export const jax_export = {}; jax_export.serialization = jax_export.serialization || {}; jax_export.serialization.PyTreeDefKind = { leaf: 0, '0': 'leaf', none: 1, '1': 'none', tuple: 2, '2': 'tuple', list: 3, '3': 'list', dict: 4, '4': 'dict', custom: 5, '5': 'custom' }; jax_export.serialization.PyTreeDef = class PyTreeDef { static decode(reader, position) { const $ = new jax_export.serialization.PyTreeDef(); $.kind = reader.int8_(position, 4, 0); $.children = reader.tables(position, 6, jax_export.serialization.PyTreeDef); $.children_names = reader.strings_(position, 8); $.custom_name = reader.string_(position, 10, null); $.custom_auxdata = reader.array(position, 12, Int8Array); return $; } }; jax_export.serialization.AbstractValueKind = { shapedArray: 0, '0': 'shapedArray', abstractToken: 1, '1': 'abstractToken' }; jax_export.serialization.DType = { bool: 0, '0': 'bool', i8: 1, '1': 'i8', i16: 2, '2': 'i16', i32: 3, '3': 'i32', i64: 4, '4': 'i64', ui8: 5, '5': 'ui8', ui16: 6, '6': 'ui16', ui32: 7, '7': 'ui32', ui64: 8, '8': 'ui64', f0: 22, '22': 'f0', f16: 9, '9': 'f16', f32: 10, '10': 'f32', f64: 11, '11': 'f64', c64: 12, '12': 'c64', c128: 13, '13': 'c128', bf16: 14, '14': 'bf16', i4: 15, '15': 'i4', ui4: 16, '16': 'ui4', f8_e3m4: 24, '24': 'f8_e3m4', f8_e4m3: 23, '23': 'f8_e4m3', f8_e4m3b11fnuz: 17, '17': 'f8_e4m3b11fnuz', f8_e4m3fn: 18, '18': 'f8_e4m3fn', f8_e4m3fnuz: 19, '19': 'f8_e4m3fnuz', f8_e5m2: 20, '20': 'f8_e5m2', f8_e5m2fnuz: 21, '21': 'f8_e5m2fnuz', f8_e8m0fnu: 25, '25': 'f8_e8m0fnu', f4_e2m1fn: 26, '26': 'f4_e2m1fn', key_fry: 27, '27': 'key_fry', key_rbg: 28, '28': 'key_rbg', key_unsafe_rbg: 29, '29': 'key_unsafe_rbg' }; jax_export.serialization.MemorySpace = { Missing: 0, '0': 'Missing', Device: 1, '1': 'Device', Host: 2, '2': 'Host', Any: 3, '3': 'Any' }; jax_export.serialization.AxisType = { Missing: 0, '0': 'Missing', Auto: 1, '1': 'Auto', Explicit: 2, '2': 'Explicit', Manual: 3, '3': 'Manual' }; jax_export.serialization.AbstractDevice = class AbstractDevice { static decode(reader, position) { const $ = new jax_export.serialization.AbstractDevice(); $.device_kind = reader.string_(position, 4, null); $.num_cores = reader.uint32_(position, 6, null); $.platform = reader.string_(position, 8, null); return $; } }; jax_export.serialization.AbstractMesh = class AbstractMesh { static decode(reader, position) { const $ = new jax_export.serialization.AbstractMesh(); $.axis_sizes = reader.array(position, 4, Uint32Array); $.axis_names = reader.strings_(position, 6); $.axis_types = reader.array(position, 8, Int8Array); $.abstract_device = reader.table(position, 10, jax_export.serialization.AbstractDevice); return $; } }; jax_export.serialization.PartitionSpecOneAxis = class PartitionSpecOneAxis { static decode(reader, position) { const $ = new jax_export.serialization.PartitionSpecOneAxis(); $.axes = reader.strings_(position, 4); return $; } }; jax_export.serialization.PartitionSpec = class PartitionSpec { static decode(reader, position) { const $ = new jax_export.serialization.PartitionSpec(); $.partitions = reader.tables(position, 4, jax_export.serialization.PartitionSpecOneAxis); $.reduced = reader.strings_(position, 6); $.unreduced = reader.strings_(position, 8); return $; } }; jax_export.serialization.NamedSharding = class NamedSharding { static decode(reader, position) { const $ = new jax_export.serialization.NamedSharding(); $.mesh = reader.table(position, 4, jax_export.serialization.AbstractMesh); $.spec = reader.table(position, 6, jax_export.serialization.PartitionSpec); $.memory_kind = reader.string_(position, 8, null); $.abstract_mesh_idx = reader.uint32_(position, 10, 0); return $; } }; jax_export.serialization.AbstractValue = class AbstractValue { static decode(reader, position) { const $ = new jax_export.serialization.AbstractValue(); $.kind = reader.int8_(position, 4, 0); $.shape = reader.strings_(position, 6); $.dtype = reader.int8_(position, 8, 0); $.memory_space = reader.int8_(position, 10, 0); return $; } }; jax_export.serialization.ShardingKind = { unspecified: 0, '0': 'unspecified', hlo_sharding: 1, '1': 'hlo_sharding', named_sharding: 2, '2': 'named_sharding' }; jax_export.serialization.Sharding = class Sharding { static decode(reader, position) { const $ = new jax_export.serialization.Sharding(); $.kind = reader.int8_(position, 4, 0); $.hlo_sharding_proto = reader.array(position, 6, Int8Array); $.named_sharding = reader.table(position, 8, jax_export.serialization.NamedSharding); return $; } }; jax_export.serialization.Effect = class Effect { static decode(reader, position) { const $ = new jax_export.serialization.Effect(); $.type_name = reader.string_(position, 4, null); return $; } }; jax_export.serialization.DisabledSafetyCheckKind = { platform: 0, '0': 'platform', custom_call: 1, '1': 'custom_call', shape_assertions: 2, '2': 'shape_assertions' }; jax_export.serialization.DisabledSafetyCheck = class DisabledSafetyCheck { static decode(reader, position) { const $ = new jax_export.serialization.DisabledSafetyCheck(); $.kind = reader.int8_(position, 4, 0); $.custom_call_target = reader.string_(position, 6, null); return $; } }; jax_export.serialization.Exported = class Exported { static create(reader) { return jax_export.serialization.Exported.decode(reader, reader.root); } static decode(reader, position) { const $ = new jax_export.serialization.Exported(); $.serialization_version = reader.uint16_(position, 4, 0); $.function_name = reader.string_(position, 6, null); $.in_tree = reader.table(position, 8, jax_export.serialization.PyTreeDef); $.in_avals = reader.tables(position, 10, jax_export.serialization.AbstractValue); $.out_tree = reader.table(position, 12, jax_export.serialization.PyTreeDef); $.out_avals = reader.tables(position, 14, jax_export.serialization.AbstractValue); $.nr_devices_short = reader.int16_(position, 16, 0); $.in_shardings = reader.tables(position, 18, jax_export.serialization.Sharding); $.out_shardings = reader.tables(position, 20, jax_export.serialization.Sharding); $.platforms = reader.strings_(position, 22); $.ordered_effects = reader.tables(position, 24, jax_export.serialization.Effect); $.unordered_effects = reader.tables(position, 26, jax_export.serialization.Effect); $.disabled_checks = reader.tables(position, 28, jax_export.serialization.DisabledSafetyCheck); $.mlir_module_serialized = reader.array(position, 30, Int8Array); $.calling_convention_version = reader.uint16_(position, 32, 0); $.module_kept_var_idx = reader.array(position, 34, Uint16Array); $.uses_global_constants = reader.bool_(position, 36, false); $.vjp = reader.table(position, 38, jax_export.serialization.Exported); $.nr_devices = reader.uint32_(position, 40, 0); $.unique_avals = reader.tables(position, 42, jax_export.serialization.AbstractValue); $.unique_abstract_meshes = reader.tables(position, 44, jax_export.serialization.AbstractMesh); $.unique_named_shardings = reader.tables(position, 46, jax_export.serialization.NamedSharding); $.in_avals_idxs = reader.array(position, 48, Uint32Array); $.out_avals_idxs = reader.array(position, 50, Uint32Array); $.in_shardings_idxs = reader.array(position, 52, Uint32Array); $.out_shardings_idxs = reader.array(position, 54, Uint32Array); return $; } };