2

I am trying to get a TensorFlow Lite example to run on a machine with an ARM Cortex-A72 processor. Unfortunately, I wasn't able to deploy a test model due to the lack of examples on how to use the C++ API. I will try to explain what I have achieved so far.

Create the tflite model

I have created a simple linear regression model and converted it, which should approximate the function f(x) = 2x - 1. I got this code snippet from some tutorial, but I am unable to find it anymore.

import tensorflow as tf
import numpy as np
from tensorflow import keras
from tensorflow.contrib import lite

model = keras.Sequential([keras.layers.Dense(units=1, input_shape=[1])])
model.compile(optimizer='sgd', loss='mean_squared_error')

xs = np.array([ -1.0, 0.0, 1.0, 2.0, 3.0, 4.0], dtype=float)
ys = np.array([ -3.0, -1.0, 1.0, 3.0, 5.0, 7.0], dtype=float)

model.fit(xs, ys, epochs=500)

print(model.predict([10.0]))

keras_file = 'linear.h5'
keras.models.save_model(model, keras_file)

converter = lite.TocoConverter.from_keras_model_file(keras_file)
tflite_model = converter.convert()
open('linear.tflite', 'wb').write(tflite_model)

This creates a binary called linear.tflite, which I should be able to load.

Compile TensorFlow Lite for my machine

TensorFlow Lite comes with a script for the compilation on machines with the aarch64 architecture. I followed the guide here to do this, even though I had to modify the Makefile slightly. Note that I compiled this natively on my target system. This created a static library called libtensorflow-lite.a.

Problem: Inference

I tried to follow the tutorial on the site here, and simply pasted the the code snippets from loading and running the model together, e.g.

class FlatBufferModel {
  // Build a model based on a file. Return a nullptr in case of failure.
  static std::unique_ptr<FlatBufferModel> BuildFromFile(
      const char* filename,
      ErrorReporter* error_reporter);

  // Build a model based on a pre-loaded flatbuffer. The caller retains
  // ownership of the buffer and should keep it alive until the returned object
  // is destroyed. Return a nullptr in case of failure.
  static std::unique_ptr<FlatBufferModel> BuildFromBuffer(
      const char* buffer,
      size_t buffer_size,
      ErrorReporter* error_reporter);
};

tflite::FlatBufferModel model("./linear.tflite");

tflite::ops::builtin::BuiltinOpResolver resolver;
std::unique_ptr<tflite::Interpreter> interpreter;
tflite::InterpreterBuilder(*model, resolver)(&interpreter);

// Resize input tensors, if desired.
interpreter->AllocateTensors();

float* input = interpreter->typed_input_tensor<float>(0);
// Fill `input`.

interpreter->Invoke();

float* output = interpreter->typed_output_tensor<float>(0);

When trying to compile this via

g++ demo.cpp libtensorflow-lite.a

I get a load of errors. Log:

root@localhost:/inference# g++ demo.cpp libtensorflow-lite.a 
demo.cpp:3:15: error: ‘unique_ptr’ in namespace ‘std’ does not name a template type
   static std::unique_ptr<FlatBufferModel> BuildFromFile(
               ^~~~~~~~~~
demo.cpp:10:15: error: ‘unique_ptr’ in namespace ‘std’ does not name a template type
   static std::unique_ptr<FlatBufferModel> BuildFromBuffer(
               ^~~~~~~~~~
demo.cpp:16:1: error: ‘tflite’ does not name a type
 tflite::FlatBufferModel model("./linear.tflite");
 ^~~~~~
demo.cpp:18:1: error: ‘tflite’ does not name a type
 tflite::ops::builtin::BuiltinOpResolver resolver;
 ^~~~~~
demo.cpp:19:6: error: ‘unique_ptr’ in namespace ‘std’ does not name a template type
 std::unique_ptr<tflite::Interpreter> interpreter;
      ^~~~~~~~~~
demo.cpp:20:1: error: ‘tflite’ does not name a type
 tflite::InterpreterBuilder(*model, resolver)(&interpreter);
 ^~~~~~
demo.cpp:23:1: error: ‘interpreter’ does not name a type
 interpreter->AllocateTensors();
 ^~~~~~~~~~~
demo.cpp:25:16: error: ‘interpreter’ was not declared in this scope
 float* input = interpreter->typed_input_tensor<float>(0);
                ^~~~~~~~~~~
demo.cpp:25:48: error: expected primary-expression before ‘float’
 float* input = interpreter->typed_input_tensor<float>(0);
                                                ^~~~~
demo.cpp:28:1: error: ‘interpreter’ does not name a type
 interpreter->Invoke();
 ^~~~~~~~~~~
demo.cpp:30:17: error: ‘interpreter’ was not declared in this scope
 float* output = interpreter->typed_output_tensor<float>(0);
                 ^~~~~~~~~~~
demo.cpp:30:50: error: expected primary-expression before ‘float’
 float* output = interpreter->typed_output_tensor<float>(0);

I am relatively new to C++, so I may be missing something obvious here. It seems, however, that other people have trouble with the C++ API as well (look at this GitHub issue). Has anybody also stumbled across this and got it to run?

The most important aspects for me to cover would be:

1.) Where and how do I define the signature, so that the model knows what to treat as inputs and outputs?

2.) Which headers do I have to include?

Thanks!

EDIT

Thanks to @Alex Cohn, the linker was able to find the correct headers. I also realized that I probably do not need to redefine the flatbuffers class, so I ended up with this code (minor change is marked):

#include "tensorflow/lite/interpreter.h"
#include "tensorflow/lite/kernels/register.h"
#include "tensorflow/lite/model.h"
#include "tensorflow/lite/tools/gen_op_registration.h"

auto model = tflite::FlatBufferModel::BuildFromFile("linear.tflite");   //CHANGED

tflite::ops::builtin::BuiltinOpResolver resolver;
std::unique_ptr<tflite::Interpreter> interpreter;
tflite::InterpreterBuilder(*model, resolver)(&interpreter);

// Resize input tensors, if desired.
interpreter->AllocateTensors();

float* input = interpreter->typed_input_tensor<float>(0);
// Fill `input`.

interpreter->Invoke();

float* output = interpreter->typed_output_tensor<float>(0);

This reduces the number of errors greatly, but I am not sure how to resolve the rest:

root@localhost:/inference# g++ demo.cpp -I/tensorflow
demo.cpp:10:34: error: expected ‘)’ before ‘,’ token
 tflite::InterpreterBuilder(*model, resolver)(&interpreter);
                                  ^
demo.cpp:10:44: error: expected initializer before ‘)’ token
 tflite::InterpreterBuilder(*model, resolver)(&interpreter);
                                            ^
demo.cpp:13:1: error: ‘interpreter’ does not name a type
 interpreter->AllocateTensors();
 ^~~~~~~~~~~
demo.cpp:18:1: error: ‘interpreter’ does not name a type
 interpreter->Invoke();
 ^~~~~~~~~~~

How do I have to tackle these? It seems that I have to define my own resolver, but I have no clue on how to do that.

  • Probably, you must run g++ -std=c++11 – Alex Cohn Jul 3 at 6:29
  • Hi! Please tell me how you can deduce the probability of classes when using tf line and c++? – V. Gai Oct 18 at 12:02
2

Here is the minimal set of includes:

#include "tensorflow/lite/interpreter.h"
#include "tensorflow/lite/kernels/register.h"
#include "tensorflow/lite/model.h"
#include "tensorflow/lite/tools/gen_op_registration.h"

These will include other headers, e.g. <memory> which defines std::unique_ptr.

  • Thank you Alex, that worked. After including the headers, a lot of errors disappeared but a few remained. Do you have an idea on how to resolve them? Please take a look at my edited question. – DocDriven Jul 2 at 9:11
1

I finally got it to run. Considering my directory structure looks like this:

/(root)
    /tensorflow
        # whole tf repo
    /demo
        demo.cpp
        linear.tflite
        libtensorflow-lite.a

I changed demo.cpp to

#include <stdio.h>
#include "tensorflow/lite/interpreter.h"
#include "tensorflow/lite/kernels/register.h"
#include "tensorflow/lite/model.h"
#include "tensorflow/lite/tools/gen_op_registration.h"

int main(){

    std::unique_ptr<tflite::FlatBufferModel> model = tflite::FlatBufferModel::BuildFromFile("linear.tflite");

    if(!model){
        printf("Failed to mmap model\n");
        exit(0);
    }

    tflite::ops::builtin::BuiltinOpResolver resolver;
    std::unique_ptr<tflite::Interpreter> interpreter;
    tflite::InterpreterBuilder(*model.get(), resolver)(&interpreter);

    // Resize input tensors, if desired.
    interpreter->AllocateTensors();

    float* input = interpreter->typed_input_tensor<float>(0);
    // Dummy input for testing
    *input = 2.0;

    interpreter->Invoke();

    float* output = interpreter->typed_output_tensor<float>(0);

    printf("Result is: %f\n", *output);

    return 0;
}

Also, I had to adapt my compile command (I had to install flatbuffers manually to make it work). What worked for me was:

g++ demo.cpp -I/tensorflow -L/demo -ltensorflow-lite -lrt -ldl -pthread -lflatbuffers -o demo

Thanks to @AlexCohn for getting me on the right track!

  • *model.get()! nice – Alex Cohn Jul 3 at 11:35

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.