11 unstable releases (3 breaking)
0.6.0 | Apr 13, 2023 |
---|---|
0.5.2 | Nov 22, 2022 |
0.5.1 | Aug 18, 2022 |
0.4.1 | Feb 1, 2022 |
0.3.2 | Oct 4, 2021 |
#479 in Machine learning
36 downloads per month
1.5MB
1K
SLoC
Contains (Zip file, 1.5MB) build-res/docsrs_res.zip
This crate is a safe Rust wrapper of TensorFlow Lite C API. Its API is very similar to that of TensorFlow Lite Swift API.
Supported Targets
Targets below are tested. However, others may work, too.
- iOS:
aarch64-apple-ios
andx86_64-apple-ios
- MacOS:
x86_64-apple-darwin
- Linux:
x86_64-unknown-linux-gnu
- Android:
aarch64-linux-android
andarmv7-linux-androideabi
- Windows (see details)
See compilation section to see build instructions for your target. Please read Optimized Build section carefully.
Features
xnnpack
- Compiles XNNPACK and allows you to use XNNPACK delegate. See details of XNNPACK on here.xnnpack_qs8
- Compiles XNNPACK with additional build flags to accelerate inference of operators with symmetric quantization. See details in this blog post. Impliesxnnpack
.xnnpack_qu8
- Similar toxnnpack_qs8
, but accelerates few operators with asymmetric quantization. Impliesxnnpack
.
Note: xnnpack
is already enabled for iOS, but xnnpack_qs8
and xnnpack_qu8
should be enabled manually.
Examples
The example below shows running inference on a TensorFlow Lite model.
use tflitec::interpreter::{Interpreter, Options};
use tflitec::tensor;
use tflitec::model::Model;
// Create interpreter options
let mut options = Options::default();
options.thread_count = 1;
// Load example model which outputs y = 3 * x
let model = Model::new("tests/add.bin")?;
// Or initialize with model bytes if it is not available as a file
// let model_data = std::fs::read("tests/add.bin")?;
// let model = Model::from_bytes(&model_data)?;
// Create interpreter
let interpreter = Interpreter::new(&model, Some(options))?;
// Resize input
let input_shape = tensor::Shape::new(vec![10, 8, 8, 3]);
let input_element_count = input_shape.dimensions().iter().copied().reduce(std::ops::Mul::mul).unwrap();
interpreter.resize_input(0, input_shape)?;
// Allocate tensors if you just created Interpreter or resized its inputs
interpreter.allocate_tensors()?;
// Create dummy input
let data = (0..input_element_count).map(|x| x as f32).collect::<Vec<f32>>();
let input_tensor = interpreter.input(0)?;
assert_eq!(input_tensor.data_type(), tensor::DataType::Float32);
// Copy input to buffer of first tensor (with index 0)
// You have 2 options:
// Set data using Tensor handle if you have it already
assert!(input_tensor.set_data(&data[..]).is_ok());
// Or set data using Interpreter:
assert!(interpreter.copy(&data[..], 0).is_ok());
// Invoke interpreter
assert!(interpreter.invoke().is_ok());
// Get output tensor
let output_tensor = interpreter.output(0)?;
assert_eq!(output_tensor.shape().dimensions(), &vec![10, 8, 8, 3]);
let output_vector = output_tensor.data::<f32>().to_vec();
let expected: Vec<f32> = data.iter().map(|e| e * 3.0).collect();
assert_eq!(expected, output_vector);
# // The line below is needed for doctest, please ignore it
# Ok::<(), Box<dyn std::error::Error>>(())
Prebuilt Library Support
As described in the compilation section, libtensorflowlite_c
is built during compilation and
this step may take a few minutes. To allow reusing prebuilt library, one can set TFLITEC_PREBUILT_PATH
or
TFLITEC_PREBUILT_PATH_<NORMALIZED_TARGET>
environment variables (the latter has precedence).
NORMALIZED_TARGET
is the target triple which is converted to uppercase and underscores,
as in the cargo configuration environment variables. Below you can find example values for different TARGET
s:
TFLITEC_PREBUILT_PATH_AARCH64_APPLE_IOS=/path/to/TensorFlowLiteC.framework
TFLITEC_PREBUILT_PATH_ARMV7_LINUX_ANDROIDEABI=/path/to/libtensorflowlite_c.so
TFLITEC_PREBUILT_PATH_X86_64_APPLE_DARWIN=/path/to/libtensorflowlite_c.dylib
TFLITEC_PREBUILT_PATH_X86_64_PC_WINDOWS_MSVC=/path/to/tensorflowlite_c.dll
. Note that, the prebuilt.dll
file must have the corresponding.lib
file under the same directory.
You can find these files under the OUT_DIR
after you compile the library for the first time,
then copy them to a persistent path and set environment variable.
XNNPACK support
You can activate xnnpack
features with a prebuilt library, too.
However, you must have built that library with XNNPACK, otherwise you will see a linking error.
Local Header Directory Support
Some tensorflow header files are downloaded from GitHub during compilation with or without prebuild binary.
However, some users may have difficulty to access GitHub. Hence, one can pass header directory with
TFLITEC_HEADER_DIR
or TFLITEC_HEADER_DIR_<NORMALIZED_TARGET>
environment variables
(the latter has precedence). See the example command below:
TFLITEC_HEADER_DIR=/path/to/tensorflow_v2.9.1_headers cargo build --release
# Structure of /path/to/tensorflow_v2.9.1_headers is given below:
# tensorflow_v2.9.1_headers
# └── tensorflow
# └── lite
# ├── c
# │ ├── c_api.h # Required
# │ ├── c_api_types.h # Required
# │ └── common.h # Required if xnnpack enabled
# └── delegates
# └── xnnpack
# └── xnnpack_delegate.h # Required if xnnpack enabled
Linking
This library builds libtensorflowlite_c
dynamic library and must be linked to it. This is not an issue
if you build and run a binary target with cargo run
. However, if you run your binary directly, you must
have libtensorflowlite_c
dynamic library in your library search path. You can either copy built library under
target/{release,debug}/build/tflitec-*/out
to one of the system library search paths
(such as /usr/lib
or /usr/local/lib
) or add that directory (out
) to search path.
Similarly, if you distribute a prebuilt library depending on this, you must distribute libtensorflowlite_c
, too.
Or, document this warning in your library to instruct your users.
Compilation
Current version of the crate builds tag v2.9.1
of the tensorflow project.
Compiled dynamic library or Framework will be available under OUT_DIR
(see cargo documentation) of tflitec
.
You won't need this most of the time, because the crate output is linked appropriately.
In addition, it may be better to read prebuilt library support section
to make your builds faster.
For all environments and targets you will need to have:
git
CLI to fetch TensorFlow- Bazel to build TensorFlow, it is recommended to use bazelisk.
- Python3 to build TensorFlow
Optimized Build
To build TensorFlow for your machine with native optimizations
or pass other --copts
to Bazel, set environment variable below:
TFLITEC_BAZEL_COPTS="OPT1 OPT2 ..." # space seperated values will be passed as `--copt=OPTN` to bazel
TFLITEC_BAZEL_COPTS="-march=native" # for native optimized build
# You can set target specific opts by appending normalized target to variable name
TFLITEC_BAZEL_COPTS_X86_64_APPLE_DARWIN="-march=native"
Some OSs or targets may require additional steps.
Android:
- Android NDK
- Following environment variables should be set appropriately
to build TensorFlow for android:
ANDROID_NDK_HOME
ANDROID_NDK_API_LEVEL
ANDROID_SDK_HOME
ANDROID_API_LEVEL
ANDROID_BUILD_TOOLS_VERSION
- Bindgen needs extra arguments, so set the environment variable below:
# Set appropriate host tag and target name.
# see https://developer.android.com/ndk/guides/other_build_systems
HOST_TAG=darwin-x86_64 # as example
TARGET_TRIPLE=arm-linux-androideabi # as example
BINDGEN_EXTRA_CLANG_ARGS="\
-I${ANDROID_NDK_HOME}/sources/cxx-stl/llvm-libc++/include/ \
-I${ANDROID_NDK_HOME}/sysroot/usr/include/ \
-I${ANDROID_NDK_HOME}/toolchains/llvm/prebuilt/${HOST_TAG}/sysroot/usr/include/${TARGET_TRIPLE}/"
- (Recommended) cargo-ndk simplifies
cargo build
process. Recent version of the tool has--bindgen
flag which setsBINDGEN_EXTRA_CLANG_ARGS
variable appropriately. Hence, you can skip the step above.
Windows
Windows support is experimental. It is tested on Windows 10. You should follow instructions in
the Setup for Windows
section on TensorFlow Build Instructions for Windows. In other words,
you should install following before build:
- Python 3.8.x 64 bit (the instructions suggest 3.6.x but this package is tested with 3.8.x)
- Bazel
- MSYS2
- Visual C++ Build Tools 2019
Do not forget to add relevant paths to %PATH%
environment variable by following the
TensorFlow Build Instructions for Windows carefully (the only exception is the Python version).
No runtime deps
~0–3.5MB
~65K SLoC