diff --git a/INSTALL b/INSTALL index fc6d7ee74d1..7a3bcacfc9c 100644 --- a/INSTALL +++ b/INSTALL @@ -1,8 +1,10 @@ Quantum GIS (QGIS) Building QGIS from source - step by step -Last update: 20110421 -Last change: 20110307 + +Last update: 20110426 +Last change: 20110404 + 1. Introduction 2. Overview @@ -31,7 +33,6 @@ Last change: 20110307 6. Authors and Acknowledgments - 1. Introduction =============== @@ -84,7 +85,6 @@ Required build tools: - Flex - Bison - Required build deps: - Qt >= 4.4.0 @@ -94,7 +94,6 @@ Required build deps: - GDAL/OGR >= 1.4.x - Qwt >= 5.0 - Optional dependencies: - for GRASS plugin - GRASS >= 6.0.0 (libraries compiled with exceptions support on Linux 32bit) @@ -106,7 +105,6 @@ Optional dependencies: - for qgis mapserver - FastCGI - 3. Building on GNU/Linux ======================== @@ -130,7 +128,7 @@ These instructions should work fine if this is a system that has already been in use for a while, you may need to just skip those steps which are irrelevant to you. -/!\ Note: Refer to the section ''Building Debian packages'' for building +/!\ Note: Refer to the section Building Debian packages for building debian packages. Unless you plan to develop on QGIS, that is probably the easiest option to compile and install QGIS. @@ -149,15 +147,12 @@ all dependencies to be met. Now update your local sources database: - sudo apt-get update - 3.3. Install build dependencies =============================== - || Distribution | install command for packages | | lenny | ``apt-get install bison cmake doxygen flex graphviz grass-dev libexpat1-dev libfcgi-dev libgdal1-dev libgeos-dev libgsl0-dev libpq-dev libqt4-dev libqwt5-qt4-dev libsqlite3-dev pkg-config proj pyqt4-dev-tools python python-dev python-qt4 python-qt4-dev python-sip4-dev sip4 txt2tags`` | | lucid | ``apt-get install bison cmake doxygen flex graphviz grass-dev libexpat1-dev libfcgi-dev libgdal1-dev libgeos-dev libgsl0-dev libpq-dev libproj-dev libqt4-dev libqwt5-qt4-dev libspatialite-dev libsqlite3-dev pkg-config pyqt4-dev-tools python python-dev python-qt4 python-qt4-dev python-sip python-sip-dev txt2tags`` | @@ -175,12 +170,10 @@ point to the Qt3 version not the Qt4. Ubuntu Qt4 and Qt3 packages are designed to live alongside each other. This means that for example if you have them both installed you will have three qmake exe's: - /usr/bin/qmake -> /etc/alternatives/qmake /usr/bin/qmake-qt3 /usr/bin/qmake-qt4 - The same applies to all other Qt binaries. You will notice above that the canonical 'qmake' is managed by apt alternatives, so before we start to build QGIS, we need to make Qt4 the default. To return Qt3 to default later @@ -189,7 +182,6 @@ you can use this same process. You can use apt alternatives to correct this so that the Qt4 version of applications is used in all cases: - sudo update-alternatives --config qmake sudo update-alternatives --config uic sudo update-alternatives --config designer @@ -200,7 +192,6 @@ applications is used in all cases: sudo update-alternatives --config lrelease sudo update-alternatives --config linguist - Use the simple command line dialog that appears after running each of the above commands to select the Qt4 version of the relevant applications. @@ -214,13 +205,11 @@ language bindings you may need to build and install those packages from source. You should also setup ccache to speed up compile times: - cd /usr/local/bin sudo ln -s /usr/bin/ccache gcc sudo ln -s /usr/bin/ccache g++ - 3.5. Prepare your development environment ========================================= @@ -228,11 +217,9 @@ As a convention I do all my development work in $HOME/dev/, so in this case we will create a work environment for C++ development work like this: - mkdir -p ${HOME}/dev/cpp cd ${HOME}/dev/cpp - This directory path will be assumed for all instructions that follow. @@ -246,22 +233,17 @@ if you do not have edit privaleges for the QGIS source repository, or use 1. Anonymous Checkout - cd ${HOME}/dev/cpp svn co https://svn.osgeo.org/qgis/trunk/qgis qgis - 2. Developer Checkout - cd ${HOME}/dev/cpp svn co --username https://svn.osgeo.org/qgis/trunk/qgis qgis - The first time you check out the source you will be prompted to accept the qgis.org certificate. Press 'p' to accept it permanently: - Error validating server certificate for 'https://svn.qgis.org:443': - The certificate is not issued by a trusted authority. Use the fingerprint to validate the certificate manually! Certificate @@ -274,7 +256,6 @@ qgis.org certificate. Press 'p' to accept it permanently: accept (t)emporarily or accept (p)ermanently? - 3.7. Starting the compile ========================= @@ -283,19 +264,15 @@ conflicts with Ubuntu packages that may be under /usr. This way for example you can use the binary packages of QGIS on your system along side with your development version. I suggest you do something similar: - mkdir -p ${HOME}/apps - Now we create a build directory and run ccmake: - cd qgis mkdir build cd build ccmake .. - When you run ccmake (note the .. is required!), a menu will appear where you can configure various aspects of the build. If you do not have root access or do not want to overwrite existing QGIS installs (by your @@ -309,19 +286,15 @@ interactive dialog. Now on with the build: - make make install - It may take a little while to build depending on your platform. After that you can try to run QGIS: - $HOME/apps/bin/qgis - If all has worked properly the QGIS application should start up and appear on your screen. @@ -335,22 +308,16 @@ you'll find a debian directory. First you need to install the debian packaging tools once: - apt-get install build-essential - First you need to create an changelog entry for your distribution. For example for Ubuntu Lucid: - dch -l ~lucid --force-distribution --distribution lucid "lucid build" - The QGIS packages will be created with: - dpkg-buildpackage -us -uc -b - /!\ Note: If dpkg-buildpackage complains about unmet build dependencies you can install them using apt-get and re-run the command. @@ -361,11 +328,9 @@ build conflict. The packages are created in the parent directory (ie. one level up). Install them using dpkg. E.g.: - sudo debi - 3.9. A practical case: Building QGIS and GRASS from source on Ubuntu with ECW and MrSID formats support ======================================================================================================= @@ -381,58 +346,46 @@ installed any previous version of gdal, grass and qgis. First you need to install the necessary packages required to download the source code and compile it. Open the terminal and issue the following command: - sudo apt-get install build-essential g++ subversion - 3.9.2. Step 2: compile and install the ecw libraries ==================================================== Go to the ERDAS web site http://www.erdas.com/ and follow the links -"'''products --> ECW JPEG2000 Codec SDK --> downloads'''" -then download the "'''Image Compression SDK Source Code 3.3'''" (you'll need to make a registration +"'products --> ECW JPEG2000 Codec SDK --> downloads'" +then download the "'Image Compression SDK Source Code 3.3'" (you'll need to make a registration and accept a license). Uncompress the arquive in a proper location (this guide assumes that all the downloaded source code will be placed in the user home) and the enter the newly created folder - cd /libecwj2-3.3 - Compile the code with the standard commands - ./configure - then - make - then - sudo make install - leave the folder - cd .. - 3.9.3. Step 3: download the MrSID binaries ========================================== Go to the LIZARDTECH web site http://www.lizardtech.com/ and follow the links -"'''download --> Developer SDKs'''", -then download the "'''GeoExpress SDK for Linux (x86) - gcc 4.1 32-bit'''" +"'download --> Developer SDKs'", +then download the "'GeoExpress SDK for Linux (x86) - gcc 4.1 32-bit'" (you'll need to make a registration and accept a license). Uncompress the downloaded file. The resulting directory name should be similar to "Geo_DSDK-7.0.0.2167" @@ -443,32 +396,23 @@ Uncompress the downloaded file. The resulting directory name should be similar t Download the latest gdal source code - svn checkout https://svn.osgeo.org/gdal/trunk/gdal gdal - then copy a few files from the MrSID binaries folder to the folder with the gdal source code -('''replace "USERNAME" with your actual account username''') - +('replace "USERNAME" with your actual account username') cp /home/USERNAME/Geo_DSDK-7.0.0.2167/include/*.* /home/USERNAME/gdal/frmts/mrsid/ - enter the gdal source code folder - cd /gdal - and run configure with a few specific parameters - ./configure --without-grass --with-mrsid=../Geo_DSDK-7.0.0.2167 --without-jp2mrsid - at the end of the configuration process you should read something like - ... GRASS support: no ... @@ -478,50 +422,36 @@ at the end of the configuration process you should read something like MrSID support yes ... - then compile normally - make - and - sudo make install - finish the process by creating the necessary links to the most recent shared libraries - sudo ldconfig - at this point you may want to check if gdal was compiled correctly with MrSID and ECW support by issuing one (or both) of the following commands - gdalinfo --formats | grep 'ECW' - - gdalinfo --formats | grep 'SID' - leave the folder - cd .. - 3.9.5. Step 5: compile and install GRASS ======================================== Before downloading and compile GRASS source code you need to install a few other libraries and programs. We can do this trough apt - sudo apt-get install flex bison libreadline5-dev libncurses5-dev lesstif2-dev debhelper dpatch libtiff4-dev \ tcl8.4-dev tk8.4-dev fftw-dev xlibmesa-gl-dev libfreetype6-dev autoconf2.13 autotools-dev \ libgdal1-dev proj libjpeg62-dev libpng12-dev libpq-dev unixodbc-dev doxygen fakeroot cmake \ @@ -529,46 +459,35 @@ other libraries and programs. We can do this trough apt libqt4-dev libgsl0-dev python-qt4 swig python-wxversion python-wxgtk2.8 libwxgtk2.8-0 libwxbase2.8-0 tcl8.4-dev \ tk8.4-dev tk8.4 libfftw3-dev libfftw3-3 - At this point we can get the GRASS source code: you may want to download it trough svn or maybe you want just to download the latest available source code arquive. For example the GRASS 6.4rc4 is available at http://grass.itc.it/grass64/source/grass-6.4.0RC4.tar.gz Uncompress the arquive, enter the newly created folder and run configure with a few specific parameters - CFLAGS="-fexceptions" ./configure --with-tcltk-includes=/usr/include/tcl8.4 --with-proj-share=/usr/share/proj --with-gdal=/usr/local/bin/gdal-config \ --with-python=/usr/bin/python2.5-config - The additional gcc option -fexceptions is necessary to enable exceptions support in GRASS libraries. It is currently the only way to avoid QGIS crashes if a fatal error happens in GRASS library. See also http://trac.osgeo.org/grass/ticket/869 Then as usual (it will take a while) - make - and - sudo make install - leave the folder - cd .. - you have now compiled and installed GRASS (also with the new wxpyhton interface) so you may want to give it a try - grass64 -wxpython - 3.9.6. Step 6: compile and install QGIS ======================================= @@ -580,24 +499,18 @@ For example download the QGIS 1.1.0 source code here http://download.osgeo.org/q uncompress the arquive and enter the newly created folder - cd /qgis_1.1.0 - then run ccmake - ccmake . - press the "c" key, then when the option list will appear we need to manually configure the "GRASS_PREFIX" parameter. Scroll down until the "GRASS_PREFIX" will appear, press enter and manually set it to - /usr/local/grass-6.4.0RC4 - then press enter again. Press the "c" again and the option "Press [g] to generate and exit" will appear. @@ -605,26 +518,20 @@ Press the "g" key to generate and exit. then as usual (it will take a while) - make - and - sudo make install - At the end of the process you should have QGIS and GRASS working with MrSID and ECW raster format support. To run QGIS just use this command - qgis - 4. Building on Windows ====================== @@ -662,7 +569,6 @@ You only need Microsoft Windows Core SDK / Build Environment (x86 32-Bit). Download and install following packages: - || Tool | Website | | CMake | http://www.cmake.org/files/v2.8/cmake-2.8.4-win32-x86.exe | | Flex | http://gnuwin32.sourceforge.net/downlinks/flex.php | @@ -689,7 +595,6 @@ Advanced Installation): - qwt5-devel-qt4 - sip - This will also select packages the above packages depend on. Additionally QGIS also needs the include file unistd.h, which normally @@ -709,7 +614,6 @@ To start a command prompt with an environment that both has the VC++ and the OSG variables create the following batch file (assuming the above packages were installed in the default locations): - @echo off path %SYSTEMROOT%\system32;%SYSTEMROOT%;%SYSTEMROOT%\System32\Wbem;%PROGRAMFILES%\CMake 2.8\bin;%PROGRAMFILES%\subversion\bin;%PROGRAMFILES%\GnuWin32\bin set PYTHONPATH= @@ -729,20 +633,15 @@ installed in the default locations): @cmd - Start the batch file and on the command prompt checkout the QGIS source from svn to the source directory qgis-trunk: - svn co https://svn.osgeo.org/qgis/trunk/qgis qgis-trunk - or using git-svn (from the git shell): - git svn clone --username $USER --revision 15611:HEAD https://svn.osgeo.org/qgis/trunk/qgis - Create a 'build' directory somewhere. This will be where all the build output will be generated. @@ -755,8 +654,8 @@ created. Adjust the path to bison and flex so that the shortened C:/Progra~1 is used rather than C:/Program Files. -Untick the 'BINDINGS_GLOBAL_INSTALL' option so that python bindings are placed -into the output directory when you run the INSTALL target. +Verify that the 'BINDINGS_GLOBAL_INSTALL' option is not checked, so that python +bindings are placed into the output directory when you run the INSTALL target. Hit Configure to start the configuration and select Visual Studio 9 2008 and keep native compilers and click Finish. @@ -785,25 +684,19 @@ directory or add their respective directories to your PATH. 4.1.4. Packaging ================ -To create a windows 'all in one' standalone package ''under ubuntu'' (yes you +To create a windows 'all in one' standalone package under ubuntu (yes you read correctly) do the following: - sudo apt-get install nsis - Now - cd qgis/ms-windows/osgeo4w - And run the nsis creation script: - creatensis.pl - When the script completes, it should have created a QGIS installer executable in the ms-windows directory (using the QGIS binaries from OSGEO4W). @@ -816,18 +709,14 @@ your own hand built QGIS executables, you need to copy them in from your windows installation into the ms-windows file tree created by the creatensis script. - cd ms-windows/ rm -rf osgeo4w/unpacked/apps/qgis/* cp -r /tmp/qgis1.7.0/* osgeo4w/unpacked/apps/qgis/ - Now create a package. - ./quickpackage.sh - After this you should now have a nsis installer containing your own build of QGIS and all dependencies needed to run it on a windows machine. @@ -887,11 +776,9 @@ When Qt installation is complete: Edit C:\Qt\4.7.0\bin\qtvars.bat and add the following lines: - set PATH=%PATH%;C:\msys\local\bin;c:\msys\local\lib set PATH=%PATH%;"C:\Program Files\Subversion\bin" - I suggest you also add C:\Qt\4.7.0\bin\ to your Environment Variables Path in the windows system preferences. @@ -903,11 +790,9 @@ this message "mingw32-make: *** No rule to make target `debug'. Stop.". To compile the debug version you have to go out of src directory and execute the following command: - c:\Qt\4.7.0 make - 4.2.3. Flex and Bison ===================== @@ -945,25 +830,21 @@ to get versions that match your current Qt installed version. 4.2.4.3. Compile SIP ==================== - c:\Qt\4.7.0\bin\qtvars.bat python configure.py -p win32-g++ make make install - 4.2.4.4. Compile PyQt ===================== - c:\Qt\4.7.0\bin\qtvars.bat python configure.py make make install - 4.2.4.5. Final python notes =========================== @@ -994,26 +875,20 @@ http://www.cmake.org/files/v2.8/cmake-2.8.2-win32-x86.exe Start a cmd.exe window ( Start -> Run -> cmd.exe ) Create development directory and move into it - md c:\dev\cpp cd c:\dev\cpp - Check out sources from SVN: For svn trunk: - svn co https://svn.osgeo.org/qgis/trunk/qgis - For svn 1.5 branch - svn co https://svn.osgeo.org/qgis/branches/Release-1_5_0 qgis1.5.0 - 4.2.8. Compiling ================ @@ -1023,28 +898,22 @@ this document. Start a cmd.exe window ( Start -> Run -> cmd.exe ) if you don't have one already. Add paths to compiler and our MSYS environment: - c:\Qt\4.7.0\bin\qtvars.bat - For ease of use add c:\Qt\4.7.0\bin\ to your system path in system properties so you can just type qtvars.bat when you open the cmd console. Create build directory and set it as current directory: - cd c:\dev\cpp\qgis md build cd build - 4.2.9. Configuration ==================== - cmakesetup .. - Note: You must include the '..' above. Click 'Configure' button. When asked, you should choose 'MinGW Makefiles' as @@ -1066,11 +935,9 @@ When configuration is done, click 'OK' to exit the setup utility. 4.2.10. Compilation and installation ==================================== - make make install - 4.2.11. Run qgis.exe from the directory where it's installed (CMAKE_INSTALL_PREFIX) =================================================================================== @@ -1185,7 +1052,6 @@ In MSYS console go to the directory where you've unpacked or checked out sources Run these commands: - export PATH="/usr/local/bin:/usr/local/lib:$PATH" ./configure --prefix=/usr/local --bindir=/usr/local --with-includes=/usr/local/include --with-libs=/usr/local/lib --with-cxx --without-jpeg \ --without-tiff --with-postgres=yes --with-postgres-includes=/local/pgsql/include --with-pgsql-libs=/local/pgsql/lib --with-opengl=windows --with-fftw \ @@ -1194,7 +1060,6 @@ Run these commands: make make install - It should get installed to c:\msys\local\grass-6.3.cvs By the way, these pages might be useful: @@ -1215,24 +1080,19 @@ Unpack to e.g. c:\msys\local\src To compile, I had to patch the sources: in file source/headers/timeval.h line 13. Change it from: - #ifdef _WIN32 to: - #if defined(_WIN32) && defined(_MSC_VER) - Now, in MSYS console, go to the source directory and run: - ./configure --prefix=/usr/local make make install - 4.3.2.4. SQLITE =============== @@ -1262,13 +1122,11 @@ Unpack to c:\msys\local\src Run from MSYS console in the source directory: - ./configure make make install - 4.3.2.6. EXPAT ============== @@ -1280,13 +1138,11 @@ Unpack to c:\msys\local\src Run from MSYS console in the source directory: - ./configure make make install - 4.3.2.7. POSTGRES ================= @@ -1325,10 +1181,8 @@ Parallel Compilation: On multiprocessor/multicore Macs, it's possible to speed up compilation, but it's not automatic. Whenever you type "make" (but NOT "make install"), instead type: - make -j [n] - Replace [n] with the number of cores and/or processors your Mac has. On recent models with hyperthreading processors this can be double the physical count of processors and cores. @@ -1351,10 +1205,8 @@ as of Qt-4.5.2. Qt 4.6+ is recommended for Cocoa. PPC note: There appear to be issues with Qt Cocoa on PPC Macs. QT Carbon is recommended on PPC Macs. - http://qt.nokia.com/downloads - If you want debug frameworks, Qt also provides a dmg with these. These are in addition to the non-debug frameworks. @@ -1366,11 +1218,9 @@ libQtUiTools was added, both in /usr/lib. When using a system SDK these libraries will not be found. To fix this problem, add symlinks to /usr/local: - sudo ln -s /usr/lib/libQtUiTools.a /usr/local/lib/ sudo ln -s /usr/lib/libQtCLucene.dylib /usr/local/lib/ - These should then be found automatically on Leopard and above. Earlier systems may need some help by adding '-L/usr/local/lib' to CMAKE_SHARED_LINKER_FLAGS, CMAKE_MODULE_LINKER_FLAGS and CMAKE_EXE_LINKER_FLAGS in the cmake build. @@ -1383,10 +1233,8 @@ Download William Kyngesburye's excellent GDAL Complete package that includes PROJ, GEOS, GDAL, SQLite3, and image libraries, as frameworks. There is also a GSL framework. - http://www.kyngchaos.com/wiki/software/frameworks - Once downloaded, open and install the frameworks. William provides an additional installer package for Postgresql (for PostGIS support). @@ -1394,17 +1242,13 @@ Qgis just needs the libpq client library, so unless you want to setup the full Postgres + PostGIS server, all you need is the client-only package. It's available here: - http://www.kyngchaos.com/wiki/software/postgres - Also available is a GRASS application: - http://www.kyngchaos.com/wiki/software/grass - 5.2.1. Additional Dependencies: General compatibility note ========================================================== @@ -1428,19 +1272,15 @@ not necessary on Snow Leopard. Get the expat sources: - http://sourceforge.net/project/showfiles.php?group_id=10127 - Double-click the source tarball to unpack, then, in Terminal.app, cd to the source folder and: - ./configure make sudo make install - 5.2.3. Additional Dependencies: Python ====================================== @@ -1450,10 +1290,8 @@ Leopard and Snow Leopard. You can still install Python from python.org if prefer If installing from python.org, make sure you install at least the latest Python 2.x from - http://www.python.org/download/ - Python 3 is a major change, and may have compatibility issues, so try it at your own risk. @@ -1462,31 +1300,25 @@ Python 3 is a major change, and may have compatibility issues, so try it at your Retrieve the python bindings toolkit SIP from - http://www.riverbankcomputing.com/software/sip/download - Double-click the source tarball to unpack it, then, in Terminal.app, cd to the source folder and (this installs by default into the Python framework, and is appropriate only for python.org Python installs): - python configure.py make sudo make install - Leopard notes If building on Leopard, using Leopard's bundled Python, SIP wants to install in the system path -- this is not a good idea. Use this configure command instead of the basic configure above: - python configure.py -n -d /Library/Python/2.5/site-packages -b /usr/local/bin \ -e /usr/local/include -v /usr/local/share/sip -s MacOSX10.5.sdk - Snow Leopard notes Similar to Leopard, you should install outside the system Python path. @@ -1494,62 +1326,48 @@ Also, you need to specify the architecture you want (requires at least SIP 4.9), and make sure to run the versioned python binary (this one responds to the 'arch' command, 'python' does not). If you are using 32-bit Qt (Qt Carbon): - python2.6 configure.py -n -d /Library/Python/2.6/site-packages -b /usr/local/bin \ -e /usr/local/include -v /usr/local/share/sip --arch=i386 -s MacOSX10.6.sdk - For 64-bit Qt (Qt Cocoa), use this configure line: - python2.6 configure.py -n -d /Library/Python/2.6/site-packages -b /usr/local/bin \ -e /usr/local/include -v /usr/local/share/sip --arch=x86_64 -s MacOSX10.6.sdk - 5.2.5. Additional Dependencies: PyQt ==================================== Retrieve the python bindings toolkit for Qt from - http://www.riverbankcomputing.com/software/pyqt/download - Double-click the source tarball to unpack it, then, in Terminal.app, cd to the source folder and (this installs by default into the Python framework, and is appropriate only for python.org Python installs): - python configure.py yes - There is a problem with the configuration that needs to be fixed now (it affects PyQwt compilation later). Edit pyqtconfig.py and change the qt_dir line to: - 'qt_dir': '/usr', - Then continue with compilation and installation (this is a good place to use parallel compilation, if you can): - make sudo make install - Leopard notes If building on Leopard, using Leopard's bundled Python, PyQt wants to install in the system path -- this is not a good idea. Use this configure command instead of the basic configure above: - python configure.py -d /Library/Python/2.5/site-packages -b /usr/local/bin - If there is a problem with undefined symbols in QtOpenGL on Leopard, edit QtOpenGL/makefile and add -undefined dynamic_lookup to LFLAGS. Then make again. @@ -1562,27 +1380,21 @@ and make sure to run the versioned python binary (this one responds to the 'arch' command, which is important for pyuic4, 'python' does not). If you are using 32-bit Qt (Qt Carbon): - python2.6 configure.py -d /Library/Python/2.6/site-packages -b /usr/local/bin --use-arch i386 - For 64-bit Qt (Qt Cocoa), use this configure line: - python2.6 configure.py -d /Library/Python/2.6/site-packages -b /usr/local/bin --use-arch x86_64 - 5.2.6. Additional Dependencies: Qwt/PyQwt ========================================= The GPS tracking feature uses Qwt. Some popular 3rd-party plugins use PyQwt. You can take care of both with the PyQwt source from: - http://pyqwt.sourceforge.net/ - Double-click the tarball to unpack it. The following assumes PyQwt v5.2.0 (comes with Qwt 5.2.1). Normal compilation does both Qwt and PyQwt at the same time, but Qwt is statically linked into PyQwt, and Qgis can't use it. So, we need to split the build. @@ -1592,49 +1404,39 @@ you don't get a bloated debug static library (too bad they are not configurable qmake). Scroll down to the 'release/debug mode' block. Edit the last 'CONFIG +=' line, within an 'else' block, and change 'debug' to 'release'. Like so: - else { CONFIG += release # release/debug } - Also uncomment (remove # prefix) the line 'CONFIG += QwtDll'. Like so: - CONFIG += QwtDll - If you are building for Qt Carbon 32bit on Snow Leopard, add a line at the bottom: - CONFIG += x86 - Save and close. Now, cd into the qwt-5.2 subdir in a Terminal. Type these commands to build and install: - qmake -spec macx-g++ make sudo make install sudo install_name_tool -id /usr/local/qwt-5.2.1-svn/lib/libqwt.5.dylib \ /usr/local/qwt-5.2.1-svn/lib/libqwt.5.dylib - The Qwt shared library is now installed in /usr/local/qwt-5.x.x[-svn] (x.x is the minor.point version, and it may be an SVN version). Remember this for QGIS and PyQwt configuration. Now for PyQwt. Still in the Terminal: - cd ../configure python configure.py --extra-include-dirs=/usr/local/qwt-5.2.1-svn/include \ --extra-lib-dirs=/usr/local/qwt-5.2.1-svn/lib --extra-libs=qwt make sudo make install - Make sure to use the qwt install path from the Qwt build above. Snow Leopard note @@ -1643,13 +1445,11 @@ If using Qt Carbon, you need to specify which architectures to build, otherwise it will default to a combination that does not work (ie x86_64 for a Carbon Qt). This is not needed for Qt Cocoa. Configure as follows: - python configure.py --extra-cflags="-arch i386" --extra-cxxflags="-arch i386" \ --extra-lflags="-arch i386" --extra-include-dirs=/usr/local/qwt-5.2.1-svn/include \ --extra-lib-dirs=/usr/local/qwt-5.2.1-svn/lib --extra-libs=qwt - 5.2.7. Additional Dependencies: Bison ===================================== @@ -1658,41 +1458,33 @@ Leopard and Snow Leopard note: Leopard and Snow Leopard include Bison 2.3, so th The version of bison available by default on Mac OS X 10.4 is too old so you need to get a more recent one on your system. Download at least version 2.3 from: - ftp.gnu.org/gnu/bison/ - Now build and install it to a prefix of /usr/local.Ê Double-click the source tarball to unpack it, then cd to the source folder and: - ./configure --prefix=/usr/local make sudo make install - 5.3. Install CMake for OSX ========================== Get the latest source release from here: - http://www.cmake.org/cmake/resources/software.html - Binary installers are available for OS X, but they are not recommended (2.4 versions install in /usr instead of /usr/local, and 2.6 versions are a strange application). Instead, download the source, double-click the source tarball, then cd to the source folder and: - ./bootstrap --docdir=/share/doc/CMake --mandir=/share/man make sudo make install - 5.4. Install subversion for OSX =============================== @@ -1703,35 +1495,27 @@ The [http://sourceforge.net/projects/macsvn/MacSVN] project has a downloadable build of svn. If you are a GUI inclined person you may want to grab their gui client too. Get the command line client here: - curl -O http://ufpr.dl.sourceforge.net/sourceforge/macsvn/Subversion_1.4.2.zip - Once downloaded open the zip file and run the installer. You also need to install BerkleyDB available from the same http://sourceforge.net/projects/macsvn/ (website). At the time of writing the file was here: - curl -O http://ufpr.dl.sourceforge.net/sourceforge/macsvn/Berkeley_DB_4.5.20.zip - Once again unzip this and run the installer therein. Lastly we need to ensure that the svn commandline executeable is in the path. Add the following line to the end of /etc/bashrc using sudo: - sudo vim /etc/bashrc - And add this line to the bottom before saving and quiting: - export PATH=/usr/local/bin:$PATH:/usr/local/pgsql/bin - /usr/local/bin needs to be first in the path so that the newer bison (that will be built from source further down) is found before the bison (which is very old) that is installed by MacOSX @@ -1745,28 +1529,21 @@ Now close and reopen your shell to get the updated vars. Now we are going to check out the sources for QGIS. First we will create a directory for working in (or some folder of your choice): - mkdir -p ~/dev/cpp cd ~/dev/cpp - Now we check out the sources: Trunk: - svn co https://svn.osgeo.org/qgis/trunk/qgis qgis - For a release branch version x.y.z: - svn co https://svn.qgis.org/qgis/branches/Release-x_y_z qgis-x.y.z - The first time you check out QGIS sources you will probably get a message like this: - Error validating server certificate for 'https://svn.qgis.org:443': - The certificate is not issued by a trusted authority. Use the fingerprint to validate the certificate manually! Certificate information: @@ -1776,7 +1553,6 @@ this: - Fingerprint: 2f:cd:f1:5a:c7:64:da:2b:d1:34:a5:20:c6:15:67:28:33:ea:7a:9b (R)eject, accept (t)emporarily or accept (p)ermanently? - I suggest you press 'p' to accept the key permanently. @@ -1790,7 +1566,6 @@ straight into your /Applications folder. The instructions below assume you are building into a pre-existing ${HOME}/Applications directory. In a Terminal cd to the qgis source folder previously downloaded, then: - mkdir build cd build cmake -D CMAKE_INSTALL_PREFIX=~/Applications -D CMAKE_BUILD_TYPE=Release \ @@ -1800,7 +1575,6 @@ In a Terminal cd to the qgis source folder previously downloaded, then: -D QWT_INCLUDE_DIR=/usr/local/qwt-5.2.1-svn/include \ .. - This will automatically find and use the previously installed frameworks, and the GRASS application if installed. @@ -1808,7 +1582,6 @@ Or, to use a Unix-style build of GRASS, use the following cmake invocation (minimum GRASS version as stated in the Qgis requirements, substitute the GRASS path and version as required): - cmake -D CMAKE_INSTALL_PREFIX=~/Applications -D CMAKE_BUILD_TYPE=Release \ -D CMAKE_BUILD_TYPE=MinSizeRel \ -D WITH_INTERNAL_SPATIALITE=FALSE -D WITH_MAPSERVER=TRUE \ @@ -1817,11 +1590,9 @@ path and version as required): -D GRASS_PREFIX=/user/local/grass-6.4.0 \ .. - Snow Leopard note: To handle 32-bit Qt (Carbon), create a 32bit python wrapper script and add arch flags to the configuration: - sudo cat >/usr/local/bin/python32 <