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b186c6758c
We only need the C++ type and the corresponding TF Enum. The other parameter was used for the output spec json file, but we can just standardize on the C++ type name there. Differential Revision: https://reviews.llvm.org/D86549
320 lines
11 KiB
C++
320 lines
11 KiB
C++
//===- TFUtils.cpp - tensorflow evaluation utilities ----------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements utilities for interfacing with tensorflow C APIs.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Config/config.h"
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#if defined(LLVM_HAVE_TF_API)
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#include "llvm/ADT/Twine.h"
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#include "llvm/Analysis/Utils/TFUtils.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/JSON.h"
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#include "llvm/Support/ManagedStatic.h"
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#include "llvm/Support/raw_ostream.h"
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#include "tensorflow/c/c_api.h"
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#include "tensorflow/c/c_api_experimental.h"
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#include <cassert>
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#include <numeric>
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using namespace llvm;
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namespace {
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using TFGraphPtr = std::unique_ptr<TF_Graph, decltype(&TF_DeleteGraph)>;
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using TFSessionOptionsPtr =
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std::unique_ptr<TF_SessionOptions, decltype(&TF_DeleteSessionOptions)>;
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using TFStatusPtr = std::unique_ptr<TF_Status, decltype(&TF_DeleteStatus)>;
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struct TFInitializer {
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TFInitializer() {
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assert(!IsInitialized && "TFInitialized should be called only once");
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int Argc = 1;
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const char *Name = "";
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const char **NamePtr = &Name;
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TF_InitMain(Name, &Argc, const_cast<char ***>(&NamePtr));
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IsInitialized = true;
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}
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bool IsInitialized = false;
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};
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llvm::ManagedStatic<TFInitializer> TFLibInitializer;
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bool ensureInitTF() { return TFLibInitializer->IsInitialized; }
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TFGraphPtr createTFGraph() {
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return TFGraphPtr(TF_NewGraph(), &TF_DeleteGraph);
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}
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TFStatusPtr createTFStatus() {
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return TFStatusPtr(TF_NewStatus(), &TF_DeleteStatus);
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}
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TFSessionOptionsPtr createTFSessionOptions() {
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return TFSessionOptionsPtr(TF_NewSessionOptions(), &TF_DeleteSessionOptions);
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}
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} // namespace
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namespace llvm {
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class EvaluationResultImpl {
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public:
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EvaluationResultImpl(size_t OutputSize)
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: OutputSize(OutputSize), Output(OutputSize){};
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~EvaluationResultImpl() {
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for (auto *P : Output)
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if (P)
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TF_DeleteTensor(P);
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}
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EvaluationResultImpl(const EvaluationResultImpl &) = delete;
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EvaluationResultImpl(EvaluationResultImpl &&Other) = delete;
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std::vector<TF_Tensor *> &getOutput() { return Output; }
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private:
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const size_t OutputSize;
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std::vector<TF_Tensor *> Output;
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};
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size_t TensorSpec::getElementByteSize() const {
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return TF_DataTypeSize(static_cast<TF_DataType>(TypeIndex));
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}
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TensorSpec::TensorSpec(const std::string &Name, int Port, int TypeIndex,
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const std::vector<int64_t> &Shape)
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: Name(Name), Port(Port), TypeIndex(TypeIndex), Shape(Shape),
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ElementCount(std::accumulate(Shape.begin(), Shape.end(), 1,
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std::multiplies<int64_t>())) {}
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Optional<TensorSpec> getTensorSpecFromJSON(LLVMContext &Ctx,
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const json::Value &Value) {
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auto EmitError = [&](const llvm::Twine &Message) -> Optional<TensorSpec> {
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std::string S;
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llvm::raw_string_ostream OS(S);
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OS << Value;
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Ctx.emitError("Unable to parse JSON Value as spec (" + Message + "): " + S);
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return None;
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};
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json::ObjectMapper Mapper(Value);
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if (!Mapper)
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return EmitError("Value is not a dict");
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std::string TensorName;
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int TensorPort = -1;
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std::string TensorType;
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std::vector<int64_t> TensorShape;
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if (!Mapper.map<std::string>("name", TensorName))
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return EmitError("'name' property not present or not a string");
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if (!Mapper.map<std::string>("type", TensorType))
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return EmitError("'type' property not present or not a string");
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if (!Mapper.map<int>("port", TensorPort))
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return EmitError("'port' property not present or not an int");
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if (!Mapper.map<std::vector<int64_t>>("shape", TensorShape))
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return EmitError("'shape' property not present or not an int array");
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#define PARSE_TYPE(T, E) \
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if (TensorType == #T) \
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return TensorSpec::createSpec<T>(TensorName, TensorShape, TensorPort);
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TFUTILS_SUPPORTED_TYPES(PARSE_TYPE)
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#undef PARSE_TYPE
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return None;
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}
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class TFModelEvaluatorImpl {
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public:
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TFModelEvaluatorImpl(StringRef SavedModelPath,
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const std::vector<TensorSpec> &InputSpecs,
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const std::vector<TensorSpec> &OutputSpecs,
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const char *Tags);
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bool isValid() const { return IsValid; }
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size_t OutputSize() const { return OutputFeed.size(); }
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void evaluate(TF_Tensor **Output, TF_Status *Status) {
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TF_SessionRun(Session, nullptr, InputFeed.data(), Input.data(),
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Input.size(), OutputFeed.data(), Output, OutputFeed.size(),
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nullptr, 0, nullptr, Status);
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}
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void initInput(size_t Index, TF_DataType Type,
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const std::vector<int64_t> &Dimensions);
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const std::vector<TF_Tensor *> &getInput() const { return Input; }
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~TFModelEvaluatorImpl();
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private:
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/// The objects necessary for carrying out an evaluation of the SavedModel.
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/// They are expensive to set up, and we maintain them accross all the
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/// evaluations of the model.
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TF_Session *Session = nullptr;
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TFGraphPtr Graph;
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TFSessionOptionsPtr Options;
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/// The specification of the input nodes.
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std::vector<TF_Output> InputFeed;
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/// The input tensors. They must match by index of the corresponding InputFeed
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/// value. We set up the tensors once and just mutate theirs scalars before
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/// each evaluation. The input tensors keep their value after an evaluation.
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std::vector<TF_Tensor *> Input;
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/// The specification of the output nodes. When evaluating, the tensors in the
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/// output tensor vector must match by index the corresponding element in the
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/// OutputFeed.
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std::vector<TF_Output> OutputFeed;
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void invalidate() { IsValid = false; }
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bool IsValid = true;
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/// Reusable utility for ensuring we can bind the requested Name to a node in
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/// the SavedModel Graph.
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bool checkReportAndInvalidate(const TF_Output &Output,
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const TensorSpec &OutputSpec);
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};
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} // namespace llvm
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TFModelEvaluatorImpl::TFModelEvaluatorImpl(
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StringRef SavedModelPath, const std::vector<TensorSpec> &InputSpecs,
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const std::vector<TensorSpec> &OutputSpecs, const char *Tags)
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: Graph(createTFGraph()), Options(createTFSessionOptions()),
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InputFeed(InputSpecs.size()), Input(InputSpecs.size()),
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OutputFeed(OutputSpecs.size()) {
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if (!ensureInitTF()) {
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errs() << "Tensorflow should have been initialized";
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return;
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}
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auto Status = createTFStatus();
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Session = TF_LoadSessionFromSavedModel(Options.get(), nullptr,
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SavedModelPath.str().c_str(), &Tags, 1,
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Graph.get(), nullptr, Status.get());
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if (TF_GetCode(Status.get()) != TF_Code::TF_OK) {
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errs() << TF_Message(Status.get());
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invalidate();
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}
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for (size_t I = 0; I < InputSpecs.size(); ++I) {
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auto &InputSpec = InputSpecs[I];
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InputFeed[I] = {
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TF_GraphOperationByName(Graph.get(), (InputSpec.name()).c_str()),
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InputSpec.port()};
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if (!checkReportAndInvalidate(InputFeed[I], InputSpec))
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return;
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initInput(I, static_cast<TF_DataType>(InputSpec.typeIndex()),
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InputSpec.shape());
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}
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for (size_t I = 0; I < OutputSpecs.size(); ++I) {
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auto &OutputSpec = OutputSpecs[I];
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OutputFeed[I] = {
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TF_GraphOperationByName(Graph.get(), (OutputSpec.name()).c_str()),
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OutputSpec.port()};
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if (!checkReportAndInvalidate(OutputFeed[I], OutputSpec))
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return;
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}
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}
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TFModelEvaluator::TFModelEvaluator(StringRef SavedModelPath,
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const std::vector<TensorSpec> &InputSpecs,
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const std::vector<TensorSpec> &OutputSpecs,
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const char *Tags)
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: Impl(new TFModelEvaluatorImpl(SavedModelPath, InputSpecs, OutputSpecs,
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Tags)) {
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if (!Impl->isValid())
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Impl.reset();
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}
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TFModelEvaluatorImpl::~TFModelEvaluatorImpl() {
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for (auto *T : Input) {
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TF_DeleteTensor(T);
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}
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if (Session == nullptr)
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return;
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auto Status = createTFStatus();
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TF_DeleteSession(Session, Status.get());
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Session = nullptr;
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if (TF_GetCode(Status.get()) != TF_Code::TF_OK)
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errs() << "Could not delete TF session";
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}
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bool TFModelEvaluatorImpl::checkReportAndInvalidate(
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const TF_Output &Output, const TensorSpec &OutputSpec) {
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if (Output.oper)
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return true;
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errs() << "Could not find TF_Output named: " + OutputSpec.name();
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IsValid = false;
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return IsValid;
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}
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Optional<TFModelEvaluator::EvaluationResult> TFModelEvaluator::evaluate() {
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if (!isValid())
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return None;
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std::unique_ptr<EvaluationResultImpl> Ret =
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std::make_unique<EvaluationResultImpl>(Impl->OutputSize());
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auto Status = createTFStatus();
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Impl->evaluate(Ret->getOutput().data(), Status.get());
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if (TF_GetCode(Status.get()) != TF_Code::TF_OK) {
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errs() << TF_Message(Status.get());
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Impl.reset();
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return None;
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}
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return EvaluationResult(std::move(Ret));
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}
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void TFModelEvaluatorImpl::initInput(size_t Index, TF_DataType Type,
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const std::vector<int64_t> &Dimensions) {
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int64_t TotalSize = TF_DataTypeSize(Type);
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for (auto &D : Dimensions)
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TotalSize *= D;
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Input[Index] =
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TF_AllocateTensor(Type, Dimensions.data(), Dimensions.size(), TotalSize);
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std::memset(TF_TensorData(Input[Index]), 0, TotalSize);
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}
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void *TFModelEvaluator::getUntypedInput(size_t Index) {
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return TF_TensorData(Impl->getInput()[Index]);
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}
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TFModelEvaluator::EvaluationResult::EvaluationResult(
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std::unique_ptr<EvaluationResultImpl> Impl)
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: Impl(std::move(Impl)) {}
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TFModelEvaluator::EvaluationResult::EvaluationResult(EvaluationResult &&Other)
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: Impl(std::move(Other.Impl)) {}
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TFModelEvaluator::EvaluationResult &
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TFModelEvaluator::EvaluationResult::operator=(EvaluationResult &&Other) {
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Impl = std::move(Other.Impl);
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return *this;
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}
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void *TFModelEvaluator::EvaluationResult::getUntypedTensorValue(size_t Index) {
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return TF_TensorData(Impl->getOutput()[Index]);
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}
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const void *
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TFModelEvaluator::EvaluationResult::getUntypedTensorValue(size_t Index) const {
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return TF_TensorData(Impl->getOutput()[Index]);
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}
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#define TFUTILS_GETDATATYPE_IMPL(T, E) \
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template <> int TensorSpec::getDataType<T>() { return E; }
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TFUTILS_SUPPORTED_TYPES(TFUTILS_GETDATATYPE_IMPL)
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#undef TFUTILS_GETDATATYPE_IMPL
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TFModelEvaluator::EvaluationResult::~EvaluationResult() {}
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TFModelEvaluator::~TFModelEvaluator() {}
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#endif // defined(LLVM_HAVE_TF_API)
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