Cantera Preconfig/Snow Leopard Preconfig
From charlesreid1
The following is my preconfig file for Mac OS X Snow Leopard (10.6) with Cantera 1.8.
#!/bin/sh # ####################################################################### # # Cantera Configuration File # # Edit this file to control how Cantera is built. Parameters can be set # here, or alternatively environment variables may be set before calling # this script. # # The default configuration uses GNU compilers (gcc/g++/g77) and # builds as much of Cantera and its language interfaces as it can # (e.g. if MATLAB is installed on your system, the MATLAB toolbox # will be built automatically, otherwise it will be skipped. On linux # or Mac OS X, this default configuration should work, and most # likely you don't need to edit this file at all - just run it. # # NOTE: if you DO make changes to this file, save it with another name # so that it will not be overwritten if you update the source # distribution. ####################################################################### # # Set CANTERA_CONFIG_PREFIX to the directory where you want Cantera # installed into. The default is /usr/local/Cantera # # If you define this to be <prefix>, then instead of running this # script as ./preconfig --prefix=<prefix> you can just run it as # ./preconfig. CANTERA_CONFIG_PREFIX=${CANTERA_CONFIG_PREFIX:="/Users/charles/pkg/cantera/1.8.0"} #---------------------------------------------------------------------- # Language Interfaces #---------------------------------------------------------------------- # # Cantera has several programming language interfaces. Select the ones # you want to build. The default is to try to build all language # interfaces. # # #----------------- Python -------------------------------------------- # # In addition to being one of the supported language interfaces, # Python is used internally by Cantera, both in the build process and # at run time (to process .cti input files). Therefore, you generally # need to have Python on your system; if you don't, first install it # from http://www.python.org before proceeding with the installation # of Cantera. # # If you plan to work in Python, or you want to use the graphical # MixMaster application, then you need the full Cantera Python # Package. If, on the other hand, you will only use Cantera from some # other language (e.g. MATLAB or Fortran 90/95) and only need Python # to process .cti files, then you only need a minimal subset of the # package (actually, only one file). # Set PYTHON_PACKAGE to one of these four strings: # full install everything needed to use Cantera from Python # minimal install only enough to process .cti files # none Don't install or run any Python scripts during the # build process # default try to do a full installation, but fall back to a minimal # one in case of errors PYTHON_PACKAGE=${PYTHON_PACKAGE:="full"} # Cantera needs to know where to find the Python interpreter. If # PYTHON_CMD is set to "default", then the configuration process will # look for the Python Interpreter somewhere on your PATH, either as # 'python2' or as 'python'. If it is not on the PATH, or has a # different name, set this to the full path to the Python interpreter. PYTHON_CMD=${PYTHON_CMD:="/Library/Frameworks/Python.framework/Versions/2.7/bin/python"} # The Cantera Python interface can be built with either the numarray # numeric, or numpy packages. Set this to "y" to use Numeric. USE_NUMERIC=${USE_NUMERIC:="n"} # The Cantera Python interface can be built with either the numarray # or Numeric packages. Set this to "y" to use numpy, or 'n' # to use numarray. set USE_NUMERIC to 'n' also if you want to use numarray. # Using numpy is preferred, and is the supported option going forwards. USE_NUMPY=${USE_NUMPY:="y"} # If numpy was installed using the --home option, set this to the # home directory for numpy. This will be needed for all numpy installations # that don't put the include files into python's native include directory. NUMPY_INC_DIR=${NUMPY_INC_DIR:="/Users/charles/pkg/numpy-1.5.1/lib/python2.7/site-packages/numpy/core/include"} export NUMPY_INC_DIR # If numarray was installed using the --home option, set this to the # home directory for numarray. #NUMARRAY_HOME=${NUMARRAY_HOME:="$HOME/python_packages"} # If you want to install the Cantera Python package somewhere other # than the default 'site-packages' directory within the Python library # directory, then set this to the desired directory. This is useful when # you do not have write access to the Python library directory. #CANTERA_PYTHON_HOME=${CANTERA_PYTHON_HOME:="$HOME/python_modules"} # Set this to 'y' when site packages must be put in system directories # but Cantera tutorials must be put in user space. An alternative to # doing this is to keep this setting on "n" . Then everything is # put into the user space by running this script # with the 'prefix' option. The environment variable PYTHONPATH # may then be set to tell Python where to find the Cantera package. # SET_PYTHON_SITE_PACKAGE_TOPDIR=${SET_PYTHON_SITE_PACKAGE_TOPDIR:="n"} # If the SET_PYTHON_SITE_PACKAGE_TOPDIR is set to y, the entry below # sets the location where the Cantera site package is installed. # #PYTHON_SITE_PACKAGE_TOPDIR=${PYTHON_SITE_PACKAGE_TOPDIR:="/usr/local"} #----------- MATLAB -------------------------------------------------- # This variable controls whether the MATLAB toolbox will be built. It # should be set to one of these strings: # # "default" the 'configure' script will try to build a simple # MATLAB MEX file. If this succeeds, BUILD_MATLAB_TOOLBOX # will be set to "y", otherwise it will be set to "n". # # "y" build the MATLAB toolbox. # "n" do not build the MATLAB toolbox, even if MATLAB is # installed. # # Note that you may need to run 'mex -setup' within MATLAB to # configure it for your C++ compiler before running this script. BUILD_MATLAB_TOOLBOX=${BUILD_MATLAB_TOOLBOX:="n"} #MATLAB_CMD=${MATLAB_CMD:="default"} #----------- Fortran 90/95 -------------------------------------------------- # This variable controls whether the Fortran 90/95 interface will be # built. It should be set to one of these strings: # # "default" The 'configure' script will attempt to compile a small # Fortran 90/05 program; if this succeeds, # BUILD_F90_INTERFACE will be set to "y", and otherwise to "n". # "y" Build the Fortran 90/95 interface. # "n" Do not build the Fortran 90/95 interface, even if a # Fortran 90/95 compiler is installed. BUILD_F90_INTERFACE=${BUILD_F90_INTERFACE:="no"} # The Fortran 90/95 compiler. If set to "default", the script will # look for a Fortran 90/95 compiler on your system by the name of # "f95", "gfortran", or "g95". F90=${F90:="gfortran"} # Compiler option flags for the Fortran 90/95 compiler. If you are # using the Absoft or the NAG compiler, additional options specific to # these compilers will be added automatically, and you do not need to # specify them here. Otherwise, add any required compiler-specific # flags here. F90FLAGS=${F90FLAGS:='-O3'} #--------------------------------------------------------------------- # Purify #--------------------------------------------------------------------- # Add entries here for compiling Cantera with Purify extensions # This command is put in front of every compilation and linking # step PURIFY=${PURIFY:=""} #---------------------------------------------------------------------- # Customizations / Extensions #---------------------------------------------------------------------- # # You can build your own libraries as part of the Cantera build process. # This allows you to derive your own classes from those provided by # Cantera and build them automatically along with the rest of Cantera. # All you need to do is specify the directory where your source code is # located. This capability is not yet fully functional, but should work # for C++ applications. USER_SRC_DIR="Cantera/user" # don't change this # In some cases, extra printing has been put into the code to aid # in debugging and verification. In order for the printing to occur # an additional switch must be turned on. However, compilation # of the printing is affected by the following DEBUG_MODE option. # This is turned off here by default. DEBUG_MODE=${DEBUG_MODE:='n'} #---------------------------------------------------------------------- # Kernel Configuration #---------------------------------------------------------------------- # If you are only planning to use a portion of Cantera, you may only # need a stripped-down kernel. Set those features you want enabled to # 'y', and set those you want to skip to 'n' (actually anything but # 'y') or comment them out. Some features are dependent on others; for # example, enabling 'CK' automatically enables KINETICS and THERMO. # If you only need to use Cantera to evaluate thermodynamic, kinetic, # and transport properties, it is sufficient to enable only KINETICS # and TRANSPORT. # Note: if you are building the full Python interface or the MATLAB # interface, it is necessary to build the full kernel. # thermodynamic properties ENABLE_THERMO='y' ###################################################################### # optional phase types. These may not be needed by all users. Set them # to 'n' to omit them from the kernel. WITH_LATTICE_SOLID=${WITH_LATTICE_SOLID:="y"} WITH_METAL=${WITH_METAL:="y"} WITH_STOICH_SUBSTANCE=${WITH_STOICH_SUBSTANCE:="y"} WITH_SEMICONDUCTOR=${WITH_SEMICONDUCTOR:="y"} WITH_ADSORBATE=${WITH_ADSORBATE:="y"} WITH_SPECTRA=${WITH_SPECTRA:="y"} # This flag enables the inclusion of accurate liquid/vapor equations # of state for several fluids, including water, nitrogen, hydrogen, # oxygen, methane, andd HFC-134a. WITH_PURE_FLUIDS='y' # This flag enables the inclusion of ideal solution capabilities WITH_IDEAL_SOLUTIONS=${WITH_IDEAL_SOLUTIONS:="y"} # Enable expanded electrochemistry capabilities, include thermo # models for electrolyte solutions WITH_ELECTROLYTES=${WITH_ELECTROLYTES:="y"} # Enable generating phase models from PrIMe models. For more # information about PrIME, see http://www.primekinetics.org # WARNING: Support for PrIMe is experimental! WITH_PRIME=${WITH_PRIME:="y"} # Enable changing the 298K heats of formation directly # via the C++ layer. To do this, modify the variable below # to have a value of "y" WITH_H298MODIFY_CAPABILITY=${WITH_H298MODIFY_CAPABILITY:="n"} ###################################################################### # if set to 'y', the ck2cti program that converts Chemkin input files # to Cantera format will be built. If you don't use Chemkin format # files, or if you run ck2cti on some other machine, you can set this to 'n'. ENABLE_CK=${ENABLE_CK:='y'} ###################################################################### # Enable homogeneous kinetics WITH_KINETICS='y' # Enable heterogeneous kinetics (surface chemistry). This also enables # charge transfer reactions for electrochemistry. WITH_HETERO_KINETICS='y' # Enable reaction path analysis WITH_REACTION_PATHS='y' # Enable vcs equilibrium package for nonideal phases WITH_VCSNONIDEAL=${WITH_VCSNONIDEAL:="n"} ###################################################################### # transport properties ENABLE_TRANSPORT='y' # chemical equilibrium ENABLE_EQUIL='y' # stirred reactor models ENABLE_REACTORS='y' # One-dimensional flows ENABLE_FLOW1D='y' # ODE integrators and DAE solvers ENABLE_SOLVERS='y' # reaction path analysis ENABLE_RXNPATH='y' # two phase pure fluids ENABLE_TPX='y' # write HTMl log files. Some multiphase equilibrium procedures can # write copious diagnostic log messages. Set this to anything but 'y' # to remove this capability (results in slightly faster equilibrium # calculations) WITH_HTML_LOG_FILES='y' #----------------------------------------------------------------- # CVODE / CVODES #----------------------------------------------------------------- # # Cantera uses the CVODE or CVODES ODE integrator to time-integrate # reactor network ODE's and for various other purposes. An older # version of CVODE comes with Cantera, but it is possible to use the # latest version as well, which now supports sensitivity analysis # (CVODES). CVODES is a part of the 'sundials' package from Lawrence # Livermore National Laboratory. Sundials is not distributed with # Cantera, but it is free software that may be downloaded and # installed separately. If you leave USE_SUNDIALS = 'default', then it # will be used if you have it, and if not the older CVODE will be # used. Or set USE_SUNDIALS to 'y' or 'n' to force using it or not. # Note that sensitivity analysis with Cantera requires use of # sundials. # # See: http://www.llnl.gov/CASC/sundials # USE_SUNDIALS=${USE_SUNDIALS:='y'} # This is where you installed sundials if you used the --prefix option # when you configured sundials. If you didn't use the prefix option, # then comment this line out. SUNDIALS_HOME=${SUNDIALS_HOME:="/Users/charles/pkg/sundials/2.3.0"} # It is recommended that you install the newest release of sundials # (currently 2.3.0) before building Cantera. But if you want to use an # older version, set SUNDIALS_VERSION to the version you have. # Acceptable values are '2.2' and '2.3' only; anything else will cause # Cantera to not use sundials. SUNDIALS_VERSION=${SUNDIALS_VERSION:='2.3'} #----------------------------------------------------------------- # BLAS and LAPACK #----------------------------------------------------------------- # # Cantera comes with Fortran (or c) versions of those parts of BLAS and # LAPACK it requires. But performance may be better if you use a # version of these libraries optimized for your machine hardware. If # you want to use your own libraries, set BLAS_LAPACK_LIBS to the # string that should be passed to the linker to link to these # libraries, and set BLAS_LAPACK_DIR to the directory where these # libraries are located. Otherwise, leave these lines commented out. # #BLAS_LAPACK_LIBS='-llapack -lblas' #BLAS_LAPACK_LIBS'-llapack -lf77blas -lcblas -latlas' #BLAS_LAPACK_DIR='/usr/lib' # # Note that on Mac OSX, BLAS and LAPACK from the built-in 'Accelerate' # framework are used by default, and nothing needs to be specified # here. # # The options below do not need to be set if you are using the default # libraries. # # Set to 'lower' or 'upper', depending on whether the procedure names # in the libraries are lowercase or uppercase. If you don't know, run # 'nm' on the library file (e.g. 'nm libblas.a') Note that the these options # apply to both the BLAS and LAPACK libraries. LAPACK_NAMES='lower' LAPACK_FTN_TRAILING_UNDERSCORE='y' # Currently this must be set to 'y'. LAPACK_FTN_STRING_LEN_AT_END='y' #------------------------------------------------------------------ # C++ compiler options #------------------------------------------------------------------ # The number of bits to compile with, if different than the # default on the computer BITCOMPILE=${BITCOMPILE:=""} # the C++ compiler to use. CXX=${CXX:=g++} # the C compiler to use. This is only used to compile CVODE and # the Python extension module. CC=${CC:=gcc} # C++ compiler flags CXXFLAGS=${CXXFLAGS:="-O3 -Wall"} # the C++ flags required for linking. Uncomment if additional flags # need to be passed to the linker. # Ending libraries to tack onto the linking of all C++ programs LCXX_END_LIBS=${LCXX_END_LIBS:="-lm"} # The compiler flag to use to compile code that will be inserted into # shared libraries. PIC=${PIC:=""} # the compiler option to create a shared library from object files SHARED=${SHARED:="-dynamic"} #------------------------------------------------------------------- # Thread Safety #------------------------------------------------------------------- # Cantera can be built so that it is thread safe. Doing so requires # using procedures from the boost library, so if you want thread # safety then you need to get and install boost (http://www.boost.org) # if you don't have it. This is turned off by default, in which case # boost is not required to build Cantera. BUILD_THREAD_SAFE=${BUILD_THREAD_SAFE:="n"} # where boost header and library files may be found BOOST_INC_DIR=${BOOST_INC_DIR:="/usr/local/include/boost-1_34"} BOOST_LIB_DIR=${BOOST_LIB_DIR:="/usr/local/lib"} # the boost thread library BOOST_THREAD_LIB=${BOOST_THREAD_LIB:="boost_thread-mt-1_34"} #------------------------------------------------------------------- # External Procedures #------------------------------------------------------------------- # Cantera uses several external software packages, which are all in # the 'ext' directory.. These options control how these packages are # built. # For external procedures written in Fortran 77, both the original F77 # source code and C souce code generated by the 'f2c' program are # included. Set this to "y" if you want to build Cantera using the # f2c-generated C sources instead of using the F77 sources in the ext # directory. # The default is to use the f2c code. Set this to "n" to never do # this on any platform. Note, if set to "y", Cantera does not need a # fortran compiler, and all fortran compiler parameters below are # irrelevant. # BUILD_WITH_F2C=${BUILD_WITH_F2C:="y"} # if you are building the external Fortran 77 procedures from the Fortran # source code, enter the compiler here. F77=${F77:=g77} # Fortran 77 compiler flags. Note that the Fortran compiler flags must be set # to produce object code compatible with the C/C++ compiler you are using. FFLAGS=${FFLAGS:='-O3'} # the additional Fortran flags required for linking, if any. Leave commented # out if no additional flags are required. LFORT_FLAGS="-L/usr/local/lib" #------------------------------------------------------ # Other Programs #------------------------------------------------------ # The command to create a static library. ARCHIVE=${ARCHIVE:="ar ruv"} # linux # ARCHIVE=${ARCHIVE:="libtool -static -o"} # Mac OSX (this is set automatically) # ARCHIVE=${ARCHIVE:="CC -xar -o"} # Solaris using SUNspro compilers # The command to run 'ranlib' if it is needed. RANLIB=${RANLIB:="ranlib"} # The command to run the 'make' utility. The Cantera Makefiles are # compatible with the GNU make utility, so if your make utility # doesn't work, try GNU make. MAKE=${MAKE:=make} # The command to run when "installing". This defaults now to the # install-sh bourne shell script that comes with the autoconf package. # It can be overridden here. INSTALL_BIN=${INSTALL_BIN:=config/install-sh} # The directory location of the graphviz program, dot. dot is used # for creating the documentation, and for making reaction path # diagrams. if "dot" is in your path, you can leave this unspecified. # # NOTE: MATLAB comes with a stripped-down version of 'dot'. If 'dot' # is on your path, make sure it is not the MATLAB version! # GRAPHVIZDIR=${GRAPHVIZDIR:="/usr/local/bin/dot"} # File extensions CXX_EXT=${CXX_EXT:=cpp} F77_EXT=${F77_EXT:=f} F90_EXT=${F90_EXT:=f90} # # Default extension for executable binaries. The default for unix systems # is the empty field. For windows systesms and cygwin, you should put # ".exe" . # EXE_EXT=${EXE_EXT:=} CT_SHARED_LIB=${CT_SHARED_LIB:=clib} # The font to use in reaction path diagrams. This must be a font name # recognized by the 'dot' program. On linux systems, this should be # lowercase 'helvetica'. RPFONT=${RPFONT:="Helvetica"} # Don't change this. CANTERA_VERSION=${CANTERA_VERSION:="1.8.0"} #----------------------------------------------------------------------- #------------------- don't change anything below!! --------------------- #----------------------------------------------------------------------- export CANTERA_VERSION export USER_SRC_DIR export DEBUG_MODE export ARCHIVE export RANLIB export BITCOMPILE export BLAS_LAPACK_LIBS export BLAS_LAPACK_DIR export BUILD_WITH_F2C export BUILD_F90_INTERFACE export PYTHON_PACKAGE export BUILD_MATLAB_TOOLBOX export MATLAB_CMD export CT_SHARED_LIB export CXX export CXX_EXT export CXXFLAGS export CC export ENABLE_THERMO export WITH_KINETICS export WITH_HETERO_KINETICS export WITH_REACTION_PATHS export ENABLE_TRANSPORT export ENABLE_CK export ENABLE_EQUIL export ENABLE_REACTORS export ENABLE_SOLVERS export ENABLE_RXNPATH export ENABLE_TPX export ENABLE_FLOW1D export EXE_EXT export F77 export F77_EXT export F90 export F90_EXT export FFLAGS export F90FLAGS export INSTALL_BIN export LCXX_FLAGS export LCXX_END_LIBS export LFORT_FLAGS export LAPACK_NAMES export LAPACK_FTN_STRING_LEN_AT_END export LAPACK_FTN_TRAILING_UNDERSCORE export LIB_DIR export FORT_MODULE_DIRECTORY export FORT_MODULE_PATH_COMMAND export OBJ_EXT export PYTHON_CMD export SET_PYTHON_SITE_PACKAGE_DIR export PYTHON_SITE_PACKAGE_TOPDIR export PIC export SHARED export SOEXT export MAKE export GRAPHVIZDIR export RPFONT export FORTRAN_LIB_DIR export CANTERA_INSTALL_DIR export USE_NUMERIC export USE_NUMPY export NUMARRAY_HOME export NUMPY_HOME export CANTERA_PYTHON_HOME export USE_SUNDIALS export SUNDIALS_HOME export SUNDIALS_VERSION export WITH_LATTICE_SOLID export WITH_METAL export WITH_SEMICONDUCTOR export WITH_ADSORBATE export WITH_SPECTRA export WITH_STOICH_SUBSTANCE export WITH_PURE_FLUIDS export WITH_IDEAL_SOLUTIONS export WITH_ELECTROLYTES export WITH_PRIME export WITH_H298MODIFY_CAPABILITY export BUILD_THREAD_SAFE export BOOST_INC_DIR export BOOST_LIB_DIR export BOOST_THREAD_LIB export WITH_HTML_LOG_FILES export PURIFY chmod -f +x ./configure chmod -f +x config/config.guess chmod -f +x config/config.sub #chmod -f +x config/install-sh # # Decide whether to add a prefix variable to the configure line # if (test "x$CANTERA_CONFIG_PREFIX" = "x") then CCPREFIX="" else CCPREFIX="--prefix="$CANTERA_CONFIG_PREFIX fi # # run the configure command # ./configure $CCPREFIX $1 $2 $3 $4
Cantera all pages on the wiki related to the Cantera combustion microkinetics and thermodynamics (a.k.a. "thermochemistry") software.
Cantera · Cantera Outline · Category:Cantera
Outline of Cantera topics: Cantera Outline · Cantera Outline/Brief Understanding Cantera's Structure: Cantera Structure Cantera from Matlab: Using_Cantera#Matlab Cantera from Python: Using_Cantera#Python Cantera from C++: Using_Cantera#C++ Cantera + Fipy (PDE Solver): Fipy and Cantera/Diffusion 1D Cantera Gas Objects: Cantera/Gases Cantera 1D Domains, Stacks: Cantera_One-D_Domains · Cantera_Stacks Cantera Gas Mixing: Cantera_Gas_Mixing
Topics in Combustion: Diffusion: Cantera/Diffusion · Cantera/Diffusion Coefficients Sensitivity Analysis: Cantera/Sensitivity Analysis Analysis of the Jacobian Matrix in Cantera: Jacobian_in_Cantera Chemical Equilibrium: Chemical_Equilibrium Kinetic Mechanisms: Cantera/Kinetic_Mechanisms Reactor Equations: Cantera/Reactor_Equations Differential vs. Integral Reactors: Cantera/Integral_and_Differential_Reactors Effect of Dilution on Adiabatic Flame Temperature: Cantera/Adiabatic_Flame_Temperature_Dilution
Topics in Catalysis: Cantera for Catalysis: Cantera_for_Catalysis Steps for Modeling 0D Multiphase Reactor: Cantera_Multiphase_Zero-D Reaction Rate Source Terms: Cantera/Reaction_Rate_Source_Terms Surface coverage: Cantera/Surface_Coverage Surface reactions: Cantera/Surface_Reactions
Cantera Input Files: Chemkin file format: Chemkin CTI files: Cantera/CTI_Files · Cantera/CTI_Files/Phases · Cantera/CTI_Files/Species · Cantera/CTI_Files/Reactions
Hacking Cantera: Pantera (monkey patches and convenience functions for Cantera): Pantera Extending Cantera's C API: Cantera/Extending_C_API Extending Cantera with Python Classes: Cantera/Adding Python Class Debugging Cantera: Cantera/Debugging_Cantera Debugging Cantera from Python: Cantera/Debugging_Cantera_from_Python Gas Mixing Functions: Cantera_Gas_Mixing Residence Time Reactor (new Cantera class): Cantera/ResidenceTimeReactor
Resources: Cantera Resources: Cantera Resources Cantera Lecture Notes: Cantera_Lecture
Category:Cantera · Category:Combustion Category:C++ · Category:Python Flags · Template:CanteraFlag · e |
Installing Cantera notes on the wiki related to installing the Cantera thermochemistry software library.
Cantera Installation: Mac OS X 10.5 (Leopard): Installing_Cantera#Leopard Mac OS X 10.6 (Snow Leopard): Installing_Cantera#Snow_Leopard · Cantera2 Config Mac OS X 10.7 (Lion): Installing_Cantera#Lion Mac OS X 10.8 (Mountain Lion): Installing_Cantera#Mountain_Lion Ubuntu 12.04 (Precise Pangolin): Installing_Cantera#Ubuntu Windows XP: Installing_Cantera#Windows_XP Windows 7: Installing_Cantera#Windows_7
Cantera Preconfig: In old versions of Cantera, a preconfig file was used to specify library locations and options. Mac OS X 10.5 (Leopard) preconfig: Cantera_Preconfig/Leopard_Preconfig Mac OS X 10.6 (Snow Leopard) preconfig: Cantera_Preconfig/Snow_Leopard_Preconfig Mac OS X 10.8 (Mountain Lion) preconfig: Cantera_Config/MountainLion_SconsConfig Ubuntu 12.04 (Precise Pangolin) preconfig: Cantera_Config/Ubuntu1204_SconsConfig Flags · Template:InstallingCanteraFlag · e |