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I am new in PETSc. I have a big c++ code and I want to add PETSc to some of the files that I already have, so I have to change my makefile in a way that it can compile PETSc as well.

Is it possible to have two different makefiles and then call PETSc makefile within my own makefile? if so, how can I do this?

Does anyone have any experience in linking PETSc to their own code?

By the way, I am using Linux as my operating system.

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You want your build to build PETSc as well as building your code or you want your code to use an already built PETSc? –  Etan Reisner Jan 24 '14 at 17:39
    
Yes I want my build to build PETSc as well as building my code –  Nazi Jan 24 '14 at 17:54
    
It is possible, but it's a bit complicated. PETSc's makefile system is hard to understand. –  Dan Jan 24 '14 at 19:52
    
At the simplest you could always just have the PETSc source in a directory in your tree and make -C <PETSCdir> as a prereq for your targets. That's not going to track prerequisites well at all but it would work. (A fancier setup would be to create targets for the various tools/libraries that PETSc builds that you depend on and use make -C <PETScdir> <target> for whatever builds that tool/library.) –  Etan Reisner Jan 24 '14 at 21:33
    
So you mean I dont have to add PETSc commands in my own makefile and just first compile PETSc and then complie my own C++ code? I did what you said but it is not working and it shows me error. –  Nazi Jan 25 '14 at 20:39

2 Answers 2

up vote 1 down vote accepted

I am not too familiar with Makefiles, so I would just list out the “hack” method. We will look into the “hack” method in this text later on. I have a Makefile and a sample source code, ex1.cpp that uses few PETSc arrays, vectors, functions along with my own regular C/C++ array that does data exchange with PETSc array and vectors. This could be thought of as a miniature version of your case.

My Makefile –

PETSC_DIR=/usr/local/petsc

include ${PETSC_DIR}/conf/variables
include ${PETSC_DIR}/conf/rules
include ${PETSC_DIR}/conf/test

CLINKER=g++

ex1 : ex1.o chkopts
    ${CLINKER} -w -o ex1 ex1.o ${PETSC_LIB}
    ${RM} ex1.o 
    ./ex1

Of course you need to edit PETSC_DIR to the PETSc directory location on your system. Typing “make ex1” would compile and link the source code to create an executable and execute it.

After I do “make ex1” on my system, the two process outputs of compilation and linking are shown, that are listed here as follows:

Compilation -

/usr/local/petsc/arch-linux2-c-debug/bin/mpicc -o ex1.o -c -fPIC -Wall -Wwrite-strings -Wno-strict-aliasing -Wno-unknown-pragmas -g3 -fno-inline -O0 -I/usr/local/petsc/include -I/usr/local/petsc/arch-linux2-c-debug/include ex1.cpp

Linking -

g++ -w -o ex1 ex1.o -Wl,-rpath,/usr/local/petsc/arch-linux2-c-debug/lib -L/usr/local/petsc/arch-linux2-c-debug/lib -lpetsc -Wl,-rpath,/usr/local/petsc/arch-linux2-c-debug/lib -lflapack -lfblas -lX11 -lpthread -lm -Wl,-rpath,/usr/lib/gcc/x86_64-linux-gnu/4.6 -L/usr/lib/gcc/x86_64-linux-gnu/4.6 -Wl,-rpath,/usr/lib/x86_64-linux-gnu -L/usr/lib/x86_64-linux-gnu -Wl,-rpath,/lib/x86_64-linux-gnu -L/lib/x86_64-linux-gnu -lmpichf90 -lgfortran -lm -lgfortran -lm -lquadmath -lm -lmpichcxx -lstdc++ -ldl -lmpich -lopa -lmpl -lrt -lpthread -lgcc_s –ldl

So the “hack” trick is that you run the Makefile and separate the compilation and linking process outputs with this PETSc case. You do the same with your original source code that is PETSc-free and note down compilation and linking process outputs with it.

Let’s suppose with PETSc-free version, the compilation process output is g++ -o ex1.o –I/random_path ex1.cpp and linking process output is g++ -w -o ex1 ex1.o –llib1 –L/random_lib2.

Next step is to merge the compilation paths for PETSc code and PETSc-free code and same with linking. Thus, the modified compilation and linking processes would be:

Modified Compilation -

/usr/local/petsc/arch-linux2-c-debug/bin/mpicc -o ex1.o -c -fPIC -Wall -Wwrite-strings -Wno-strict-aliasing -Wno-unknown-pragmas -g3 -fno-inline -O0 -I/usr/local/petsc/include -I/usr/local/petsc/arch-linux2-c-debug/include –I/random_path ex1.cpp

Modified Linking –

g++ -w -o ex1 ex1.o -Wl,-rpath,/usr/local/petsc/arch-linux2-c-debug/lib -L/usr/local/petsc/arch-linux2-c-debug/lib -lpetsc -Wl,-rpath,/usr/local/petsc/arch-linux2-c-debug/lib -lflapack -lfblas -lX11 -lpthread -lm -Wl,-rpath,/usr/lib/gcc/x86_64-linux-gnu/4.6 -L/usr/lib/gcc/x86_64-linux-gnu/4.6 -Wl,-rpath,/usr/lib/x86_64-linux-gnu -L/usr/lib/x86_64-linux-gnu -Wl,-rpath,/lib/x86_64-linux-gnu -L/lib/x86_64-linux-gnu -lmpichf90 -lgfortran -lm -lgfortran -lm -lquadmath -lm -lmpichcxx -lstdc++ -ldl -lmpich -lopa -lmpl -lrt -lpthread -lgcc_s –ldl –llib1 –L/random_lib2

You may type the modified commands directly onto the terminal or make a BASH script to run them.

The PETSc example code that calculates reciprocal of the numbers in an array is listed below for the sake of reference:

// EX1.CPP
#include <petscvec.h>
#include <petscmat.h>
#include <petscksp.h>

Vec Arr2Vec(double *arr2, int SIZE);

// MAIN FUNCTION
int main(int argc,char **argv)
{
    // Initialize PetSc
    PetscInitialize(&argc,&argv,(char*)0,"Testing a program!");

    // Initialize parameters
    int SIZE = 3;
    PetscErrorCode ierr;

    // **** Create a regular arary and set it with random numbers
    double  * arr2;
    arr2 = new double [SIZE];

    arr2[0] = 0.1;
    arr2[1] = 0.4;
    arr2[2] = 0.2;

    // Convert regular arary to PETSc vector [Note that this must do the same effect as the two-step process of conversion from regular array to PETSc arary and that to PETSc vector as listed above]
    Vec x = Arr2Vec(arr2, SIZE);

    printf("Reciprocal Vector : \n"); VecReciprocal(x);
    VecView(x,PETSC_VIEWER_STDOUT_WORLD);

    //Cleanup
    ierr = VecDestroy(&x);
    CHKERRQ(ierr);
    PetscFinalize();

    return 0;
}

Vec Arr2Vec(double *arr2, int SIZE)
{
  PetscScalar *array1;
  PetscMalloc(SIZE*sizeof(PetscScalar),&array1);

  for(int i=0;i<SIZE;i++)
    array1[i]=arr2[i];

    // Setup vector
  Vec x;
  VecCreate(PETSC_COMM_WORLD,&x);
  VecSetSizes(x,PETSC_DECIDE,SIZE);
  VecSetFromOptions(x);

  // Place PetSc array as Vector
  VecPlaceArray(x,array1);

  return x;

}
share|improve this answer
    
Thank you very much for your comprehensive explanation. I am going to apply the method you mentioned. Meanwhile I am using NetBeans as a tool to compile the PETSc files together with my own c++ code. Using NetBeans makes me able to avoid writing a makefile cause it produce a makefile itself. If you are interested in knowing how to compile with NetBeans I would be grateful to tell you how to do that. –  Nazi Feb 25 '14 at 17:16
    
I am sort of old-school and stay away from IDEs as much as possible. But I will get back to you if I try to use NetBeans. Appreciate your help too! –  Divakar Feb 25 '14 at 17:22
    
Also, I have few other custom codes to do data exchange between regular C/C++ arrays, PETSc arrays and PETSc vectors. Let me know if you need more examples on those. –  Divakar Feb 25 '14 at 17:24
    
@Mahnaz, If it has answered your question, you might think of marking the answer as accepted by clicking on the check mark next to the answer. Thanks! –  Divakar Feb 26 '14 at 8:03
    
I really appreciate your answers. I would be grateful if you give me more examples on exchanging data between PETSc and C++. –  Nazi Mar 4 '14 at 19:09

Instead of the hack described by Divakar, you can easily find out the link flags and the include directories for compilation by running

make getlinklibs
make getincludedirs

in the main petsc directory, as described here...

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Thank you very much for your suggestion. By the way I solved the problem that I have by using Netbeans instead of writing the makefile myself. I created a project in Netbeans and added the libraries that are needed from PETSc (which we can find by using getlinklibs). –  Nazi Jul 10 '14 at 13:33

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