def typenameof(ctype): utype = ctype.get_canonical() ukind = utype.kind qualifiers = [] if ctype.is_const_qualified(): qualifiers += ['const'] if ctype.is_volatile_qualified(): qualifiers += ['volatile'] if ctype.is_restrict_qualified(): qualifiers += ['restrict'] if len(qualifiers) > 0: qualifier = ' ' + ' '.join(qualifiers) else: qualifier = '' if ukind == TypeKind.COMPLEX: return '__complex_%s' % Type.typenameof(utype.element_type) + qualifier elif ukind == TypeKind.POINTER: return '%s*' % Type.typenameof(ctype.get_pointee()) + qualifier elif ukind == TypeKind.LVALUEREFERENCE: return '%s&' % Type.typenameof(ctype.get_pointee()) + qualifier elif ukind == TypeKind.RVALUEREFERENCE: return '%s&&' % Type.typenameof(ctype.get_pointee()) + qualifier elif ukind == TypeKind.CONSTANTARRAY: return Type.typenameof(utype.element_type) + '[%s]' % utype.element_count + qualifier elif ukind == TypeKind.VECTOR: return '__vector_%s' % Type.typenameof(utype.element_type) + '[%s]' % utype.element_count + qualifier else: return ctype.get_declaration().displayname + qualifier
def __init__(self, cursor): super(Type, self).__init__(cursor) if self.cursor.displayname in ['%sint%d_t' % (s, i) for i in [8,16,32,64] for s in ['','u']]: self.type = self.cursor.displayname.replace('_t', '') elif self.cursor.kind.is_attribute(): if len(self.cursor.displayname) > 0: self.type = '__attr_%s' % self.cursor.displayname else: self.type = '__attr_%s' % Sources.getchunk(self.extent).strip('_') else: self.type = Type.nameof(self.cursor.type) self.typename = Type.typenameof(self.cursor.type) self.name = self.cursor.displayname
def __init__(self, cursor): super(ReturnType, self).__init__(cursor) self.name = 'output' self.type = Type.nameof(self.cursor.type.get_result()) self.typename = Type.typenameof(self.cursor.type.get_result())
def nameof(ctype): utype = ctype.get_canonical() ukind = utype.kind bits = int(Type.bits.replace('bit', '')) qualifiers = [] if ctype.is_const_qualified(): qualifiers += ['const'] if ctype.is_volatile_qualified(): qualifiers += ['volatile'] if ctype.is_restrict_qualified(): qualifiers += ['restrict'] if len(qualifiers) > 0: qualifier = ' ' + ' '.join(qualifiers) else: qualifier = '' if ukind == TypeKind.INVALID: return '__invalid' + qualifier elif ukind == TypeKind.UNEXPOSED: return '__unexposed' + qualifier elif ukind == TypeKind.VOID: return 'void' + qualifier elif ukind == TypeKind.BOOL: return 'bool' + qualifier elif ukind == TypeKind.CHAR_U: return 'uchar' + qualifier elif ukind == TypeKind.UCHAR: return 'uint8' + qualifier elif ukind == TypeKind.CHAR16: return 'char16' + qualifier elif ukind == TypeKind.CHAR32: return 'char32' + qualifier elif ukind == TypeKind.USHORT: return 'uint16' + qualifier elif ukind == TypeKind.UINT: return 'uint32' + qualifier elif ukind == TypeKind.ULONG: return 'uint%d' % (bits) + qualifier elif ukind == TypeKind.ULONGLONG: return 'uint64' + qualifier elif ukind == TypeKind.UINT128: return 'uint128' + qualifier elif ukind == TypeKind.CHAR_S: return 'char' + qualifier elif ukind == TypeKind.SCHAR: return 'int8' + qualifier elif ukind == TypeKind.WCHAR: return 'wchar' + qualifier elif ukind == TypeKind.SHORT: return 'int16' + qualifier elif ukind == TypeKind.INT: return 'int32' + qualifier elif ukind == TypeKind.LONG: return 'int%d' % (bits) + qualifier elif ukind == TypeKind.LONGLONG: return 'int64' + qualifier elif ukind == TypeKind.INT128: return 'int128' + qualifier elif ukind == TypeKind.FLOAT: return 'float32' + qualifier elif ukind == TypeKind.DOUBLE: return 'float64' + qualifier elif ukind == TypeKind.LONGDOUBLE: return 'float%d' % (bits + 64) + qualifier elif ukind == TypeKind.NULLPTR: return 'nullptr' + qualifier elif ukind == TypeKind.OVERLOAD: return '__overload' + qualifier elif ukind == TypeKind.DEPENDENT: return '__dependent' + qualifier elif ukind == TypeKind.OBJCID: return '__objcid' + qualifier elif ukind == TypeKind.OBJCCLASS: return '__objcclass' + qualifier elif ukind == TypeKind.OBJCSEL: return '__objcsel' + qualifier elif ukind == TypeKind.COMPLEX: return '__complex_%s' % Type.nameof(utype.element_type) + qualifier elif ukind == TypeKind.POINTER: return '%s*' % Type.nameof(ctype.get_pointee()) + qualifier elif ukind == TypeKind.BLOCKPOINTER: return '__blockpointer' + qualifier elif ukind == TypeKind.LVALUEREFERENCE: return '%s&' % Type.typenameof(ctype.get_pointee()) + qualifier elif ukind == TypeKind.RVALUEREFERENCE: return '%s&&' % Type.typenameof(ctype.get_pointee()) + qualifier elif ukind == TypeKind.RECORD: return utype.get_declaration().displayname + qualifier elif ukind == TypeKind.ENUM: return utype.get_declaration().displayname + qualifier elif ukind == TypeKind.TYPEDEF: return '_typedef' + qualifier elif ukind == TypeKind.OBJCINTERFACE: return '<objc-object-interface>' + qualifier elif ukind == TypeKind.OBJCOBJECTPOINTER: return '<objc-object-pointer>' + qualifier elif ukind == TypeKind.FUNCTIONNOPROTO: return '<function-no-proto>' + qualifier elif ukind == TypeKind.FUNCTIONPROTO: return '<function-proto>' + qualifier elif ukind == TypeKind.CONSTANTARRAY: return Type.nameof(utype.element_type) + '[%s]' % utype.element_count + qualifier elif ukind == TypeKind.VECTOR: return '__vector_%s' % Type.nameof(utype.element_type) + '[%s]' % utype.element_count + qualifier else: return '__unknown' + qualifier