# Tutorial of PaddleClas Mobile Deployment
This tutorial will introduce how to use [Paddle-Lite](https://github.com/PaddlePaddle/Paddle-Lite) to deploy PaddleClas models on mobile phones.
Paddle-Lite is a lightweight inference engine for PaddlePaddle. It provides efficient inference capabilities for mobile phones and IoTs, and extensively integrates cross-platform hardware to provide lightweight deployment solutions for mobile-side deployment issues.
If you only want to test speed, please refer to [The tutorial of Paddle-Lite mobile-side benchmark test](../extension/paddle_mobile_inference_en.md).
---
## Catalogue
- [1. Preparation](#1)
- [1.1 Build Paddle-Lite library](#1.1)
- [1.2 Download inference library for Android or iOS](#1.2)
- [2. Start running](#2)
- [2.1 Inference Model Optimization](#2.1)
- [2.1.1 [RECOMMEND] Use pip to install Paddle-Lite and optimize model](#2.1.1)
- [2.1.2 Compile Paddle-Lite to generate opt tool](#2.1.2)
- [2.1.3 Demo of get the optimized model](#2.1.3)
- [2.2 Run optimized model on Phone](#2.2)
- [3. FAQ](#3)
## 1. Preparation
PaddeLite currently supports the following platforms:
- Computer (for compiling Paddle-Lite)
- Mobile phone (arm7 or arm8)
### 1.1 Prepare cross-compilation environment
The cross-compilation environment is used to compile the C++ demos of Paddle-Lite and PaddleClas.
For the detailed compilation directions of different development environments, please refer to the corresponding [document](https://paddle-lite.readthedocs.io/zh/latest/source_compile/compile_env.html).
## 1.2 Download inference library for Android or iOS
|Platform|Inference Library Download Link|
|-|-|
|Android|[arm7](https://paddlelite-data.bj.bcebos.com/Release/2.8-rc/Android/gcc/inference_lite_lib.android.armv7.gcc.c++_static.with_extra.with_cv.tar.gz) / [arm8](https://paddlelite-data.bj.bcebos.com/Release/2.8-rc/Android/gcc/inference_lite_lib.android.armv8.gcc.c++_static.with_extra.with_cv.tar.gz)|
|iOS|[arm7](https://paddlelite-data.bj.bcebos.com/Release/2.8-rc/iOS/inference_lite_lib.ios.armv7.with_cv.with_extra.tiny_publish.tar.gz) / [arm8](https://paddlelite-data.bj.bcebos.com/Release/2.8-rc/iOS/inference_lite_lib.ios.armv8.with_cv.with_extra.tiny_publish.tar.gz)|
**NOTE**:
1. If you download the inference library from [Paddle-Lite official document](https://paddle-lite.readthedocs.io/zh/latest/quick_start/release_lib.html#android-toolchain-gcc), please choose `with_extra=ON` , `with_cv=ON` .
2. It is recommended to build inference library using [Paddle-Lite](https://github.com/PaddlePaddle/Paddle-Lite) develop branch if you want to deploy the [quantitative](https://github.com/PaddlePaddle/PaddleOCR/blob/develop/deploy/slim/quantization/README_en.md) model to mobile phones. Please refer to the [link](https://paddle-lite.readthedocs.io/zh/latest/user_guides/Compile/Android.html#id2) for more detailed information about compiling.
The structure of the inference library is as follows:
```
inference_lite_lib.android.armv8/
|-- cxx C++ inference library and header files
| |-- include C++ header files
| | |-- paddle_api.h
| | |-- paddle_image_preprocess.h
| | |-- paddle_lite_factory_helper.h
| | |-- paddle_place.h
| | |-- paddle_use_kernels.h
| | |-- paddle_use_ops.h
| | `-- paddle_use_passes.h
| `-- lib C++ inference library
| |-- libpaddle_api_light_bundled.a C++ static library
| `-- libpaddle_light_api_shared.so C++ dynamic library
|-- java Java inference library
| |-- jar
| | `-- PaddlePredictor.jar
| |-- so
| | `-- libpaddle_lite_jni.so
| `-- src
|-- demo C++ and java demos
| |-- cxx C++ demos
| `-- java Java demos
```
## 2. Start running
## 2.1 Inference Model Optimization
Paddle-Lite provides a variety of strategies to automatically optimize the original training model, including quantization, sub-graph fusion, hybrid scheduling, Kernel optimization and so on. In order to make the optimization process more convenient and easy to use, Paddle-Lite provides `opt` tool to automatically complete the optimization steps and output a lightweight, optimal executable model.
**NOTE**: If you have already got the `.nb` file, you can skip this step.
### 2.1.1 [RECOMMEND] Use `pip` to install Paddle-Lite and optimize model
* Use pip to install Paddle-Lite. The following command uses `pip3.7` .
```shell
pip install paddlelite==2.8
```
**Note**:The version of `paddlelite`'s wheel must match that of inference lib.
* Use `paddle_lite_opt` to optimize inference model, the parameters of `paddle_lite_opt` are as follows:
| Parameters | Explanation |
| ----------------------- | ------------------------------------------------------------ |
| --model_dir | Path to the PaddlePaddle model (no-combined) file to be optimized. |
| --model_file | Path to the net structure file of PaddlePaddle model (combined) to be optimized. |
| --param_file | Path to the net weight files of PaddlePaddle model (combined) to be optimized. |
| --optimize_out_type | Type of output model, `protobuf` by default. Supports `protobuf` and `naive_buffer` . Compared with `protobuf`, you can use`naive_buffer` to get a more lightweight serialization/deserialization model. If you need to predict on the mobile-side, please set it to `naive_buffer`. |
| --optimize_out | Path to output model, not needed to add `.nb` suffix. |
| --valid_targets | The executable backend of the model, `arm` by default. Supports one or some of `x86` , `arm` , `opencl` , `npu` , `xpu`. If set more than one, please separate the options by space, and the `opt` tool will choose the best way automatically. If need to support Huawei NPU (DaVinci core carried by Kirin 810/990 SoC), please set it to `npu arm` . |
| --record_tailoring_info | Whether to enable `Cut the Library Files According To the Model` , `false` by default. If need to record kernel and OP infos of optimized model, please set it to `true`. |
In addition, you can run `paddle_lite_opt` to get more detailed information about how to use.
### 2.1.2 Compile Paddle-Lite to generate `opt` tool
Optimizing model requires Paddle-Lite's `opt` executable file, which can be obtained by compiling the Paddle-Lite. The steps are as follows:
```shell
# get the Paddle-Lite source code, if have gotten , please skip
git clone https://github.com/PaddlePaddle/Paddle-Lite.git
cd Paddle-Lite
git checkout develop
# compile
./lite/tools/build.sh build_optimize_tool
```
After the compilation is complete, the `opt` file is located under `build.opt/lite/api/`.
`opt` tool is used in the same way as `paddle_lite_opt` , please refer to [2.1.1](#2.1.1).
### 2.1.3 Demo of get the optimized model
Taking the `MobileNetV3_large_x1_0` model of PaddleClas as an example, we will introduce how to use `paddle_lite_opt` to complete the conversion from the pre-trained model to the inference model, and then to the Paddle-Lite optimized model.
```shell
# enter PaddleClas root directory
cd PaddleClas_root_path
# download and uncompress the inference model
wget https://paddle-imagenet-models-name.bj.bcebos.com/dygraph/inference/MobileNetV3_large_x1_0_infer.tar
tar -xf MobileNetV3_large_x1_0_infer.tar
# convert inference model to Paddle-Lite optimized model
paddle_lite_opt --model_file=./MobileNetV3_large_x1_0_infer/inference.pdmodel --param_file=./MobileNetV3_large_x1_0_infer/inference.pdiparams --optimize_out=./MobileNetV3_large_x1_0
```
When the above code command is completed, there will be ``MobileNetV3_large_x1_0.nb` in the current directory, which is the converted model file.
## 2.2 Run optimized model on Phone
1. Prepare an Android phone with `arm8`. If the compiled inference library and `opt` file are `armv7`, you need an `arm7` phone and modify `ARM_ABI = arm7` in the Makefile.
2. Install the ADB tool on the computer.
* Install ADB for MAC
Recommend use homebrew to install.
```shell
brew cask install android-platform-tools
```
* Install ADB for Linux
```shell
sudo apt update
sudo apt install -y wget adb
```
* Install ADB for windows
If install ADB fo Windows, you need to download from Google's Android platform: [Download Link](https://developer.android.com/studio).
First, make sure the phone is connected to the computer, turn on the `USB debugging` option of the phone, and select the `file transfer` mode. Verify whether ADB is installed successfully as follows:
```shell
$ adb devices
List of devices attached
744be294 device
```
If there is `device` output like the above, it means the installation was successful.
4. Prepare optimized model, inference library files, test image and dictionary file used.
```shell
cd PaddleClas_root_path
cd deploy/lite/
# prepare.sh will put the inference library files, the test image and the dictionary files in demo/cxx/clas
sh prepare.sh /{lite inference library path}/inference_lite_lib.android.armv8
# enter the working directory of lite demo
cd /{lite inference library path}/inference_lite_lib.android.armv8/
cd demo/cxx/clas/
# copy the C++ inference dynamic library file (ie. .so) to the debug folder
cp ../../../cxx/lib/libpaddle_light_api_shared.so ./debug/
```
The `prepare.sh` take `PaddleClas/deploy/lite/imgs/tabby_cat.jpg` as the test image, and copy it to the `demo/cxx/clas/debug/` directory.
You should put the model that optimized by `paddle_lite_opt` under the `demo/cxx/clas/debug/` directory. In this example, use `MobileNetV3_large_x1_0.nb` model file generated in [2.1.3](#2.1.3).
The structure of the clas demo is as follows after the above command is completed:
```
demo/cxx/clas/
|-- debug/
| |--MobileNetV3_large_x1_0.nb class model
| |--tabby_cat.jpg test image
| |--imagenet1k_label_list.txt dictionary file
| |--libpaddle_light_api_shared.so C++ .so file
| |--config.txt config file
|-- config.txt config file
|-- image_classfication.cpp source code
|-- Makefile compile file
```
**NOTE**:
* `Imagenet1k_label_list.txt` is the category mapping file of the `ImageNet1k` dataset. If use a custom category, you need to replace the category mapping file.
* `config.txt` contains the hyperparameters, as follows:
```shell
clas_model_file ./MobileNetV3_large_x1_0.nb # path of model file
label_path ./imagenet1k_label_list.txt # path of category mapping file
resize_short_size 256 # the short side length after resize
crop_size 224 # side length used for inference after cropping
visualize 0 # whether to visualize. If you set it to 1, an image file named 'clas_result.png' will be generated in the current directory.
```
5. Run Model on Phone
```shell
# run compile to get the executable file 'clas_system'
make -j
# move the compiled executable file to the debug folder
mv clas_system ./debug/
# push the debug folder to Phone
adb push debug /data/local/tmp/
adb shell
cd /data/local/tmp/debug
export LD_LIBRARY_PATH=/data/local/tmp/debug:$LD_LIBRARY_PATH
# the usage of clas_system is as follows:
# ./clas_system "path of config file" "path of test image"
./clas_system ./config.txt ./tabby_cat.jpg
```
**NOTE**: If you make changes to the code, you need to recompile and repush the `debug ` folder to the phone.
The result is as follows:
## 3. FAQ
Q1:If I want to change the model, do I need to go through the all process again?
A1:If you have completed the above steps, you only need to replace the `.nb` model file after replacing the model. At the same time, you may need to modify the path of `.nb` file in the config file and change the category mapping file to be compatible the model .
Q2:How to change the test picture?
A2:Replace the test image under debug folder with the image you want to test,and then repush to the Phone again.