[python] Add support for CXType to python bindings.

Patch by Anders Waldenborg!

git-svn-id: https://llvm.org/svn/llvm-project/cfe/trunk@137797 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Argyrios Kyrtzidis 2011-08-17 00:43:03 +00:00
Родитель 4b43b30534
Коммит d7933e6f29
2 изменённых файлов: 210 добавлений и 2 удалений

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@ -634,6 +634,14 @@ class Cursor(Structure):
"""
return Cursor_extent(self)
@property
def type(self):
"""
Retrieve the type (if any) of of the entity pointed at by the
cursor.
"""
return Cursor_type(self)
def get_children(self):
"""Return an iterator for accessing the children of this cursor."""
@ -656,6 +664,165 @@ class Cursor(Structure):
return None
return res
### Type Kinds ###
class TypeKind(object):
"""
Describes the kind of type.
"""
# The unique kind objects, indexed by id.
_kinds = []
_name_map = None
def __init__(self, value):
if value >= len(TypeKind._kinds):
TypeKind._kinds += [None] * (value - len(TypeKind._kinds) + 1)
if TypeKind._kinds[value] is not None:
raise ValueError,'TypeKind already loaded'
self.value = value
TypeKind._kinds[value] = self
TypeKind._name_map = None
def from_param(self):
return self.value
@property
def name(self):
"""Get the enumeration name of this cursor kind."""
if self._name_map is None:
self._name_map = {}
for key,value in TypeKind.__dict__.items():
if isinstance(value,TypeKind):
self._name_map[value] = key
return self._name_map[self]
@staticmethod
def from_id(id):
if id >= len(TypeKind._kinds) or TypeKind._kinds[id] is None:
raise ValueError,'Unknown cursor kind'
return TypeKind._kinds[id]
def __repr__(self):
return 'TypeKind.%s' % (self.name,)
TypeKind.INVALID = TypeKind(0)
TypeKind.UNEXPOSED = TypeKind(1)
TypeKind.VOID = TypeKind(2)
TypeKind.BOOL = TypeKind(3)
TypeKind.CHAR_U = TypeKind(4)
TypeKind.UCHAR = TypeKind(5)
TypeKind.CHAR16 = TypeKind(6)
TypeKind.CHAR32 = TypeKind(7)
TypeKind.USHORT = TypeKind(8)
TypeKind.UINT = TypeKind(9)
TypeKind.ULONG = TypeKind(10)
TypeKind.ULONGLONG = TypeKind(11)
TypeKind.UINT128 = TypeKind(12)
TypeKind.CHAR_S = TypeKind(13)
TypeKind.SCHAR = TypeKind(14)
TypeKind.WCHAR = TypeKind(15)
TypeKind.SHORT = TypeKind(16)
TypeKind.INT = TypeKind(17)
TypeKind.LONG = TypeKind(18)
TypeKind.LONGLONG = TypeKind(19)
TypeKind.INT128 = TypeKind(20)
TypeKind.FLOAT = TypeKind(21)
TypeKind.DOUBLE = TypeKind(22)
TypeKind.LONGDOUBLE = TypeKind(23)
TypeKind.NULLPTR = TypeKind(24)
TypeKind.OVERLOAD = TypeKind(25)
TypeKind.DEPENDENT = TypeKind(26)
TypeKind.OBJCID = TypeKind(27)
TypeKind.OBJCCLASS = TypeKind(28)
TypeKind.OBJCSEL = TypeKind(29)
TypeKind.COMPLEX = TypeKind(100)
TypeKind.POINTER = TypeKind(101)
TypeKind.BLOCKPOINTER = TypeKind(102)
TypeKind.LVALUEREFERENCE = TypeKind(103)
TypeKind.RVALUEREFERENCE = TypeKind(104)
TypeKind.RECORD = TypeKind(105)
TypeKind.ENUM = TypeKind(106)
TypeKind.TYPEDEF = TypeKind(107)
TypeKind.OBJCINTERFACE = TypeKind(108)
TypeKind.OBJCOBJECTPOINTER = TypeKind(109)
TypeKind.FUNCTIONNOPROTO = TypeKind(110)
TypeKind.FUNCTIONPROTO = TypeKind(111)
class Type(Structure):
"""
The type of an element in the abstract syntax tree.
"""
_fields_ = [("_kind_id", c_int), ("data", c_void_p * 2)]
@property
def kind(self):
"""Return the kind of this type."""
return TypeKind.from_id(self._kind_id)
@staticmethod
def from_result(res, fn, args):
assert isinstance(res, Type)
return res
def get_canonical(self):
"""
Return the canonical type for a Type.
Clang's type system explicitly models typedefs and all the
ways a specific type can be represented. The canonical type
is the underlying type with all the "sugar" removed. For
example, if 'T' is a typedef for 'int', the canonical type for
'T' would be 'int'.
"""
return Type_get_canonical(self)
def is_const_qualified(self):
"""
Determine whether a Type has the "const" qualifier set,
without looking through typedefs that may have added "const"
at a different level.
"""
return Type_is_const_qualified(self)
def is_volatile_qualified(self):
"""
Determine whether a Type has the "volatile" qualifier set,
without looking through typedefs that may have added
"volatile" at a different level.
"""
return Type_is_volatile_qualified(self)
def is_restrict_qualified(self):
"""
Determine whether a Type has the "restrict" qualifier set,
without looking through typedefs that may have added
"restrict" at a different level.
"""
return Type_is_restrict_qualified(self)
def get_pointee(self):
"""
For pointer types, returns the type of the pointee.
"""
return Type_get_pointee(self)
def get_declaration(self):
"""
Return the cursor for the declaration of the given type.
"""
return Type_get_declaration(self)
def get_result(self):
"""
Retrieve the result type associated with a function type.
"""
return Type_get_result(self)
## CIndex Objects ##
# CIndex objects (derived from ClangObject) are essentially lightweight
@ -1210,11 +1377,50 @@ Cursor_ref.argtypes = [Cursor]
Cursor_ref.restype = Cursor
Cursor_ref.errcheck = Cursor.from_result
Cursor_type = lib.clang_getCursorType
Cursor_type.argtypes = [Cursor]
Cursor_type.restype = Type
Cursor_type.errcheck = Type.from_result
Cursor_visit_callback = CFUNCTYPE(c_int, Cursor, Cursor, py_object)
Cursor_visit = lib.clang_visitChildren
Cursor_visit.argtypes = [Cursor, Cursor_visit_callback, py_object]
Cursor_visit.restype = c_uint
# Type Functions
Type_get_canonical = lib.clang_getCanonicalType
Type_get_canonical.argtypes = [Type]
Type_get_canonical.restype = Type
Type_get_canonical.errcheck = Type.from_result
Type_is_const_qualified = lib.clang_isConstQualifiedType
Type_is_const_qualified.argtypes = [Type]
Type_is_const_qualified.restype = bool
Type_is_volatile_qualified = lib.clang_isVolatileQualifiedType
Type_is_volatile_qualified.argtypes = [Type]
Type_is_volatile_qualified.restype = bool
Type_is_restrict_qualified = lib.clang_isRestrictQualifiedType
Type_is_restrict_qualified.argtypes = [Type]
Type_is_restrict_qualified.restype = bool
Type_get_pointee = lib.clang_getPointeeType
Type_get_pointee.argtypes = [Type]
Type_get_pointee.restype = Type
Type_get_pointee.errcheck = Type.from_result
Type_get_declaration = lib.clang_getTypeDeclaration
Type_get_declaration.argtypes = [Type]
Type_get_declaration.restype = Cursor
Type_get_declaration.errcheck = Cursor.from_result
Type_get_result = lib.clang_getResultType
Type_get_result.argtypes = [Type]
Type_get_result.restype = Type
Type_get_result.errcheck = Type.from_result
# Index Functions
Index_create = lib.clang_createIndex
Index_create.argtypes = [c_int, c_int]
@ -1313,6 +1519,6 @@ _clang_getCompletionPriority.restype = c_int
###
__all__ = ['Index', 'TranslationUnit', 'Cursor', 'CursorKind',
__all__ = ['Index', 'TranslationUnit', 'Cursor', 'CursorKind', 'Type', 'TypeKind',
'Diagnostic', 'FixIt', 'CodeCompletionResults', 'SourceRange',
'SourceLocation', 'File']

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@ -1,4 +1,4 @@
from clang.cindex import Index, CursorKind
from clang.cindex import Index, CursorKind, TypeKind
kInput = """\
// FIXME: Find nicer way to drop builtins and other cruft.
@ -47,8 +47,10 @@ def test_get_children():
assert len(s0_nodes) == 2
assert s0_nodes[0].kind == CursorKind.FIELD_DECL
assert s0_nodes[0].spelling == 'a'
assert s0_nodes[0].type.kind == TypeKind.INT
assert s0_nodes[1].kind == CursorKind.FIELD_DECL
assert s0_nodes[1].spelling == 'b'
assert s0_nodes[1].type.kind == TypeKind.INT
assert tu_nodes[1].kind == CursorKind.STRUCT_DECL
assert tu_nodes[1].spelling == 's1'