HowToBuild

Starting a Fresh Developer's Build

When building FARSIGHT for the first time you will need to set up a development environment. FARSIGHT utilizes several large source libraries so ensure that you have at least 25 GiB of HDD space. For conformity purposes, save the FARSIGHT source code, QT, VXL, ITK, and VTK to C:\Lab (if possible). The following instructions will assume that the source codes will be saved in C:\Lab.

Choose a Compiler For Your OS

Popular choices are gcc/g++ on Linux, Microsoft Visual Studio 2008/2010 on Windows, and XCode* on Mac OS X.

*To install XCode/gcc on Mac OS X you may need to install the XCode development environment. This software should be available on your OS reinstall/recovery disk. At this time only XCode 3.2 is supported as CMake still does not generate appropriate project files for XCode 4

Install CMake

CMake is a tool which generates the makefiles under Linux, the Visual Studio Solution files (.sln) under Windows, or the XCode project files (.xcodeproj) under Mac OS X. It aims to allow developers to build their projects across different platforms with a minimum of reconfiguration.

Note: If you want to take advantage of multicore building in Visual Studio, you can append /MPn, where n is the number of processors you have. (ie. /MP16 for the Dell T5500 Workstations in the lab) to CMAKE_C_FLAGS and CMAKE_CXX_FLAGS at each CMake configuration screen.

To check the number of processors your computer has, call up the command prompt, type "echo NUMBER_OF_PROCESSORS", and the next line will result in a number. Using a number greater than the number of processors you have will seriously slow down the computer.

Build or install Qt

1. Build Qt from source. Download it from here: Windows Qt source code. Linux/Mac Qt source code.
2. Extract the zip file to C:\Lab (or the directory of your choosing).
3. If you want to take advantage of multicore building QT, simply open up <QT root directory>\mkspecs\win32-msvc2008\qmake.conf and add -MP<number of processors> to the end of QMAKE_CFLAGS

Multicore building QT (-MP16 represents 16 processors)

For Visual Studio 2008/2010:

1. Go to Start->All Programs->Microsoft Visual Studio 2008->Visual Studio Tools->Visual Studio 2008 x64 Win64 Command Prompt
2. cd to the directory where you unzipped the QT source (Auto-complete key: tab)
   

   Go to the QT root directory in the Visual Studio 2008 x64 Win64 command prompt.
3. Run "configure" (see figure below) (This should take about 5 minutes or more. Reading material as you wait.)
4. Run "nmake" Take a coffee break. This step will take at least 30 minutes.
   • If you made a mistake somewhere, you can start from scratch by typing "nmake confclean"

Download Boost

1. Download the Boost C++ libraries from the Boost download page.
   • Make sure you download the actual source file and not the documentation (The documentation will have pdf in its name.)
     

     Boost download page
2. Unzip it to C:\Lab (or a directory of your choosing).

You do not need to compile it.

Install Subversion

SVN is a version control system used to manage the source code.

TortoiseSVN x64 is a popular choice for Windows that integrates into the OS.

Additional source libraries require GIT

Download the latest TortoiseSVN x64

Download FARSIGHT source code

1. Go to C:\Lab
2. Right-click to view the folder menu.
3. Click SVN Checkout and a window will pop up.

You can check out a copy of FARSIGHT from the following location:

NEW SVN Repository is located at:
https://farsight-svn.ee.uh.edu/repos/farsight/

SVN Checkout Farsight to the desired folder.

The old Repository is locked to changes as of 2/17/2011
svn://www.openworld.rpi.edu/repos/farsight 

The main line of development is in the "trunk" subdirectory. If you're not interested in downloading test data or branch versions, you can download only the source code by appending "/trunk" to the above path.

https://farsight-svn.ee.uh.edu/repos/farsight/trunk

After all libraries and source codes have been downloaded, continue with the instructions below:

SuperBuild Instructions

Superbuild has been deprecated. Don't ask for it.

Manual Source Libraries Configuration

Build VXL

1. Download the latest stable release of VXL from Vision-something-Libraries.
   

   VXL download page
2. Unzip the file to C:\Lab.
3. Run CMake.
4. Specify the source folder and binary folder.
5. Configure
6. Specify the generator for this project: Visual Studio 9 2008 Win64
7. (optional) For speed optimization in Visual Studio, append -MP<number of processors> to CMAKE_C_FLAGS and CMAKE_CXX_FLAGS as shown in the figure to the right.
   

   

   Multicore building VXL
8. Turn the following options OFF:
   • BUILD_BRL
   • BUILD_CONVERSIONS
   • BUILD_EXAMPLES
   • BUILD_GEL
   • BUILD_OUL
   • BUILD_OXL
   • BUILD_PRIP
   • BUILD_TBL
   • BUILD_TESTING
     

     

     CMake VXL
9. Turn the following options ON:
   • BUILD_RPL_RGTL
10. Click configure and then turn the following option ON:
    • BUILD_RPL_RTVL (will show up in pink)
11. Configure again and then Generate
12. Go to the VXL binary folder and open the solution file (vxl.sln).
13. Go to the main menu bar: Build->Batch Build
14. Turn ON the following options under ALL_BUILD:
    • Debug|x64
    • Release|x64
      

      Batch Build VXL
15. Build
16. As you wait, play some Starcraft 2.

Build ITKv4

Download ITKv4 by going to: (Start -> Git Bash in search box)

cd /c/Lab

git clone git://itk.org/ITK.git
cd ITK
git checkout v4.0a09
git submodule update

1. Run CMake.
2. Specify the source folder and binary folder.
3. Configure
4. Specify the generator for this project: Visual Studio 9 2008 Win64
5. An error will show up in the CMake log complaining about BUILD_TESTING being on.
6. (optional) For speed optimization in Visual Studio, append -MP<number of processors> to CMAKE_C_FLAGS and CMAKE_CXX_FLAGS as shown in the figure to the right.
   

   

   Multicore building ITKv4. Make sure you change the number according to the number of processors you have! (ie. /MP8)
7. Turn OFF the following:
   • BUILD_TESTING
   • BUILD_EXAMPLES
8. Configure again.
9. Turn ON the following:
   • ITKGroup_* or ITK_BUILD_ALL_MODULES
   • ITK_USE_64BITS_IDS
   • ITK_USE_REVIEW
     • Do NOT turn on ITK_USE_SYSTEM_VXL as documented in the old FARSIGHT_HowToBuild guide
10. Configure again and then Generate
11. Go to the ITK binary folder and open the solution file (ITK.sln).
12. Go to the file toolbar: Build->Batch Build
    

    

    Batch Build ITK
13. Turn ON the following options under ALL_BUILD:
    • Debug|x64
    • Release|x64
14. Build
15. As you wait, poke your neighbor.

CMakeList files may need to be edited to use ${ITK_LIBRARIES} instead of ITKCommon, ITKIO, ITKBasicFilter.... etc, otherwise you will get errors like "Cannot open file: ITKCommon.lib"

See FARSIGHT_Tutorials/Building_Software if you'd like to enable Python wrapping for ITK.

Build VTK

1. Download the source code from the VTK download page
   • (Alternatively, you can access the latest development version of VTK using git. This will allow you to use some additional Qt views in FARSIGHT, but the git version of VTK is less stable than the latest release. Instructions on how to access the VTK git repository are on the same VTK download page linked above.)
   • If you want to run TraceEditor, you MUST build the VTK nightly via GIT.
     

     VTK download page
     .
2. Create a VTK folder in C:\Lab and extract the VTK zip file into it.
3. Run CMake.
4. Configure
5. Specify the generator for this project: Visual Studio 9 2008 Win64
6. (optional) For speed optimization in Visual Studio, append -MP<number of processors> to CMAKE_C_FLAGS and CMAKE_CXX_FLAGS as shown in the figure to the right.
   

   

   Multicore building VTK
7. Turn OFF the following options:
   • BUILD_DOCUMENTATION
   • BUILD_EXAMPLES
   • BUILD_SHARED_LIBS
   • BUILD_TESTING
8. Turn ON the following options:
   • VTK_USE_BOOST
   • VTK_USE_GUISUPPORT
   • VTK_USE_QT
   • VTK_USE_QTCHARTS (only if you are building VTK nightly via GIT)
9. Configure
   • An error may appear about QT_QMAKE_EXECUTABLE not being found. Simply provide the path to qmake.exe (should be <QT root directory>/bin/qmake.exe)
10. Generate
11. Go to the VTK binary folder and open the solution file (VTK.sln).
12. Go to the file toolbar: Build->Batch Build
    

    

    Batch Build VTK
13. Turn ON the following options under ALL_BUILD:
    • Debug|x64
    • Release|x64
14. Build
15. As you wait, take a nice long shower.

Configure and Build FARSIGHT

Run CMake and set your desired modules to ON. CMake will then tell you if you are missing any libraries. Some modules need glut. Therefore, set the desired locations properly for: GLUT_INCLUDE_DIR, (ex: C:/Program Files/Microsoft Visual Studio 8/VC/PlatformSDK/Include/gl) and GLUT_glut_LIBRARY (ex: C:/Program Files/Microsoft Visual Studio 8/VC/PlatformSDK/Include/gl/glut32.lib)

If FTKImage fails to build, go to:

• properties
  • configuration properties
    • C/C++ and under 'Additional options:' add "/bigobj:

• THE PACKAGE project does not build automatically, but can be selected and build.
  • It requires some type of platform specific program for creating install packages.
    • Build PACKAGE to create an install file of Farsight.

Note: If running the executable results in the following error: 
"QtGui4.dll was not found"
you may need to add the QT bin directory to the system path on your OS.

Checking the Quality Dashboard

When you start contributing code you can monitor if code and tests you build are compiling correctly on the dashboard machines here: http://cdash.org/CDash/index.php?project=Farsight

You can also submit an experimental build or set up automated builds .