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.. _ARM-Linux-cross-compile:
Cross compilation for ARM based Linux systems
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This steps are tested on Ubuntu Linux 12.04, but should work for other Linux distributions.
I case of other distributions package names and names of cross compilation tools may differ.
There are several popular EABI versions that are used on ARM platform. This tutorial is
written for *gnueabi* and *gnueabihf* , but other variants should work with minimal changes.
Prerequisites
=============
* Host computer with Linux;
* Git;
* CMake 2.6 or higher;
* Cross compilation tools for ARM: gcc, libstc++, etc. Depending on target platform you need
to choose *gnueabi* or *gnueabihf* tools.
Install command for *gnueabi* :
.. code-block :: bash
sudo apt-get install gcc-arm-linux-gnueabi
Install command for *gnueabihf* :
.. code-block :: bash
sudo apt-get install gcc-arm-linux-gnueabihf
* pkgconfig;
* Python 2.6 for host system;
* [optional] ffmpeg or libav development packages for armeabi(hf): libavcodec-dev, libavformat-dev, libswscale-dev;
* [optional] GTK+2.x or higher, including headers (libgtk2.0-dev) for armeabi(hf);
* [optional] libdc1394 2.x;
* [optional] libjpeg-dev, libpng-dev, libtiff-dev, libjasper-dev for armeabi(hf).
Getting OpenCV Source Code
==========================
You can use the latest stable OpenCV version available in *sourceforge* or you can grab the latest
snapshot from our `Git repository <https://github.com/Itseez/opencv.git> `_ .
Getting the Latest Stable OpenCV Version
----------------------------------------
* Go to our `page on Sourceforge <http://sourceforge.net/projects/opencvlibrary> `_ ;
* Download the source tarball and unpack it.
Getting the Cutting-edge OpenCV from the Git Repository
-------------------------------------------------------
Launch Git client and clone `OpenCV repository <http://github.com/itseez/opencv> `_
In Linux it can be achieved with the following command in Terminal:
.. code-block :: bash
cd ~/<my_working _directory>
git clone https://github.com/Itseez/opencv.git
Building OpenCV
===============
#. Create a build directory, make it current and run the following command:
.. code-block :: bash
cmake [<some optional parameters> ] -DCMAKE_TOOLCHAIN_FILE=<path to the OpenCV source directory>/platforms/linux/arm-gnueabi.toolchain.cmake <path to the OpenCV source directory>
Toolchain uses *gnueabihf* EABI convention by default. Add `` -DSOFTFP=ON `` cmake argument to switch on softfp compiler.
.. code-block :: bash
cmake [<some optional parameters> ] -DSOFTFP=ON -DCMAKE_TOOLCHAIN_FILE=<path to the OpenCV source directory>/platforms/linux/arm-gnueabi.toolchain.cmake <path to the OpenCV source directory>
For example:
.. code-block :: bash
cd ~/opencv/platforms/linux
mkdir -p build_hardfp
cd build_hardfp
cmake -DCMAKE_TOOLCHAIN_FILE=../arm-gnueabi.toolchain.cmake ../../..
#. Run make in build (<cmake_binary_dir>) directory:
.. code-block :: bash
make
.. note ::
Optionally you can strip symbols info from the created library via install/strip make target.
This option produces smaller binary (~ twice smaller) but makes further debugging harder.
Enable hardware optimizations
-----------------------------
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Depending on target platform architecture different instruction sets can be used. By default
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compiler generates code for armv5l without VFPv3 and NEON extensions. Add `` -DENABLE_VFPV3=ON ``
to cmake command line to enable code generation for VFPv3 and `` -DENABLE_NEON=ON `` for using
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NEON SIMD extensions.
TBB is supported on multi core ARM SoCs also.
Add `` -DWITH_TBB=ON `` and `` -DBUILD_TBB=ON `` to enable it. Cmake scripts download TBB sources
from official project site `<http://threadingbuildingblocks.org/>`_ and build it.