Version 19 (modified by 12 years ago) ( diff ) | ,
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This is how I do it:
NOT COMPLETE! Coming soon…
Note: Unix commands start with $, anything else will be notes, comments. If you see a $ <some_command> The part after slash slash is a comment.
Getting the packages you need with yum:
After doing a fresh desktop install of Fedora these are some packages I usually need:
sudo yum install ant ant-contrib ant-manual autogen automake autoconf boost boost-devel cmake cppunit cppunit-devel cvs gcc-c++ byacc expat-devel fftw flex git subversion libjpeg-turbo-devel freetype freetype-devel fftw-devel java-1.6.0-openjdk-devel libcurl-devel libcurl libpng-devel libpng libtool libXmu libXmu-devel minizip-devel podofo podofo-devel qt qt-devel swig thunderbird xemacs xemacs-common xemacs-info.noarch xemacs-packages-base.noarch xemacs-packages-extra-info.noarch xemacs-packages-extra.noarch yasm yasm-devel zlib-devel
Make a workspace:
I have several workspaces under /work
/work/osgeo /work/geoeye /work/drb
Building
To build the osgeo side:
I have files that I source. One for osgeo one for geoeye. So I can source one or the other and then build test code. So in my bash start up scripts I start with no ossim stuff set. Since we're building osgeo I do:
$ cd cd to home
Source my osgeo setup file. This sets OSSIM_HOME, OSSIM_PREFS_FILE and so on. File contents at end: $ . ossimrc-osgeo
$ cd /work/osgeo
Make the directory(sandbox) for 3rd party dependencies:
$ mkdir local
First time through check out code. Note I don't like to check out the whole trunk so I do pieces.
I always build geos, libtiff, geotiff, gdal from the latest. You don't have to, it's up to you. Most of these you can get from yum but I find the code is usually way behind.
NOTE: Things I build with cmake I use an "out of source" build so I put in a sub directory of the package.
Get/build geos:
$ mkdir /work/osgeo/geos
$ cd !$ last argument of last command
$ svn co http://svn.osgeo.org/geos/trunk geos-svn
$ mkdir build "out of source" build dir
$ cd build
Make a cmake config script
$ xemacs geos-cmake-config.sh Use whatever editor you want, gedit, whatever...
Contents of script:
#!/bin/sh # --- # File: geos-cmake-config.sh # --- build_dir="/work/osgeo"; cmake -G "Unix Makefiles" \ -DCMAKE_BUILD_TYPE=Release \ -DCMAKE_INSTALL_PREFIX=${build_dir}/local \ -DCMAKE_MODULE_PATH=${build_dir}/geos/geos-svn/cmake/modules \ ../geos-svn
Make the script executable:
$ chmod 755 geos-cmake-config.sh
Run the cmake command to set up the build system:
$ ./geos-cmake-config.sh
Make - note the "-j 4" is to use 4 threads. I have a quad core cpu.
$ make -j 4
Install to sandbox:
$ make install Note if your sandbox was on a system slice, i.e. /usr/local you would do: "sudo make install"
End of GEOS
Get/build libtiff
$ cd /work/osgeo
$ cvs -d :pserver:cvsanon@cvs.maptools.org:/cvs/maptools/cvsroot co libtiff
$ cd libtiff
Make a configure script
$ xemacs mylibtiffconfig.sh
Contents of script:
#!/bin/sh # File: mylibtiffconfig.sh prefix=/work/osgeo/local ./configure --prefix=${prefix}
Make the script executable:
$ chmod 755 mylibtiffconfig.sh
Run the cmake command to set up the build system:
$ ./mylibtiffconfig.sh
Make - note the "-j 4" is to use 4 threads. I have a quad core cpu.
$ make -j 4
Install to sandbox:
$ make install Note if your sandbox was on a system slice, i.e. /usr/local you would do: "sudo make install"
End of libtiff
Get geotiff:
At this point we will need ossim_package_support module so get it:
$ cd /work/osgeo
$ svn co http://svn.osgeo.org/ossim/trunk/ossim_package_support ossim_package_support
$ mkdir /work/osgeo/geotiff
$ cd !$
$ svn co http://svn.osgeo.org/metacrs/geotiff/trunk/libgeotiff libgeotiff
$ mkdir build "out of source" build dir
$ cd build
Make a cmake config script
Note my config tell libgeotif to use my libtiff NOT the system libtiff.
$ xemacs libgeotiff-cmake-config.sh Use whatever editor you want, gedit, whatever...
Contents of script:
#!/bin/sh # File: libgeotiff-cmake-config.sh build_dir="/work/osgeo"; cmake -G "Unix Makefiles" \ -DCMAKE_BUILD_TYPE=Release \ -DCMAKE_INCLUDE_PATH=${build_dir}/local/include \ -DCMAKE_INSTALL_PREFIX=${build_dir}/local \ -DCMAKE_LIBRARY_PATH=${build_dir}/local/lib \ -DCMAKE_MODULE_PATH=${build_dir}/ossim_package_support/cmake/CMakeModules \ -DGEOTIFF_ENABLE_INCODE_EPSG=ON \ -DWITH_JPEG=ON \ -DWITH_PROJ4=ON \ -DWITH_TIFF=ON \ -DWITH_ZLIB=ON \ ../libgeotiff/
Make the script executable:
$ chmod 755 libgeotiff-cmake-config.sh
Run the cmake command to set up the build system:
$ ./libgeotiff-cmake-config.sh
Make - note the "-j 4" is to use 4 threads. I have a quad core cpu.
$ make -j 4
Install to sandbox:
$ make install Note if your sandbox was on a system slice, i.e. /usr/local you would do: "sudo make install"
End of geotiff
Get gdal:
$ cd /work/osgeo
svn co http://svn.osgeo.org/gdal/trunk/gdal