' ')
_add_anno(signode, 'const')
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, params, and qualifiers are in inner
@property
def name(self) -> ASTNestedName:
return self.inner.name
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.inner.function_params
@property
def trailingReturn(self) -> "ASTType":
return self.inner.trailingReturn
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 get_modifiers_id(self, version: int) -> str:
return self.inner.get_modifiers_id(version)
def get_param_id(self, version: int) -> str: # only the parameters (if any)
return self.inner.get_param_id(version)
def get_ptr_suffix_id(self, version: int) -> str:
if version == 1:
raise NoOldIdError() # TODO: was this implemented before?
return self.next.get_ptr_suffix_id(version) + \
self.inner.get_ptr_suffix_id(version)
else:
return self.inner.get_ptr_suffix_id(version) + \
self.next.get_ptr_suffix_id(version)
def get_type_id(self, version: int, returnTypeId: str) -> str:
assert version >= 2
# ReturnType (inner)next, so 'inner' returns everything outside
nextId = self.next.get_type_id(version, returnTypeId)
return self.inner.get_type_id(version, returnTypeId=nextId)
def is_function_type(self) -> bool:
return self.inner.is_function_type()
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)
# Type and initializer stuff
##############################################################################################
class ASTPackExpansionExpr(ASTExpression):
def __init__(self, expr: Union[ASTExpression, ASTBracedInitList]):
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.expr) + '...'
def get_id(self, version: int) -> str:
id = self.expr.get_id(version)
return 'sp' + id
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.expr.describe_signature(signode, mode, env, symbol)
signode += nodes.Text('...')
class ASTParenExprList(ASTBaseParenExprList):
def __init__(self, exprs: List[Union[ASTExpression, ASTBracedInitList]]) -> None:
self.exprs = exprs
def get_id(self, version: int) -> str:
return "pi%sE" % ''.join(e.get_id(version) for e in self.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 ASTInitializer(ASTBase):
def __init__(self, value: Union[ASTExpression, ASTBracedInitList],
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
@property
def isPack(self) -> bool:
return self.decl.isPack
@property
def function_params(self) -> List[ASTFunctionParameter]:
return self.decl.function_params
@property
def trailingReturn(self) -> "ASTType":
return self.decl.trailingReturn
def get_id(self, version: int, objectType: str = None,
symbol: "Symbol" = None) -> str:
if version == 1:
res = []
if objectType: # needs the name
if objectType == 'function': # also modifiers
res.append(symbol.get_full_nested_name().get_id(version))
res.append(self.decl.get_param_id(version))
res.append(self.decl.get_modifiers_id(version))
if (self.declSpecs.leftSpecs.constexpr or
(self.declSpecs.rightSpecs and
self.declSpecs.rightSpecs.constexpr)):
res.append('CE')
elif objectType == 'type': # just the name
res.append(symbol.get_full_nested_name().get_id(version))
else:
print(objectType)
assert False
else: # only type encoding
if self.decl.is_function_type():
raise NoOldIdError()
res.append(self.declSpecs.get_id(version))
res.append(self.decl.get_ptr_suffix_id(version))
res.append(self.decl.get_param_id(version))
return ''.join(res)
# other versions
res = []
if objectType: # needs the name
if objectType == 'function': # also modifiers
modifiers = self.decl.get_modifiers_id(version)
res.append(symbol.get_full_nested_name().get_id(version, modifiers))
if version >= 4:
# with templates we need to mangle the return type in as well
templ = symbol.declaration.templatePrefix
if templ is not None:
typeId = self.decl.get_ptr_suffix_id(version)
if self.trailingReturn:
returnTypeId = self.trailingReturn.get_id(version)
else:
returnTypeId = self.declSpecs.get_id(version)
res.append(typeId)
res.append(returnTypeId)
res.append(self.decl.get_param_id(version))
elif objectType == 'type': # just the name
res.append(symbol.get_full_nested_name().get_id(version))
else:
print(objectType)
assert False
else: # only type encoding
# the 'returnType' of a non-function type is simply just the last
# type, i.e., for 'int*' it is 'int'
returnTypeId = self.declSpecs.get_id(version)
typeId = self.decl.get_type_id(version, returnTypeId)
res.append(typeId)
return ''.join(res)
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 ASTTemplateParamConstrainedTypeWithInit(ASTBase):
def __init__(self, type: ASTType, init: ASTType) -> None:
assert type
self.type = type
self.init = init
@property
def name(self) -> ASTNestedName:
return self.type.name
@property
def isPack(self) -> bool:
return self.type.isPack
def get_id(self, version: int, objectType: str = None, symbol: "Symbol" = None) -> str:
# this is not part of the normal name mangling in C++
assert version >= 2
if symbol:
# the anchor will be our parent
return symbol.parent.declaration.get_id(version, prefixed=False)
else:
return self.type.get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
res = transform(self.type)
if self.init:
res += " = "
res += transform(self.init)
return res
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.type.describe_signature(signode, mode, env, symbol)
if self.init:
signode += nodes.Text(" = ")
self.init.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
@property
def isPack(self) -> bool:
return self.type.isPack
def get_id(self, version: int, objectType: str = None,
symbol: "Symbol" = None) -> str:
if objectType != 'member':
return self.type.get_id(version, objectType)
if version == 1:
return (symbol.get_full_nested_name().get_id(version) + '__' +
self.type.get_id(version))
return symbol.get_full_nested_name().get_id(version)
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 ASTTypeUsing(ASTBase):
def __init__(self, name: ASTNestedName, type: ASTType) -> None:
self.name = name
self.type = type
def get_id(self, version: int, objectType: str = None,
symbol: "Symbol" = None) -> str:
if version == 1:
raise NoOldIdError()
return symbol.get_full_nested_name().get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append(transform(self.name))
if self.type:
res.append(' = ')
res.append(transform(self.type))
return ''.join(res)
def get_type_declaration_prefix(self) -> str:
return 'using'
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)
if self.type:
signode += nodes.Text(' = ')
self.type.describe_signature(signode, 'markType', env, symbol=symbol)
# Other declarations
##############################################################################################
class ASTConcept(ASTBase):
def __init__(self, nestedName: ASTNestedName, initializer: ASTInitializer) -> None:
self.nestedName = nestedName
self.initializer = initializer
@property
def name(self) -> ASTNestedName:
return self.nestedName
def get_id(self, version: int, objectType: str = None,
symbol: "Symbol" = None) -> str:
if version == 1:
raise NoOldIdError()
return symbol.get_full_nested_name().get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
res = transform(self.nestedName)
if self.initializer:
res += transform(self.initializer)
return res
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.nestedName.describe_signature(signode, mode, env, symbol)
if self.initializer:
self.initializer.describe_signature(signode, mode, env, symbol)
class ASTBaseClass(ASTBase):
def __init__(self, name: ASTNestedName, visibility: str,
virtual: bool, pack: bool) -> None:
self.name = name
self.visibility = visibility
self.virtual = virtual
self.pack = pack
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.visibility is not None:
res.append(self.visibility)
res.append(' ')
if self.virtual:
res.append('virtual ')
res.append(transform(self.name))
if self.pack:
res.append('...')
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
if self.visibility is not None:
signode += addnodes.desc_annotation(self.visibility,
self.visibility)
signode += nodes.Text(' ')
if self.virtual:
signode += addnodes.desc_annotation('virtual', 'virtual')
signode += nodes.Text(' ')
self.name.describe_signature(signode, 'markType', env, symbol=symbol)
if self.pack:
signode += nodes.Text('...')
class ASTClass(ASTBase):
def __init__(self, name: ASTNestedName, final: bool, bases: List[ASTBaseClass]) -> None:
self.name = name
self.final = final
self.bases = bases
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.final:
res.append(' final')
if len(self.bases) > 0:
res.append(' : ')
first = True
for b in self.bases:
if not first:
res.append(', ')
first = False
res.append(transform(b))
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=symbol)
if self.final:
signode += nodes.Text(' ')
signode += addnodes.desc_annotation('final', 'final')
if len(self.bases) > 0:
signode += nodes.Text(' : ')
for b in self.bases:
b.describe_signature(signode, mode, env, symbol=symbol)
signode += nodes.Text(', ')
signode.pop()
class ASTUnion(ASTBase):
def __init__(self, name: ASTNestedName) -> None:
self.name = name
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
if version == 1:
raise NoOldIdError()
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, scoped: str,
underlyingType: ASTType) -> None:
self.name = name
self.scoped = scoped
self.underlyingType = underlyingType
def get_id(self, version: int, objectType: str, symbol: "Symbol") -> str:
if version == 1:
raise NoOldIdError()
return symbol.get_full_nested_name().get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.scoped:
res.append(self.scoped)
res.append(' ')
res.append(transform(self.name))
if self.underlyingType:
res.append(' : ')
res.append(transform(self.underlyingType))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
verify_description_mode(mode)
# self.scoped has been done by the CPPEnumObject
self.name.describe_signature(signode, mode, env, symbol=symbol)
if self.underlyingType:
signode += nodes.Text(' : ')
self.underlyingType.describe_signature(signode, 'noneIsName',
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:
if version == 1:
raise NoOldIdError()
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)
################################################################################
# Templates
################################################################################
# Parameters
################################################################################
class ASTTemplateParam(ASTBase):
def get_identifier(self) -> ASTIdentifier:
raise NotImplementedError(repr(self))
def get_id(self, version: int) -> str:
raise NotImplementedError(repr(self))
def describe_signature(self, parentNode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
raise NotImplementedError(repr(self))
class ASTTemplateKeyParamPackIdDefault(ASTTemplateParam):
def __init__(self, key: str, identifier: ASTIdentifier,
parameterPack: bool, default: ASTType) -> None:
assert key
if parameterPack:
assert default is None
self.key = key
self.identifier = identifier
self.parameterPack = parameterPack
self.default = default
def get_identifier(self) -> ASTIdentifier:
return self.identifier
def get_id(self, version: int) -> str:
assert version >= 2
# this is not part of the normal name mangling in C++
res = []
if self.parameterPack:
res.append('Dp')
else:
res.append('0') # we need to put something
return ''.join(res)
def _stringify(self, transform: StringifyTransform) -> str:
res = [self.key]
if self.parameterPack:
if self.identifier:
res.append(' ')
res.append('...')
if self.identifier:
if not self.parameterPack:
res.append(' ')
res.append(transform(self.identifier))
if self.default:
res.append(' = ')
res.append(transform(self.default))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode += nodes.Text(self.key)
if self.parameterPack:
if self.identifier:
signode += nodes.Text(' ')
signode += nodes.Text('...')
if self.identifier:
if not self.parameterPack:
signode += nodes.Text(' ')
self.identifier.describe_signature(signode, mode, env, '', '', symbol)
if self.default:
signode += nodes.Text(' = ')
self.default.describe_signature(signode, 'markType', env, symbol)
class ASTTemplateParamType(ASTTemplateParam):
def __init__(self, data: ASTTemplateKeyParamPackIdDefault) -> None:
assert data
self.data = data
@property
def name(self) -> ASTNestedName:
id = self.get_identifier()
return ASTNestedName([ASTNestedNameElement(id, None)], [False], rooted=False)
@property
def isPack(self) -> bool:
return self.data.parameterPack
def get_identifier(self) -> ASTIdentifier:
return self.data.get_identifier()
def get_id(self, version: int, objectType: str = None, symbol: "Symbol" = None) -> str:
# this is not part of the normal name mangling in C++
assert version >= 2
if symbol:
# the anchor will be our parent
return symbol.parent.declaration.get_id(version, prefixed=False)
else:
return self.data.get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.data)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.data.describe_signature(signode, mode, env, symbol)
class ASTTemplateParamTemplateType(ASTTemplateParam):
def __init__(self, nestedParams: "ASTTemplateParams",
data: ASTTemplateKeyParamPackIdDefault) -> None:
assert nestedParams
assert data
self.nestedParams = nestedParams
self.data = data
@property
def name(self) -> ASTNestedName:
id = self.get_identifier()
return ASTNestedName([ASTNestedNameElement(id, None)], [False], rooted=False)
@property
def isPack(self) -> bool:
return self.data.parameterPack
def get_identifier(self) -> ASTIdentifier:
return self.data.get_identifier()
def get_id(self, version: int, objectType: str = None, symbol: "Symbol" = None) -> str:
assert version >= 2
# this is not part of the normal name mangling in C++
if symbol:
# the anchor will be our parent
return symbol.parent.declaration.get_id(version, prefixed=None)
else:
return self.nestedParams.get_id(version) + self.data.get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.nestedParams) + transform(self.data)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.nestedParams.describe_signature(signode, 'noneIsName', env, symbol)
signode += nodes.Text(' ')
self.data.describe_signature(signode, mode, env, symbol)
class ASTTemplateParamNonType(ASTTemplateParam):
def __init__(self,
param: Union[ASTTypeWithInit,
ASTTemplateParamConstrainedTypeWithInit]) -> None:
assert param
self.param = param
@property
def name(self) -> ASTNestedName:
id = self.get_identifier()
return ASTNestedName([ASTNestedNameElement(id, None)], [False], rooted=False)
@property
def isPack(self) -> bool:
return self.param.isPack
def get_identifier(self) -> ASTIdentifier:
name = self.param.name
if name:
assert len(name.names) == 1
assert name.names[0].identOrOp
assert not name.names[0].templateArgs
res = name.names[0].identOrOp
assert isinstance(res, ASTIdentifier)
return res
else:
return None
def get_id(self, version: int, objectType: str = None, symbol: "Symbol" = None) -> str:
assert version >= 2
# this is not part of the normal name mangling in C++
if symbol:
# the anchor will be our parent
return symbol.parent.declaration.get_id(version, prefixed=None)
else:
return '_' + self.param.get_id(version)
def _stringify(self, transform: StringifyTransform) -> str:
return transform(self.param)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
self.param.describe_signature(signode, mode, env, symbol)
class ASTTemplateParams(ASTBase):
def __init__(self, params: List[ASTTemplateParam]) -> None:
assert params is not None
self.params = params
def get_id(self, version: int) -> str:
assert version >= 2
res = []
res.append("I")
for param in self.params:
res.append(param.get_id(version))
res.append("E")
return ''.join(res)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append("template<")
res.append(", ".join(transform(a) for a in self.params))
res.append("> ")
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode += nodes.Text("template<")
first = True
for param in self.params:
if not first:
signode += nodes.Text(", ")
first = False
param.describe_signature(signode, mode, env, symbol)
signode += nodes.Text(">")
def describe_signature_as_introducer(
self, parentNode: desc_signature, mode: str, env: "BuildEnvironment",
symbol: "Symbol", lineSpec: bool) -> None:
def makeLine(parentNode: desc_signature) -> addnodes.desc_signature_line:
signode = addnodes.desc_signature_line()
parentNode += signode
signode.sphinx_line_type = 'templateParams'
return signode
lineNode = makeLine(parentNode)
lineNode += nodes.Text("template<")
first = True
for param in self.params:
if not first:
lineNode += nodes.Text(", ")
first = False
if lineSpec:
lineNode = makeLine(parentNode)
param.describe_signature(lineNode, mode, env, symbol)
if lineSpec and not first:
lineNode = makeLine(parentNode)
lineNode += nodes.Text(">")
# Template introducers
################################################################################
class ASTTemplateIntroductionParameter(ASTBase):
def __init__(self, identifier: ASTIdentifier, parameterPack: bool) -> None:
self.identifier = identifier
self.parameterPack = parameterPack
@property
def name(self) -> ASTNestedName:
id = self.get_identifier()
return ASTNestedName([ASTNestedNameElement(id, None)], [False], rooted=False)
@property
def isPack(self) -> bool:
return self.parameterPack
def get_identifier(self) -> ASTIdentifier:
return self.identifier
def get_id(self, version: int, objectType: str = None, symbol: "Symbol" = None) -> str:
assert version >= 2
# this is not part of the normal name mangling in C++
if symbol:
# the anchor will be our parent
return symbol.parent.declaration.get_id(version, prefixed=None)
else:
if self.parameterPack:
return 'Dp'
else:
return '0' # we need to put something
def get_id_as_arg(self, version: int) -> str:
assert version >= 2
# used for the implicit requires clause
res = self.identifier.get_id(version)
if self.parameterPack:
return 'sp' + res
else:
return res
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.parameterPack:
res.append('...')
res.append(transform(self.identifier))
return ''.join(res)
def describe_signature(self, signode: TextElement, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
if self.parameterPack:
signode += nodes.Text('...')
self.identifier.describe_signature(signode, mode, env, '', '', symbol)
class ASTTemplateIntroduction(ASTBase):
def __init__(self, concept: ASTNestedName,
params: List[ASTTemplateIntroductionParameter]) -> None:
assert len(params) > 0
self.concept = concept
self.params = params
def get_id(self, version: int) -> str:
assert version >= 2
# first do the same as a normal template parameter list
res = []
res.append("I")
for param in self.params:
res.append(param.get_id(version))
res.append("E")
# let's use X expr E, which is otherwise for constant template args
res.append("X")
res.append(self.concept.get_id(version))
res.append("I")
for param in self.params:
res.append(param.get_id_as_arg(version))
res.append("E")
res.append("E")
return ''.join(res)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
res.append(transform(self.concept))
res.append('{')
res.append(', '.join(transform(param) for param in self.params))
res.append('} ')
return ''.join(res)
def describe_signature_as_introducer(
self, parentNode: desc_signature, mode: str,
env: "BuildEnvironment", symbol: "Symbol", lineSpec: bool) -> None:
# Note: 'lineSpec' has no effect on template introductions.
signode = addnodes.desc_signature_line()
parentNode += signode
signode.sphinx_line_type = 'templateIntroduction'
self.concept.describe_signature(signode, 'markType', env, symbol)
signode += nodes.Text('{')
first = True
for param in self.params:
if not first:
signode += nodes.Text(', ')
first = False
param.describe_signature(signode, mode, env, symbol)
signode += nodes.Text('}')
################################################################################
class ASTTemplateDeclarationPrefix(ASTBase):
def __init__(self,
templates: List[Union[ASTTemplateParams,
ASTTemplateIntroduction]]) -> None:
# templates is None means it's an explicit instantiation of a variable
self.templates = templates
def get_id(self, version: int) -> str:
assert version >= 2
# this is not part of a normal name mangling system
res = []
for t in self.templates:
res.append(t.get_id(version))
return ''.join(res)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
for t in self.templates:
res.append(transform(t))
return ''.join(res)
def describe_signature(self, signode: desc_signature, mode: str,
env: "BuildEnvironment", symbol: "Symbol", lineSpec: bool) -> None:
verify_description_mode(mode)
for t in self.templates:
t.describe_signature_as_introducer(signode, 'lastIsName', env, symbol, lineSpec)
class ASTRequiresClause(ASTBase):
def __init__(self, expr: ASTExpression) -> None:
self.expr = expr
def _stringify(self, transform: StringifyTransform) -> str:
return 'requires ' + transform(self.expr)
def describe_signature(self, signode: addnodes.desc_signature_line, mode: str,
env: "BuildEnvironment", symbol: "Symbol") -> None:
signode += nodes.Text('requires ', 'requires ')
self.expr.describe_signature(signode, mode, env, symbol)
################################################################################
################################################################################
class ASTDeclaration(ASTBase):
def __init__(self, objectType: str, directiveType: str, visibility: str,
templatePrefix: ASTTemplateDeclarationPrefix,
requiresClause: ASTRequiresClause, declaration: Any,
trailingRequiresClause: ASTRequiresClause,
semicolon: bool = False) -> None:
self.objectType = objectType
self.directiveType = directiveType
self.visibility = visibility
self.templatePrefix = templatePrefix
self.requiresClause = requiresClause
self.declaration = declaration
self.trailingRequiresClause = trailingRequiresClause
self.semicolon = semicolon
self.symbol = None # type: Symbol
# set by CPPObject._add_enumerator_to_parent
self.enumeratorScopedSymbol = None # type: Symbol
def clone(self) -> "ASTDeclaration":
templatePrefixClone = self.templatePrefix.clone() if self.templatePrefix else None
requiresClasueClone = self.requiresClause.clone() if self.requiresClause else None
trailingRequiresClasueClone = self.trailingRequiresClause.clone() \
if self.trailingRequiresClause else None
return ASTDeclaration(self.objectType, self.directiveType, self.visibility,
templatePrefixClone, requiresClasueClone,
self.declaration.clone(), trailingRequiresClasueClone,
self.semicolon)
@property
def name(self) -> ASTNestedName:
return self.declaration.name
@property
def function_params(self) -> List[ASTFunctionParameter]:
if self.objectType != 'function':
return None
return self.declaration.function_params
def get_id(self, version: int, prefixed: bool = True) -> str:
if version == 1:
if self.templatePrefix:
raise NoOldIdError()
if self.objectType == 'enumerator' and self.enumeratorScopedSymbol:
return self.enumeratorScopedSymbol.declaration.get_id(version)
return self.declaration.get_id(version, self.objectType, self.symbol)
# version >= 2
if self.objectType == 'enumerator' and self.enumeratorScopedSymbol:
return self.enumeratorScopedSymbol.declaration.get_id(version, prefixed)
if prefixed:
res = [_id_prefix[version]]
else:
res = []
if self.templatePrefix:
res.append(self.templatePrefix.get_id(version))
if self.requiresClause or self.trailingRequiresClause:
if version < 4:
raise NoOldIdError()
res.append('IQ')
if self.requiresClause and self.trailingRequiresClause:
res.append('aa')
if self.requiresClause:
res.append(self.requiresClause.expr.get_id(version))
if self.trailingRequiresClause:
res.append(self.trailingRequiresClause.expr.get_id(version))
res.append('E')
res.append(self.declaration.get_id(version, self.objectType, self.symbol))
return ''.join(res)
def get_newest_id(self) -> str:
return self.get_id(_max_id, True)
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.visibility and self.visibility != "public":
res.append(self.visibility)
res.append(' ')
if self.templatePrefix:
res.append(transform(self.templatePrefix))
if self.requiresClause:
res.append(transform(self.requiresClause))
res.append(' ')
res.append(transform(self.declaration))
if self.trailingRequiresClause:
res.append(' ')
res.append(transform(self.trailingRequiresClause))
if self.semicolon:
res.append(';')
return ''.join(res)
def describe_signature(self, signode: desc_signature, 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
if self.templatePrefix:
self.templatePrefix.describe_signature(signode, mode, env,
symbol=self.symbol,
lineSpec=options.get('tparam-line-spec'))
if self.requiresClause:
reqNode = addnodes.desc_signature_line()
reqNode.sphinx_line_type = 'requiresClause'
signode.append(reqNode)
self.requiresClause.describe_signature(reqNode, 'markType', env, self.symbol)
signode += mainDeclNode
if self.visibility and self.visibility != "public":
mainDeclNode += addnodes.desc_annotation(self.visibility + " ",
self.visibility + " ")
if self.objectType == 'type':
prefix = self.declaration.get_type_declaration_prefix()
prefix += ' '
mainDeclNode += addnodes.desc_annotation(prefix, prefix)
elif self.objectType == 'concept':
mainDeclNode += addnodes.desc_annotation('concept ', 'concept ')
elif self.objectType == 'member':
pass
elif self.objectType == 'function':
pass
elif self.objectType == 'class':
assert self.directiveType in ('class', 'struct')
prefix = self.directiveType + ' '
mainDeclNode += addnodes.desc_annotation(prefix, prefix)
elif self.objectType == 'union':
mainDeclNode += addnodes.desc_annotation('union ', 'union ')
elif self.objectType == 'enum':
if self.directiveType == 'enum':
prefix = 'enum '
elif self.directiveType == 'enum-class':
prefix = 'enum class '
elif self.directiveType == 'enum-struct':
prefix = 'enum struct '
else:
assert False # wrong directiveType used
mainDeclNode += addnodes.desc_annotation(prefix, prefix)
elif self.objectType == 'enumerator':
mainDeclNode += addnodes.desc_annotation('enumerator ', 'enumerator ')
else:
assert False
self.declaration.describe_signature(mainDeclNode, mode, env, self.symbol)
lastDeclNode = mainDeclNode
if self.trailingRequiresClause:
trailingReqNode = addnodes.desc_signature_line()
trailingReqNode.sphinx_line_type = 'trailingRequiresClause'
signode.append(trailingReqNode)
lastDeclNode = trailingReqNode
self.trailingRequiresClause.describe_signature(
trailingReqNode, 'markType', env, self.symbol)
if self.semicolon:
lastDeclNode += nodes.Text(';')
class ASTNamespace(ASTBase):
def __init__(self, nestedName: ASTNestedName,
templatePrefix: ASTTemplateDeclarationPrefix) -> None:
self.nestedName = nestedName
self.templatePrefix = templatePrefix
def _stringify(self, transform: StringifyTransform) -> str:
res = []
if self.templatePrefix:
res.append(transform(self.templatePrefix))
res.append(transform(self.nestedName))
return ''.join(res)
class SymbolLookupResult:
def __init__(self, symbols: Iterator["Symbol"], parentSymbol: "Symbol",
identOrOp: Union[ASTIdentifier, ASTOperator], templateParams: Any,
templateArgs: ASTTemplateArgs) -> None:
self.symbols = symbols
self.parentSymbol = parentSymbol
self.identOrOp = identOrOp
self.templateParams = templateParams
self.templateArgs = templateArgs
class LookupKey:
def __init__(self, data: List[Tuple[ASTNestedNameElement,
Union[ASTTemplateParams,
ASTTemplateIntroduction],
str]]) -> None:
self.data = data
class Symbol:
debug_indent = 0
debug_indent_string = " "
debug_lookup = False # overridden by the corresponding config value
debug_show_tree = False # overridden by the corresponding config value
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, 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.identOrOp
assert not self.templateParams
assert not self.templateArgs
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", identOrOp: Union[ASTIdentifier, ASTOperator],
templateParams: Union[ASTTemplateParams, ASTTemplateIntroduction],
templateArgs: Any, 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.identOrOp = identOrOp
self.templateParams = templateParams # template<templateParams>
self.templateArgs = templateArgs # identifier<templateArgs>
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_template_and_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_template_and_function_params()
def _add_template_and_function_params(self) -> None:
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("_add_template_and_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 the template params
if self.templateParams:
for tp in self.templateParams.params:
if not tp.get_identifier():
continue
# only add a declaration if we our self are from a declaration
if self.declaration:
decl = ASTDeclaration('templateParam', None, None, None, None, tp, None)
else:
decl = None
nne = ASTNestedNameElement(tp.get_identifier(), None)
nn = ASTNestedName([nne], [False], rooted=False)
self._add_symbols(nn, [], decl, self.docname, self.line)
# add symbols for function parameters, if any
if self.declaration is not None and self.declaration.function_params is not None:
for fp in self.declaration.function_params:
if fp.arg is None:
continue
nn = fp.arg.name
if nn is None:
continue
# (comparing to the template params: we have checked that we are a declaration)
decl = ASTDeclaration('functionParam', None, None, None, None, fp, None)
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:
newChildren = [] # type: List[Symbol]
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
newChildren.append(sChild)
self._children = newChildren
def get_all_symbols(self) -> Iterator[Any]:
yield self
for sChild in self._children:
yield from sChild.get_all_symbols()
@property
def children_recurse_anon(self) -> Generator["Symbol", None, None]:
for c in self._children:
yield c
if not c.identOrOp.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:
nne = ASTNestedNameElement(s.identOrOp, s.templateArgs)
if s.declaration is not None:
key.append((nne, s.templateParams, s.declaration.get_newest_id()))
else:
key.append((nne, s.templateParams, 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 = []
templates = []
for s in symbols:
names.append(ASTNestedNameElement(s.identOrOp, s.templateArgs))
templates.append(False)
return ASTNestedName(names, templates, rooted=False)
def _find_first_named_symbol(self, identOrOp: Union[ASTIdentifier, ASTOperator],
templateParams: Any, templateArgs: ASTTemplateArgs,
templateShorthand: bool, matchSelf: bool,
recurseInAnon: bool, correctPrimaryTemplateArgs: bool
) -> "Symbol":
if Symbol.debug_lookup:
Symbol.debug_print("_find_first_named_symbol ->")
res = self._find_named_symbols(identOrOp, templateParams, templateArgs,
templateShorthand, matchSelf, recurseInAnon,
correctPrimaryTemplateArgs,
searchInSiblings=False)
try:
return next(res)
except StopIteration:
return None
def _find_named_symbols(self, identOrOp: Union[ASTIdentifier, ASTOperator],
templateParams: Any, templateArgs: ASTTemplateArgs,
templateShorthand: bool, matchSelf: bool,
recurseInAnon: bool, correctPrimaryTemplateArgs: bool,
searchInSiblings: bool) -> Iterator["Symbol"]:
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("identOrOp: ", identOrOp)
Symbol.debug_print("templateParams: ", templateParams)
Symbol.debug_print("templateArgs: ", templateArgs)
Symbol.debug_print("templateShorthand: ", templateShorthand)
Symbol.debug_print("matchSelf: ", matchSelf)
Symbol.debug_print("recurseInAnon: ", recurseInAnon)
Symbol.debug_print("correctPrimaryTemplateAargs:", correctPrimaryTemplateArgs)
Symbol.debug_print("searchInSiblings: ", searchInSiblings)
def isSpecialization() -> bool:
# the names of the template parameters must be given exactly as args
# and params that are packs must in the args be the name expanded
if len(templateParams.params) != len(templateArgs.args):
return True
# having no template params and no arguments is also a specialization
if len(templateParams.params) == 0:
return True
for i in range(len(templateParams.params)):
param = templateParams.params[i]
arg = templateArgs.args[i]
# TODO: doing this by string manipulation is probably not the most efficient
paramName = str(param.name)
argTxt = str(arg)
isArgPackExpansion = argTxt.endswith('...')
if param.isPack != isArgPackExpansion:
return True
argName = argTxt[:-3] if isArgPackExpansion else argTxt
if paramName != argName:
return True
return False
if correctPrimaryTemplateArgs:
if templateParams is not None and templateArgs is not None:
# If both are given, but it's not a specialization, then do lookup as if
# there is no argument list.
# For example: template<typename T> int A<T>::var;
if not isSpecialization():
templateArgs = None
def matches(s: "Symbol") -> bool:
if s.identOrOp != identOrOp:
return False
if (s.templateParams is None) != (templateParams is None):
if templateParams is not None:
# we query with params, they must match params
return False
if not templateShorthand:
# we don't query with params, and we do care about them
return False
if templateParams:
# TODO: do better comparison
if str(s.templateParams) != str(templateParams):
return False
if (s.templateArgs is None) != (templateArgs is None):
return False
if s.templateArgs:
# TODO: do better comparison
if str(s.templateArgs) != str(templateArgs):
return False
return True
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 matches(s):
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, templateDecls: List[Any],
onMissingQualifiedSymbol: Callable[["Symbol", Union[ASTIdentifier, ASTOperator], Any, ASTTemplateArgs], "Symbol"], # NOQA
strictTemplateParamArgLists: bool, ancestorLookupType: str,
templateShorthand: bool, matchSelf: bool,
recurseInAnon: bool, correctPrimaryTemplateArgs: bool,
searchInSiblings: bool) -> SymbolLookupResult:
# 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("templateDecls: ", ",".join(str(t) for t in templateDecls))
Symbol.debug_print("strictTemplateParamArgLists:", strictTemplateParamArgLists)
Symbol.debug_print("ancestorLookupType:", ancestorLookupType)
Symbol.debug_print("templateShorthand: ", templateShorthand)
Symbol.debug_print("matchSelf: ", matchSelf)
Symbol.debug_print("recurseInAnon: ", recurseInAnon)
Symbol.debug_print("correctPrimaryTemplateArgs: ", correctPrimaryTemplateArgs)
Symbol.debug_print("searchInSiblings: ", searchInSiblings)
if strictTemplateParamArgLists:
# Each template argument list must have a template parameter list.
# But to declare a template there must be an additional template parameter list.
assert (nestedName.num_templates() == len(templateDecls) or
nestedName.num_templates() + 1 == len(templateDecls))
else:
assert len(templateDecls) <= nestedName.num_templates() + 1
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]
if not firstName.is_operator():
while parentSymbol.parent:
if parentSymbol.find_identifier(firstName.identOrOp,
matchSelf=matchSelf,
recurseInAnon=recurseInAnon,
searchInSiblings=searchInSiblings):
# if we are in the scope of a constructor but wants to
# reference the class we need to walk one extra up
if (len(names) == 1 and ancestorLookupType == 'class' and matchSelf and
parentSymbol.parent and
parentSymbol.parent.identOrOp == firstName.identOrOp):
pass
else:
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
iTemplateDecl = 0
for name in names[:-1]:
identOrOp = name.identOrOp
templateArgs = name.templateArgs
if strictTemplateParamArgLists:
# there must be a parameter list
if templateArgs:
assert iTemplateDecl < len(templateDecls)
templateParams = templateDecls[iTemplateDecl]
iTemplateDecl += 1
else:
templateParams = None
else:
# take the next template parameter list if there is one
# otherwise it's ok
if templateArgs and iTemplateDecl < len(templateDecls):
templateParams = templateDecls[iTemplateDecl]
iTemplateDecl += 1
else:
templateParams = None
symbol = parentSymbol._find_first_named_symbol(
identOrOp,
templateParams, templateArgs,
templateShorthand=templateShorthand,
matchSelf=matchSelf,
recurseInAnon=recurseInAnon,
correctPrimaryTemplateArgs=correctPrimaryTemplateArgs)
if symbol is None:
symbol = onMissingQualifiedSymbol(parentSymbol, identOrOp,
templateParams, templateArgs)
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
name = names[-1]
identOrOp = name.identOrOp
templateArgs = name.templateArgs
if iTemplateDecl < len(templateDecls):
assert iTemplateDecl + 1 == len(templateDecls)
templateParams = templateDecls[iTemplateDecl]
else:
assert iTemplateDecl == len(templateDecls)
templateParams = None
symbols = parentSymbol._find_named_symbols(
identOrOp, templateParams, templateArgs,
templateShorthand=templateShorthand, matchSelf=matchSelf,
recurseInAnon=recurseInAnon, correctPrimaryTemplateArgs=False,
searchInSiblings=searchInSiblings)
if Symbol.debug_lookup:
symbols = list(symbols) # type: ignore
Symbol.debug_indent -= 2
return SymbolLookupResult(symbols, parentSymbol,
identOrOp, templateParams, templateArgs)
def _add_symbols(self, nestedName: ASTNestedName, templateDecls: List[Any],
declaration: ASTDeclaration, docname: str, line: int) -> "Symbol":
# 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("tdecls:", ",".join(str(t) for t in templateDecls))
Symbol.debug_print("nn: ", nestedName)
Symbol.debug_print("decl: ", declaration)
Symbol.debug_print("location: {}:{}".format(docname, line))
def onMissingQualifiedSymbol(parentSymbol: "Symbol",
identOrOp: Union[ASTIdentifier, ASTOperator],
templateParams: Any, templateArgs: ASTTemplateArgs
) -> "Symbol":
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("_add_symbols, onMissingQualifiedSymbol:")
Symbol.debug_indent += 1
Symbol.debug_print("templateParams:", templateParams)
Symbol.debug_print("identOrOp: ", identOrOp)
Symbol.debug_print("templateARgs: ", templateArgs)
Symbol.debug_indent -= 2
return Symbol(parent=parentSymbol, identOrOp=identOrOp,
templateParams=templateParams,
templateArgs=templateArgs, declaration=None,
docname=None, line=None)
lookupResult = self._symbol_lookup(nestedName, templateDecls,
onMissingQualifiedSymbol,
strictTemplateParamArgLists=True,
ancestorLookupType=None,
templateShorthand=False,
matchSelf=False,
recurseInAnon=False,
correctPrimaryTemplateArgs=True,
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("templateParams:", lookupResult.templateParams)
Symbol.debug_print("identOrOp: ", lookupResult.identOrOp)
Symbol.debug_print("templateArgs: ", lookupResult.templateArgs)
Symbol.debug_print("declaration: ", declaration)
Symbol.debug_print("location: {}:{}".format(docname, line))
Symbol.debug_indent -= 1
symbol = Symbol(parent=lookupResult.parentSymbol,
identOrOp=lookupResult.identOrOp,
templateParams=lookupResult.templateParams,
templateArgs=lookupResult.templateArgs,
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,
identOrOp=lookupResult.identOrOp,
templateParams=lookupResult.templateParams,
templateArgs=lookupResult.templateArgs,
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:
# but all existing must be functions as well,
# otherwise we declare it to be a duplicate
if symbol.declaration.objectType != 'function':
handleDuplicateDeclaration(symbol, candSymbol)
# (not reachable)
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")
if candSymbol is not None:
Symbol.debug_print("result is already created candSymbol")
else:
Symbol.debug_print("result is makeCandSymbol()")
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
def unconditionalAdd(self, otherChild):
# TODO: hmm, should we prune by docnames?
self._children.append(otherChild)
otherChild.parent = self
otherChild._assert_invariants()
if Symbol.debug_lookup:
Symbol.debug_indent += 1
for otherChild in other._children:
if Symbol.debug_lookup:
Symbol.debug_print("otherChild:\n", otherChild.to_string(Symbol.debug_indent))
Symbol.debug_indent += 1
if otherChild.isRedeclaration:
unconditionalAdd(self, otherChild)
if Symbol.debug_lookup:
Symbol.debug_print("isRedeclaration")
Symbol.debug_indent -= 1
continue
candiateIter = self._find_named_symbols(
identOrOp=otherChild.identOrOp,
templateParams=otherChild.templateParams,
templateArgs=otherChild.templateArgs,
templateShorthand=False, matchSelf=False,
recurseInAnon=False, correctPrimaryTemplateArgs=False,
searchInSiblings=False)
candidates = list(candiateIter)
if Symbol.debug_lookup:
Symbol.debug_print("raw candidate symbols:", len(candidates))
symbols = [s for s in candidates if not s.isRedeclaration]
if Symbol.debug_lookup:
Symbol.debug_print("non-duplicate candidate symbols:", len(symbols))
if len(symbols) == 0:
unconditionalAdd(self, otherChild)
if Symbol.debug_lookup:
Symbol.debug_indent -= 1
continue
ourChild = None
if otherChild.declaration is None:
if Symbol.debug_lookup:
Symbol.debug_print("no declaration in other child")
ourChild = symbols[0]
else:
queryId = otherChild.declaration.get_newest_id()
if Symbol.debug_lookup:
Symbol.debug_print("queryId: ", queryId)
for symbol in symbols:
if symbol.declaration is None:
if Symbol.debug_lookup:
Symbol.debug_print("empty candidate")
# if in the end we have non matching, but have an empty one,
# then just continue with that
ourChild = symbol
continue
candId = symbol.declaration.get_newest_id()
if Symbol.debug_lookup:
Symbol.debug_print("candidate:", candId)
if candId == queryId:
ourChild = symbol
break
if Symbol.debug_lookup:
Symbol.debug_indent -= 1
if ourChild is None:
unconditionalAdd(self, otherChild)
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 '.. cpp:%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?
# Hmm, only on duplicate declarations, right?
msg = "Internal C++ domain error during symbol merging.\n"
msg += "ourChild:\n" + ourChild.to_string(1)
msg += "\notherChild:\n" + otherChild.to_string(1)
logger.warning(msg, location=otherChild.docname)
ourChild.merge_with(otherChild, docnames, env)
if Symbol.debug_lookup:
Symbol.debug_indent -= 2
def add_name(self, nestedName: ASTNestedName,
templatePrefix: ASTTemplateDeclarationPrefix = None) -> "Symbol":
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("add_name:")
if templatePrefix:
templateDecls = templatePrefix.templates
else:
templateDecls = []
res = self._add_symbols(nestedName, templateDecls,
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
if declaration.templatePrefix:
templateDecls = declaration.templatePrefix.templates
else:
templateDecls = []
res = self._add_symbols(nestedName, templateDecls, declaration, docname, line)
if Symbol.debug_lookup:
Symbol.debug_indent -= 1
return res
def find_identifier(self, identOrOp: Union[ASTIdentifier, ASTOperator],
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("identOrOp: ", identOrOp)
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.identOrOp == identOrOp:
return current
children = current.children_recurse_anon if recurseInAnon else current._children
for s in children:
if s.identOrOp == identOrOp:
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, templateParams, id_ in key.data:
if id_ is not None:
res = None
for cand in s._children:
if cand.declaration is None:
continue
if cand.declaration.get_newest_id() == id_:
res = cand
break
s = res
else:
identOrOp = name.identOrOp
templateArgs = name.templateArgs
s = s._find_first_named_symbol(identOrOp,
templateParams, templateArgs,
templateShorthand=False,
matchSelf=False,
recurseInAnon=False,
correctPrimaryTemplateArgs=False)
if Symbol.debug_lookup:
Symbol.debug_print("name: ", name)
Symbol.debug_print("templateParams:", templateParams)
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_name(self, nestedName: ASTNestedName, templateDecls: List[Any],
typ: str, templateShorthand: bool, matchSelf: bool,
recurseInAnon: bool, searchInSiblings: bool) -> Tuple[List["Symbol"], str]:
# templateShorthand: missing template parameter lists for templates is ok
# If the first component is None,
# then the second component _may_ be a string explaining why.
if Symbol.debug_lookup:
Symbol.debug_indent += 1
Symbol.debug_print("find_name:")
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("templateDecls: ", templateDecls)
Symbol.debug_print("typ: ", typ)
Symbol.debug_print("templateShorthand:", templateShorthand)
Symbol.debug_print("matchSelf: ", matchSelf)
Symbol.debug_print("recurseInAnon: ", recurseInAnon)
Symbol.debug_print("searchInSiblings: ", searchInSiblings)
class QualifiedSymbolIsTemplateParam(Exception):
pass
def onMissingQualifiedSymbol(parentSymbol: "Symbol",
identOrOp: Union[ASTIdentifier, ASTOperator],
templateParams: Any,
templateArgs: ASTTemplateArgs) -> "Symbol":
# TODO: Maybe search without template args?
# Though, the correctPrimaryTemplateArgs does
# that for primary templates.
# Is there another case where it would be good?
if parentSymbol.declaration is not None:
if parentSymbol.declaration.objectType == 'templateParam':
raise QualifiedSymbolIsTemplateParam()
return None
try:
lookupResult = self._symbol_lookup(nestedName, templateDecls,
onMissingQualifiedSymbol,
strictTemplateParamArgLists=False,
ancestorLookupType=typ,
templateShorthand=templateShorthand,
matchSelf=matchSelf,
recurseInAnon=recurseInAnon,
correctPrimaryTemplateArgs=False,
searchInSiblings=searchInSiblings)
except QualifiedSymbolIsTemplateParam:
return None, "templateParamInQualified"
if lookupResult is None:
# if it was a part of the qualification that could not be found
if Symbol.debug_lookup:
Symbol.debug_indent -= 2
return None, None
res = list(lookupResult.symbols)
if len(res) != 0:
if Symbol.debug_lookup:
Symbol.debug_indent -= 2
return res, None
if lookupResult.parentSymbol.declaration is not None:
if lookupResult.parentSymbol.declaration.objectType == 'templateParam':
return None, "templateParamInQualified"
# try without template params and args
symbol = lookupResult.parentSymbol._find_first_named_symbol(
lookupResult.identOrOp, None, None,
templateShorthand=templateShorthand, matchSelf=matchSelf,
recurseInAnon=recurseInAnon, correctPrimaryTemplateArgs=False)
if Symbol.debug_lookup:
Symbol.debug_indent -= 2
if symbol is not None:
return [symbol], None
else:
return None, None
def find_declaration(self, declaration: ASTDeclaration, typ: str, templateShorthand: bool,
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:")
nestedName = declaration.name
if declaration.templatePrefix:
templateDecls = declaration.templatePrefix.templates
else:
templateDecls = []
def onMissingQualifiedSymbol(parentSymbol: "Symbol",
identOrOp: Union[ASTIdentifier, ASTOperator],
templateParams: Any,
templateArgs: ASTTemplateArgs) -> "Symbol":
return None
lookupResult = self._symbol_lookup(nestedName, templateDecls,
onMissingQualifiedSymbol,
strictTemplateParamArgLists=False,
ancestorLookupType=typ,
templateShorthand=templateShorthand,
matchSelf=matchSelf,
recurseInAnon=recurseInAnon,
correctPrimaryTemplateArgs=False,
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
querySymbol = Symbol(parent=lookupResult.parentSymbol,
identOrOp=lookupResult.identOrOp,
templateParams=lookupResult.templateParams,
templateArgs=lookupResult.templateArgs,
declaration=declaration,
docname='fakeDocnameForQuery',
line=42)
queryId = declaration.get_newest_id()
for symbol in symbols:
if symbol.declaration is None:
continue
candId = symbol.declaration.get_newest_id()
if candId == queryId:
querySymbol.remove()
return symbol
querySymbol.remove()
return None
def to_string(self, indent: int) -> str:
res = [Symbol.debug_indent_string * indent]
if not self.parent:
res.append('::')
else:
if self.templateParams:
res.append(str(self.templateParams))
res.append('\n')
res.append(Symbol.debug_indent_string * indent)
if self.identOrOp:
res.append(str(self.identOrOp))
else:
res.append(str(self.declaration))
if self.templateArgs:
res.append(str(self.templateArgs))
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_fundemental_types = (
'void', 'bool', 'char', 'wchar_t', 'char16_t', 'char32_t', 'int',
'float', 'double', 'auto'
)
_prefix_keys = ('class', 'struct', 'enum', 'union', 'typename')
@property
def language(self) -> str:
return 'C++'
@property
def id_attributes(self):
return self.config.cpp_id_attributes
@property
def paren_attributes(self):
return self.config.cpp_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"
# | pointer-literal -> "nullptr"
# | user-defined-literal
def _udl(literal: ASTLiteral) -> ASTLiteral:
if not self.match(udl_identifier_re):
return literal
# hmm, should we care if it's a keyword?
# it looks like GCC does not disallow keywords
ident = ASTIdentifier(self.matched_text)
return ASTUserDefinedLiteral(literal, ident)
self.skip_ws()
if self.skip_word('nullptr'):
return ASTPointerLiteral()
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):
hasSuffix = self.match(float_literal_suffix_re)
floatLit = ASTNumberLiteral(self.definition[pos:self.pos])
if hasSuffix:
return floatLit
else:
return _udl(floatLit)
for regex in [binary_literal_re, hex_literal_re,
integer_literal_re, octal_literal_re]:
if self.match(regex):
hasSuffix = self.match(integers_literal_suffix_re)
intLit = ASTNumberLiteral(self.definition[pos:self.pos])
if hasSuffix:
return intLit
else:
return _udl(intLit)
string = self._parse_string()
if string is not None:
return _udl(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:
charLit = 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 _udl(charLit)
return None
def _parse_fold_or_paren_expression(self) -> ASTExpression:
# "(" expression ")"
# fold-expression
# -> ( cast-expression fold-operator ... )
# | ( ... fold-operator cast-expression )
# | ( cast-expression fold-operator ... fold-operator cast-expression
if self.current_char != '(':
return None
self.pos += 1
self.skip_ws()
if self.skip_string_and_ws("..."):
# ( ... fold-operator cast-expression )
if not self.match(_fold_operator_re):
self.fail("Expected fold operator after '...' in fold expression.")
op = self.matched_text
rightExpr = self._parse_cast_expression()
if not self.skip_string(')'):
self.fail("Expected ')' in end of fold expression.")
return ASTFoldExpr(None, op, rightExpr)
# try first parsing a unary right fold, or a binary fold
pos = self.pos
try:
self.skip_ws()
leftExpr = self._parse_cast_expression()
self.skip_ws()
if not self.match(_fold_operator_re):
self.fail("Expected fold operator after left expression in fold expression.")
op = self.matched_text
self.skip_ws()
if not self.skip_string_and_ws('...'):
self.fail("Expected '...' after fold operator in fold expression.")
except DefinitionError as eFold:
self.pos = pos
# fall back to a paren expression
try:
res = self._parse_expression()
self.skip_ws()
if not self.skip_string(')'):
self.fail("Expected ')' in end of parenthesized expression.")
except DefinitionError as eExpr:
raise self._make_multi_error([
(eFold, "If fold expression"),
(eExpr, "If parenthesized expression")
], "Error in fold expression or parenthesized expression.") from eExpr
return ASTParenExpr(res)
# now it definitely is a fold expression
if self.skip_string(')'):
return ASTFoldExpr(leftExpr, op, None)
if not self.match(_fold_operator_re):
self.fail("Expected fold operator or ')' after '...' in fold expression.")
if op != self.matched_text:
self.fail("Operators are different in binary fold: '%s' and '%s'."
% (op, self.matched_text))
rightExpr = self._parse_cast_expression()
self.skip_ws()
if not self.skip_string(')'):
self.fail("Expected ')' to end binary fold expression.")
return ASTFoldExpr(leftExpr, op, rightExpr)
def _parse_primary_expression(self) -> ASTExpression:
# literal
# "this"
# lambda-expression
# "(" expression ")"
# fold-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
self.skip_ws()
if self.skip_word("this"):
return ASTThisLiteral()
# TODO: try lambda expression
res = self._parse_fold_or_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[Union[ASTExpression,
ASTBracedInitList]],
bool]:
# Parse open and close with the actual initializer-list inbetween
# -> initializer-clause '...'[opt]
# | initializer-list ',' initializer-clause '...'[opt]
self.skip_ws()
if not self.skip_string_and_ws(open):
return None, None
if self.skip_string(close):
return [], False
exprs = [] # type: List[Union[ASTExpression, ASTBracedInitList]]
trailingComma = False
while True:
self.skip_ws()
expr = self._parse_initializer_clause()
self.skip_ws()
if self.skip_string('...'):
exprs.append(ASTPackExpansionExpr(expr))
else:
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_initializer_clause(self) -> Union[ASTExpression, ASTBracedInitList]:
bracedInitList = self._parse_braced_init_list()
if bracedInitList is not None:
return bracedInitList
return self._parse_assignment_expression(inTemplate=False)
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_expression_list_or_braced_init_list(
self
) -> Union[ASTParenExprList, ASTBracedInitList]:
paren = self._parse_paren_expression_list()
if paren is not None:
return paren
return self._parse_braced_init_list()
def _parse_postfix_expression(self) -> ASTPostfixExpr:
# -> primary
# | postfix "[" expression "]"
# | postfix "[" braced-init-list [opt] "]"
# | postfix "(" expression-list [opt] ")"
# | postfix "." "template" [opt] id-expression
# | postfix "->" "template" [opt] id-expression
# | postfix "." pseudo-destructor-name
# | postfix "->" pseudo-destructor-name
# | postfix "++"
# | postfix "--"
# | simple-type-specifier "(" expression-list [opt] ")"
# | simple-type-specifier braced-init-list
# | typename-specifier "(" expression-list [opt] ")"
# | typename-specifier braced-init-list
# | "dynamic_cast" "<" type-id ">" "(" expression ")"
# | "static_cast" "<" type-id ">" "(" expression ")"
# | "reinterpret_cast" "<" type-id ">" "(" expression ")"
# | "const_cast" "<" type-id ">" "(" expression ")"
# | "typeid" "(" expression ")"
# | "typeid" "(" type-id ")"
prefixType = None
prefix = None # type: Any
self.skip_ws()
cast = None
for c in _id_explicit_cast:
if self.skip_word_and_ws(c):
cast = c
break
if cast is not None:
prefixType = "cast"
if not self.skip_string("<"):
self.fail("Expected '<' afer '%s'." % cast)
typ = self._parse_type(False)
self.skip_ws()
if not self.skip_string_and_ws(">"):
self.fail("Expected '>' after type in '%s'." % cast)
if not self.skip_string("("):
self.fail("Expected '(' in '%s'." % cast)
def parser() -> ASTExpression:
return self._parse_expression()
expr = self._parse_expression_fallback([')'], parser)
self.skip_ws()
if not self.skip_string(")"):
self.fail("Expected ')' to end '%s'." % cast)
prefix = ASTExplicitCast(cast, typ, expr)
elif self.skip_word_and_ws("typeid"):
prefixType = "typeid"
if not self.skip_string_and_ws('('):
self.fail("Expected '(' after 'typeid'.")
pos = self.pos
try:
typ = self._parse_type(False)
prefix = ASTTypeId(typ, isType=True)
if not self.skip_string(')'):
self.fail("Expected ')' to end 'typeid' of type.")
except DefinitionError as eType:
self.pos = pos
try:
def parser() -> ASTExpression:
return self._parse_expression()
expr = self._parse_expression_fallback([')'], parser)
prefix = ASTTypeId(expr, isType=False)
if not self.skip_string(')'):
self.fail("Expected ')' to end 'typeid' of expression.")
except DefinitionError as eExpr:
self.pos = pos
header = "Error in 'typeid(...)'."
header += " Expected type or expression."
errors = []
errors.append((eType, "If type"))
errors.append((eExpr, "If expression"))
raise self._make_multi_error(errors, header) from eExpr
else: # a primary expression or a type
pos = self.pos
try:
prefix = self._parse_primary_expression()
prefixType = 'expr'
except DefinitionError as eOuter:
self.pos = pos
try:
# we are potentially casting, so save parens for us
# TODO: hmm, would we need to try both with operatorCast and with None?
prefix = self._parse_type(False, 'operatorCast')
prefixType = 'typeOperatorCast'
# | simple-type-specifier "(" expression-list [opt] ")"
# | simple-type-specifier braced-init-list
# | typename-specifier "(" expression-list [opt] ")"
# | typename-specifier braced-init-list
self.skip_ws()
if self.current_char != '(' and self.current_char != '{':
self.fail("Expecting '(' or '{' after type in cast expression.")
except DefinitionError as eInner:
self.pos = pos
header = "Error in postfix expression,"
header += " expected primary expression or type."
errors = []
errors.append((eOuter, "If primary expression"))
errors.append((eInner, "If type"))
raise self._make_multi_error(errors, header) from eInner
# and now parse postfixes
postFixes = [] # type: List[ASTPostfixOp]
while True:
self.skip_ws()
if prefixType in ['expr', 'cast', 'typeid']:
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_expression_list_or_braced_init_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 ")"
# | "sizeof" "..." "(" identifier ")"
# | "alignof" "(" type-id ")"
# | noexcept-expression -> noexcept "(" expression ")"
# | new-expression
# | delete-expression
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('...'):
if not self.skip_string_and_ws('('):
self.fail("Expecting '(' after 'sizeof...'.")
if not self.match(identifier_re):
self.fail("Expecting identifier for 'sizeof...'.")
ident = ASTIdentifier(self.matched_text)
self.skip_ws()
if not self.skip_string(")"):
self.fail("Expecting ')' to end 'sizeof...'.")
return ASTSizeofParamPack(ident)
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)
if self.skip_word_and_ws('noexcept'):
if not self.skip_string_and_ws('('):
self.fail("Expecting '(' after 'noexcept'.")
expr = self._parse_expression()
self.skip_ws()
if not self.skip_string(')'):
self.fail("Expecting ')' to end 'noexcept'.")
return ASTNoexceptExpr(expr)
# new-expression
pos = self.pos
rooted = self.skip_string('::')
self.skip_ws()
if not self.skip_word_and_ws('new'):
self.pos = pos
else:
# new-placement[opt] new-type-id new-initializer[opt]
# new-placement[opt] ( type-id ) new-initializer[opt]
isNewTypeId = True
if self.skip_string_and_ws('('):
# either this is a new-placement or it's the second production
# without placement, and it's actually the ( type-id ) part
self.fail("Sorry, neither new-placement nor parenthesised type-id "
"in new-epression is supported yet.")
# set isNewTypeId = False if it's (type-id)
if isNewTypeId:
declSpecs = self._parse_decl_specs(outer=None)
decl = self._parse_declarator(named=False, paramMode="new")
else:
self.fail("Sorry, parenthesised type-id in new expression not yet supported.")
lst = self._parse_expression_list_or_braced_init_list()
return ASTNewExpr(rooted, isNewTypeId, ASTType(declSpecs, decl), lst)
# delete-expression
pos = self.pos
rooted = self.skip_string('::')
self.skip_ws()
if not self.skip_word_and_ws('delete'):
self.pos = pos
else:
array = self.skip_string_and_ws('[')
if array and not self.skip_string_and_ws(']'):
self.fail("Expected ']' in array delete-expression.")
expr = self._parse_cast_expression()
return ASTDeleteExpr(rooted, array, expr)
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, inTemplate: bool) -> 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: DefinitionParser,
opId: int, inTemplate: bool) -> ASTExpression:
if opId + 1 == len(_expression_bin_ops):
def parser(inTemplate: bool) -> ASTExpression:
return self._parse_cast_expression()
else:
def parser(inTemplate: bool) -> ASTExpression:
return _parse_bin_op_expr(self, opId + 1, inTemplate=inTemplate)
exprs = []
ops = []
exprs.append(parser(inTemplate=inTemplate))
while True:
self.skip_ws()
if inTemplate and self.current_char == '>':
break
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(inTemplate=inTemplate)
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, inTemplate=inTemplate)
def _parse_conditional_expression_tail(self, orExprHead: Any) -> None:
# -> "?" expression ":" assignment-expression
return None
def _parse_assignment_expression(self, inTemplate: bool) -> ASTExpression:
# -> conditional-expression
# | logical-or-expression assignment-operator initializer-clause
# | throw-expression
# TODO: parse throw-expression: "throw" assignment-expression [opt]
# if not a throw expression, then:
# -> conditional-expression ->
# logical-or-expression
# | logical-or-expression "?" expression ":" assignment-expression
# | logical-or-expression assignment-operator initializer-clause
exprs = [] # type: List[Union[ASTExpression, ASTBracedInitList]]
ops = []
orExpr = self._parse_logical_or_expression(inTemplate=inTemplate)
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 'anox':
if not self.skip_word(op):
continue
else:
if not self.skip_string(op):
continue
expr = self._parse_initializer_clause()
exprs.append(expr)
ops.append(op)
oneMore = True
if not oneMore:
break
if len(ops) == 0:
return orExpr
else:
return ASTAssignmentExpr(exprs, ops)
def _parse_constant_expression(self, inTemplate: bool) -> ASTExpression:
# -> conditional-expression
orExpr = self._parse_logical_or_expression(inTemplate=inTemplate)
# TODO: use _parse_conditional_expression_tail
return orExpr
def _parse_expression(self) -> ASTExpression:
# -> assignment-expression
# | expression "," assignment-expresion
exprs = [self._parse_assignment_expression(inTemplate=False)]
while True:
self.skip_ws()
if not self.skip_string(','):
break
exprs.append(self._parse_assignment_expression(inTemplate=False))
if len(exprs) == 1:
return exprs[0]
else:
return ASTCommaExpr(exprs)
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_operator(self) -> ASTOperator:
self.skip_ws()
# adapted from the old code
# yay, a regular operator definition
if self.match(_operator_re):
return ASTOperatorBuildIn(self.matched_text)
# new/delete operator?
for op in 'new', 'delete':
if not self.skip_word(op):
continue
self.skip_ws()
if self.skip_string('['):
self.skip_ws()
if not self.skip_string(']'):
self.fail('Expected "]" after "operator ' + op + '["')
op += '[]'
return ASTOperatorBuildIn(op)
# user-defined literal?
if self.skip_string('""'):
self.skip_ws()
if not self.match(identifier_re):
self.fail("Expected user-defined literal suffix.")
identifier = ASTIdentifier(self.matched_text)
return ASTOperatorLiteral(identifier)
# oh well, looks like a cast operator definition.
# In that case, eat another type.
type = self._parse_type(named=False, outer="operatorCast")
return ASTOperatorType(type)
def _parse_template_argument_list(self) -> ASTTemplateArgs:
# template-argument-list: (but we include the < and > here
# template-argument ...[opt]
# template-argument-list, template-argument ...[opt]
# template-argument:
# constant-expression
# type-id
# id-expression
self.skip_ws()
if not self.skip_string_and_ws('<'):
return None
if self.skip_string('>'):
return ASTTemplateArgs([], False)
prevErrors = []
templateArgs = [] # type: List[Union[ASTType, ASTTemplateArgConstant]]
packExpansion = False
while 1:
pos = self.pos
parsedComma = False
parsedEnd = False
try:
type = self._parse_type(named=False)
self.skip_ws()
if self.skip_string_and_ws('...'):
packExpansion = True
parsedEnd = True
if not self.skip_string('>'):
self.fail('Expected ">" after "..." in template argument list.')
elif self.skip_string('>'):
parsedEnd = True
elif self.skip_string(','):
parsedComma = True
else:
self.fail('Expected "...>", ">" or "," in template argument list.')
templateArgs.append(type)
except DefinitionError as e:
prevErrors.append((e, "If type argument"))
self.pos = pos
try:
value = self._parse_constant_expression(inTemplate=True)
self.skip_ws()
if self.skip_string_and_ws('...'):
packExpansion = True
parsedEnd = True
if not self.skip_string('>'):
self.fail('Expected ">" after "..." in template argument list.')
elif self.skip_string('>'):
parsedEnd = True
elif self.skip_string(','):
parsedComma = True
else:
self.fail('Expected "...>", ">" or "," in template argument list.')
templateArgs.append(ASTTemplateArgConstant(value))
except DefinitionError as e:
self.pos = pos
prevErrors.append((e, "If non-type argument"))
header = "Error in parsing template argument list."
raise self._make_multi_error(prevErrors, header) from e
if parsedEnd:
assert not parsedComma
break
else:
assert not packExpansion
return ASTTemplateArgs(templateArgs, packExpansion)
def _parse_nested_name(self, memberPointer: bool = False) -> ASTNestedName:
names = [] # type: List[ASTNestedNameElement]
templates = [] # type: List[bool]
self.skip_ws()
rooted = False
if self.skip_string('::'):
rooted = True
while 1:
self.skip_ws()
if len(names) > 0:
template = self.skip_word_and_ws('template')
else:
template = False
templates.append(template)
identOrOp = None # type: Union[ASTIdentifier, ASTOperator]
if self.skip_word_and_ws('operator'):
identOrOp = self._parse_operator()
else:
if not self.match(identifier_re):
if memberPointer and len(names) > 0:
templates.pop()
break
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)
identOrOp = ASTIdentifier(identifier)
# try greedily to get template arguments,
# but otherwise a < might be because we are in an expression
pos = self.pos
try:
templateArgs = self._parse_template_argument_list()
except DefinitionError as ex:
self.pos = pos
templateArgs = None
self.otherErrors.append(ex)
names.append(ASTNestedNameElement(identOrOp, templateArgs))
self.skip_ws()
if not self.skip_string('::'):
if memberPointer:
self.fail("Expected '::' in pointer to member (function).")
break
return ASTNestedName(names, templates, rooted)
# ==========================================================================
def _parse_trailing_type_spec(self) -> ASTTrailingTypeSpec:
# fundemental types
self.skip_ws()
for t in self._simple_fundemental_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')
if len(elements) > 0:
return ASTTrailingTypeSpecFundamental(' '.join(elements))
# decltype
self.skip_ws()
if self.skip_word_and_ws('decltype'):
if not self.skip_string_and_ws('('):
self.fail("Expected '(' after 'decltype'.")
if self.skip_word_and_ws('auto'):
if not self.skip_string(')'):
self.fail("Expected ')' after 'decltype(auto'.")
return ASTTrailingTypeSpecDecltypeAuto()
expr = self._parse_expression()
self.skip_ws()
if not self.skip_string(')'):
self.fail("Expected ')' after 'decltype(<expr>'.")
return ASTTrailingTypeSpecDecltype(expr)
# 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_and_qualifiers(self, paramMode: str) -> ASTParametersQualifiers:
if paramMode == 'new':
return None
self.skip_ws()
if not self.skip_string('('):
if paramMode == 'function':
self.fail('Expecting "(" in parameters-and-qualifiers.')
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-and-qualifiers.')
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-and-qualifiers, '
'got "%s".' % self.current_char)
# TODO: why did we have this bail-out?
# does it hurt to parse the extra stuff?
# it's needed for pointer to member functions
if paramMode != 'function' and False:
return ASTParametersQualifiers(
args, None, None, None, None, None, None, None)
self.skip_ws()
const = self.skip_word_and_ws('const')
volatile = self.skip_word_and_ws('volatile')
if not const: # the can be permuted
const = self.skip_word_and_ws('const')
refQual = None
if self.skip_string('&&'):
refQual = '&&'
if not refQual and self.skip_string('&'):
refQual = '&'
exceptionSpec = None
self.skip_ws()
if self.skip_string('noexcept'):
if self.skip_string_and_ws('('):
expr = self._parse_constant_expression(False)
self.skip_ws()
if not self.skip_string(')'):
self.fail("Expecting ')' to end 'noexcept'.")
exceptionSpec = ASTNoexceptSpec(expr)
else:
exceptionSpec = ASTNoexceptSpec(None)
self.skip_ws()
if self.skip_string('->'):
trailingReturn = self._parse_type(named=False)
else:
trailingReturn = None
self.skip_ws()
override = self.skip_word_and_ws('override')
final = self.skip_word_and_ws('final')
if not override:
override = self.skip_word_and_ws(
'override') # they can be permuted
attrs = []
while True:
attr = self._parse_attribute()
if attr is None:
break
attrs.append(attr)
self.skip_ws()
initializer = None
if self.skip_string('='):
self.skip_ws()
valid = ('0', 'delete', 'default')
for w in valid:
if self.skip_word_and_ws(w):
initializer = w
break
if not initializer:
self.fail(
'Expected "%s" in initializer-specifier.'
% '" or "'.join(valid))
return ASTParametersQualifiers(
args, volatile, const, refQual, exceptionSpec, trailingReturn,
override, final, attrs, initializer)
def _parse_decl_specs_simple(self, outer: str, typed: bool) -> ASTDeclSpecsSimple:
"""Just parse the simple ones."""
storage = None
threadLocal = None
inline = None
virtual = None
explicit = None
constexpr = None
volatile = None
const = None
friend = None
attrs = []
while 1: # accept any permutation of a subset of some decl-specs
self.skip_ws()
if not storage:
if outer in ('member', 'function'):
if self.skip_word('static'):
storage = 'static'
continue
if self.skip_word('extern'):
storage = 'extern'
continue
if outer == 'member':
if self.skip_word('mutable'):
storage = 'mutable'
continue
if self.skip_word('register'):
storage = 'register'
continue
if not threadLocal and outer == 'member':
threadLocal = self.skip_word('thread_local')
if threadLocal:
continue
if outer == 'function':
# function-specifiers
if not inline:
inline = self.skip_word('inline')
if inline:
continue
if not friend:
friend = self.skip_word('friend')
if friend:
continue
if not virtual:
virtual = self.skip_word('virtual')
if virtual:
continue
if not explicit:
explicit = self.skip_word('explicit')
if explicit:
continue
if not constexpr and outer in ('member', 'function'):
constexpr = self.skip_word("constexpr")
if constexpr:
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, virtual,
explicit, constexpr, volatile, const,
friend, attrs)
def _parse_decl_specs(self, outer: str, typed: bool = True) -> ASTDeclSpecs:
if outer:
if outer not in ('type', 'member', 'function', 'templateParam'):
raise Exception('Internal error, unknown outer "%s".' % outer)
"""
storage-class-specifier function-specifier "constexpr"
"volatile" "const" trailing-type-specifier
storage-class-specifier ->
"static" (only for member_object and function_object)
| "register"
function-specifier -> "inline" | "virtual" | "explicit" (only for
function_object)
"constexpr" (only for member_object and function_object)
"""
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
) -> Union[ASTDeclaratorNameParamQual, ASTDeclaratorNameBitField]:
# 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)
nne = ASTNestedNameElement(identifier, None)
declId = ASTNestedName([nne], [False], rooted=False)
# if it's a member pointer, we may have '::', which should be an error
self.skip_ws()
if self.current_char == ':':
self.fail("Unexpected ':' after identifier.")
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()
if self.skip_string(']'):
arrayOps.append(ASTArray(None))
continue
def parser() -> ASTExpression:
return self._parse_expression()
value = self._parse_expression_fallback([']'], parser)
if not self.skip_string(']'):
self.fail("Expected ']' in end of array operator.")
arrayOps.append(ASTArray(value))
continue
else:
break
paramQual = self._parse_parameters_and_qualifiers(paramMode)
if paramQual 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(inTemplate=False)
return ASTDeclaratorNameBitField(declId=declId, size=size)
return ASTDeclaratorNameParamQual(declId=declId, arrayOps=arrayOps,
paramQual=paramQual)
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', 'operatorCast', 'new'):
raise Exception(
"Internal error, unknown paramMode '%s'." % paramMode)
prevErrors = []
self.skip_ws()
if typed and self.skip_string('*'):
self.skip_ws()
volatile = False
const = False
attrs = []
while 1:
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, volatile=volatile, const=const, attrs=attrs)
# TODO: shouldn't we parse an R-value ref here first?
if typed and self.skip_string("&"):
attrs = []
while 1:
attr = self._parse_attribute()
if attr is None:
break
attrs.append(attr)
next = self._parse_declarator(named, paramMode, typed)
return ASTDeclaratorRef(next=next, attrs=attrs)
if typed and self.skip_string("..."):
next = self._parse_declarator(named, paramMode, False)
return ASTDeclaratorParamPack(next=next)
if typed and self.current_char == '(': # note: peeking, not skipping
if paramMode == "operatorCast":
# TODO: we should be able to parse cast operators which return
# function pointers. For now, just hax it and ignore.
return ASTDeclaratorNameParamQual(declId=None, arrayOps=[],
paramQual=None)
# maybe this is the beginning of params and quals,try that first,
# otherwise assume it's noptr->declarator > ( ptr-declarator )
pos = self.pos
try:
# assume this is params and quals
res = self._parse_declarator_name_suffix(named, paramMode,
typed)
return res
except DefinitionError as exParamQual:
prevErrors.append((exParamQual,
"If declarator-id with parameters-and-qualifiers"))
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 be
# 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
prevErrors.append((exNoPtrParen, "If parenthesis in noptr-declarator"))
header = "Error in declarator"
raise self._make_multi_error(prevErrors, header) from exNoPtrParen
if typed: # pointer to member
pos = self.pos
try:
name = self._parse_nested_name(memberPointer=True)
self.skip_ws()
if not self.skip_string('*'):
self.fail("Expected '*' in pointer to member declarator.")
self.skip_ws()
except DefinitionError as e:
self.pos = pos
prevErrors.append((e, "If pointer to member declarator"))
else:
volatile = False
const = False
while 1:
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
break
next = self._parse_declarator(named, paramMode, typed)
return ASTDeclaratorMemPtr(name, const, volatile, next=next)
pos = self.pos
try:
res = self._parse_declarator_name_suffix(named, paramMode, typed)
# this is a heuristic for error messages, for when there is a < after a
# nested name, but it was not a successful template argument list
if self.current_char == '<':
self.otherErrors.append(self._make_multi_error(prevErrors, ""))
return res
except DefinitionError as e:
self.pos = pos
prevErrors.append((e, "If declarator-id"))
header = "Error in declarator or parameters-and-qualifiers"
raise self._make_multi_error(prevErrors, header) from e
def _parse_initializer(self, outer: str = None, allowFallback: bool = True
) -> ASTInitializer:
# initializer # global vars
# -> brace-or-equal-initializer
# | '(' expression-list ')'
#
# brace-or-equal-initializer # member vars
# -> '=' initializer-clause
# | braced-init-list
#
# initializer-clause # function params, non-type template params (with '=' in front)
# -> assignment-expression
# | braced-init-list
#
# we don't distinguish between global and member vars, so disallow paren:
#
# -> braced-init-list # var only
# | '=' assignment-expression
# | '=' braced-init-list
self.skip_ws()
if outer == 'member':
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 == 'templateParam':
fallbackEnd = [',', '>']
elif outer is None: # function parameter
fallbackEnd = [',', ')']
else:
self.fail("Internal error, initializer for outer '%s' not "
"implemented." % outer)
inTemplate = outer == 'templateParam'
def parser() -> ASTExpression:
return self._parse_assignment_expression(inTemplate=inTemplate)
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
outer == operatorCast: annoying case, we should not take the params
"""
if outer: # always named
if outer not in ('type', 'member', 'function',
'operatorCast', 'templateParam'):
raise Exception('Internal error, unknown outer "%s".' % outer)
if outer != 'operatorCast':
assert named
if outer in ('type', 'function'):
# We allow type objects to just be a name.
# Some functions don't have normal return types: constructors,
# destrutors, cast operators
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:
if outer == 'type':
desc = "If just a name"
elif outer == 'function':
desc = "If the function has no return type"
else:
assert False
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
if outer == 'type':
desc = "If typedef-like declaration"
elif outer == 'function':
desc = "If the function has a return type"
else:
assert False
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:
if outer == 'type':
header = "Type must be either just a name or a "
header += "typedef-like declaration."
elif outer == 'function':
header = "Error when parsing function declaration."
else:
assert False
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)
else:
paramMode = 'type'
if outer == 'member': # i.e., member
named = True
elif outer == 'operatorCast':
paramMode = 'operatorCast'
outer = None
elif outer == 'templateParam':
named = 'single'
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) -> Union[ASTTypeWithInit, ASTTemplateParamConstrainedTypeWithInit]:
if outer:
assert outer in ('type', 'member', 'function', 'templateParam')
type = self._parse_type(outer=outer, named=named)
if outer != 'templateParam':
init = self._parse_initializer(outer=outer)
return ASTTypeWithInit(type, init)
# it could also be a constrained type parameter, e.g., C T = int&
pos = self.pos
eExpr = None
try:
init = self._parse_initializer(outer=outer, allowFallback=False)
# note: init may be None if there is no =
if init is None:
return ASTTypeWithInit(type, None)
# we parsed an expression, so we must have a , or a >,
# otherwise the expression didn't get everything
self.skip_ws()
if self.current_char != ',' and self.current_char != '>':
# pretend it didn't happen
self.pos = pos
init = None
else:
# we assume that it was indeed an expression
return ASTTypeWithInit(type, init)
except DefinitionError as e:
self.pos = pos
eExpr = e
if not self.skip_string("="):
return ASTTypeWithInit(type, None)
try:
typeInit = self._parse_type(named=False, outer=None)
return ASTTemplateParamConstrainedTypeWithInit(type, typeInit)
except DefinitionError as eType:
if eExpr is None:
raise eType
errs = []
errs.append((eExpr, "If default template argument is an expression"))
errs.append((eType, "If default template argument is a type"))
msg = "Error in non-type template parameter"
msg += " or constrained template parameter."
raise self._make_multi_error(errs, msg) from eType
def _parse_type_using(self) -> ASTTypeUsing:
name = self._parse_nested_name()
self.skip_ws()
if not self.skip_string('='):
return ASTTypeUsing(name, None)
type = self._parse_type(False, None)
return ASTTypeUsing(name, type)
def _parse_concept(self) -> ASTConcept:
nestedName = self._parse_nested_name()
self.skip_ws()
initializer = self._parse_initializer('member')
return ASTConcept(nestedName, initializer)
def _parse_class(self) -> ASTClass:
name = self._parse_nested_name()
self.skip_ws()
final = self.skip_word_and_ws('final')
bases = []
self.skip_ws()
if self.skip_string(':'):
while 1:
self.skip_ws()
visibility = None
virtual = False
pack = False
if self.skip_word_and_ws('virtual'):
virtual = True
if self.match(_visibility_re):
visibility = self.matched_text
self.skip_ws()
if not virtual and self.skip_word_and_ws('virtual'):
virtual = True
baseName = self._parse_nested_name()
self.skip_ws()
pack = self.skip_string('...')
bases.append(ASTBaseClass(baseName, visibility, virtual, pack))
self.skip_ws()
if self.skip_string(','):
continue
else:
break
return ASTClass(name, final, bases)
def _parse_union(self) -> ASTUnion:
name = self._parse_nested_name()
return ASTUnion(name)
def _parse_enum(self) -> ASTEnum:
scoped = None # is set by CPPEnumObject
self.skip_ws()
name = self._parse_nested_name()
self.skip_ws()
underlyingType = None
if self.skip_string(':'):
underlyingType = self._parse_type(named=False)
return ASTEnum(name, scoped, underlyingType)
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(inTemplate=False)
initVal = self._parse_expression_fallback([], parser)
init = ASTInitializer(initVal)
return ASTEnumerator(name, init)
# ==========================================================================
def _parse_template_paramter(self) -> ASTTemplateParam:
self.skip_ws()
if self.skip_word('template'):
# declare a tenplate template parameter
nestedParams = self._parse_template_parameter_list()
else:
nestedParams = None
pos = self.pos
try:
# Unconstrained type parameter or template type parameter
key = None
self.skip_ws()
if self.skip_word_and_ws('typename'):
key = 'typename'
elif self.skip_word_and_ws('class'):
key = 'class'
elif nestedParams:
self.fail("Expected 'typename' or 'class' after "
"template template parameter list.")
else:
self.fail("Expected 'typename' or 'class' in tbe "
"beginning of template type parameter.")
self.skip_ws()
parameterPack = self.skip_string('...')
self.skip_ws()
if self.match(identifier_re):
identifier = ASTIdentifier(self.matched_text)
else:
identifier = None
self.skip_ws()
if not parameterPack and self.skip_string('='):
default = self._parse_type(named=False, outer=None)
else:
default = None
if self.current_char not in ',>':
self.fail('Expected "," or ">" after (template) type parameter.')
data = ASTTemplateKeyParamPackIdDefault(key, identifier,
parameterPack, default)
if nestedParams:
return ASTTemplateParamTemplateType(nestedParams, data)
else:
return ASTTemplateParamType(data)
except DefinitionError as eType:
if nestedParams:
raise
try:
# non-type parameter or constrained type parameter
self.pos = pos
param = self._parse_type_with_init('maybe', 'templateParam')
return ASTTemplateParamNonType(param)
except DefinitionError as eNonType:
self.pos = pos
header = "Error when parsing template parameter."
errs = []
errs.append(
(eType, "If unconstrained type parameter or template type parameter"))
errs.append(
(eNonType, "If constrained type parameter or non-type parameter"))
raise self._make_multi_error(errs, header)
def _parse_template_parameter_list(self) -> ASTTemplateParams:
# only: '<' parameter-list '>'
# we assume that 'template' has just been parsed
templateParams = [] # type: List[ASTTemplateParam]
self.skip_ws()
if not self.skip_string("<"):
self.fail("Expected '<' after 'template'")
while 1:
pos = self.pos
err = None
try:
param = self._parse_template_paramter()
templateParams.append(param)
except DefinitionError as eParam:
self.pos = pos
err = eParam
self.skip_ws()
if self.skip_string('>'):
return ASTTemplateParams(templateParams)
elif self.skip_string(','):
continue
else:
header = "Error in template parameter list."
errs = []
if err:
errs.append((err, "If parameter"))
try:
self.fail('Expected "," or ">".')
except DefinitionError as e:
errs.append((e, "If no parameter"))
print(errs)
raise self._make_multi_error(errs, header)
def _parse_template_introduction(self) -> ASTTemplateIntroduction:
pos = self.pos
try:
concept = self._parse_nested_name()
except Exception:
self.pos = pos
return None
self.skip_ws()
if not self.skip_string('{'):
self.pos = pos
return None
# for sure it must be a template introduction now
params = []
while 1:
self.skip_ws()
parameterPack = self.skip_string('...')
self.skip_ws()
if not self.match(identifier_re):
self.fail("Expected identifier in template introduction list.")
txt_identifier = self.matched_text
# make sure there isn't a keyword
if txt_identifier in _keywords:
self.fail("Expected identifier in template introduction list, "
"got keyword: %s" % txt_identifier)
identifier = ASTIdentifier(txt_identifier)
params.append(ASTTemplateIntroductionParameter(identifier, parameterPack))
self.skip_ws()
if self.skip_string('}'):
break
elif self.skip_string(','):
continue
else:
self.fail("Error in template introduction list. "
'Expected ",", or "}".')
return ASTTemplateIntroduction(concept, params)
def _parse_requires_clause(self) -> Optional[ASTRequiresClause]:
# requires-clause -> 'requires' constraint-logical-or-expression
# constraint-logical-or-expression
# -> constraint-logical-and-expression
# | constraint-logical-or-expression '||' constraint-logical-and-expression
# constraint-logical-and-expression
# -> primary-expression
# | constraint-logical-and-expression '&&' primary-expression
self.skip_ws()
if not self.skip_word('requires'):
return None
def parse_and_expr(self: DefinitionParser) -> ASTExpression:
andExprs = []
ops = []
andExprs.append(self._parse_primary_expression())
while True:
self.skip_ws()
oneMore = False
if self.skip_string('&&'):
oneMore = True
ops.append('&&')
elif self.skip_word('and'):
oneMore = True
ops.append('and')
if not oneMore:
break
andExprs.append(self._parse_primary_expression())
if len(andExprs) == 1:
return andExprs[0]
else:
return ASTBinOpExpr(andExprs, ops)
orExprs = []
ops = []
orExprs.append(parse_and_expr(self))
while True:
self.skip_ws()
oneMore = False
if self.skip_string('||'):
oneMore = True
ops.append('||')
elif self.skip_word('or'):
oneMore = True
ops.append('or')
if not oneMore:
break
orExprs.append(parse_and_expr(self))
if len(orExprs) == 1:
return ASTRequiresClause(orExprs[0])
else:
return ASTRequiresClause(ASTBinOpExpr(orExprs, ops))
def _parse_template_declaration_prefix(self, objectType: str
) -> Optional[ASTTemplateDeclarationPrefix]:
templates = [] # type: List[Union[ASTTemplateParams, ASTTemplateIntroduction]]
while 1:
self.skip_ws()
# the saved position is only used to provide a better error message
params = None # type: Union[ASTTemplateParams, ASTTemplateIntroduction]
pos = self.pos
if self.skip_word("template"):
try:
params = self._parse_template_parameter_list()
except DefinitionError as e:
if objectType == 'member' and len(templates) == 0:
return ASTTemplateDeclarationPrefix(None)
else:
raise e
else:
params = self._parse_template_introduction()
if not params:
break
if objectType == 'concept' and len(templates) > 0:
self.pos = pos
self.fail("More than 1 template parameter list for concept.")
templates.append(params)
if len(templates) == 0 and objectType == 'concept':
self.fail('Missing template parameter list for concept.')
if len(templates) == 0:
return None
else:
return ASTTemplateDeclarationPrefix(templates)
def _check_template_consistency(self, nestedName: ASTNestedName,
templatePrefix: ASTTemplateDeclarationPrefix,
fullSpecShorthand: bool, isMember: bool = False
) -> ASTTemplateDeclarationPrefix:
numArgs = nestedName.num_templates()
isMemberInstantiation = False
if not templatePrefix:
numParams = 0
else:
if isMember and templatePrefix.templates is None:
numParams = 0
isMemberInstantiation = True
else:
numParams = len(templatePrefix.templates)
if numArgs + 1 < numParams:
self.fail("Too few template argument lists comapred to parameter"
" lists. Argument lists: %d, Parameter lists: %d."
% (numArgs, numParams))
if numArgs > numParams:
numExtra = numArgs - numParams
if not fullSpecShorthand and not isMemberInstantiation:
msg = "Too many template argument lists compared to parameter" \
" lists. Argument lists: %d, Parameter lists: %d," \
" Extra empty parameters lists prepended: %d." \
% (numArgs, numParams, numExtra)
msg += " Declaration:\n\t"
if templatePrefix:
msg += "%s\n\t" % templatePrefix
msg += str(nestedName)
self.warn(msg)
newTemplates = [] # type: List[Union[ASTTemplateParams, ASTTemplateIntroduction]]
for i in range(numExtra):
newTemplates.append(ASTTemplateParams([]))
if templatePrefix and not isMemberInstantiation:
newTemplates.extend(templatePrefix.templates)
templatePrefix = ASTTemplateDeclarationPrefix(newTemplates)
return templatePrefix
def parse_declaration(self, objectType: str, directiveType: str) -> ASTDeclaration:
if objectType not in ('class', 'union', 'function', 'member', 'type',
'concept', 'enum', 'enumerator'):
raise Exception('Internal error, unknown objectType "%s".' % objectType)
if directiveType not in ('class', 'struct', 'union', 'function', 'member', 'var',
'type', 'concept',
'enum', 'enum-struct', 'enum-class', 'enumerator'):
raise Exception('Internal error, unknown directiveType "%s".' % directiveType)
visibility = None
templatePrefix = None
requiresClause = None
trailingRequiresClause = None
declaration = None # type: Any
self.skip_ws()
if self.match(_visibility_re):
visibility = self.matched_text
if objectType in ('type', 'concept', 'member', 'function', 'class'):
templatePrefix = self._parse_template_declaration_prefix(objectType)
if objectType == 'function' and templatePrefix is not None:
requiresClause = self._parse_requires_clause()
if objectType == 'type':
prevErrors = []
pos = self.pos
try:
if not templatePrefix:
declaration = self._parse_type(named=True, outer='type')
except DefinitionError as e:
prevErrors.append((e, "If typedef-like declaration"))
self.pos = pos
pos = self.pos
try:
if not declaration:
declaration = self._parse_type_using()
except DefinitionError as e:
self.pos = pos
prevErrors.append((e, "If type alias or template alias"))
header = "Error in type declaration."
raise self._make_multi_error(prevErrors, header) from e
elif objectType == 'concept':
declaration = self._parse_concept()
elif objectType == 'member':
declaration = self._parse_type_with_init(named=True, outer='member')
elif objectType == 'function':
declaration = self._parse_type(named=True, outer='function')
if templatePrefix is not None:
trailingRequiresClause = self._parse_requires_clause()
elif objectType == 'class':
declaration = self._parse_class()
elif objectType == 'union':
declaration = self._parse_union()
elif objectType == 'enum':
declaration = self._parse_enum()
elif objectType == 'enumerator':
declaration = self._parse_enumerator()
else:
assert False
templatePrefix = self._check_template_consistency(declaration.name,
templatePrefix,
fullSpecShorthand=False,
isMember=objectType == 'member')
self.skip_ws()
semicolon = self.skip_string(';')
return ASTDeclaration(objectType, directiveType, visibility,
templatePrefix, requiresClause, declaration,
trailingRequiresClause, semicolon)
def parse_namespace_object(self) -> ASTNamespace:
templatePrefix = self._parse_template_declaration_prefix(objectType="namespace")
name = self._parse_nested_name()
templatePrefix = self._check_template_consistency(name, templatePrefix,
fullSpecShorthand=False)
res = ASTNamespace(name, templatePrefix)
res.objectType = 'namespace' # type: ignore
return res
def parse_xref_object(self) -> Tuple[Union[ASTNamespace, ASTDeclaration], bool]:
pos = self.pos
try:
templatePrefix = self._parse_template_declaration_prefix(objectType="xref")
name = self._parse_nested_name()
# if there are '()' left, just skip them
self.skip_ws()
self.skip_string('()')
self.assert_end()
templatePrefix = self._check_template_consistency(name, templatePrefix,
fullSpecShorthand=True)
res1 = ASTNamespace(name, templatePrefix)
res1.objectType = 'xref' # type: ignore
return res1, True
except DefinitionError as e1:
try:
self.pos = pos
res2 = self.parse_declaration('function', 'function')
# if there are '()' left, just skip them
self.skip_ws()
self.skip_string('()')
self.assert_end()
return res2, False
except DefinitionError as e2:
errs = []
errs.append((e1, "If shorthand ref"))
errs.append((e2, "If full function ref"))
msg = "Error in cross-reference."
raise self._make_multi_error(errs, msg) from e2
def parse_expression(self) -> Union[ASTExpression, ASTType]:
pos = self.pos
try:
expr = self._parse_expression()
self.skip_ws()
self.assert_end()
return expr
except DefinitionError as exExpr:
self.pos = pos
try:
typ = self._parse_type(False)
self.skip_ws()
self.assert_end()
return typ
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
def _make_phony_error_name() -> ASTNestedName:
nne = ASTNestedNameElement(ASTIdentifier("PhonyNameDueToError"), None)
return ASTNestedName([nne], [False], rooted=False)
class CPPObject(ObjectDescription):
"""Description of a C++ language object."""
doc_field_types = [
GroupedField('parameter', label=_('Parameters'),
names=('param', 'parameter', 'arg', 'argument'),
can_collapse=True),
GroupedField('template parameter', label=_('Template Parameters'),
names=('tparam', 'template parameter'),
can_collapse=True),
GroupedField('exceptions', label=_('Throws'), rolename='cpp:class',
names=('throws', 'throw', 'exception'),
can_collapse=True),
Field('returnvalue', label=_('Returns'), has_arg=False,
names=('returns', 'return')),
]
option_spec = {
'noindexentry': directives.flag,
'tparam-line-spec': directives.flag,
}
def _add_enumerator_to_parent(self, ast: ASTDeclaration) -> None:
assert ast.objectType == 'enumerator'
# find the parent, if it exists && is an enum
# && it's unscoped,
# then add the name to the parent scope
symbol = ast.symbol
assert symbol
assert symbol.identOrOp is not None
assert symbol.templateParams is None
assert symbol.templateArgs is None
parentSymbol = symbol.parent
assert parentSymbol
if parentSymbol.parent is None:
# TODO: we could warn, but it is somewhat equivalent to unscoped
# enums, without the enum
return # no parent
parentDecl = parentSymbol.declaration
if parentDecl is None:
# the parent is not explicitly declared
# TODO: we could warn, but it could be a style to just assume
# enumerator parents to be scoped
return
if parentDecl.objectType != 'enum':
# TODO: maybe issue a warning, enumerators in non-enums is weird,
# but it is somewhat equivalent to unscoped enums, without the enum
return
if parentDecl.directiveType != 'enum':
return
targetSymbol = parentSymbol.parent
s = targetSymbol.find_identifier(symbol.identOrOp, 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, identOrOp=symbol.identOrOp,
templateParams=None, templateArgs=None,
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:
# general note: name must be lstrip(':')'ed, to remove "::"
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
if not re.compile(r'^[a-zA-Z0-9_]*$').match(newestId):
logger.warning('Index id generation for C++ object "%s" failed, please '
'report as bug (id=%s).', ast, newestId,
location=self.get_source_info())
name = ast.symbol.get_full_nested_name().get_display_string().lstrip(':')
# Add index entry, but not if it's a declaration inside a concept
isInConcept = False
s = ast.symbol.parent
while s is not None:
decl = s.declaration
s = s.parent
if decl is None:
continue
if decl.objectType == 'concept':
isInConcept = True
break
if not isInConcept and 'noindexentry' not in self.options:
strippedName = name
for prefix in self.env.config.cpp_index_common_prefix:
if name.startswith(prefix):
strippedName = strippedName[len(prefix):]
break
indexText = self.get_index_text(strippedName)
self.indexnode['entries'].append(('single', indexText, newestId, '', None))
if newestId not in self.state.document.ids:
# if the name is not unique, the first one will win
names = self.env.domaindata['cpp']['names']
if name not in names:
names[name] = ast.symbol.docname
# 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)
@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 describe_signature(self, signode: desc_signature,
ast: ASTDeclaration, 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 'cpp:parent_symbol' not in env.temp_data:
root = env.domaindata['cpp']['root_symbol']
env.temp_data['cpp:parent_symbol'] = root
env.ref_context['cpp:parent_key'] = root.get_lookup_key()
# The lookup keys assume that no nested scopes exists inside overloaded functions.
# (see also #5191)
# Example:
# .. cpp:function:: void f(int)
# .. cpp:function:: void f(double)
#
# .. cpp:function:: void g()
#
# :cpp:any:`boom`
#
# So we disallow any signatures inside functions.
parentSymbol = env.temp_data['cpp:parent_symbol']
parentDecl = parentSymbol.declaration
if parentDecl is not None and parentDecl.objectType == 'function':
msg = "C++ declarations inside functions are not supported." \
" Parent function: {}\nDirective name: {}\nDirective arg: {}"
logger.warning(msg.format(
str(parentSymbol.get_full_nested_name()),
self.name, self.arguments[0]
), location=self.get_source_info())
name = _make_phony_error_name()
symbol = parentSymbol.add_name(name)
env.temp_data['cpp:last_symbol'] = symbol
return []
# 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['cpp:last_symbol'] = None
return super().run()
def handle_signature(self, sig: str, signode: desc_signature) -> ASTDeclaration:
parentSymbol = self.env.temp_data['cpp:parent_symbol'] # type: Symbol
parser = DefinitionParser(sig, location=signode, config=self.env.config)
try:
ast = self.parse_definition(parser)
parser.assert_end()
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['cpp: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['cpp:last_symbol']
if symbol.siblingAbove is not None:
assert symbol.siblingAbove.siblingBelow is None
symbol.siblingAbove.siblingBelow = symbol
self.env.temp_data['cpp: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['cpp:last_symbol'] = e.symbol
msg = __("Duplicate C++ declaration, also defined at %s:%s.\n"
"Declaration is '.. cpp:%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)
options['tparam-line-spec'] = 'tparam-line-spec' in self.options
self.describe_signature(signode, ast, options)
return ast
def before_content(self) -> None:
lastSymbol = self.env.temp_data['cpp:last_symbol'] # type: Symbol
assert lastSymbol
self.oldParentSymbol = self.env.temp_data['cpp:parent_symbol']
self.oldParentKey = self.env.ref_context['cpp:parent_key'] # type: LookupKey
self.env.temp_data['cpp:parent_symbol'] = lastSymbol
self.env.ref_context['cpp:parent_key'] = lastSymbol.get_lookup_key()
def after_content(self) -> None:
self.env.temp_data['cpp:parent_symbol'] = self.oldParentSymbol
self.env.ref_context['cpp:parent_key'] = self.oldParentKey
class CPPTypeObject(CPPObject):
object_type = 'type'
class CPPConceptObject(CPPObject):
object_type = 'concept'
class CPPMemberObject(CPPObject):
object_type = 'member'
class CPPFunctionObject(CPPObject):
object_type = 'function'
class CPPClassObject(CPPObject):
object_type = 'class'
@property
def display_object_type(self) -> str:
# the distinction between class and struct is only cosmetic
assert self.objtype in ('class', 'struct')
return self.objtype
class CPPUnionObject(CPPObject):
object_type = 'union'
class CPPEnumObject(CPPObject):
object_type = 'enum'
class CPPEnumeratorObject(CPPObject):
object_type = 'enumerator'
class CPPNamespaceObject(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['cpp']['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.config)
try:
ast = parser.parse_namespace_object()
parser.assert_end()
except DefinitionError as e:
logger.warning(e, location=self.get_source_info())
name = _make_phony_error_name()
ast = ASTNamespace(name, None)
symbol = rootSymbol.add_name(ast.nestedName, ast.templatePrefix)
stack = [symbol]
self.env.temp_data['cpp:parent_symbol'] = symbol
self.env.temp_data['cpp:namespace_stack'] = stack
self.env.ref_context['cpp:parent_key'] = symbol.get_lookup_key()
return []
class CPPNamespacePushObject(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.config)
try:
ast = parser.parse_namespace_object()
parser.assert_end()
except DefinitionError as e:
logger.warning(e, location=self.get_source_info())
name = _make_phony_error_name()
ast = ASTNamespace(name, None)
oldParent = self.env.temp_data.get('cpp:parent_symbol', None)
if not oldParent:
oldParent = self.env.domaindata['cpp']['root_symbol']
symbol = oldParent.add_name(ast.nestedName, ast.templatePrefix)
stack = self.env.temp_data.get('cpp:namespace_stack', [])
stack.append(symbol)
self.env.temp_data['cpp:parent_symbol'] = symbol
self.env.temp_data['cpp:namespace_stack'] = stack
self.env.ref_context['cpp:parent_key'] = symbol.get_lookup_key()
return []
class CPPNamespacePopObject(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('cpp: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['cpp']['root_symbol']
self.env.temp_data['cpp:parent_symbol'] = symbol
self.env.temp_data['cpp:namespace_stack'] = stack
self.env.ref_context['cpp:parent_key'] = symbol.get_lookup_key()
return []
class AliasNode(nodes.Element):
def __init__(self, sig: str, env: "BuildEnvironment" = None,
parentKey: LookupKey = None) -> None:
super().__init__()
self.sig = sig
if env is not None:
if 'cpp:parent_symbol' not in env.temp_data:
root = env.domaindata['cpp']['root_symbol']
env.temp_data['cpp:parent_symbol'] = root
self.parentKey = env.temp_data['cpp:parent_symbol'].get_lookup_key()
else:
assert parentKey is not None
self.parentKey = parentKey
def copy(self) -> 'AliasNode':
return self.__class__(self.sig, env=None, parentKey=self.parentKey)
class AliasTransform(SphinxTransform):
default_priority = ReferencesResolver.default_priority - 1
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)
ast, isShorthand = parser.parse_xref_object()
parser.assert_end()
except DefinitionError as e:
logger.warning(e, location=node)
ast, isShorthand = None, None
if ast 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['cpp'].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
symbols = [] # type: List[Symbol]
if isShorthand:
assert isinstance(ast, ASTNamespace)
ns = ast
name = ns.nestedName
if ns.templatePrefix:
templateDecls = ns.templatePrefix.templates
else:
templateDecls = []
symbols, failReason = parentSymbol.find_name(
nestedName=name,
templateDecls=templateDecls,
typ='any',
templateShorthand=True,
matchSelf=True, recurseInAnon=True,
searchInSiblings=False)
if symbols is None:
symbols = []
else:
assert isinstance(ast, ASTDeclaration)
decl = ast
name = decl.name
s = parentSymbol.find_declaration(decl, 'any',
templateShorthand=True,
matchSelf=True, recurseInAnon=True)
if s is not None:
symbols.append(s)
symbols = [s for s in symbols if s.declaration is not None]
if len(symbols) == 0:
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'." % ast,
location=node)
node.replace_self(signode)
else:
nodes = []
options = dict()
options['tparam-line-spec'] = False
for s in symbols:
signode = addnodes.desc_signature(sig, '')
nodes.append(signode)
s.declaration.describe_signature(signode, 'markName', self.env, options)
node.replace_self(nodes)
class CPPAliasObject(ObjectDescription):
option_spec = {} # type: Dict
def run(self) -> List[Node]:
"""
On purpose this doesn't call the ObjectDescription version, but is based on it.
Each alias signature may expand into multiple real signatures (an overload set).
The code is therefore based on the ObjectDescription version.
"""
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
self.names = [] # type: List[str]
signatures = self.get_signatures()
for i, sig in enumerate(signatures):
node.append(AliasNode(sig, env=self.env))
contentnode = addnodes.desc_content()
node.append(contentnode)
self.before_content()
self.state.nested_parse(self.content, self.content_offset, contentnode)
self.env.temp_data['object'] = None
self.after_content()
return [node]
class CPPXRefRole(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 refnode['reftype'] == 'any':
# Assume the removal part of fix_parens for :any: refs.
# The addition part is done with the reference is resolved.
if not has_explicit_title and title.endswith('()'):
title = title[:-2]
if target.endswith('()'):
target = target[:-2]
# TODO: should this really be here?
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[:1] == '~':
title = title[1:]
dcolon = title.rfind('::')
if dcolon != -1:
title = title[dcolon + 2:]
return title, target
class CPPExprRole(SphinxRole):
def __init__(self, asCode: bool) -> None:
super().__init__()
if asCode:
# render the expression as inline code
self.class_type = 'cpp-expr'
self.node_type = nodes.literal # type: Type[TextElement]
else:
# render the expression as inline text
self.class_type = 'cpp-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.config)
# attempt to mimic XRefRole classes, except that...
classes = ['xref', 'cpp', 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['cpp']['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 CPPDomain(Domain):
"""C++ language domain.
There are two 'object type' attributes being used::
- Each object created from directives gets an assigned .objtype from ObjectDescription.run.
This is simply the directive name.
- Each declaration (see the distinction in the directives dict below) has a nested .ast of
type ASTDeclaration. That object has .objectType which corresponds to the keys in the
object_types dict below. They are the core different types of declarations in C++ that
one can document.
"""
name = 'cpp'
label = 'C++'
object_types = {
'class': ObjType(_('class'), 'class', 'type', 'identifier'),
'union': ObjType(_('union'), 'union', 'type', 'identifier'),
'function': ObjType(_('function'), 'function', 'func', 'type', 'identifier'),
'member': ObjType(_('member'), 'member', 'var'),
'type': ObjType(_('type'), 'type', 'identifier'),
'concept': ObjType(_('concept'), 'concept', 'identifier'),
'enum': ObjType(_('enum'), 'enum', 'type', 'identifier'),
'enumerator': ObjType(_('enumerator'), 'enumerator')
}
directives = {
# declarations
'class': CPPClassObject,
'struct': CPPClassObject,
'union': CPPUnionObject,
'function': CPPFunctionObject,
'member': CPPMemberObject,
'var': CPPMemberObject,
'type': CPPTypeObject,
'concept': CPPConceptObject,
'enum': CPPEnumObject,
'enum-struct': CPPEnumObject,
'enum-class': CPPEnumObject,
'enumerator': CPPEnumeratorObject,
# scope control
'namespace': CPPNamespaceObject,
'namespace-push': CPPNamespacePushObject,
'namespace-pop': CPPNamespacePopObject,
# other
'alias': CPPAliasObject
}
roles = {
'any': CPPXRefRole(),
'class': CPPXRefRole(),
'struct': CPPXRefRole(),
'union': CPPXRefRole(),
'func': CPPXRefRole(fix_parens=True),
'member': CPPXRefRole(),
'var': CPPXRefRole(),
'type': CPPXRefRole(),
'concept': CPPXRefRole(),
'enum': CPPXRefRole(),
'enumerator': CPPXRefRole(),
'expr': CPPExprRole(asCode=True),
'texpr': CPPExprRole(asCode=False)
}
initial_data = {
'root_symbol': Symbol(None, None, None, None, None, None, None),
'names': {} # full name for indexing -> docname
}
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)
for name, nDocname in list(self.data['names'].items()):
if nDocname == docname:
del self.data['names'][name]
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")
self.data['root_symbol'].merge_with(otherdata['root_symbol'],
docnames, self.env)
ourNames = self.data['names']
for name, docname in otherdata['names'].items():
if docname in docnames:
if name not in ourNames:
ourNames[name] = docname
# no need to warn on duplicates, the symbol merge already does that
if Symbol.debug_show_tree:
print("\tresult:")
print(self.data['root_symbol'].dump(1))
print("\tresult end")
print("merge_domaindata end")
def _resolve_xref_inner(self, env: BuildEnvironment, fromdocname: str, builder: Builder,
typ: str, target: str, node: pending_xref,
contnode: Element) -> Tuple[Element, str]:
# add parens again for those that could be functions
if typ == 'any' or typ == 'func':
target += '()'
parser = DefinitionParser(target, location=node, config=env.config)
try:
ast, isShorthand = parser.parse_xref_object()
except DefinitionError as e:
# as arg to stop flake8 from complaining
def findWarning(e: Exception) -> Tuple[str, Exception]:
if typ != 'any' and typ != 'func':
return target, e
# hax on top of the paren hax to try to get correct errors
parser2 = DefinitionParser(target[:-2],
location=node,
config=env.config)
try:
parser2.parse_xref_object()
except DefinitionError as e2:
return target[:-2], e2
# strange, that we don't get the error now, use the original
return target, e
t, ex = findWarning(e)
logger.warning('Unparseable C++ cross-reference: %r\n%s', t, ex,
location=node)
return None, None
parentKey = node.get("cpp: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.data)
print(rootSymbol.dump(1))
assert parentSymbol # should be there
else:
parentSymbol = rootSymbol
if isShorthand:
assert isinstance(ast, ASTNamespace)
ns = ast
name = ns.nestedName
if ns.templatePrefix:
templateDecls = ns.templatePrefix.templates
else:
templateDecls = []
# let's be conservative with the sibling lookup for now
searchInSiblings = (not name.rooted) and len(name.names) == 1
symbols, failReason = parentSymbol.find_name(
name, templateDecls, typ,
templateShorthand=True,
matchSelf=True, recurseInAnon=True,
searchInSiblings=searchInSiblings)
if symbols is None:
if typ == 'identifier':
if failReason == 'templateParamInQualified':
# this is an xref we created as part of a signature,
# so don't warn for names nested in template parameters
raise NoUri(str(name), typ)
s = None
else:
# just refer to the arbitrarily first symbol
s = symbols[0]
else:
assert isinstance(ast, ASTDeclaration)
decl = ast
name = decl.name
s = parentSymbol.find_declaration(decl, typ,
templateShorthand=True,
matchSelf=True, recurseInAnon=True)
if s is None or s.declaration is None:
txtName = str(name)
if txtName.startswith('std::') or txtName == 'std':
raise NoUri(txtName, typ)
return None, None
if typ.startswith('cpp:'):
typ = typ[4:]
origTyp = typ
if typ == 'func':
typ = 'function'
if typ == 'struct':
typ = 'class'
declTyp = s.declaration.objectType
def checkType() -> bool:
if typ == 'any' or typ == 'identifier':
return True
if declTyp == 'templateParam':
# TODO: perhaps this should be strengthened one day
return True
if declTyp == 'functionParam':
if typ == 'var' or typ == 'member':
return True
objtypes = self.objtypes_for_role(typ)
if objtypes:
return declTyp in objtypes
print("Type is %s (originally: %s), declType is %s" % (typ, origTyp, declTyp))
assert False
if not checkType():
logger.warning("cpp:%s targets a %s (%s).",
origTyp, s.declaration.objectType,
s.get_full_nested_name(),
location=node)
declaration = s.declaration
if isShorthand:
fullNestedName = s.get_full_nested_name()
displayName = fullNestedName.get_display_string().lstrip(':')
else:
displayName = decl.get_display_string()
docname = s.docname
assert docname
# the non-identifier refs are cross-references, which should be processed:
# - fix parenthesis due to operator() and add_function_parentheses
if typ != "identifier":
title = contnode.pop(0).astext()
# If it's operator(), we need to add '()' if explicit function parens
# are requested. Then the Sphinx machinery will add another pair.
# Also, if it's an 'any' ref that resolves to a function, we need to add
# parens as well.
# However, if it's a non-shorthand function ref, for a function that
# takes no arguments, then we may need to add parens again as well.
addParen = 0
if not node.get('refexplicit', False) and declaration.objectType == 'function':
if isShorthand:
# this is just the normal haxing for 'any' roles
if env.config.add_function_parentheses and typ == 'any':
addParen += 1
# and now this stuff for operator()
if (env.config.add_function_parentheses and typ == 'function' and
title.endswith('operator()')):
addParen += 1
if ((typ == 'any' or typ == 'function') and
title.endswith('operator') and
displayName.endswith('operator()')):
addParen += 1
else:
# our job here is to essentially nullify add_function_parentheses
if env.config.add_function_parentheses:
if typ == 'any' and displayName.endswith('()'):
addParen += 1
elif typ == 'function':
if title.endswith('()') and not displayName.endswith('()'):
title = title[:-2]
else:
if displayName.endswith('()'):
addParen += 1
if addParen > 0:
title += '()' * addParen
# and reconstruct the title again
contnode += nodes.Text(title)
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:
if objtype == 'templateParam':
return [('cpp:templateParam', retnode)]
else:
return [('cpp:' + 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 get_full_qualified_name(self, node: Element) -> str:
target = node.get('reftarget', None)
if target is None:
return None
parentKey = node.get("cpp:parent_key", None) # type: LookupKey
if parentKey is None or len(parentKey.data) <= 0:
return None
rootSymbol = self.data['root_symbol']
parentSymbol = rootSymbol.direct_lookup(parentKey)
parentName = parentSymbol.get_full_nested_name()
return '::'.join([str(parentName), target])
def setup(app: Sphinx) -> Dict[str, Any]:
app.add_domain(CPPDomain)
app.add_config_value("cpp_index_common_prefix", [], 'env')
app.add_config_value("cpp_id_attributes", [], 'env')
app.add_config_value("cpp_paren_attributes", [], 'env')
app.add_post_transform(AliasTransform)
# debug stuff
app.add_config_value("cpp_debug_lookup", False, '')
app.add_config_value("cpp_debug_show_tree", False, '')
def setDebugFlags(app):
Symbol.debug_lookup = app.config.cpp_debug_lookup
Symbol.debug_show_tree = app.config.cpp_debug_show_tree
app.connect("builder-inited", setDebugFlags)
return {
'version': 'builtin',
'env_version': 3,
'parallel_read_safe': True,
'parallel_write_safe': True,
}
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