| import re |
| |
| |
| class RustType(object): |
| OTHER = "Other" |
| STRUCT = "Struct" |
| TUPLE = "Tuple" |
| CSTYLE_VARIANT = "CStyleVariant" |
| TUPLE_VARIANT = "TupleVariant" |
| STRUCT_VARIANT = "StructVariant" |
| ENUM = "Enum" |
| EMPTY = "Empty" |
| SINGLETON_ENUM = "SingletonEnum" |
| REGULAR_ENUM = "RegularEnum" |
| COMPRESSED_ENUM = "CompressedEnum" |
| REGULAR_UNION = "RegularUnion" |
| |
| STD_STRING = "StdString" |
| STD_OS_STRING = "StdOsString" |
| STD_STR = "StdStr" |
| STD_SLICE = "StdSlice" |
| STD_VEC = "StdVec" |
| STD_VEC_DEQUE = "StdVecDeque" |
| STD_BTREE_SET = "StdBTreeSet" |
| STD_BTREE_MAP = "StdBTreeMap" |
| STD_HASH_MAP = "StdHashMap" |
| STD_HASH_SET = "StdHashSet" |
| STD_RC = "StdRc" |
| STD_ARC = "StdArc" |
| STD_CELL = "StdCell" |
| STD_REF = "StdRef" |
| STD_REF_MUT = "StdRefMut" |
| STD_REF_CELL = "StdRefCell" |
| |
| |
| STD_STRING_REGEX = re.compile(r"^(alloc::(\w+::)+)String$") |
| STD_STR_REGEX = re.compile(r"^&str$") |
| STD_SLICE_REGEX = re.compile(r"^&\[.+\]$") |
| STD_OS_STRING_REGEX = re.compile(r"^(std::ffi::(\w+::)+)OsString$") |
| STD_VEC_REGEX = re.compile(r"^(alloc::(\w+::)+)Vec<.+>$") |
| STD_VEC_DEQUE_REGEX = re.compile(r"^(alloc::(\w+::)+)VecDeque<.+>$") |
| STD_BTREE_SET_REGEX = re.compile(r"^(alloc::(\w+::)+)BTreeSet<.+>$") |
| STD_BTREE_MAP_REGEX = re.compile(r"^(alloc::(\w+::)+)BTreeMap<.+>$") |
| STD_HASH_MAP_REGEX = re.compile(r"^(std::collections::(\w+::)+)HashMap<.+>$") |
| STD_HASH_SET_REGEX = re.compile(r"^(std::collections::(\w+::)+)HashSet<.+>$") |
| STD_RC_REGEX = re.compile(r"^(alloc::(\w+::)+)Rc<.+>$") |
| STD_ARC_REGEX = re.compile(r"^(alloc::(\w+::)+)Arc<.+>$") |
| STD_CELL_REGEX = re.compile(r"^(core::(\w+::)+)Cell<.+>$") |
| STD_REF_REGEX = re.compile(r"^(core::(\w+::)+)Ref<.+>$") |
| STD_REF_MUT_REGEX = re.compile(r"^(core::(\w+::)+)RefMut<.+>$") |
| STD_REF_CELL_REGEX = re.compile(r"^(core::(\w+::)+)RefCell<.+>$") |
| |
| TUPLE_ITEM_REGEX = re.compile(r"__\d+$") |
| |
| ENCODED_ENUM_PREFIX = "RUST$ENCODED$ENUM$" |
| ENUM_DISR_FIELD_NAME = "<<variant>>" |
| |
| STD_TYPE_TO_REGEX = { |
| RustType.STD_STRING: STD_STRING_REGEX, |
| RustType.STD_OS_STRING: STD_OS_STRING_REGEX, |
| RustType.STD_STR: STD_STR_REGEX, |
| RustType.STD_SLICE: STD_SLICE_REGEX, |
| RustType.STD_VEC: STD_VEC_REGEX, |
| RustType.STD_VEC_DEQUE: STD_VEC_DEQUE_REGEX, |
| RustType.STD_HASH_MAP: STD_HASH_MAP_REGEX, |
| RustType.STD_HASH_SET: STD_HASH_SET_REGEX, |
| RustType.STD_BTREE_SET: STD_BTREE_SET_REGEX, |
| RustType.STD_BTREE_MAP: STD_BTREE_MAP_REGEX, |
| RustType.STD_RC: STD_RC_REGEX, |
| RustType.STD_ARC: STD_ARC_REGEX, |
| RustType.STD_REF: STD_REF_REGEX, |
| RustType.STD_REF_MUT: STD_REF_MUT_REGEX, |
| RustType.STD_REF_CELL: STD_REF_CELL_REGEX, |
| RustType.STD_CELL: STD_CELL_REGEX, |
| } |
| |
| def is_tuple_fields(fields): |
| # type: (list) -> bool |
| return all(TUPLE_ITEM_REGEX.match(str(field.name)) for field in fields) |
| |
| |
| def classify_struct(name, fields): |
| if len(fields) == 0: |
| return RustType.EMPTY |
| |
| for ty, regex in STD_TYPE_TO_REGEX.items(): |
| if regex.match(name): |
| return ty |
| |
| if fields[0].name == ENUM_DISR_FIELD_NAME: |
| return RustType.ENUM |
| |
| if is_tuple_fields(fields): |
| return RustType.TUPLE |
| |
| return RustType.STRUCT |
| |
| |
| def classify_union(fields): |
| if len(fields) == 0: |
| return RustType.EMPTY |
| |
| first_variant_name = fields[0].name |
| if first_variant_name is None: |
| if len(fields) == 1: |
| return RustType.SINGLETON_ENUM |
| else: |
| return RustType.REGULAR_ENUM |
| elif first_variant_name.startswith(ENCODED_ENUM_PREFIX): |
| assert len(fields) == 1 |
| return RustType.COMPRESSED_ENUM |
| else: |
| return RustType.REGULAR_UNION |
