# NOTE: This is a placeholder for iterating on export serialization schema design. # Anything is subject to change and no guarantee is provided at this point. from dataclasses import dataclass, field from enum import IntEnum from typing import Annotated, Dict, List, Optional from torch._export.serde.union import _Union # NOTE: Please update this value if any modifications are made to the schema SCHEMA_VERSION = (8, 2) TREESPEC_VERSION = 1 class ScalarType(IntEnum): UNKNOWN = 0 BYTE = 1 CHAR = 2 SHORT = 3 INT = 4 LONG = 5 HALF = 6 FLOAT = 7 DOUBLE = 8 COMPLEXHALF = 9 COMPLEXFLOAT = 10 COMPLEXDOUBLE = 11 BOOL = 12 BFLOAT16 = 13 UINT16 = 28 class Layout(IntEnum): Unknown = 0 SparseCoo = 1 SparseCsr = 2 SparseCsc = 3 SparseBsr = 4 SparseBsc = 5 _mkldnn = 6 Strided = 7 class MemoryFormat(IntEnum): Unknown = 0 ContiguousFormat = 1 ChannelsLast = 2 ChannelsLast3d = 3 PreserveFormat = 4 @dataclass class Device: type: Annotated[str, 10] index: Annotated[Optional[int], 20] = None @dataclass(repr=False) class SymExprHint(_Union): as_int: Annotated[int, 10] as_bool: Annotated[bool, 20] as_float: Annotated[float, 30] # This is for storing the symbolic expressions behind symints/symfloats/symbools # For example, we can get something like # SymExpr(expr_str="s0 + s1", hint=SymExprHint(as_int=4) # if we also have the hint that s0 and s1 are both 2. @dataclass class SymExpr: expr_str: Annotated[str, 10] hint: Annotated[Optional[SymExprHint], 20] = None @dataclass(repr=False) class SymInt(_Union): as_expr: Annotated[SymExpr, 10] as_int: Annotated[int, 20] @dataclass(repr=False) class SymFloat(_Union): as_expr: Annotated[SymExpr, 10] as_float: Annotated[float, 20] @dataclass(repr=False) class SymBool(_Union): as_expr: Annotated[SymExpr, 10] as_bool: Annotated[bool, 20] @dataclass class TensorMeta: dtype: Annotated[ScalarType, 10] sizes: Annotated[List[SymInt], 20] requires_grad: Annotated[bool, 30] device: Annotated[Device, 40] strides: Annotated[List[SymInt], 50] storage_offset: Annotated[SymInt, 60] layout: Annotated[Layout, 70] # In most cases we will use the "as_name" field to store arguments which are # SymInts. # The "as_int" field is used in the case where we have a list containing a mix # of SymInt and ints (ex. [1, s0, ...]). We will serialize this type of list to # be List[SymIntArgument] and map the SymInts to the "as_name" field, and ints # to the "as_int" field. @dataclass(repr=False) class SymIntArgument(_Union): as_name: Annotated[str, 10] as_int: Annotated[int, 20] # In most cases we will use the "as_name" field to store arguments which are # SymFloats. # The "as_float" field is used in the case where we have a list containing a mix # of SymFloat and float (ex. [1.0, s0, ...]). We will serialize this type of list to # be List[SymFloatArgument] and map the SymFloats to the "as_name" field, and ints # to the "as_float" field. @dataclass(repr=False) class SymFloatArgument(_Union): as_name: Annotated[str, 10] as_float: Annotated[float, 20] # In most cases we will use the "as_name" field to store arguments which are # SymBools. # The "as_bool" field is used in the case where we have a list containing a mix # of SymBool and bools (ex. [True, i0, ...]). We will serialize this type of list to # be List[SymboolArgument] and map the SymBools to the "as_name" field, and bools # to the "as_bool" field. @dataclass(repr=False) class SymBoolArgument(_Union): as_name: Annotated[str, 10] as_bool: Annotated[bool, 20] @dataclass class TensorArgument: name: Annotated[str, 10] @dataclass class TokenArgument: name: Annotated[str, 10] # This is use for storing the contents of a list which contain optional tensors # (Tensor?[], ex. [Tensor, None, ...]), where the list will be serialized to the # type List[OptionalTensorArgument], with tensor values seiralized to the # "as_tensor" field, and None values serialized to the "as_none" field. @dataclass(repr=False) class OptionalTensorArgument(_Union): as_tensor: Annotated[TensorArgument, 20] as_none: Annotated[bool, 10] @dataclass class GraphArgument: name: Annotated[str, 10] graph: Annotated['Graph', 20] @dataclass class CustomObjArgument: name: Annotated[str, 10] class_fqn: Annotated[str, 20] # This is actually a union type @dataclass(repr=False) class Argument(_Union): as_none: Annotated[bool, 10] as_tensor: Annotated[TensorArgument, 20] as_tensors: Annotated[List[TensorArgument], 30] as_int: Annotated[int, 50] as_ints: Annotated[List[int], 70] as_float: Annotated[float, 80] as_floats: Annotated[List[float], 90] as_string: Annotated[str, 100] as_strings: Annotated[List[str], 101] as_sym_int: Annotated[SymIntArgument, 110] as_sym_ints: Annotated[List[SymIntArgument], 120] as_scalar_type: Annotated[ScalarType, 130] as_memory_format: Annotated[MemoryFormat, 140] as_layout: Annotated[Layout, 150] as_device: Annotated[Device, 160] as_bool: Annotated[bool, 170] as_bools: Annotated[List[bool], 180] as_sym_bool: Annotated[SymBoolArgument, 182] as_sym_bools: Annotated[List[SymBoolArgument], 184] as_graph: Annotated[GraphArgument, 200] as_optional_tensors: Annotated[List[OptionalTensorArgument], 190] as_custom_obj: Annotated[CustomObjArgument, 210] as_operator: Annotated[str, 220] as_sym_float: Annotated[SymFloatArgument, 230] as_sym_floats: Annotated[List[SymFloatArgument], 240] @dataclass class NamedArgument: # Argument name from the operator schema name: Annotated[str, 10] arg: Annotated[Argument, 20] @dataclass class Node: target: Annotated[str, 10] inputs: Annotated[List[NamedArgument], 20] outputs: Annotated[List[Argument], 30] metadata: Annotated[Dict[str, str], 40] @dataclass class Graph: inputs: Annotated[List[Argument], 10] outputs: Annotated[List[Argument], 20] nodes: Annotated[List[Node], 30] tensor_values: Annotated[Dict[str, TensorMeta], 40] sym_int_values: Annotated[Dict[str, SymInt], 50] sym_bool_values: Annotated[Dict[str, SymBool], 60] # This is for deserializing the submodule graphs from higher order ops # (ex. cond, map) where single tensor returns will just return a single # tensor, rather than following export schema and returning a singleton # list. is_single_tensor_return: Annotated[bool, 70] = False custom_obj_values: Annotated[Dict[str, CustomObjArgument], 80] = field(default_factory=dict) sym_float_values: Annotated[Dict[str, SymFloat], 90] = field(default_factory=dict) @dataclass class UserInputSpec: # Actually, only tensors and SymInts are allowed here arg: Annotated[Argument, 10] @dataclass(repr=False) class ConstantValue(_Union): as_none: Annotated[bool, 10] as_int: Annotated[int, 20] as_float: Annotated[float, 30] as_string: Annotated[str, 40] as_bool: Annotated[bool, 50] @dataclass class InputToConstantInputSpec: name: Annotated[str, 10] value: Annotated[ConstantValue, 20] @dataclass class InputToParameterSpec: arg: Annotated[TensorArgument, 10] parameter_name: Annotated[str, 20] @dataclass class InputToBufferSpec: arg: Annotated[TensorArgument, 10] buffer_name: Annotated[str, 20] persistent: Annotated[bool, 30] @dataclass class InputToTensorConstantSpec: arg: Annotated[TensorArgument, 10] tensor_constant_name: Annotated[str, 20] @dataclass class InputToCustomObjSpec: arg: Annotated[CustomObjArgument, 10] custom_obj_name: Annotated[str, 20] @dataclass class InputTokenSpec: arg: Annotated[TokenArgument, 10] @dataclass(repr=False) class InputSpec(_Union): user_input: Annotated[UserInputSpec, 10] parameter: Annotated[InputToParameterSpec, 20] buffer: Annotated[InputToBufferSpec, 30] tensor_constant: Annotated[InputToTensorConstantSpec, 40] custom_obj: Annotated[InputToCustomObjSpec, 50] token: Annotated[InputTokenSpec, 70] constant_input: Annotated[InputToConstantInputSpec, 60] @dataclass class UserOutputSpec: arg: Annotated[Argument, 10] @dataclass class LossOutputSpec: arg: Annotated[TensorArgument, 10] @dataclass class BufferMutationSpec: arg: Annotated[TensorArgument, 10] buffer_name: Annotated[str, 20] @dataclass class GradientToParameterSpec: arg: Annotated[TensorArgument, 10] parameter_name: Annotated[str, 20] @dataclass class GradientToUserInputSpec: arg: Annotated[TensorArgument, 10] user_input_name: Annotated[str, 20] @dataclass class UserInputMutationSpec: arg: Annotated[TensorArgument, 10] user_input_name: Annotated[str, 20] @dataclass class OutputTokenSpec: arg: Annotated[TokenArgument, 10] @dataclass(repr=False) class OutputSpec(_Union): user_output: Annotated[UserOutputSpec, 10] loss_output: Annotated[LossOutputSpec, 20] buffer_mutation: Annotated[BufferMutationSpec, 30] gradient_to_parameter: Annotated[GradientToParameterSpec, 40] gradient_to_user_input: Annotated[GradientToUserInputSpec, 50] user_input_mutation: Annotated[UserInputMutationSpec, 60] token: Annotated[OutputTokenSpec, 70] @dataclass class GraphSignature: input_specs: Annotated[List[InputSpec], 10] output_specs: Annotated[List[OutputSpec], 20] @dataclass class RangeConstraint: min_val: Annotated[Optional[int], 10] max_val: Annotated[Optional[int], 20] @dataclass class ModuleCallSignature: inputs: Annotated[List[Argument], 10] outputs: Annotated[List[Argument], 20] # These are serialized by calling pytree.treespec_loads # And deserialized by calling pytree.treespec_dumps in_spec: Annotated[str, 30] out_spec: Annotated[str, 40] # This field is used to prettify the graph placeholders # after we ser/der and retrace forward_arg_names: Annotated[Optional[List[str]], 50] = None @dataclass class ModuleCallEntry: fqn: Annotated[str, 10] signature: Annotated[Optional[ModuleCallSignature], 30] = None @dataclass class GraphModule: graph: Annotated[Graph, 10] signature: Annotated[GraphSignature, 50] # This is used for unflattening, by tracking the calling structure of all of # the modules in order to unflatten the modules back to the eager calling # conventions. module_call_graph: Annotated[List[ModuleCallEntry], 60] metadata: Annotated[Dict[str, str], 40] = field(default_factory=dict) # Invariant: Every time a change is made to the schema, one of the versions # should be upadted. @dataclass class SchemaVersion: major: Annotated[int, 10] # Major version number is bumped every time a breaking change is made. minor: Annotated[int, 20] # Minor version number is bumped when a compatible change is made. @dataclass class ExportedProgram: graph_module: Annotated[GraphModule, 10] # Key is the opset namespace (ex. aten), and value is the version number opset_version: Annotated[Dict[str, int], 20] range_constraints: Annotated[Dict[str, RangeConstraint], 30] schema_version: Annotated[SchemaVersion, 60] verifiers: Annotated[List[str], 70] = field(default_factory=list) torch_version: Annotated[str, 80] = "<=2.4"