export const onnxruntime = {}; onnxruntime.fbs = onnxruntime.fbs || {}; onnxruntime.fbs.AttributeType = { UNDEFINED: 0, FLOAT: 1, INT: 2, STRING: 3, TENSOR: 4, GRAPH: 5, FLOATS: 6, INTS: 7, STRINGS: 8, TENSORS: 9, GRAPHS: 10, SPARSE_TENSOR: 11, SPARSE_TENSORS: 12 }; onnxruntime.fbs.Shape = class Shape { static decode(reader, position) { const $ = new onnxruntime.fbs.Shape(); $.dim = reader.tables(position, 4, onnxruntime.fbs.Dimension); return $; } }; onnxruntime.fbs.Dimension = class Dimension { static decode(reader, position) { const $ = new onnxruntime.fbs.Dimension(); $.value = reader.table(position, 4, onnxruntime.fbs.DimensionValue); $.denotation = reader.string_(position, 6, null); return $; } }; onnxruntime.fbs.DimensionValueType = { UNKNOWN: 0, VALUE: 1, PARAM: 2 }; onnxruntime.fbs.DimensionValue = class DimensionValue { static decode(reader, position) { const $ = new onnxruntime.fbs.DimensionValue(); $.dim_type = reader.int8_(position, 4, 0); $.dim_value = reader.int64_(position, 6, 0n); $.dim_param = reader.string_(position, 8, null); return $; } }; onnxruntime.fbs.TensorDataType = { UNDEFINED: 0, FLOAT: 1, UINT8: 2, INT8: 3, UINT16: 4, INT16: 5, INT32: 6, INT64: 7, STRING: 8, BOOL: 9, FLOAT16: 10, DOUBLE: 11, UINT32: 12, UINT64: 13, COMPLEX64: 14, COMPLEX128: 15, BFLOAT16: 16, FLOAT8E4M3FN: 17, FLOAT8E4M3FNUZ: 18, FLOAT8E5M2: 19, FLOAT8E5M2FNUZ: 20 }; onnxruntime.fbs.TensorTypeAndShape = class TensorTypeAndShape { static decode(reader, position) { const $ = new onnxruntime.fbs.TensorTypeAndShape(); $.elem_type = reader.int32_(position, 4, 0); $.shape = reader.table(position, 6, onnxruntime.fbs.Shape); return $; } }; onnxruntime.fbs.MapType = class MapType { static decode(reader, position) { const $ = new onnxruntime.fbs.MapType(); $.key_type = reader.int32_(position, 4, 0); $.value_type = reader.table(position, 6, onnxruntime.fbs.TypeInfo); return $; } }; onnxruntime.fbs.SequenceType = class SequenceType { static decode(reader, position) { const $ = new onnxruntime.fbs.SequenceType(); $.elem_type = reader.table(position, 4, onnxruntime.fbs.TypeInfo); return $; } }; onnxruntime.fbs.NodeType = { Primitive: 0, Fused: 1 }; onnxruntime.fbs.EdgeEnd = class EdgeEnd { static decode(reader, position) { const $ = new onnxruntime.fbs.EdgeEnd(); $.node_index = reader.uint32(position + 0); $.src_arg_index = reader.int32(position + 4); $.dst_arg_index = reader.int32(position + 8); return $; } }; onnxruntime.fbs.NodeEdge = class NodeEdge { static decode(reader, position) { const $ = new onnxruntime.fbs.NodeEdge(); $.node_index = reader.uint32_(position, 4, 0); $.input_edges = reader.structs(position, 6, onnxruntime.fbs.EdgeEnd); $.output_edges = reader.structs(position, 8, onnxruntime.fbs.EdgeEnd); return $; } }; onnxruntime.fbs.Node = class Node { static decode(reader, position) { const $ = new onnxruntime.fbs.Node(); $.name = reader.string_(position, 4, null); $.doc_string = reader.string_(position, 6, null); $.domain = reader.string_(position, 8, null); $.since_version = reader.int32_(position, 10, 0); $.index = reader.uint32_(position, 12, 0); $.op_type = reader.string_(position, 14, null); $.type = reader.int32_(position, 16, 0); $.execution_provider_type = reader.string_(position, 18, null); $.inputs = reader.strings_(position, 20); $.outputs = reader.strings_(position, 22); $.attributes = reader.tables(position, 24, onnxruntime.fbs.Attribute); $.input_arg_counts = reader.array(position, 26, Int32Array); $.implicit_inputs = reader.strings_(position, 28); return $; } }; onnxruntime.fbs.ValueInfo = class ValueInfo { static decode(reader, position) { const $ = new onnxruntime.fbs.ValueInfo(); $.name = reader.string_(position, 4, null); $.doc_string = reader.string_(position, 6, null); $.type = reader.table(position, 8, onnxruntime.fbs.TypeInfo); return $; } }; onnxruntime.fbs.TypeInfoValue = class { static decode(reader, position, type) { switch (type) { case 1: return onnxruntime.fbs.TensorTypeAndShape.decode(reader, position); case 2: return onnxruntime.fbs.SequenceType.decode(reader, position); case 3: return onnxruntime.fbs.MapType.decode(reader, position); default: return undefined; } } }; onnxruntime.fbs.TypeInfo = class TypeInfo { static decode(reader, position) { const $ = new onnxruntime.fbs.TypeInfo(); $.denotation = reader.string_(position, 4, null); $.value = reader.union(position, 6, onnxruntime.fbs.TypeInfoValue); return $; } }; onnxruntime.fbs.OperatorSetId = class OperatorSetId { static decode(reader, position) { const $ = new onnxruntime.fbs.OperatorSetId(); $.domain = reader.string_(position, 4, null); $.version = reader.int64_(position, 6, 0n); return $; } }; onnxruntime.fbs.Tensor = class Tensor { static decode(reader, position) { const $ = new onnxruntime.fbs.Tensor(); $.name = reader.string_(position, 4, null); $.doc_string = reader.string_(position, 6, null); $.dims = reader.int64s_(position, 8); $.data_type = reader.int32_(position, 10, 0); $.raw_data = reader.array(position, 12, Uint8Array); $.string_data = reader.strings_(position, 14); $.external_data_offset = reader.int64_(position, 16, -1n); return $; } }; onnxruntime.fbs.SparseTensor = class SparseTensor { static decode(reader, position) { const $ = new onnxruntime.fbs.SparseTensor(); $.values = reader.table(position, 4, onnxruntime.fbs.Tensor); $.indices = reader.table(position, 6, onnxruntime.fbs.Tensor); $.dims = reader.int64s_(position, 8); return $; } }; onnxruntime.fbs.Attribute = class Attribute { static decode(reader, position) { const $ = new onnxruntime.fbs.Attribute(); $.name = reader.string_(position, 4, null); $.doc_string = reader.string_(position, 6, null); $.type = reader.int32_(position, 8, 0); $.f = reader.float32_(position, 10, 0); $.i = reader.int64_(position, 12, 0n); $.s = reader.string_(position, 14, null); $.t = reader.table(position, 16, onnxruntime.fbs.Tensor); $.g = reader.table(position, 18, onnxruntime.fbs.Graph); $.floats = reader.array(position, 20, Float32Array); $.ints = reader.int64s_(position, 22); $.strings = reader.strings_(position, 24); $.tensors = reader.tables(position, 26, onnxruntime.fbs.Tensor); $.graphs = reader.tables(position, 28, onnxruntime.fbs.Graph); return $; } }; onnxruntime.fbs.NodesToOptimizeIndices = class NodesToOptimizeIndices { static decode(reader, position) { const $ = new onnxruntime.fbs.NodesToOptimizeIndices(); $.node_indices = reader.array(position, 4, Uint32Array); $.num_inputs = reader.uint32_(position, 6, 0); $.num_outputs = reader.uint32_(position, 8, 0); $.has_variadic_input = reader.bool_(position, 10, false); $.has_variadic_output = reader.bool_(position, 12, false); $.num_variadic_inputs = reader.uint32_(position, 14, 0); $.num_variadic_outputs = reader.uint32_(position, 16, 0); return $; } }; onnxruntime.fbs.DeprecatedNodeIndexAndKernelDefHash = class DeprecatedNodeIndexAndKernelDefHash { static decode(reader, position) { const $ = new onnxruntime.fbs.DeprecatedNodeIndexAndKernelDefHash(); $.node_index = reader.uint32_(position, 4, 0); $.kernel_def_hash = reader.uint64_(position, 6, 0n); return $; } }; onnxruntime.fbs.RuntimeOptimizationRecord = class RuntimeOptimizationRecord { static decode(reader, position) { const $ = new onnxruntime.fbs.RuntimeOptimizationRecord(); $.action_id = reader.string_(position, 4, null); $.nodes_to_optimize_indices = reader.table(position, 6, onnxruntime.fbs.NodesToOptimizeIndices); $.produced_nodes = reader.tables(position, 8, onnxruntime.fbs.DeprecatedNodeIndexAndKernelDefHash); $.produced_op_ids = reader.strings_(position, 10); return $; } }; onnxruntime.fbs.RuntimeOptimizationRecordContainerEntry = class RuntimeOptimizationRecordContainerEntry { static decode(reader, position) { const $ = new onnxruntime.fbs.RuntimeOptimizationRecordContainerEntry(); $.optimizer_name = reader.string_(position, 4, null); $.runtime_optimization_records = reader.tables(position, 6, onnxruntime.fbs.RuntimeOptimizationRecord); return $; } }; onnxruntime.fbs.RuntimeOptimizations = class RuntimeOptimizations { static decode(reader, position) { const $ = new onnxruntime.fbs.RuntimeOptimizations(); $.records = reader.tables(position, 4, onnxruntime.fbs.RuntimeOptimizationRecordContainerEntry); return $; } }; onnxruntime.fbs.Graph = class Graph { static decode(reader, position) { const $ = new onnxruntime.fbs.Graph(); $.initializers = reader.tables(position, 4, onnxruntime.fbs.Tensor); $.node_args = reader.tables(position, 6, onnxruntime.fbs.ValueInfo); $.nodes = reader.tables(position, 8, onnxruntime.fbs.Node); $.max_node_index = reader.uint32_(position, 10, 0); $.node_edges = reader.tables(position, 12, onnxruntime.fbs.NodeEdge); $.inputs = reader.strings_(position, 14); $.outputs = reader.strings_(position, 16); $.sparse_initializers = reader.tables(position, 18, onnxruntime.fbs.SparseTensor); $.runtime_optimizations = reader.table(position, 20, onnxruntime.fbs.RuntimeOptimizations); return $; } }; onnxruntime.fbs.StringStringEntry = class StringStringEntry { static decode(reader, position) { const $ = new onnxruntime.fbs.StringStringEntry(); $.key = reader.string_(position, 4, null); $.value = reader.string_(position, 6, null); return $; } }; onnxruntime.fbs.Model = class Model { static decode(reader, position) { const $ = new onnxruntime.fbs.Model(); $.ir_version = reader.int64_(position, 4, 0n); $.opset_import = reader.tables(position, 6, onnxruntime.fbs.OperatorSetId); $.producer_name = reader.string_(position, 8, null); $.producer_version = reader.string_(position, 10, null); $.domain = reader.string_(position, 12, null); $.model_version = reader.int64_(position, 14, 0n); $.doc_string = reader.string_(position, 16, null); $.graph = reader.table(position, 18, onnxruntime.fbs.Graph); $.graph_doc_string = reader.string_(position, 20, null); $.metadata_props = reader.tables(position, 22, onnxruntime.fbs.StringStringEntry); return $; } }; onnxruntime.fbs.DeprecatedKernelCreateInfos = class DeprecatedKernelCreateInfos { static decode(reader, position) { const $ = new onnxruntime.fbs.DeprecatedKernelCreateInfos(); $.node_indices = reader.array(position, 4, Uint32Array); $.kernel_def_hashes = reader.uint64s_(position, 6); return $; } }; onnxruntime.fbs.DeprecatedSubGraphSessionState = class DeprecatedSubGraphSessionState { static decode(reader, position) { const $ = new onnxruntime.fbs.DeprecatedSubGraphSessionState(); $.graph_id = reader.string_(position, 4, null); $.session_state = reader.table(position, 6, onnxruntime.fbs.DeprecatedSessionState); return $; } }; onnxruntime.fbs.DeprecatedSessionState = class DeprecatedSessionState { static decode(reader, position) { const $ = new onnxruntime.fbs.DeprecatedSessionState(); $.kernels = reader.table(position, 4, onnxruntime.fbs.DeprecatedKernelCreateInfos); $.sub_graph_session_states = reader.tables(position, 6, onnxruntime.fbs.DeprecatedSubGraphSessionState); return $; } }; onnxruntime.fbs.ArgType = { INPUT: 0, OUTPUT: 1 }; onnxruntime.fbs.ArgTypeAndIndex = class ArgTypeAndIndex { static decode(reader, position) { const $ = new onnxruntime.fbs.ArgTypeAndIndex(); $.arg_type = reader.int8_(position, 4, 0); $.index = reader.uint32_(position, 6, 0); return $; } }; onnxruntime.fbs.KernelTypeStrArgsEntry = class KernelTypeStrArgsEntry { static decode(reader, position) { const $ = new onnxruntime.fbs.KernelTypeStrArgsEntry(); $.kernel_type_str = reader.string_(position, 4, null); $.args = reader.tables(position, 6, onnxruntime.fbs.ArgTypeAndIndex); return $; } }; onnxruntime.fbs.OpIdKernelTypeStrArgsEntry = class OpIdKernelTypeStrArgsEntry { static decode(reader, position) { const $ = new onnxruntime.fbs.OpIdKernelTypeStrArgsEntry(); $.op_id = reader.string_(position, 4, null); $.kernel_type_str_args = reader.tables(position, 6, onnxruntime.fbs.KernelTypeStrArgsEntry); return $; } }; onnxruntime.fbs.KernelTypeStrResolver = class KernelTypeStrResolver { static decode(reader, position) { const $ = new onnxruntime.fbs.KernelTypeStrResolver(); $.op_kernel_type_str_args = reader.tables(position, 4, onnxruntime.fbs.OpIdKernelTypeStrArgsEntry); return $; } }; onnxruntime.fbs.InferenceSession = class InferenceSession { static identifier(reader) { return reader.identifier === 'ORTM'; } static create(reader) { return onnxruntime.fbs.InferenceSession.decode(reader, reader.root); } static decode(reader, position) { const $ = new onnxruntime.fbs.InferenceSession(); $.ort_version = reader.string_(position, 4, null); $.model = reader.table(position, 6, onnxruntime.fbs.Model); $.session_state = reader.table(position, 8, onnxruntime.fbs.DeprecatedSessionState); $.kernel_type_str_resolver = reader.table(position, 10, onnxruntime.fbs.KernelTypeStrResolver); return $; } };