42af109c30
* use affdex::byte to avoid ambiguity; remove #include typedefs.h * PlottingImageListener.hpp: use unsigned char with Frame::getBGRByteArray the typedef affdex::byte was not added until Affdex SDK 4.0, so unsigned char provides further-back SDK version compatibility. |
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cmake_modules | ||
common | ||
docker | ||
opencv-webcam-demo | ||
video-demo | ||
.gitignore | ||
.travis.yml | ||
affdex-win-samples.sln | ||
appveyor.yml | ||
CMakeLists.txt | ||
ISSUE_TEMPLATE.txt | ||
LICENSE.txt | ||
README.md |
Sample Apps for Affdex SDK for Windows and Linux
Welcome to our repository on GitHub! Here you will find example code to get you started with our Affdex Linux SDK 4.0.0, Affdex Windows SDK 3.4 and begin emotion-enabling you own app! Documentation for the SDKs is available on the Affectiva's Developer Portal.
Build Status
- Windows: [] (https://ci.appveyor.com/project/ahamino/win-sdk-samples)
- Ubuntu:
Dependencies
Windows
- Affdex SDK 3.4 (64 bit)
- Visual Studio 2013 or higher
Linux
- Ubuntu 16.04 with GCC v5.4.1
- CentOS 7 with GCC v4.8.x
- Affdex SDK 4.0.0
- CMake 3.5 or higher
Additional dependencies
- OpenCV 2.4
- Boost 1.63
- libuuid
- libcurl
- libopenssl
Installation
Windows
- Install the SDK using MSI installer.
- The additional dependencies get installed automatically by NuGet.
Linux
Installation Guide for dependencies CMake v3.8.1 and Boost v1.63 for CentOS 7 and Ubuntu 16.04
- Boost
$ wget https://sourceforge.net/projects/boost/files/boost/1.63.0/boost_1_63_0.tar.gz
$ tar -xzvf boost_1_63_0.tar.gz -C $HOME
$ cd boost_1_63_0
$ ./bootstrap.sh
$ sudo ./b2 -j $(nproc) cxxflags=-fPIC threading=multi runtime-link=shared \
--with-log --with-serialization --with-system --with-date_time \
--with-filesystem --with-regex --with-timer --with-chrono --with-thread \
--with-program_options install
- CMAKE
$ wget https://cmake.org/files/v3.8/cmake-3.8.1.tar.gz \
$ tar -xvf cmake-3.8.1.tar.gz && rm cmake-3.8.1.tar.gz
$ cd $SRC_DIR/cmake-3.8.1/
$ ./bootstrap --system-curl && \
make -j$(nproc) && \
make install && \
rm -rf $SRC_DIR/cmake-3.8.1
- Building the SDK on Ubuntu 16.04
$ sudo apt-get install build-essential libopencv-dev libcurl4-openssl uuid-dev
$ wget https://download.affectiva.com/linux/gcc-5.4/affdex-cpp-sdk-4.0-75-ubuntu-xenial-xerus-x86_64bit.tar.gz
$ mkdir $HOME/affdex-sdk
$ tar -xzvf affdex-cpp-sdk-4.0-75-ubuntu-xenial-xerus-x86_64bit.tar.gz -C $HOME/affdex-sdk
$ export AFFDEX_DATA_DIR=$HOME/affdex-sdk/data
$ git clone https://github.com/Affectiva/cpp-sdk-samples.git $HOME/sdk-samples
$ mkdir $HOME/build
$ cd $HOME/build
$ cmake -DOpenCV_DIR=/usr/ -DBOOST_ROOT=/usr/ -DAFFDEX_DIR=$HOME/affdex-sdk $HOME/sdk-samples
$ make
$ export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:$HOME/affdex-sdk/lib
# The SDK statically links a forked version of OpenCV, so if you run into double free or corruption error
# then you will need to preload the OpenCV library installed from package manager
# Use this command to find the path of libopencv_core.so.2.4
$ ldconfig -p | grep libopencv_core.so.2.4
$ export LD_PRELOAD=/path/to/libopencv_core.so.2.4
- Building the SDK on CentOS 7
$ sudo yum install libcurl-devel.x86_64 libuuid-devel.x86_64 opencv-devel
$ wget https://download.affectiva.com/linux/centos-4.8/affdex-cpp-sdk-4.0-2941-centos-7-x86_64bit.tar.gz
$ mkdir $HOME/affdex-sdk
$ tar -xzvf affdex-cpp-sdk-4.0-2941-centos-7-x86_64bit.tar.gz -C $HOME/affdex-sdk
$ export AFFDEX_DATA_DIR=$HOME/affdex-sdk/data
$ git clone https://github.com/Affectiva/cpp-sdk-samples.git $HOME/sdk-samples
$ mkdir $HOME/build
$ cd $HOME/build
$ cmake -DOpenCV_DIR=/usr/ -DBOOST_ROOT=/usr/ -DAFFDEX_DIR=$HOME/affdex-sdk $HOME/sdk-samples
$ make
$ export LD_LIBRARY_PATH=$LD_LIBRARY_PATH:$HOME/affdex-sdk/lib
# The SDK statically links a forked version of OpenCV, so if you run into double free or corruption error
# then you will need to preload the OpenCV library installed from package manager
# Use this command to find the path of libopencv_core.so.2.4
$ ldconfig -p | grep libopencv_core.so.2.4
$ export LD_PRELOAD=/path/to/libopencv_core.so.2.4
OpenCV-webcam-demo (c++)
Project for demoing the FrameDetector class. It grabs frames from the camera, analyzes them and displays the results on screen.
The following command line arguments can be used to run it:
-h [ --help ] Display this help message.
-d [ --data ] arg (=data) Path to the data folder
-r [ --resolution ] arg (=640 480) Resolution in pixels (2-values): width
height
--pfps arg (=30) Processing framerate.
--cfps arg (=30) Camera capture framerate.
--bufferLen arg (=30) process buffer size.
--cid arg (=0) Camera ID.
--faceMode arg (=0) Face detector mode (large faces vs small
faces).
--numFaces arg (=1) Number of faces to be tracked.
--draw arg (=1) Draw metrics on screen.
Video-demo (c++)
Project for demoing the Windows SDK VideoDetector class and PhotoDetector class. It process video or image files, displays the emotion metrics and exports the results in a csv file.
The following command line arguments can be used to run it:
-h [ --help ] Display this help message.
-d [ --data ] arg (=data) Path to the data folder
-i [ --input ] arg Video or photo file to process.
--pfps arg (=30) Processing framerate.
--draw arg (=1) Draw video on screen.
--faceMode arg (=1) Face detector mode (large faces vs small
faces).
--numFaces arg (=1) Number of faces to be tracked.
--loop arg (=0) Loop over the video being processed.
For an example of how to use Affdex in a C# application .. please refer to AffdexMe
Docker Build Instructions
The Dockerfile's are located in the docker directory. To build the docker image please refer to the files for instructions.