# automatically generated by the FlatBuffers compiler, do not modify # namespace: fbs import flatbuffers from flatbuffers.compat import import_numpy np = import_numpy() class KernelTypeStrResolver(object): __slots__ = ['_tab'] @classmethod def GetRootAsKernelTypeStrResolver(cls, buf, offset): n = flatbuffers.encode.Get(flatbuffers.packer.uoffset, buf, offset) x = KernelTypeStrResolver() x.Init(buf, n + offset) return x @classmethod def KernelTypeStrResolverBufferHasIdentifier(cls, buf, offset, size_prefixed=False): return flatbuffers.util.BufferHasIdentifier(buf, offset, b"\x4F\x52\x54\x4D", size_prefixed=size_prefixed) # KernelTypeStrResolver def Init(self, buf, pos): self._tab = flatbuffers.table.Table(buf, pos) # KernelTypeStrResolver def OpKernelTypeStrArgs(self, j): o = flatbuffers.number_types.UOffsetTFlags.py_type(self._tab.Offset(4)) if o != 0: x = self._tab.Vector(o) x += flatbuffers.number_types.UOffsetTFlags.py_type(j) * 4 x = self._tab.Indirect(x) from ort_flatbuffers_py.fbs.OpIdKernelTypeStrArgsEntry import OpIdKernelTypeStrArgsEntry obj = OpIdKernelTypeStrArgsEntry() obj.Init(self._tab.Bytes, x) return obj return None # KernelTypeStrResolver def OpKernelTypeStrArgsLength(self): o = flatbuffers.number_types.UOffsetTFlags.py_type(self._tab.Offset(4)) if o != 0: return self._tab.VectorLen(o) return 0 # KernelTypeStrResolver def OpKernelTypeStrArgsIsNone(self): o = flatbuffers.number_types.UOffsetTFlags.py_type(self._tab.Offset(4)) return o == 0 def KernelTypeStrResolverStart(builder): builder.StartObject(1) def KernelTypeStrResolverAddOpKernelTypeStrArgs(builder, opKernelTypeStrArgs): builder.PrependUOffsetTRelativeSlot(0, flatbuffers.number_types.UOffsetTFlags.py_type(opKernelTypeStrArgs), 0) def KernelTypeStrResolverStartOpKernelTypeStrArgsVector(builder, numElems): return builder.StartVector(4, numElems, 4) def KernelTypeStrResolverEnd(builder): return builder.EndObject()