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= Required libraries / Programs = The following libraries are required for EMAN2 installation (the libraries should be installed as shared-object libraries where applicable): 1. fftw (version 2.1.3+) (http://www.fftw.org/) To install fftw from source use either configure option: {{{ % ./configure --enable-static=no --enable-shared=yes --enable-float --enable-type-prefix}}} OR {{{ % ./configure --enable-shared=yes --enable-float}}} Followed by: {{{ % make}}} 2. gsl (version 1.3+) (http://www.gnu.org/software/gsl/) {{{ % ./configure % make}}} 3. Boost (version 1.32+) (http://www.boost.org) 3.1 Installing Boost requires Boost.Jam. Executables and source code for jam can be found at the Boost website. Installing Boost requires the user to identify a particular toolset to use during compilation. Most UNIX systems will probably use the "gcc" toolset; visit http://www.boost.org/more/getting_started.html#Tools for a complete listing. % bjam "-sTOOLS=gcc" install Header files from the Boost installation (located in the "boost" subdirectory of the Boost installation (eg. /boost_1_32_0/boost)) must now either be added to the compilers path or copied into an existing location on the path in a subdirectory /boost. One possibility for this might be: % cp -r boost /usr/include/boost |
= External Libraries = EMAN2 has lots of dependent libraries. To compile EMAN2 from source, you need install development packages for these external libraries. Depends on your Linux distribution, you can either install them by yum(Fedora, CentOS, RedHat), urpmi(Mandriva), yast(SuSE), synaptic/apt-get(Ubuntu). Or compile them form source code. * We collect all these dependent packages under this [[http://ncmi.bcm.edu/ncmi/software/counter_222/software_91/index_html|link]]. These may not be the current versions of EMAN2 dependent libraries, but they are versions we have tried to compile from source and proved works for EMAN2. = Required Libraries / Programs = All of these libraries can be installed The following libraries are required for EMAN2 installation (the libraries should be installed as shared-object libraries where applicable): 1. fftw (version 2.1.3+) (http://www.fftw.org/) To install fftw from source use either configure option: {{{ % ./configure --enable-static=no --enable-shared=yes --enable-float --enable-type-prefix}}} OR {{{ % ./configure --enable-shared=yes --enable-float}}} Followed by: {{{ % make % make install}}} 2. gsl (version 1.3+) (http://www.gnu.org/software/gsl/) {{{ % ./configure % make % make install}}} 3. Boost (version 1.32+) (http://www.boost.org) 3.1 Installing Boost requires Boost.Jam. Executables and source code for jam can be found at the Boost website. Installing Boost requires the user to identify a particular toolset to use during compilation. Most UNIX systems will probably use the "gcc" toolset; visit http://www.boost.org/more/getting_started.html#Tools for a complete listing. {{{ % bjam "-sTOOLS=gcc" install}}} Header files from the Boost installation (located in the "boost" subdirectory of the Boost installation (eg. /boost_1_32_0/boost)) must now either be added to the compilers path or copied into an existing location on the path in a subdirectory /boost. One possibility for this might be: {{{ % cp -r boost /usr/include/boost}}} |
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| 4. CMake (version 2.0.6+) (http://www.cmake.org) Executables for several platforms are available; source code can also be used for custom installations. |
4. CMake (version 2.0.6+) (http://www.cmake.org) Executables for several platforms are available; source code can also be used for custom installations. |
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| ---------------------------------- - To read/write HDF5 image, use hdf5 (http://hdf.ncsa.uiuc.edu/HDF5). | * To read/write HDF5 image, use hdf5 (http://hdf.ncsa.uiuc.edu/HDF5). |
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| - To read TIFF image, use libtiff (http://www.libtiff.org) - To read PNG image, use PNG (http://www.libpng.org) |
* To read TIFF image, use libtiff (http://www.libtiff.org) * To read PNG image, use PNG (http://www.libpng.org) |
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| - Python (version 2.2+) (http://www.python.org) | * Python (version 2.2+) (http://www.python.org) |
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| - Boost Python (version 1.32+) (http://www.boost.org) | * Boost Python (version 1.32+) (http://www.boost.org) |
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| - numpy (http://www.scipy.org) | * numpy (http://www.scipy.org) |
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| ---------------------- Suppose you have source code eman2.tar.gz 1) % cd $HOME % mkdir -p EMAN2/src % cd EMAN2/src % gunzip eman2.tar.gz % tar xf eman2.tar |
Once all the dependencies are installed, you can install the source code using cmake. Suppose you have source code eman2.tar.gz: 1. {{{ % cd $home/username/ % mkdir -p EMAN2/src % cd EMAN2/src % gunzip eman2.tar.gz % tar xf eman2.tar}}} |
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| 2) % mkdir build % cd build 3) % cmake ../eman2 % make % make install |
2. {{{ % mkdir build % cd build}}} 3. {{{ % cmake ../eman2 % make % make install}}} |
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| 4) set up login shell for csh/tcsh, put the following to your .cshrc or .tcshrc file: setenv EMAN2DIR $HOME/EMAN2 setenv PATH $EMAN2DIR/bin:${PATH} setenv LD_LIBRARY_PATH $EMAN2DIR/lib setenv PYTHONPATH .:$HOME/EMAN2/lib for bash in .bashrc add: export EMAN2DIR=$HOME/EMAN2 export PATH=$PATH:$EMAN2DIR/bin export LD_LIBRARY_PATH=$EMAN2DIR/lib export PYTHONPATH=$PYTHONPATH:$HOME/EMAN2/lib |
4. Set up login shell for csh/tcsh, put the following to your .cshrc or .tcshrc file: {{{ setenv EMAN2DIR $home/username/EMAN2 setenv PATH $EMAN2DIR/bin:${PATH} setenv LD_LIBRARY_PATH $EMAN2DIR/lib setenv PYTHONPATH .:$HOME/EMAN2/lib}}} For bash in .bashrc add: {{{ export EMAN2DIR=/home/username/EMAN2 export PATH=$PATH:$EMAN2DIR/bin export LD_LIBRARY_PATH=$EMAN2DIR/lib export PYTHONPATH=$PYTHONPATH:$HOME/EMAN2/lib}}} |
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| ------------------------ If your libraries (fftw, gsl, hdf, etc) are not found by Quick Installation, or if you want to change the compilation options, the following steps help: 1) follow the first 2 steps in Quick Installation. |
If your libraries (fftw, gsl, hdf, etc) are not found by Quick Installation, or if you want to change the compilation options, the following steps help: 1. Follow the first 2 steps in Quick Installation. 2. If your libraries are not installed at the default places, set up the related environment variables: * fftw -> FFTWDIR * gsl -> GSLDIR * tiff -> TIFFDIR * png -> PNGDIR * hdf5 -> HDF5DIR * python -> PYTHON_ROOT and PYTHON_VERSION 3. {{{ % ccmake ../eman2}}} * Type 'c' if it asks about "CMAKE_BACKWARDS_COMPATIBILITY". * Make necessary changes for compilation flags. * Developers will probably want to set BOOST-LIBRARY to a Boost.Python object file (ex. libboost_python-gcc-1_32.so) * Then type 'c', and type 'g'. 4. {{{ % make % make install}}} == Platform Dependent Optimization == In CMake Configuration, enable the following option for your platform: {{{ Athlon: ENABLE_ATHLON Opteron(AMD64): ENABLE_OPTERON Mac G5: ENABLE_G5}}} |
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| 2) If your libraries are not installed at the default places, set up the related environment variables: - fftw -> FFTWDIR - gsl -> GSLDIR - tiff -> TIFFDIR - png -> PNGDIR - hdf5 -> HDF5DIR - python -> PYTHON_ROOT and PYTHON_VERSION 3) % ccmake ../eman2 - type 'c' if it asks about "CMAKE_BACKWARDS_COMPATIBILITY". - make necessary changes for compilation flags. - developers will probably want to set BOOST-LIBRARY to a Boost.Python object file (ex. libboost_python-gcc-1_32.so) - Then type 'c', and type 'g'. 4) % make % make install 4.1 Platform Dependent Optimization ------------------------------------ In CMake Configuration, enable the following option for your platform: - Athlon: ENABLE_ATHLON - Opteron(AMD64): ENABLE_OPTERON - Mac G5: ENABLE_G5 4.2 How to Generate Latest Documentation ----------------------------------------- 1. Install doxygen (version 1.4.3+, http://www.doxygen.org) 2. Install graphviz (http://www.graphviz.org/) 3. install latex (http://www.latex-project.org/) 4. After you have a successful EMAN2 install, i.e., you can import EMAN2 in Python, cd EMAN2/src/build ccmake ../eman2 type 't' toggle to advanced mode, check ENABLE_AUTODOC to ON make make install All documents will be in your EMAN2/doc directory. |
== How to Generate Latest Documentation == 1. Install doxygen (version 1.4.3+, http://www.doxygen.org) 2. Install graphviz (http://www.graphviz.org/) 3. install latex (http://www.latex-project.org/) 4. After you have a successful EMAN2 install, i.e., you can import EMAN2 in Python, {{{ cd EMAN2/src/build ccmake ../eman2}}} set ENABLE_AUTODOC to ON, {{{ make make install}}} All documents will be in your EMAN2/doc directory. |
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| ----------------------- 0. For Emacs users, please add the following line to your $HOME/.emacs: (setq default-tab-width 4) 1. Ensure the Boost.Python 2. To generate new boost python wrapper, run % cd eman2/libpyEM % ./create_boost_python 3. Windows Installer EMAN uses "Nullsoft Scriptable Install System" (http://nsis.sourceforge.net/) to generate the windows installer. It also uses "HM NIS Edit" (http://hmne.sourceforge.net/) as the editor. |
0. For Emacs users, please add the following line to your $HOME/.emacs: {{{ (setq default-tab-width 4)}}} 1. Ensure the Boost.Python 2. To generate new boost python wrapper, run {{{ % cd eman2/libpyEM % ./create_boost_python}}} 3. Windows Installer: EMAN uses "Nullsoft Scriptable Install System" (http://nsis.sourceforge.net/) to generate the windows installer. It also uses "HM NIS Edit" (http://hmne.sourceforge.net/) as the editor. |
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| ----------- A.1. How to Install Boost Python -------------------------------- 0. Download 'bjam' for your platform. 1. Download boost source from http://www.boost.org. Assume the version is boost_1_32_0. % cd /usr/local/src; tar zxf boost_1_32_0.tar.gz; cd boost_1_32_0. 2. Set up environment variables "PYTHON_ROOT" and "PYTHON_VERSION". For example, if your python is at /usr/bin/python then PYTHON_ROOT is "/usr". If your python version is 2.2.X, PYTHON_VERSION is '2.2'. a) check your shell: % echo $SHELL |
== A.1. How to Install Boost Python == 1. Download 'bjam' for your platform. 2. Download boost source from http://www.boost.org. Assume the version is boost_1_32_0. {{{ % cd /usr/local/src; tar zxf boost_1_32_0.tar.gz; cd boost_1_32_0.}}} 3. Set up environment variables "PYTHON_ROOT" and "PYTHON_VERSION". For example, if your python is at /usr/bin/python then PYTHON_ROOT is "/usr". If your python version is 2.2.X, PYTHON_VERSION is '2.2'. a) Check your shell: {{{ % echo $SHELL}}} b) If you are using bash/zsh, do {{{ % export PYTHON_VERSION=2.2 % export PYTHON_ROOT=/usr}}} If you are using csh/tcsh, do {{{ % setenv PYTHON_VERSION 2.2 % setenv PYTHON_ROOT /usr}}} 4. ''cd libs/python/build [didn't do this]'' 5. Run 'bjam' with your options: a) linux-x86: % bjam b) SGI Irix: % bjam "-sTOOLS=mipspro" c) Mac OS X: % bjam "-sTOOLS=darwin" 6. Login as root 7. {{{ cp -df bin-stage/libboost_python.so* /usr/local/lib cd ../../..; cp -rf boost /usr/local/include}}} == A.2. How to use your own python version == If the python you want to use in your computer is not found by CMake, you may set up environment variables "PYTHON_ROOT" and "PYTHON_VERSION". For example, if your python is at /usr/local/python2.4/bin/python. PYTHON_ROOT is "/usr/local/python2.4". if your python is 2.4.X, PYTHON_VERSION is '2.4'. |
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| b) if you are using bash/zsh, do % export PYTHON_VERSION=2.2 % export PYTHON_ROOT=/usr if you are using csh/tcsh, do % setenv PYTHON_VERSION 2.2 % setenv PYTHON_ROOT /usr 3. cd libs/python/build [didn't do this] 4. run 'bjam' with your options: 1) linux-x86: % bjam 2) SGI Irix: % bjam "-sTOOLS=mipspro" 3) Mac OS X: % bjam “-sTOOLS=darwin†5. login as root 6. cp -df bin-stage/libboost_python.so* /usr/local/lib cd ../../..; cp -rf boost /usr/local/include A.2. How to use your own python version --------------------------------------- If the python you want to use in your computer is not found by CMake, you may set up environment variables "PYTHON_ROOT" and "PYTHON_VERSION". For example, if your python is at /usr/local/python2.4/bin/python. PYTHON_ROOT is "/usr/local/python2.4". if your python is 2.4.X, PYTHON_VERSION is '2.4'. A.3. How to Install numpy ---------------------------------- From the website http://sourceforge.net/projects/numpy download source package. For windows, run the binary installer and the installation is complete. Other users must download the source code and install manually as follows: - get source code numpy-1.0.1.tar.gz - % gunzip numpy-1.0.1.tar.gz % tar xf numpy-1.0.1.tar - login as root - % cd numpy-1.0.1; % python setup.py install |
== A.3. How to Install numpy == From the website http://sourceforge.net/projects/numpy download source package. For windows, run the binary installer and the installation is complete. Other users must download the source code and install manually as follows: * Get source code numpy-1.0.1.tar.gz {{{ % gunzip numpy-1.0.1.tar.gz % tar xf numpy-1.0.1.tar }}} * Login as root. {{{ % cd numpy-1.0.1; % python setup.py install}}} |
Compiling EMAN2 on Linux System
External Libraries
EMAN2 has lots of dependent libraries. To compile EMAN2 from source, you need install development packages for these external libraries. Depends on your Linux distribution, you can either install them by yum(Fedora, CentOS, RedHat), urpmi(Mandriva), yast(SuSE), synaptic/apt-get(Ubuntu). Or compile them form source code.
We collect all these dependent packages under this link. These may not be the current versions of EMAN2 dependent libraries, but they are versions we have tried to compile from source and proved works for EMAN2.
Required Libraries / Programs
All of these libraries can be installed
The following libraries are required for EMAN2 installation (the libraries should be installed as shared-object libraries where applicable):
fftw (version 2.1.3+) (http://www.fftw.org/) To install fftw from source use either configure option:
% ./configure --enable-static=no --enable-shared=yes --enable-float --enable-type-prefix
OR% ./configure --enable-shared=yes --enable-float
Followed by:% make % make install
gsl (version 1.3+) (http://www.gnu.org/software/gsl/)
% ./configure % make % make install
Boost (version 1.32+) (http://www.boost.org) 3.1 Installing Boost requires Boost.Jam. Executables and source code for jam can be found at the Boost website.
Installing Boost requires the user to identify a particular toolset to use during compilation. Most UNIX systems will probably use the "gcc" toolset; visit http://www.boost.org/more/getting_started.html#Tools for a complete listing.
% bjam "-sTOOLS=gcc" install
Header files from the Boost installation (located in the "boost" subdirectory of the Boost installation (eg. /boost_1_32_0/boost)) must now either be added to the compilers path or copied into an existing location on the path in a subdirectory /boost. One possibility for this might be:% cp -r boost /usr/include/boost
CMake (version 2.0.6+) (http://www.cmake.org) Executables for several platforms are available; source code can also be used for custom installations.
Optional Libraries / Programs
To read/write HDF5 image, use hdf5 (http://hdf.ncsa.uiuc.edu/HDF5).
To read TIFF image, use libtiff (http://www.libtiff.org)
To read PNG image, use PNG (http://www.libpng.org) For development the following libraries/programs are required (see Appendix A for installation help):
Python (version 2.2+) (http://www.python.org)
Boost Python (version 1.32+) (http://www.boost.org)
numpy (http://www.scipy.org)
Quick Installation
Once all the dependencies are installed, you can install the source code using cmake. Suppose you have source code eman2.tar.gz:
% cd $home/username/ % mkdir -p EMAN2/src % cd EMAN2/src % gunzip eman2.tar.gz % tar xf eman2.tar
% mkdir build % cd build
% cmake ../eman2 % make % make install
- Set up login shell for csh/tcsh, put the following to your .cshrc or .tcshrc file:
setenv EMAN2DIR $home/username/EMAN2 setenv PATH $EMAN2DIR/bin:${PATH} setenv LD_LIBRARY_PATH $EMAN2DIR/lib setenv PYTHONPATH .:$HOME/EMAN2/libFor bash in .bashrc add:export EMAN2DIR=/home/username/EMAN2 export PATH=$PATH:$EMAN2DIR/bin export LD_LIBRARY_PATH=$EMAN2DIR/lib export PYTHONPATH=$PYTHONPATH:$HOME/EMAN2/lib
Advanced Installation
If your libraries (fftw, gsl, hdf, etc) are not found by Quick Installation, or if you want to change the compilation options, the following steps help:
- Follow the first 2 steps in Quick Installation.
- If your libraries are not installed at the default places, set up the related environment variables:
fftw -> FFTWDIR
gsl -> GSLDIR
tiff -> TIFFDIR
png -> PNGDIR
hdf5 -> HDF5DIR
python -> PYTHON_ROOT and PYTHON_VERSION
% ccmake ../eman2
- Type 'c' if it asks about "CMAKE_BACKWARDS_COMPATIBILITY".
- Make necessary changes for compilation flags.
- Developers will probably want to set BOOST-LIBRARY to a Boost.Python object file (ex. libboost_python-gcc-1_32.so)
- Then type 'c', and type 'g'.
-
% make % make install
Platform Dependent Optimization
In CMake Configuration, enable the following option for your platform:
Athlon: ENABLE_ATHLON Opteron(AMD64): ENABLE_OPTERON Mac G5: ENABLE_G5
How to Generate Latest Documentation
Install doxygen (version 1.4.3+, http://www.doxygen.org)
Install graphviz (http://www.graphviz.org/)
install latex (http://www.latex-project.org/)
- After you have a successful EMAN2 install, i.e., you can import EMAN2 in Python,
cd EMAN2/src/build ccmake ../eman2
set ENABLE_AUTODOC to ON,make make install
All documents will be in your EMAN2/doc directory.
Notes For Developers
- For Emacs users, please add the following line to your $HOME/.emacs:
(setq default-tab-width 4)
- Ensure the Boost.Python
- To generate new boost python wrapper, run
% cd eman2/libpyEM % ./create_boost_python
- Windows Installer:
EMAN uses "Nullsoft Scriptable Install System" (http://nsis.sourceforge.net/) to generate the windows installer. It also uses "HM NIS Edit" (http://hmne.sourceforge.net/) as the editor.
Appendix A
A.1. How to Install Boost Python
- Download 'bjam' for your platform.
Download boost source from http://www.boost.org. Assume the version is boost_1_32_0.
% cd /usr/local/src; tar zxf boost_1_32_0.tar.gz; cd boost_1_32_0.
- Set up environment variables "PYTHON_ROOT" and "PYTHON_VERSION". For example, if your python is at /usr/bin/python then PYTHON_ROOT is "/usr". If your python version is 2.2.X, PYTHON_VERSION is '2.2'.
- a) Check your shell:
% echo $SHELL
b) If you are using bash/zsh, do% export PYTHON_VERSION=2.2 % export PYTHON_ROOT=/usr
If you are using csh/tcsh, do% setenv PYTHON_VERSION 2.2 % setenv PYTHON_ROOT /usr
- a) Check your shell:
cd libs/python/build [didn't do this]
- Run 'bjam' with your options: a) linux-x86: % bjam b) SGI Irix: % bjam "-sTOOLS=mipspro" c) Mac OS X: % bjam "-sTOOLS=darwin"
- Login as root
cp -df bin-stage/libboost_python.so* /usr/local/lib cd ../../..; cp -rf boost /usr/local/include
A.2. How to use your own python version
If the python you want to use in your computer is not found by CMake, you may set up environment variables "PYTHON_ROOT" and "PYTHON_VERSION". For example, if your python is at /usr/local/python2.4/bin/python. PYTHON_ROOT is "/usr/local/python2.4". if your python is 2.4.X, PYTHON_VERSION is '2.4'.
A.3. How to Install numpy
From the website http://sourceforge.net/projects/numpy download source package.
For windows, run the binary installer and the installation is complete. Other users must download the source code and install manually as follows:
- Get source code numpy-1.0.1.tar.gz
% gunzip numpy-1.0.1.tar.gz % tar xf numpy-1.0.1.tar
- Login as root.
% cd numpy-1.0.1; % python setup.py install