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Learning OpenCV 3 Computer Vision with Python (Update)
Learning OpenCV 3 Computer Vision with Python (Update)

Learning OpenCV 3 Computer Vision with Python (Update): Unleash the power of computer vision with Python using OpenCV

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Profile Icon Joe Minichino Profile Icon Joseph Howse
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Arrow left icon
Profile Icon Joe Minichino Profile Icon Joseph Howse
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Full star icon Full star icon Half star icon Empty star icon Empty star icon 2.1 (7 Ratings)
Paperback Sep 2015 266 pages 1st Edition
eBook
zł59.99 zł177.99
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Learning OpenCV 3 Computer Vision with Python (Update)

Chapter 1. Setting Up OpenCV

You picked up this book so you may already have an idea of what OpenCV is. Maybe, you heard of Sci-Fi-sounding features, such as face detection, and got intrigued. If this is the case, you've made the perfect choice. OpenCV stands for Open Source Computer Vision. It is a free computer vision library that allows you to manipulate images and videos to accomplish a variety of tasks from displaying the feed of a webcam to potentially teaching a robot to recognize real-life objects.

In this book, you will learn to leverage the immense potential of OpenCV with the Python programming language. Python is an elegant language with a relatively shallow learning curve and very powerful features. This chapter is a quick guide to setting up Python 2.7, OpenCV, and other related libraries. After setup, we also look at OpenCV's Python sample scripts and documentation.

Note

If you wish to skip the installation process and jump right into action, you can download the virtual machine (VM) I've made available at http://techfort.github.io/pycv/.

This file is compatible with VirtualBox, a free-to-use virtualization application that lets you build and run VMs. The VM I've built is based on Ubuntu Linux 14.04 and has all the necessary software installed so that you can start coding right away.

This VM requires at least 2 GB of RAM to run smoothly, so make sure that you allocate at least 2 (but, ideally, more than 4) GB of RAM to the VM, which means that your host machine will need at least 6 GB of RAM to sustain it.

The following related libraries are covered in this chapter:

  • NumPy: This library is a dependency of OpenCV's Python bindings. It provides numeric computing functionality, including efficient arrays.
  • SciPy: This library is a scientific computing library that is closely related to NumPy. It is not required by OpenCV, but it is useful for manipulating data in OpenCV images.
  • OpenNI: This library is an optional dependency of OpenCV. It adds the support for certain depth cameras, such as Asus XtionPRO.
  • SensorKinect: This library is an OpenNI plugin and optional dependency of OpenCV. It adds support for the Microsoft Kinect depth camera.

For this book's purposes, OpenNI and SensorKinect can be considered optional. They are used throughout Chapter 4, Depth Estimation and Segmentation, but are not used in the other chapters or appendices.

Note

This book focuses on OpenCV 3, the new major release of the OpenCV library. All additional information about OpenCV is available at http://opencv.org, and its documentation is available at http://docs.opencv.org/master.

Choosing and using the right setup tools

We are free to choose various setup tools, depending on our operating system and how much configuration we want to do. Let's take an overview of the tools for Windows, Mac, Ubuntu, and other Unix-like systems.

Installation on Windows

Windows does not come with Python preinstalled. However, installation wizards are available for precompiled Python, NumPy, SciPy, and OpenCV. Alternatively, we can build from a source. OpenCV's build system uses CMake for configuration and either Visual Studio or MinGW for compilation.

If we want support for depth cameras, including Kinect, we should first install OpenNI and SensorKinect, which are available as precompiled binaries with installation wizards. Then, we must build OpenCV from a source.

Note

The precompiled version of OpenCV does not offer support for depth cameras.

On Windows, OpenCV 2 offers better support for 32-bit Python than 64-bit Python; however, with the majority of computers sold today being 64-bit systems, our instructions will refer to 64-bit. All installers have 32-bit versions available from the same site as the 64-bit.

Some of the following steps refer to editing the system's PATH variable. This task can be done in the Environment Variables window of Control Panel.

  1. On Windows Vista / Windows 7 / Windows 8, click on the Start menu and launch Control Panel. Now, navigate to System and Security | System | Advanced system settings. Click on the Environment Variables… button.
  2. On Windows XP, click on the Start menu and navigate to Control Panel | System. Select the Advanced tab. Click on the Environment Variables… button.
  3. Now, under System variables, select Path and click on the Edit… button.
  4. Make changes as directed.
  5. To apply the changes, click on all the OK buttons (until we are back in the main window of Control Panel).
  6. Then, log out and log back in (alternatively, reboot).

Using binary installers (no support for depth cameras)

You can choose to install Python and its related libraries separately if you prefer; however, there are Python distributions that come with installers that will set up the entire SciPy stack (which includes Python and NumPy), which make it very trivial to set up the development environment.

One such distribution is Anaconda Python (downloadable at http://09c8d0b2229f813c1b93­c95ac804525aac4b6dba79b00b39d1d3.r79.cf1.rackcdn.com/Anaconda-2.1.0­Windows-x86_64.exe). Once the installer is downloaded, run it and remember to add the path to the Anaconda installation to your PATH variable following the preceding procedure.

Here are the steps to set up Python7, NumPy, SciPy, and OpenCV:

  1. Download and install the 32-bit Python 2.7.9 from https://www.python.org/ftp/python/2.7.9/python-2.7.9.amd64.msi.
  2. Download and install NumPy 1.6.2 from http://www.lfd.uci.edu/~gohlke/pythonlibs/#numpyhttp://sourceforge.net/projects/numpy/files/NumPy/1.6.2/numpy-1.6.2-win32-superpack-python2.7.exe/download (note that installing NumPy on Windows 64-bit is a bit tricky due to the lack of a 64-bit Fortran compiler on Windows, which NumPy depends on. The binary at the preceding link is unofficial).
  3. Download and install SciPy 11.0 from http://www.lfd.uci.edu/~gohlke/pythonlibs/#scipyhttp://sourceforge.net/projects/scipy/files/scipy/0.11.0/scipy-0.11.0­win32-superpack-python2.7.exe/download (this is the same as NumPy and these are community installers).
  4. Download the self-extracting ZIP of OpenCV 3.0.0 from https://github.com/Itseez/opencv. Run this ZIP, and when prompted, enter a destination folder, which we will refer to as <unzip_destination>. A subfolder, <unzip_destination>\opencv, is created.
  5. Copy <unzip_destination>\opencv\build\python\2.7\cv2.pyd to C:\Python2.7\Lib\site-packages (assuming that we had installed Python 2.7 to the default location). If you installed Python 2.7 with Anaconda, use the Anaconda installation folder instead of the default Python installation. Now, the new Python installation can find OpenCV.
  6. A final step is necessary if we want Python scripts to run using the new Python installation by default. Edit the system's PATH variable and append ;C:\Python2.7 (assuming that we had installed Python 2.7 to the default location) or your Anaconda installation folder. Remove any previous Python paths, such as ;C:\Python2.6. Log out and log back in (alternatively, reboot).

Using CMake and compilers

Windows does not come with any compilers or CMake. We need to install them. If we want support for depth cameras, including Kinect, we also need to install OpenNI and SensorKinect.

Let's assume that we have already installed 32-bit Python 2.7, NumPy, and SciPy either from binaries (as described previously) or from a source. Now, we can proceed with installing compilers and CMake, optionally installing OpenNI and SensorKinect, and then building OpenCV from the source:

  1. Download and install CMake 3.1.2 from http://www.cmake.org/files/v3.1/cmake-3.1.2-win32-x86.exe. When running the installer, select either Add CMake to the system PATH for all users or Add CMake to the system PATH for current user. Don't worry about the fact that a 64-bit version of CMake is not available CMake is only a configuration tool and does not perform any compilations itself. Instead, on Windows, it creates project files that can be opened with Visual Studio.
  2. Download and install Microsoft Visual Studio 2013 (the Desktop edition if you are working on Windows 7) from https://www.visualstudio.com/products/free-developer-offers-vs.aspx?slcid=0x409&type=web or MinGW.

    Note that you will need to sign in with your Microsoft account and if you don't have one, you can create one on the spot. Install the software and reboot after installation is complete.

    For MinGW, get the installer from http://sourceforge.net/projects/mingw/files/Installer/mingw-get-setup.exe/download and http://sourceforge.net/projects/mingw/files/OldFiles/mingw-get-inst/mingw-get-inst-20120426/mingw-get-inst-20120426.exe/download. When running the installer, make sure that the destination path does not contain spaces and that the optional C++ compiler is included. Edit the system's PATH variable and append ;C:\MinGW\bin (assuming that MinGW is installed to the default location). Reboot the system.

  3. Optionally, download and install OpenNI 1.5.4.0 from the links provided in the GitHub homepage of OpenNI at https://github.com/OpenNI/OpenNI.
  4. You can download and install SensorKinect 0.93 from https://github.com/avin2/SensorKinect/blob/unstable/Bin/SensorKinect093-Bin-Win32-v5.1.2.1.msi?raw=true (32-bit). Alternatively, for 64-bit Python, download the setup from https://github.com/avin2/SensorKinect/blob/unstable/Bin/SensorKinect093-Bin-Win64-v5.1.2.1.msi?raw=true (64-bit). Note that this repository has been inactive for more than three years.
  5. Download the self-extracting ZIP of OpenCV 3.0.0 from https://github.com/Itseez/opencv. Run the self-extracting ZIP, and when prompted, enter any destination folder, which we will refer to as <unzip_destination>. A subfolder, <unzip_destination>\opencv, is then created.
  6. Open Command Prompt and make another folder where our build will go using this command:
    > mkdir<build_folder>
    

    Change the directory of the build folder:

    > cd <build_folder>
    
  7. Now, we are ready to configure our build. To understand all the options, we can read the code in <unzip_destination>\opencv\CMakeLists.txt. However, for this book's purposes, we only need to use the options that will give us a release build with Python bindings, and optionally, depth camera support via OpenNI and SensorKinect.
  8. Open CMake (cmake-gui) and specify the location of the source code of OpenCV and the folder where you would like to build the library. Click on Configure. Select the project to be generated. In this case, select Visual Studio 12 (which corresponds to Visual Studio 2013). After CMake has finished configuring the project, it will output a list of build options. If you see a red background, it means that your project may need to be reconfigured: CMake might report that it has failed to find some dependencies. Many of OpenCV's dependencies are optional, so do not be too concerned yet.

    Note

    If the build fails to complete or you run into problems later, try installing missing dependencies (often available as prebuilt binaries), and then rebuild OpenCV from this step.

    You have the option of selecting/deselecting build options (according to the libraries you have installed on your machine) and click on Configure again, until you get a clear background (white).

  9. At the end of this process, you can click on Generate, which will create an OpenCV.sln file in the folder you've chosen for the build. You can then navigate to <build_folder>/OpenCV.sln and open the file with Visual Studio 2013, and proceed with building the project, ALL_BUILD. You will need to build both the Debug and Release versions of OpenCV, so go ahead and build the library in the Debug mode, then select Release and rebuild it (F7 is the key to launch the build).
  10. At this stage, you will have a bin folder in the OpenCV build directory, which will contain all the generated .dll files that will allow you to include OpenCV in your projects.

    Alternatively, for MinGW, run the following command:

    > cmake -D:CMAKE_BUILD_TYPE=RELEASE -D:WITH_OPENNI=ON -G "MinGWMakefiles" <unzip_destination>\opencv
    

    If OpenNI is not installed, omit -D:WITH_OPENNI=ON. (In this case, depth cameras will not be supported.) If OpenNI and SensorKinect are installed to nondefault locations, modify the command to include -D:OPENNI_LIB_DIR=<openni_install_destination>\Lib -D:OPENNI_INCLUDE_DIR=<openni_install_destination>\Include -D:OPENNI_PRIME_SENSOR_MODULE_BIN_DIR=<sensorkinect_install_destination>\Sensor\Bin.

    Alternatively, for MinGW, run this command:

    > mingw32-make
    
  11. Copy <build_folder>\lib\Release\cv2.pyd (from a Visual Studio build) or <build_folder>\lib\cv2.pyd (from a MinGW build) to <python_installation_folder>\site-packages.
  12. Finally, edit the system's PATH variable and append ;<build_folder>/bin/Release (for a Visual Studio build) or ;<build_folder>/bin (for a MinGW build). Reboot your system.

Installing on OS X

Some versions of Mac used to come with a version of Python 2.7 preinstalled that were customized by Apple for a system's internal needs. However, this has changed and the standard version of OS X ships with a standard installation of Python. On python.org, you can also find a universal binary that is compatible with both the new Intel systems and the legacy PowerPC.

Note

You can obtain this installer at https://www.python.org/downloads/release/python-279/ (refer to the Mac OS X 32-bit PPC or the Mac OS X 64-bit Intel links). Installing Python from the downloaded .dmg file will simply overwrite your current system installation of Python.

For Mac, there are several possible approaches for obtaining standard Python 2.7, NumPy, SciPy, and OpenCV. All approaches ultimately require OpenCV to be compiled from a source using Xcode Developer Tools. However, depending on the approach, this task is automated for us in various ways by third-party tools. We will look at these kinds of approaches using MacPorts or Homebrew. These tools can potentially do everything that CMake can, plus they help us resolve dependencies and separate our development libraries from system libraries.

Tip

I recommend MacPorts, especially if you want to compile OpenCV with depth camera support via OpenNI and SensorKinect. Relevant patches and build scripts, including some that I maintain, are ready-made for MacPorts. By contrast, Homebrew does not currently provide a ready-made solution to compile OpenCV with depth camera support.

Before proceeding, let's make sure that the Xcode Developer Tools are properly set up:

  1. Download and install Xcode from the Mac App Store or https://developer.apple.com/xcode/downloads/. During installation, if there is an option to install Command Line Tools, select it.
  2. Open Xcode and accept the license agreement.
  3. A final step is necessary if the installer does not give us the option to install Command Line Tools. Navigate to Xcode | Preferences | Downloads, and click on the Install button next to Command Line Tools. Wait for the installation to finish and quit Xcode.

Alternatively, you can install Xcode command-line tools by running the following command (in the terminal):

$ xcode-select –install

Now, we have the required compilers for any approach.

Using MacPorts with ready-made packages

We can use the MacPorts package manager to help us set up Python 2.7, NumPy, and OpenCV. MacPorts provides terminal commands that automate the process of downloading, compiling, and installing various pieces of open source software (OSS). MacPorts also installs dependencies as needed. For each piece of software, the dependencies and build recipes are defined in a configuration file called a Portfile. A MacPorts repository is a collection of Portfiles.

Starting from a system where Xcode and its command-line tools are already set up, the following steps will give us an OpenCV installation via MacPorts:

  1. Download and install MacPorts from http://www.macports.org/install.php.
  2. If you want support for the Kinect depth camera, you need to tell MacPorts where to download the custom Portfiles that I have written. To do so, edit /opt/local/etc/macports/sources.conf (assuming that MacPorts is installed to the default location). Just above the line, rsync://rsync.macports.org/release/ports/ [default], add the following line:
    http://nummist.com/opencv/ports.tar.gz

    Save the file. Now, MacPorts knows that it has to search for Portfiles in my online repository first, and then the default online repository.

  3. Open the terminal and run the following command to update MacPorts:
    $ sudo port selfupdate
    

    When prompted, enter your password.

  4. Now (if we are using my repository), run the following command to install OpenCV with Python 2.7 bindings and support for depth cameras, including Kinect:
    $ sudo port install opencv +python27 +openni_sensorkinect
    

    Alternatively (with or without my repository), run the following command to install OpenCV with Python 2.7 bindings and support for depth cameras, excluding Kinect:

    $ sudo port install opencv +python27 +openni
    

    Note

    Dependencies, including Python 2.7, NumPy, OpenNI, and (in the first example) SensorKinect, are automatically installed as well.

    By adding +python27 to the command, we specify that we want the opencv variant (build configuration) with Python 2.7 bindings. Similarly, +openni_sensorkinect specifies the variant with the broadest possible support for depth cameras via OpenNI and SensorKinect. You may omit +openni_sensorkinect if you do not intend to use depth cameras, or you may replace it with +openni if you do intend to use OpenNI-compatible depth cameras but just not Kinect. To see the full list of the available variants before installing, we can enter the following command:

    $ port variants opencv
    

    Depending on our customization needs, we can add other variants to the install command. For even more flexibility, we can write our own variants (as described in the next section).

  5. Also, run the following command to install SciPy:
    $ sudo port install py27-scipy
    
  6. The Python installation's executable is named python2.7. If we want to link the default python executable to python2.7, let's also run this command:
    $ sudo port install python_select
    $ sudo port select python python27
    

Using MacPorts with your own custom packages

With a few extra steps, we can change the way that MacPorts compiles OpenCV or any other piece of software. As previously mentioned, MacPorts' build recipes are defined in configuration files called Portfiles. By creating or editing Portfiles, we can access highly configurable build tools, such as CMake, while also benefitting from MacPorts' features, such as dependency resolution.

Let's assume that we already have MacPorts installed. Now, we can configure MacPorts to use the custom Portfiles that we write:

  1. Create a folder somewhere to hold our custom Portfiles. We will refer to this folder as <local_repository>.
  2. Edit the /opt/local/etc/macports/sources.conf file (assuming that MacPorts is installed to the default location). Just above the rsync://rsync.macports.org/release/ports/ [default] line, add this line:
    file://<local_repository>

    For example, if <local_repository> is /Users/Joe/Portfiles, add the following line:

    file:///Users/Joe/Portfiles

    Note the triple slashes and save the file. Now, MacPorts knows that it has to search for Portfiles in <local_repository> first, and then, its default online repository.

  3. Open the terminal and update MacPorts to ensure that we have the latest Portfiles from the default repository:
    $ sudo port selfupdate
    
  4. Let's copy the default repository's opencv Portfile as an example. We should also copy the directory structure, which determines how the package is categorized by MacPorts:
    $ mkdir <local_repository>/graphics/
    $ cp /opt/local/var/macports/sources/rsync.macports.org/release/ports/graphics/opencv <local_repository>/graphics
    

    Alternatively, for an example that includes Kinect support, we could download my online repository from http://nummist.com/opencv/ports.tar.gz, unzip it, and copy its entire graphics folder into <local_repository>:

    $ cp <unzip_destination>/graphics <local_repository>
    
  5. Edit <local_repository>/graphics/opencv/Portfile. Note that this file specifies the CMake configuration flags, dependencies, and variants. For details on the Portfile editing, go to http://guide.macports.org/#development.

    To see which CMake configuration flags are relevant to OpenCV, we need to look at its source code. Download the source code archive from https://github.com/Itseez/opencv/archive/3.0.0.zip, unzip it to any location, and read <unzip_destination>/OpenCV-3.0.0/CMakeLists.txt.

    After making any edits to the Portfile, save it.

  6. Now, we need to generate an index file in our local repository so that MacPorts can find the new Portfile:
    $ cd <local_repository>
    $ portindex
    
  7. From now on, we can treat our custom opencv file just like any other MacPorts package. For example, we can install it as follows:
    $ sudo port install opencv +python27 +openni_sensorkinect
    

    Note that our local repository's Portfile takes precedence over the default repository's Portfile because of the order in which they are listed in /opt/local/etc/macports/sources.conf.

Using Homebrew with ready-made packages (no support for depth cameras)

Homebrew is another package manager that can help us. Normally, MacPorts and Homebrew should not be installed on the same machine.

Starting from a system where Xcode and its command-line tools are already set up, the following steps will give us an OpenCV installation via Homebrew:

  1. Open the terminal and run the following command to install Homebrew:
    $ ruby -e "$(curl -fsSkLraw.github.com/mxcl/homebrew/go)"
    
  2. Unlike MacPorts, Homebrew does not automatically put its executables in PATH. To do so, create or edit the ~/.profile file and add this line at the top of the code:
    export PATH=/usr/local/bin:/usr/local/sbin:$PATH
    

    Save the file and run this command to refresh PATH:

    $ source ~/.profile
    

    Note that executables installed by Homebrew now take precedence over executables installed by the system.

  3. For Homebrew's self-diagnostic report, run the following command:
    $ brew doctor
    

    Follow any troubleshooting advice it gives.

  4. Now, update Homebrew:
    $ brew update
    
  5. Run the following command to install Python 2.7:
    $ brew install python
    
  6. Now, we can install NumPy. Homebrew's selection of the Python library packages is limited, so we use a separate package management tool called pip, which comes with Homebrew's Python:
    $ pip install numpy
    
  7. SciPy contains some Fortran code, so we need an appropriate compiler. We can use Homebrew to install the gfortran compiler:
    $ brew install gfortran
    

    Now, we can install SciPy:

    $ pip install scipy
    
  8. To install OpenCV on a 64-bit system (all new Mac hardware since late 2006), run the following command:
    $ brew install opencv
    

Tip

Downloading the example code

You can download the example code files for all Packt Publishing books that you have purchased from your account at http://www.packtpub.com. If you purchased this book elsewhere, you can visit http://www.packtpub.com/support and register to have the files e-mailed directly to you.

Using Homebrew with your own custom packages

Homebrew makes it easy to edit existing package definitions:

$ brew edit opencv

The package definitions are actually scripts in the Ruby programming language. Tips on editing them can be found on the Homebrew Wiki page at https://github.com/mxcl/homebrew/wiki/Formula-Cookbook. A script may specify Make or CMake configuration flags, among other things.

To see which CMake configuration flags are relevant to OpenCV, we need to look at its source code. Download the source code archive from https://github.com/Itseez/opencv/archive/3.0.0.zip, unzip it to any location, and read <unzip_destination>/OpenCV-2.4.3/CMakeLists.txt.

After making edits to the Ruby script, save it.

The customized package can be treated as normal. For example, it can be installed as follows:

$ brew install opencv

Installation on Ubuntu and its derivatives

First and foremost, here is a quick note on Ubuntu's versions of an operating system: Ubuntu has a 6-month release cycle in which each release is either a .04 or a .10 minor version of a major version (14 at the time of writing). Every two years, however, Ubuntu releases a version classified as long-term support (LTS) which will grant you a five year support by Canonical (the company behind Ubuntu). If you work in an enterprise environment, it is certainly advisable to install one of the LTS versions. The latest one available is 14.04.

Ubuntu comes with Python 2.7 preinstalled. The standard Ubuntu repository contains OpenCV 2.4.9 packages without support for depth cameras. At the time of writing this, OpenCV 3 is not yet available through the Ubuntu repositories, so we will have to build it from source. Fortunately, the vast majority of Unix-like and Linux systems come with all the necessary software to build a project from scratch already installed. When built from source, OpenCV can support depth cameras via OpenNI and SensorKinect, which are available as precompiled binaries with installation scripts.

Using the Ubuntu repository (no support for depth cameras)

We can install Python and all its necessary dependencies using the apt package manager, by running the following commands:

> sudo apt-get install build-essential
> sudo apt-get install cmake git libgtk2.0-dev pkg-config libavcodec­dev libavformat-dev libswscale-dev 
> sudo apt-get install python-dev python-numpy libtbb2 libtbb-dev libjpeg-dev libpng-dev libtiff-dev libjasper-dev libdc1394-22-dev

Equivalently, we could have used Ubuntu Software Center, which is the apt package manager's graphical frontend.

Building OpenCV from a source

Now that we have the entire Python stack and cmake installed, we can build OpenCV. First, we need to download the source code from https://github.com/Itseez/opencv/archive/3.0.0-beta.zip.

Extract the archive and move it into the unzipped folder in a terminal.

Then, run the following commands:

> mkdir build
> cd build
> cmake -D CMAKE_BUILD_TYPE=Release -D CMAKE_INSTALL_PREFIX=/usr/local ..
> make
> make install

After the installation terminates, you might want to look at OpenCV's Python samples in <opencv_folder>/opencv/samples/python and <script_folder>/opencv/samples/python2.

Installation on other Unix-like systems

The approaches for Ubuntu (as described previously) are likely to work on any Linux distribution derived from Ubuntu 14.04 LTS or Ubuntu 14.10 as follows:

  • Kubuntu 14.04 LTS or Kubuntu 14.10
  • Xubuntu 14.04 LTS or Xubuntu 14.10
  • Linux Mint 17

On Debian Linux and its derivatives, the apt package manager works the same as on Ubuntu, though the available packages may differ.

On Gentoo Linux and its derivatives, the Portage package manager is similar to MacPorts (as described previously), though the available packages may differ.

On FreeBSD derivatives, the process of installation is again similar to MacPorts; in fact, MacPorts derives from the ports installation system adopted on FreeBSD. Consult the remarkable FreeBSD Handbook at https://www.freebsd.org/doc/handbook/ for an overview of the software installation process.

On other Unix-like systems, the package manager and available packages may differ. Consult your package manager's documentation and search for packages with opencv in their names. Remember that OpenCV and its Python bindings might be split into multiple packages.

Also, look for any installation notes published by the system provider, the repository maintainer, or the community. Since OpenCV uses camera drivers and media codecs, getting all of its functionality to work can be tricky on systems with poor multimedia support. Under some circumstances, system packages might need to be reconfigured or reinstalled for compatibility.

If packages are available for OpenCV, check their version number. OpenCV 3 or higher is recommended for this book's purposes. Also, check whether the packages offer Python bindings and depth camera support via OpenNI and SensorKinect. Finally, check whether anyone in the developer community has reported success or failure in using the packages.

If, instead, we want to do a custom build of OpenCV from source, it might be helpful to refer to the installation script for Ubuntu (as discussed previously) and adapt it to the package manager and packages that are present on another system.

Installing the Contrib modules

Unlike with OpenCV 2.4, some modules are contained in a repository called opencv_contrib, which is available at https://github.com/Itseez/opencv_contrib. I highly recommend installing these modules as they contain extra functionalities that are not included in OpenCV, such as the face recognition module.

Once downloaded (either through zip or git, I recommend git so that you can keep up to date with a simple git pull command), you can rerun your cmake command to include the building of OpenCV with the opencv_contrib modules as follows:

cmake -DOPENCV_EXTRA_MODULES_PATH=<opencv_contrib>/modules <opencv_source_directory>

So, if you've followed the standard procedure and created a build directory in your OpenCV download folder, you should run the following command:

mkdir build && cd build
cmake -D CMAKE_BUILD_TYPE=Release -DOPENCV_EXTRA_MODULES_PATH=<opencv_contrib>/modules  -D CMAKE_INSTALL_PREFIX=/usr/local ..
make

Running samples

Running a few sample scripts is a good way to test whether OpenCV is correctly set up. The samples are included in OpenCV's source code archive.

On Windows, we should have already downloaded and unzipped OpenCV's self-extracting ZIP. Find the samples in <unzip_destination>/opencv/samples.

On Unix-like systems, including Mac, download the source code archive from https://github.com/Itseez/opencv/archive/3.0.0.zip and unzip it to any location (if we have not already done so). Find the samples in <unzip_destination>/OpenCV-3.0.0/samples.

Some of the sample scripts require command-line arguments. However, the following scripts (among others) should work without any arguments:

  • python/camera.py: This script displays a webcam feed (assuming that a webcam is plugged in).
  • python/drawing.py: This script draws a series of shapes, such as a screensaver.
  • python2/hist.py: This script displays a photo. Press A, B, C, D, or E to see the variations of the photo along with a corresponding histogram of color or grayscale values.
  • python2/opt_flow.py (missing from the Ubuntu package): This script displays a webcam feed with a superimposed visualization of an optical flow (such as the direction of motion). For example, slowly wave your hand at the webcam to see the effect. Press 1 or 2 for alternative visualizations.

To exit a script, press Esc (not the window's close button).

If we encounter the ImportError: No module named cv2.cv message, then this means that we are running the script from a Python installation that does not know anything about OpenCV. There are two possible explanations for this:

  • Some steps in the OpenCV installation might have failed or been missed. Go back and review the steps.
  • If we have multiple Python installations on the machine, we might be using the wrong version of Python to launch the script. For example, on Mac, it might be the case that OpenCV is installed for MacPorts Python, but we are running the script with the system's Python. Go back and review the installation steps about editing the system path. Also, try launching the script manually from the command line using commands such as this:
    $ python python/camera.py
    

    You can also use the following command:

    $ python2.7 python/camera.py
    

    As another possible means of selecting a different Python installation, try editing the sample script to remove the #! lines. These lines might explicitly associate the script with the wrong Python installation (for our particular setup).

Finding documentation, help, and updates

OpenCV's documentation can be found online at http://docs.opencv.org/. The documentation includes a combined API reference for OpenCV's new C++ API, its new Python API (which is based on the C++ API), old C API, and its old Python API (which is based on the C API). When looking up a class or function, be sure to read the section about the new Python API (the cv2 module), and not the old Python API (the cv module).

The documentation is also available as several downloadable PDF files:

If you write code on airplanes or other places without Internet access, you will definitely want to keep offline copies of the documentation.

If the documentation does not seem to answer your questions, try talking to the OpenCV community. Here are some sites where you will find helpful people:

Lastly, if you are an advanced user who wants to try new features, bug fixes, and sample scripts from the latest (unstable) OpenCV source code, have a look at the project's repository at https://github.com/Itseez/opencv/.

Summary

By now, we should have an OpenCV installation that can do everything we need for the project described in this book. Depending on which approach we took, we might also have a set of tools and scripts that are usable to reconfigure and rebuild OpenCV for our future needs.

We know where to find OpenCV's Python samples. These samples covered a different range of functionalities outside this book's scope, but they are useful as additional learning aids.

In the next chapter, we will familiarize ourselves with the most basic functions of the OpenCV API, namely, displaying images, videos, capturing videos through a webcam, and handling basic keyboard and mouse inputs.

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Description

OpenCV 3 is a state-of-the-art computer vision library that allows a great variety of image and video processing operations. Some of the more spectacular and futuristic features such as face recognition or object tracking are easily achievable with OpenCV 3. Learning the basic concepts behind computer vision algorithms, models, and OpenCV's API will enable the development of all sorts of real-world applications, including security and surveillance. Starting with basic image processing operations, the book will take you through to advanced computer vision concepts. Computer vision is a rapidly evolving science whose applications in the real world are exploding, so this book will appeal to computer vision novices as well as experts of the subject wanting to learn the brand new OpenCV 3.0.0. You will build a theoretical foundation of image processing and video analysis, and progress to the concepts of classification through machine learning, acquiring the technical know-how that will allow you to create and use object detectors and classifiers, and even track objects in movies or video camera feeds. Finally, the journey will end in the world of artificial neural networks, along with the development of a hand-written digits recognition application.

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Publication date : Sep 29, 2015
Length: 266 pages
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Table of Contents

10 Chapters
1. Setting Up OpenCV Chevron down icon Chevron up icon
2. Handling Files, Cameras, and GUIs Chevron down icon Chevron up icon
3. Processing Images with OpenCV 3 Chevron down icon Chevron up icon
4. Depth Estimation and Segmentation Chevron down icon Chevron up icon
5. Detecting and Recognizing Faces Chevron down icon Chevron up icon
6. Retrieving Images and Searching Using Image Descriptors Chevron down icon Chevron up icon
7. Detecting and Recognizing Objects Chevron down icon Chevron up icon
8. Tracking Objects Chevron down icon Chevron up icon
9. Neural Networks with OpenCV – an Introduction Chevron down icon Chevron up icon
Index Chevron down icon Chevron up icon

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Full star icon Full star icon Half star icon Empty star icon Empty star icon 2.1
(7 Ratings)
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4 star 14.3%
3 star 0%
2 star 14.3%
1 star 57.1%
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G. A. Patino Nov 06, 2015
Full star icon Full star icon Full star icon Full star icon Full star icon 5
This book is a great introduction to both computer vision in general, and OpenCV in Python in particular, but even people familiar with computer vision methods will find it useful to learn how to implement them in the Python ecosystem or how to optimize function parameters. An introductory to intermediate command of Python is assumed. The author's present the different concepts within the context of developing an application, and while the book doesn't follow the cookbook format, by the end you will still have a group of very useful scripts that can easily be applied to other projects. The presentation of the programming scripts is detailed and easy to follow. The authors have taken great care to build the complexity of the scripts slowly and without gaps in the sequencing. The use of each script is very well illustrated with images along the book. My only complaint is that the book is still based on Python 2.7, but the code doesn't seem to require many modifications to run in Python 3
Amazon Verified review Amazon
Amazon Customer Nov 13, 2015
Full star icon Full star icon Full star icon Full star icon Empty star icon 4
Learning OpenCV 3 Computer Vision with Python - Second Edition I have done programming in python and was interested in learning OpenCV. This book did great job in introducing the basic computer Vision programming using python. OpenCV 3 is a computer vision library that is used for a variety of image and video processing operations. Some advance features such as face recognition or object tracking, are easily achievable with OpenCV 3.Overall, I found the book was easy to follow and it even included code examples from the book.
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Garret Vo Jan 19, 2016
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The book attempts to provide an introduction to computer vision with opencv. However, the code is incomplete, and the book is hard to follow. I would not recommend this book for beginners who try to learn opencv with python.
Amazon Verified review Amazon
Amazon Customer Feb 03, 2017
Full star icon Empty star icon Empty star icon Empty star icon Empty star icon 1
Really poor. No one revised the book. Instructions and links don't work. And there is no orientation regarding what to do when things go wrong. I'm be better just googling everything or using free OpenCV docs. Waste of money. Not sure if Amazon accepts returns.
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marco Nov 16, 2015
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I didn`t like the book. The source code is incomplete. There are some mistakes in the code. I gave up the book and gave up Python too.
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