configure.in

#
# Process this file with autoconf to produce a configure script
#
AC_PREREQ(2.59)
AC_INIT(tmLQCD, 5.2.0, curbach@gmx.de)
AC_CONFIG_HEADER(include/tmlqcd_config_internal.h)
AC_CONFIG_SRCDIR([hmc_tm.c])
AC_CANONICAL_HOST()
AC_PREFIX_DEFAULT($HOME)
AC_ARG_PROGRAM

if test "$host_vendor" = "cray"; then
  ac_cv_c_bigendian=yes
fi

AC_PROG_CC
AC_PROG_CC_C99
dnl AC_PROG_CC_STDC
AC_C_CONST
AC_C_INLINE
AC_C_RESTRICT
AC_F77_LIBRARY_LDFLAGS
AC_CHECK_TOOL(AR, ar, [ar])
LIBS="$LIBS $FLIBS -lm"

AC_PROG_LEX
dnl AC_PROG_LEX sets $LEX to ":" if neither lex nor flex are found! 
if test "$LEX" = ":"; then
  AC_MSG_ERROR([(F)LEX is required for building read_input.c. Please install it and run configure again.])
fi

AC_PROG_MAKE_SET
AC_PROG_RANLIB
AC_CHECK_PROG(CCDEP, gcc, "gcc", "$CC")
AC_CHECK_PROG(CXXDEP, g++, "g++", "$CXX")
#(endian="", AC_DEFINE(LITTLE_ENDIAN,1,The endian of the architechture))

# AC_PROG_FC([ifort gfortran])
# AC_FC_FUNC(testfunc, )

LDFLAGS="$LDFLAGS -L\${HOME}/lib -L\${top_builddir}/lib"
CCLD=${CC}

# compilation in operator is slowest so we do it first, saves time in parallel compiles
USESUBDIRS="operator linalg solver monomial buffers cu io meas xchange init rational wrapper"

AC_CHECK_HEADERS([stdint.h],
[ dnl for inttypes.h and stdint.h for uint_xxx types
  dnl if successful check for the actual types too
  AC_CHECK_TYPES([uint16_t, uint32_t, uint64_t],
                 [],
                 [AC_MSG_ERROR([stdint.h found but either uint16_t, uint32_t or uint64_t not found]) ]
                )
],
[
  dnl no inttypes.h or stdint.h found check common unsigned types
  dnl for sizes and make appropriate decisions in the lime_fixed_types.h file
  AC_CHECK_SIZEOF(unsigned char)
  AC_CHECK_SIZEOF(unsigned short)
  AC_CHECK_SIZEOF(unsigned int)
  AC_CHECK_SIZEOF(unsigned long)
  AC_CHECK_SIZEOF(unsigned long long)
]
)

AC_MSG_CHECKING(where to find lime)
AC_ARG_WITH(limedir,
  AS_HELP_STRING([--with-limedir[=dir]], [search lime in dir [default=./lime]]),
  lime_dir=$withval, lime_dir="./lime")
AC_MSG_RESULT($lime_dir)
LDFLAGS="$LDFLAGS -L${lime_dir}/lib/"
AC_CHECK_LIB([lime], [limeReaderNextRecord],[],
              [AC_MSG_ERROR([library liblime is missing or needed function is not available])])

#LIBS="$LIBS $FLIBS -lm"

AC_MSG_CHECKING(whether we want to use lemon)
AC_ARG_WITH(lemondir,
            AS_HELP_STRING([--with-lemondir[=dir]], [use lemon, to be found in dir]),
             [echo yes
              LEMON_AVAILABLE=1
              lemon_dir=$withval
              LDFLAGS="$LDFLAGS -L${lemon_dir}/lib"
              AC_CHECK_LIB([lemon],
                           [lemonReaderNextRecord],
                           [],
                           [AC_MSG_ERROR([library liblemon was not found])])],
             [echo no
              LEMON_AVAILABLE=0])

AC_MSG_CHECKING(whether we use the general geometry)
AC_ARG_ENABLE(indexindepgeom,
  AS_HELP_STRING([--enable-indexindepgeom], [enable Index independent addressing [default=no]]),
  enable_iig=$enableval, enable_iig=no)
if test $enable_iig = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(_INDEX_INDEP_GEOM,1,Index independent addressing)
else
  AC_MSG_RESULT(no)
fi

AC_MSG_CHECKING(whether we want to use MPI)
AC_ARG_ENABLE(mpi,
  AS_HELP_STRING([--enable-mpi], [enable use of mpi [default=yes]]),
  enable_mpi=$enableval, enable_mpi=yes)
if test $enable_mpi = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(TM_USE_MPI,1,Compile with MPI support)
else
  AC_MSG_RESULT(no)
fi

AC_MSG_CHECKING(whether we want to use DDalphaAMG)
AC_ARG_WITH(DDalphaAMG,
            AS_HELP_STRING([--with-DDalphaAMG[=dir]], [use DDalphaAMG, to be found in dir]),
             [echo yes
              DDalphaAMG_AVAILABLE=1
              DDalphaAMG_INTERFACE="DDalphaAMG_interface"
              AC_DEFINE(DDalphaAMG,1,Using DDalphaAMG)
              DDalphaAMG_dir=$withval
              LDFLAGS="$LDFLAGS -L${DDalphaAMG_dir}/lib"
              INCLUDES="$INCLUDES -I${DDalphaAMG_dir}/include/"
              AC_CHECK_LIB([DDalphaAMG],
                           [DDalphaAMG_finalize],
                           [],
                           [AC_MSG_ERROR([library DDalphaAMG was not found])])],
             [echo no
              DDalphaAMG_AVAILABLE=0
              DDalphaAMG_INTERFACE="DDalphaAMG_interface"
              ])


AC_MSG_CHECKING(whether to use QPX intrinsics)
AC_ARG_ENABLE(qpx,
  AS_HELP_STRING([--enable-qpx], [enable use of qpx intrinsics [default=no]]),
  enable_qpx=$enableval, enable_qpx=no)
if test $enable_qpx = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(BGQ,1,Compile with QPX intrinsics)
  AC_MSG_NOTICE([Compiling with QPX intrinsics on BGQ, enabling compiler optimizations for XLC.])
  OPTARGS="-O2 -qstrict=all -qtune=qp -qarch=qp -qmaxmem=-1"
  SOPTARGS="$OPTARGS" 
else
  AC_MSG_RESULT(no)
fi

AC_MSG_CHECKING(whether to use IBM BG/Q SPI for communications)
AC_ARG_ENABLE(spi,
  AS_HELP_STRING([--enable-spi], [enable use of SPI [default=no]]),
  enable_spi=$enableval, enable_spi=no)
if test $enable_spi = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(SPI,1,Compile with SPI for communications)
  SPI_FILES="DirectPut"
else
  AC_MSG_RESULT(no)
  SPI_FILES=""
fi


AC_MSG_CHECKING(whether we want to use OpenMP)
AC_ARG_ENABLE(omp,
  AS_HELP_STRING([--enable-omp], [enable use of OpenMP [default=yes]]),
  enable_omp=$enableval, enable_omp=yes)
if test $enable_omp = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(TM_USE_OMP,1,Compile with OpenMP support)
  AC_CHECK_HEADERS([omp.h],,[AC_MSG_ERROR([Cannot find OpenMP headers!])])
  AC_OPENMP
# -- AC_OPENMP provides a compiler-dependent OPENMP_CFLAGS so we can set it here
# on the BG/Q with XLC we force a special set of options for OpenMP support
  if test $enable_qpx = yes; then
    AC_MSG_NOTICE([Using OpenMP with XLC on BG/Q. Compiling with "-qsmp=omp:noauto:schedule=static -qthreaded".])
    CFLAGS="$CFLAGS -qsmp=omp:noauto:schedule=static -qthreaded"
    CPPFLAGS="$CPPFLAGS -qsmp=omp:noauto:schedule=static -qthreaded"
    LDFLAGS="$LDFLAGS -qsmp=omp:noauto:schedule=static -qthreaded" 
  else
    CFLAGS="$CFLAGS $OPENMP_CFLAGS"
    CPPFLAGS="$CPPFLAGS $OPENMP_CFLAGS"
    LDFLAGS="$LDFLAGS $OPENMP_CFLAGS"
  fi
else
  AC_MSG_RESULT(no)
fi

fftw_lib=/usr
AC_MSG_CHECKING(whether we want to use FFTW)
AC_ARG_ENABLE(fftw,
  AS_HELP_STRING([--enable-fftw], [enable use of fftw [default=no]]),
  enable_fftw=$enableval, enable_fftw=no)
if test $enable_fftw = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(HAVE_FFTW,1,Compile with FFTW support)
  LIBS="-lfftw3 ${LIBS}"
elif test $enable_fftw = no; then
  AC_MSG_RESULT(no)
else
  AC_MSG_RESULT(yes)
  AC_DEFINE(HAVE_FFTW,1,Compile with FFTW support)
  fftw_lib=${enable_fftw}
  LDFLAGS="$LDFLAGS -L${fftw_lib}/lib64"
  LIBS="-lfftw3 ${LIBS}"
  INCLUDES="-I${fftw_lib}/include ${INCLUDES}"
fi

if test $enable_mpi = yes; then
  AC_MSG_CHECKING(which parallelisation to use for MPI)
  AC_ARG_WITH(mpidimension,
    AS_HELP_STRING([--with-mpidimension[=n]], [use n dimensional parallelisation [default=1]]),
    withmpidimension=$withval, withmpidimension=1)
  if test $withmpidimension = 1; then
    AC_MSG_RESULT(n=1 [t])
    AC_DEFINE(PARALLELT,1,One dimensional parallelisation)
  elif test $withmpidimension = 2; then
    AC_MSG_RESULT(n=2 [xt])
    AC_DEFINE(PARALLELXT,1,Two dimensional parallelisation)
  elif test $withmpidimension = 3; then
    AC_MSG_RESULT(n=3 [xyt])
    AC_DEFINE(PARALLELXYT,1,Three dimensional parallelisation)
  elif test $withmpidimension = 4; then
    AC_MSG_RESULT(n=4 [xyzt])
    AC_DEFINE(PARALLELXYZT,1,Four dimensional parallelisation)
  elif test $withmpidimension = X; then
    AC_MSG_RESULT(n=1 [x])
    AC_DEFINE(PARALLELX,1, X parallelisation)
  elif test $withmpidimension = XY; then
    AC_MSG_RESULT(n=2 [xy])
    AC_DEFINE(PARALLELXY,1, XY parallelisation)
  elif test $withmpidimension = XYZ; then
    AC_MSG_RESULT(n=3 [xyz])
    AC_DEFINE(PARALLELXYZ,1, XYZ parallelisation)
  elif test $withmpidimension = T; then
    AC_MSG_RESULT(n=1 [t])
    AC_DEFINE(PARALLELT,1, T parallelisation)
  elif test $withmpidimension = XT; then
    AC_MSG_RESULT(n=2 [xt])
    AC_DEFINE(PARALLELXT,1, XT parallelisation)
  elif test $withmpidimension = XYT; then
    AC_MSG_RESULT(n=3 [xyt])
    AC_DEFINE(PARALLELXYT,1, XYT parallelisation)
  elif test $withmpidimension = XYZT; then
    AC_MSG_RESULT(n=4 [xyzt])
    AC_DEFINE(PARALLELXYZT,1, XYZT parallelisation)
  else
    AC_MSG_RESULT(unknown)
    AC_MSG_ERROR([Only t, xt, xyt, xyzt, x, xy, xyz parallelisation available])
  fi

  AC_MSG_CHECKING(whether we shall use persistent MPI calls for halfspinor)
  AC_ARG_WITH([persistentmpi],
    AS_HELP_STRING([--with-persistentmpi], [use persistent MPI calls for halfspinor [default=no]]),
    withpersistent=$withval, withpersistent=no)
  if test $withpersistent = yes; then
    AC_MSG_RESULT(yes)
    AC_DEFINE(_PERSISTENT,1,use persistent MPI calls for halfspinor)
  else
    AC_MSG_RESULT(no)
  fi

  AC_MSG_CHECKING(whether we shall use non-blocking MPI calls)
  AC_ARG_WITH([nonblockingmpi],
    AS_HELP_STRING([--with-nonblockingmpi], [use non-blocking MPI calls for spinor and gauge [default=yes]]),
    withnonblock=$withval, withnonblock=yes)
  if test $withnonblock = yes; then
    AC_MSG_RESULT(yes)
    AC_DEFINE(_NON_BLOCKING,1,use non-blocking MPI calls for spinor ang gauge)
  else
    AC_MSG_RESULT(no)
  fi
fi

AC_MSG_CHECKING([whether we want to fix volume at compiletime])
AC_ARG_WITH([fixedvolume],
  AS_HELP_STRING([--with-fixedvolume], [fix volume at compiletime [default=no]]),
  with_fixvol=$withval, with_fixvol=no)
if test $with_fixvol = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(FIXEDVOLUME,1,Fixed volume at compiletime)
  AC_CONFIG_FILES([fixed_volume.h])
else
  AC_MSG_RESULT(no)
fi

AC_MSG_CHECKING([whether we want to use KOJAK instrumentalisation])
AC_ARG_WITH([kojakinst],
  AS_HELP_STRING([--with-kojakinst], [instrumentalise for KOJAK [default=no]]),
  with_kojakinst=$withval, with_kojakinst=no)
if test $with_kojakinst = yes; then
  AC_MSG_RESULT(yes)
  CC="kinst-pomp ${CC}"
else
  AC_MSG_RESULT(no)
fi

AC_MSG_CHECKING(whether we want to use lapack and blas)
AC_ARG_WITH(lapack,
  AS_HELP_STRING([--with-lapack], [enable use of lapack [default=yes]]),
  with_lapack=$withval, with_lapack=yes)
if test "$with_lapack" = yes; then
  AC_MSG_RESULT(yes)
  LAPACKLIB=
  AC_DEFINE(HAVE_LAPACK,1,lapack available)
elif test "$with_lapack" != no; then
  AC_MSG_RESULT(yes)
  LIBS="$withval $LIBS"
  with_lapack=yes
  AC_DEFINE(HAVE_LAPACK,1,lapack available)
else
  AC_MSG_RESULT(no)
  AC_MSG_ERROR([lapack is needed! Will stop here.])
fi

if test $enable_mpi = yes; then
  dnl In general one cannot run mpi programs directly
  dnl thats why we need here cross_compiling=yes
  dnl for non CRAY
  if test "$host_vendor" != "cray"; then
    cross_compiling=yes
  fi
fi

dnl for the case of other configure scripts
dnl AC_CONFIG_SUBDIRS( rng )

dnl check for clock_gettime and set correct library flag if one is required
dnl (this is done by AC_CHECK_LIB)
AC_CHECK_FUNCS(clock_gettime, [], [AC_CHECK_LIB(rt, clock_gettime)])

dnl in principle clock_gettime and CLOCK_MONOTONIC/CLOCK_REALTIME should be available
dnl only when using POSIX 199309, we set this explicitly here
dnl this should not cause problems on any relatively modern (post y2k) machine!
if ( test "$ac_cv_lib_rt_clock_gettime" = "yes" || test "$ac_cv_func_clock_gettime" = "yes" ); then
  AC_DEFINE(HAVE_CLOCK_GETTIME,1)
dnl  we set this in gettime.c explicitly for the time being 
dnl  due to endian problem on BG/Q
dnl  CFLAGS="$CFLAGS -D_POSIX_C_SOURCE=199309L"
  AC_MSG_NOTICE([Instructing the compiler to use POSIX 199309L])
fi

dnl Checks for lapack and defines proper name mangling scheme for
dnl linking with f77 code
AC_F77_FUNC(zheev)
if test "$zheev" = "zheev"; then
  AC_DEFINE(NOF77_,1,Fortran has no extra _)
fi
AC_SEARCH_LIBS([$zheev],[lapack], [], [AC_MSG_ERROR([Cannot find lapack])])

dnl Checks for header files.
AC_HEADER_STDC
AC_CHECK_HEADERS([float.h libintl.h limits.h stdint.h stdlib.h string.h strings.h sys/time.h unistd.h endian.h])
AC_CHECK_HEADER( getopt.h, [])

dnl Checks for typedefs, structures, and compiler characteristics.
AC_C_CONST
AC_TYPE_OFF_T
AC_TYPE_SIZE_T
AC_HEADER_TIME

dnl Checks for library functions.
AC_SYS_LARGEFILE
AC_FUNC_FSEEKO
AC_FUNC_MALLOC
AC_TYPE_SIGNAL
AC_CHECK_FUNCS([gettimeofday pow sqrt])

dnl We now define some replacement variables
AC_SUBST(OPTARGS)
AC_SUBST(SOPTARGS)
AC_SUBST(INCLUDES)
AC_SUBST(AUTOCONF)
AC_SUBST(SOLVEROUT)
AC_SUBST(CCDEP)
AC_SUBST(CXXDEP)
AC_SUBST(CCLD)
AC_SUBST(DEPFLAGS)
AC_SUBST(CXXDEPFLAGS)
AC_SUBST(DEBUG_FLAG)
AC_SUBST(PROFILE_FLAG)
AC_SUBST(XCHANGELIB)
AC_SUBST(XCHANGEDIR)
AC_SUBST(MEASDIR)
AC_SUBST(XLIB)
AC_SUBST([LEMON_AVAILABLE])
AC_SUBST(SPI_FILES)
AC_SUBST(QUDA_INTERFACE)
AC_SUBST(QPHIX_INTERFACE)
AC_SUBST(QPHIX_PROGRAMS)
AC_SUBST(DDalphaAMG_INTERFACE)

INCLUDES="$INCLUDES -I\$(HOME)/include/ -I. -I\${abs_top_builddir}/  -I\${abs_top_builddir}/include/ -I\${abs_top_srcdir}/ -I\${abs_top_srcdir}/include/ -I${lime_dir}/include/ -I${lemon_dir}/include/"
DEPFLAGS="$DEPFLAGS"

AC_MSG_CHECKING(what alignment we want for arrays)
AC_ARG_ENABLE(alignment,
  [AS_HELP_STRING([--enable-alignment[=n]], [Automatically or expliclty align arrays to byte number: auto, none, 16, 32, 64 [default=auto]])],
  withalign=$enableval, withalign=auto)
if test "$withalign" = "none"; then
  AC_MSG_RESULT(none)
  withalign=1
  AC_DEFINE(ALIGN_BASE, 0x00, [Align base])
  AC_DEFINE(ALIGN, [])
  AC_DEFINE(ALIGN_BASE32, 0x00, [Align base32])
  AC_DEFINE(ALIGN32, [], [])
elif test $withalign = 16; then
  AC_MSG_RESULT(16 bytes)
  AC_DEFINE(ALIGN_BASE, 0x0F, [Align base])
  AC_DEFINE(ALIGN, [__attribute__ ((aligned (16)))])
  AC_DEFINE(ALIGN_BASE32, 0x0F, [Align base32])
  AC_DEFINE(ALIGN32, [__attribute__ ((aligned (16)))], [])
elif test $withalign = 32; then
  AC_MSG_RESULT(32 bytes)
  AC_DEFINE(ALIGN_BASE, 0x1F, [Align base])
  AC_DEFINE(ALIGN, [__attribute__ ((aligned (32)))])
  AC_DEFINE(ALIGN_BASE32, 0x1F, [Align base32])
  AC_DEFINE(ALIGN32, [__attribute__ ((aligned (32)))], [])
elif test $withalign = 64; then
  AC_MSG_RESULT(64 bytes)
  AC_DEFINE(ALIGN_BASE, 0x3F, [Align base])
  AC_DEFINE(ALIGN, [__attribute__ ((aligned (64)))])
  AC_DEFINE(ALIGN_BASE32, 0x3F, [Align base32])
  AC_DEFINE(ALIGN32, [__attribute__ ((aligned (64)))], [])
elif test $withalign = auto; then
  withautoalign=1
  AC_MSG_RESULT(auto)
  AC_DEFINE(ALIGN_BASE, 0x00, [Align base])
  AC_DEFINE(ALIGN, [], [])
  AC_DEFINE(ALIGN_BASE32, 0x00, [Align base32])
  AC_DEFINE(ALIGN32, [], [])
else
  AC_MSG_RESULT(Unusable value for array alignment)
  AC_MSG_ERROR([Allowed values are: auto, none, 16, 32, 64])
fi

dnl in the following we check for extra options
if test "$host_cpu" = "i686" || test "$host_cpu" = "x86_64"; then

  AC_MSG_CHECKING(whether we want to use P4 instructions)
  AC_ARG_ENABLE(p4,
    AS_HELP_STRING([--enable-p4],[enable use of P4 instructions [default=no]]),
    enable_p4=$enableval, enable_p4=no)
  if test $enable_p4 = yes; then
    AC_MSG_RESULT(yes)
    AC_DEFINE(P4,1,Use Pentium4 instructions)
    if test $withalign = auto; then
      if test $withautoalign -lt 16; then
        AC_MSG_RESULT(increasing array alignment to 16 bytes for P4 instructions)
        AC_DEFINE(ALIGN_BASE, 0x0F, [Align base])
        AC_DEFINE(ALIGN, [__attribute__ ((aligned (16)))])
        AC_MSG_RESULT(increasing array 32 bit alignment to 16 bytes for P4 instructions)
        AC_DEFINE(ALIGN_BASE32, 0x0F, [Align base])
        AC_DEFINE(ALIGN32, [__attribute__ ((aligned (16)))])
        withautoalign=16
      fi
    elif test $withalign -lt 16; then
      AC_MSG_ERROR([alignment incompatible with P4 instructions (16 bytes required)!])
    fi
  else
    AC_MSG_RESULT(no)
  fi

  AC_MSG_CHECKING(whether we want to use Opteron instructions)
  AC_ARG_ENABLE(opteron,
    AS_HELP_STRING([--enable-opteron], [enable use of Opteron instructions [default=no]]),
    enable_opteron=$enableval, enable_opteron=no)
  if test $enable_opteron = yes; then
    AC_MSG_RESULT(yes)
    AC_DEFINE(OPTERON,1,Use Opteron instructions)
    if test $withalign = auto; then
      if test $withautoalign -lt 16; then
        AC_MSG_RESULT(increasing array alignment to 16 bytes for Opteron instructions)
        AC_DEFINE(ALIGN_BASE, 0x0F, [Align base])
        AC_DEFINE(ALIGN, [__attribute__ ((aligned (16)))])
        AC_MSG_RESULT(increasing array 32 bit alignment to 16 bytes for Opteron instructions)
        AC_DEFINE(ALIGN_BASE32, 0x0F, [Align base32])
        AC_DEFINE(ALIGN32, [__attribute__ ((aligned (16)))])
        withautoalign=16
      fi
    elif test $withalign -lt 16; then
      AC_MSG_ERROR([alignment incompatible with Opteron instructions (16 bytes required)!])
    fi
  else
    AC_MSG_RESULT(no)
  fi

  AC_MSG_CHECKING(whether we want to use SSE2 instructions)
  AC_ARG_ENABLE(sse2,
    AS_HELP_STRING([--enable-sse2], [enable use of SSE2 instructions [default=no]]),
    enable_sse2=$enableval, enable_sse2=no)
  if test $enable_sse2 = yes; then
    AC_MSG_RESULT(yes)
    if test $withalign != auto && test $withalign -lt 16; then
      AC_MSG_ERROR([alignment incompatible with SSE2 instructions (16 bytes required)])
    fi
  else
    AC_MSG_RESULT(no)
  fi

  AC_MSG_CHECKING(whether we want to use SSE3 instructions)
  AC_ARG_ENABLE(sse3,
    AS_HELP_STRING([--enable-sse3], [enable use of SSE3 instructions [default=no]]),
    enable_sse3=$enableval, enable_sse3=no)
  if test $enable_sse3 = yes; then
    AC_MSG_RESULT(yes)
    if test $withalign != auto && $withalign -lt 16; then
      AC_MSG_ERROR([alignment incompatible with SSE3 instructions (16 bytes required)])
    fi
  else
    AC_MSG_RESULT(no)
  fi

  if test "$enable_sse2" = "yes" || test "$enable_sse3" = "yes"; then
    if test $withalign = auto; then
      if test $withautoalign -lt 16; then
        AC_MSG_RESULT(increasing array alignment to 16 bytes for SSE instructions)
        AC_DEFINE(ALIGN_BASE, 0x0F, [Align base])
        AC_DEFINE(ALIGN, [__attribute__ ((aligned (16)))])
        AC_MSG_RESULT(increasing 32bit array alignment to 16 bytes for SSE instructions)
        AC_DEFINE(ALIGN_BASE32, 0x0F, [Align base32])	
        AC_DEFINE(ALIGN32, [__attribute__ ((aligned (16)))])
        withautoalign=16
      fi
    fi
  fi
fi

dnl We here check for alignment issues with QPX instructions -- this flag has been set earlier
if test $enable_qpx = yes; then
  if test $withalign = auto; then
    if test $withautoalign -lt 32; then
      AC_MSG_RESULT(increasing array alignment to 32 bytes for use of QPX instructions on BG/Q)
      AC_DEFINE(ALIGN_BASE, 0x1F, [Align base])
      AC_DEFINE(ALIGN, [__attribute__ ((aligned (32)))])
      AC_MSG_RESULT(increasing 32bit array alignment to 16 bytes for use of QPX instructions on BG/Q)
      AC_DEFINE(ALIGN_BASE32, 0x0F, [Align base32])
      AC_DEFINE(ALIGN32, [__attribute__ ((aligned (16)))])
      withautoalign=32
    fi
  elif test $withalign -lt 32; then
    AC_MSG_ERROR([alignment incompatible with QPX instructions (32 bytes required)])
  fi
fi

dnl Check for alignment associated with (non-QPX) BG optimization.
dnl This will also result in using 32 byte alignment on MareNostrum, but that should be fairly innocuous.
if test "$host_cpu" = "powerpc" && test "$host_vendor" = "ibm" && test "$host_os" = "blrts"; then
  if test $withalign = auto; then
    if test $withautoalign -lt 16; then
      AC_MSG_RESULT(increasing array alignment to 16 bytes for BG/L optimization)
      AC_DEFINE(ALIGN_BASE, 0x0F, [Align base])
      AC_DEFINE(ALIGN, [__attribute__ ((aligned (16)))], [Align base])
      withautoalign=16
    fi
  fi
elif test "$host_cpu" = "powerpc" && test "$host_vendor" = "ibm" && test "$host_os" = "bprts"; then
  if test $withalign = auto; then
    if test $withautoalign -lt 16; then
      AC_MSG_RESULT(increasing array alignment to 16 bytes for BG/P optimization)
      AC_DEFINE(ALIGN_BASE, 0x0F, [Align base])
      AC_DEFINE(ALIGN, [__attribute__ ((aligned (16)))], [Align base])
      withautoalign=16
    fi
  fi
elif test "$host_cpu" = "powerpc64" && test "$host_vendor" = "unknown" && test "$host_os" = "linux-gnu"; then
  if test $withalign = auto; then
    if test $withautoalign -lt 32; then
      AC_MSG_RESULT(increasing array alignment to 32 bytes for BG/Q and generic POWER optimization)
      AC_DEFINE(ALIGN_BASE, 0x1F, [Align base])
      AC_DEFINE(ALIGN, [__attribute__ ((aligned (32)))])
      AC_MSG_RESULT(increasing array 32 bit alignment to 16 bytes for BG/Q and generic POWER optimization)
      AC_DEFINE(ALIGN_BASE32, 0x0F, [Align base])
      AC_DEFINE(ALIGN32, [__attribute__ ((aligned (16)))])
      withautoalign=32
    fi
  fi
fi

AC_MSG_CHECKING(whether we want to use gprof as profiler)
AC_ARG_WITH(gprof,
  AS_HELP_STRING([--with-gprof], [use of gprof profiler [default=no]]),
  enable_gprof=$withval, enable_gprof=no)
if test $enable_gprof = yes; then
  AC_MSG_RESULT(yes)
    if test "$host_cpu" = "powerpc" && test "$host_vendor" = "ibm"; then
      PROFILE_FLAG="-pg -qfullpath -g"
    else
      PROFILE_FLAG="-pg -g"
    fi
else
  AC_MSG_RESULT(no)
  PROFILE_FLAG=
fi

AC_MSG_CHECKING(whether we shall use rts dram window)
AC_ARG_WITH([bgldram],
  AS_HELP_STRING([--with-bgldram], [use BGL dram window (BGL only!) [default=yes]]),
  with_bgldram=$withval, with_bgldram=yes)
if test $with_bgldram = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(_USE_BGLDRAM,1,use BGL dram window)
else
  AC_MSG_RESULT(no)
fi

dnl Now we have to set all Flags and compiler properly
XLCGREP=`$CC -V 2>&1 | grep -i xlc`
if test "$XLCGREP" != ""; then
  XLC="yes"
  AC_DEFINE(XLC,1,Are we using the IBM xlc compiler?)
fi
PGCC=`$CC -V 2>&1 | grep pgcc`
ICC=`$CC -V 2>&1 | grep -i intel`

dnl first for PC's
if test "$host_cpu" = "i686" || test "$host_cpu" = "x86_64"; then
dnl the GNU compiler
  if test "$GCC" = yes && test "$ICC" = ""; then
    DEPFLAGS="-MM"
    CFLAGS="$CFLAGS -pedantic -Wall"
    OPTARGS='-O'
    SOPTARGS='-O'

    if test $enable_sse3 = yes; then
      echo Using SSE3 and SSE2 macros!
      AC_DEFINE(SSE3,1,Compile with SSE3 support)
      DEPFLAGS="$DEPFLAGS -DSSE3"
      if test "$host_cpu" = "x86_64"; then
        CFLAGS="$CFLAGS -mfpmath=387"
      fi
    elif test $enable_sse2 = yes; then
      DEPFLAGS="$DEPFLAGS -DSSE2"
      AC_DEFINE(SSE2,1,Compile with SSE2 support)
      if test "$host_cpu" = "x86_64"; then
        CFLAGS="$CFLAGS -mfpmath=387"
      fi
    fi

    if test "$host_cpu" = "x86_64"; then
      AC_DEFINE(_x86_64,1,x86 64 Bit architecture)
    fi
    CCDEP="$CC"
    if test $enable_mpi = yes; then
      CCDEP="gcc"
    fi
    CXXDEP="$CXX"
    if test $enable_mpi = yes; then
      CXXDEP="g++"
    fi
    DEBUG_FLAG="-g"
dnl other compilers
  else
dnl check for pgcc
    if test "$PGCC" != ""; then
      DEPFLAGS="-M"
      echo "We are using the Portland Group C compiler!"
      OPTARGS="-O2"
      SOPTARGS="-O2"
      DEBUG_FLAG="-g"
      PROFILE_FLAG="-p -g"
      CCDEP="$CC"

dnl check for icc
    elif test "$ICC" != ""; then
      echo "We are using the Intel C compiler!"
      DEPFLAGS="-M"
      OPTARGS="-O3"
      SOPTARGS="-O3"
      DEBUG_FLAG="-g"
      PROFILE_FLAG="-p -g"
      CCDEP="$CC"
      CXXDEP="$CXX"

    else
      # other compilers might support SSE inline assembly too
      # (the cray compiler, for example)
      if test $enable_sse3 = yes; then
        echo Using SSE3 and SSE2 macros!
        AC_DEFINE(SSE3,1,Compile with SSE3 support)
      elif test $enable_sse2 = yes; then
        echo Using SSE2 macros only!
        AC_DEFINE(SSE2,1,Compile with SSE2 support)
      fi

      DEPFLAGS="-M"
      CFLAGS="$CFLAGS -O"
      DEBUG_FLAG="-g"
      CCDEP="$CC"
      CXXDEP="$CXX"
    fi
  fi

# The MareNostrum: powerpc on a linux system
# this will also evaluate to "true" on BG/Q with XLC
elif test "$host_cpu" = "powerpc64" && test "$host_vendor" = "unknown" && test "$host_os" = "linux-gnu"; then

  DEBUGFLAG="-g"
  if test "$XLC" = "yes"; then
    CFLAGS="-qsrcmsg $CFLAGS"
    DEBUGFLAG="$DEBUGFLAG -qfullpath"
  fi

  OPTARGS="$OPTARGS"
  SOPTARGS="$OPTARGS"
  if test "$CCDEP" = "gcc"; then
    DEPFLAGS="-MM"
  else
    DEPFLAGS="-M"
  fi

#The BLue Gene/L
elif test "$host_cpu" = "powerpc" && test "$host_vendor" = "ibm" && test "$host_os" = "blrts"; then
  if test "$with_bgldram" = yes; then
    if (test -e /bgl/local/bin/blrts_gcc); then
      BLRTSGCC=/bgl/local/bin/blrts_gcc
    elif (test -e /bgl/BlueLight/ppcfloor/blrts-gnu/bin/powerpc-bgl-blrts-gnu-gcc); then
      BLRTSGCC=/bgl/BlueLight/ppcfloor/blrts-gnu/bin/powerpc-bgl-blrts-gnu-gcc
    else
      AC_MSG_ERROR([Sorry, don't know where to find blrts_gcc, see README.bgl!])
    fi
    CCLD="$BLRTSGCC -Xlinker --script=./elf32ppcblrts.x"
    if (!(test -s ./elf32ppcblrts.x)); then
      AC_MSG_ERROR([Sorry, elf32ppcblrts.x is missing, see README.bgl!])
    fi
  fi
  DEBUGFLAG="-g"
  OPTARGS="-O3"
  SOPTARGS="-O3"
  AC_DEFINE(BGL,1,[Optimize for Blue Gene/L])

  if test "$XLC" = "yes"; then
    CFLAGS="-qsrcmsg $CFLAGS"
    OPTARGS="$OPTARGS -qarch=440d -qtune=440"
    SOPTARGS="$SOPTARGS -qarch=440d -qtune=440"
    DEBUGFLAG="$DEBUGFLAG -qfullpath"
# OPTARGS="-qhot" leads to wrong code
  fi
  LIBS="-lmpich.rts -lfmpich.rts -lmsglayer.rts -lrts.rts -ldevices.rts $LIBS"
  LDFLAGS="$LDFLAGS -L/bgl/BlueLight/ppcfloor/bglsys/lib"
  if test $with_lapack = yes; then
    LIBS="-lesslbg -llapack.rts -lesslbg -lxlf90 -lxlfmath -lxl -lxlopt $LIBS"
    LDFLAGS="$LDFLAGS -L/opt/ibmcmp/xlf/bg/10.1/blrts_lib -L/bgl/local/lib/ -L/opt/ibmmath/lib/"
  fi

  if test "$CCDEP" = "gcc"; then
    DEPFLAGS="-MM"
  else
    DEPFLAGS="-M"
  fi
  CPPFLAGS="-I/bgl/BlueLight/ppcfloor/bglsys/include "
  INCLUDES="$INCLUDES -I/bgl/BlueLight/ppcfloor/bglsys/include/"

#The BLue Gene/P
elif test "$host_cpu" = "powerpc" && test "$host_vendor" = "ibm" && test "$host_os" = "bprts"; then
  CFLAGS="$CFLAGS"
  DEBUGFLAG="-g"
  OPTARGS="-O3"
  SOPTARGS="-O3"
  AC_DEFINE(BGL,1,[Optimize for Blue Gene/L])
  AC_DEFINE(BGP,1,[Optimize for Blue Gene/P])

  if test "$XLC" = "yes"; then
    CFLAGS="-qsrcmsg $CFLAGS"
    OPTARGS="$OPTARGS -qarch=450d -qtune=450"
    SOPTARGS="$SOPTARGS -qarch=450d -qtune=450"
    DEBUGFLAG="$DEBUGFLAG -qfullpath"
# OPTARGS="-qhot" leads to wrong code
  fi
#  LIBS="-lxlf90_r -lxlomp_ser -lxl -lxlopt -lxlfmath -ldl -lrt -lpthread  $LIBS"
#  LDFLAGS="$LDFLAGS -L/bgsys/local/lib/ -L/opt/ibmcmp/xlf/bg/11.1/lib  -L/bgsys/drivers/ppcfloor/comm/"
#  if test $with_lapack = yes; then
#    LIBS="-lesslbg -llapack -lesslbg $LIBS"
#    LDFLAGS="$LDFLAGS -L/opt/ibmmath/lib/"
#  fi

  if test "$CCDEP" = "gcc"; then
    DEPFLAGS="-MM"
  else
    DEPFLAGS="-M"
  fi
  CPPFLAGS="-I/bgsys/drivers/ppcfloor/arch/include/ -I/bgsys/drivers/ppcfloor/comm/include "
  INCLUDES="$INCLUDES -I/bgsys/local/include/ -I/bgsys/drivers/ppcfloor/arch/include/ -I/bgsys/drivers/ppcfloor/comm/include "



# The IBM Power PC
elif test "$host_cpu" = "powerpc" && test "$host_vendor" = "ibm"; then
  CFLAGS="$CFLAGS -q64 -qsrcmsg"
  LDFLAGS="$LDFLAGS -q64"
  OPTARGS="-O2"
  SOPTARGS="-O2"
  DEBUG_FLAG="-qfullpath -g"
  if test "$CCDEP" = "gcc"; then
    DEPFLAGS="-MM"
  else
    DEPFLAGS="-M"
  fi

# The CRAY
elif test "$host_vendor" = "cray"; then
  echo
  echo "Hey, we are on a cray, you should take some time for this..."
  echo "get yourself a coffee or so!"
  echo
  CFLAGS="$CFLAGS -dp"
  AC_DEFINE(CRAY,1,We are on a CRAY)
  OPTARGS="-O3"
  SOPTARGS="-O3"
  DEBUG_FLAG="-g"
  CCDEP="$CC"
  DEPFLAGS="-M"

else
  AC_CHECK_PROG(CCDEP, gcc, "gcc", "$CC")
  if test "$CCDEP" = "gcc"; then
    DEPFLAGS="-MM"
  else
    DEPFLAGS="-M"
  fi
  OPTARGS=
  SOPTARGS=
fi

CXXDEPFLAGS="$DEPFLAGS --std=c++11"

AC_MSG_CHECKING(whether we want to switch on optimisation)
AC_ARG_ENABLE(optimize,
  AS_HELP_STRING([--enable-optimize], [enable optimisation [default=yes]]),
  enable_optimize=$enableval, enable_optimize=yes)
if test $enable_optimize = no; then
  AC_MSG_RESULT(no)
  OPTARGS=
  SOPTARGS=
else
  AC_MSG_RESULT(yes)
fi

AC_MSG_CHECKING(whether we want to use a copy of the gauge field)
AC_ARG_ENABLE(gaugecopy,
  AS_HELP_STRING([--enable-gaugecopy], [enable use of a copy of the gauge field [default=yes]]),
  enable_gaugecopy=$enableval, enable_gaugecopy=yes)
if test $enable_gaugecopy = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(_GAUGE_COPY,1,Construct an extra copy of the gauge fields)
else
  AC_MSG_RESULT(no)
fi

AC_MSG_CHECKING(whether we want to use a Dirac Op. with halfspinor exchange)
AC_ARG_ENABLE(halfspinor,
  AS_HELP_STRING([--enable-halfspinor], [use a Dirac Op. with halfspinor exchange [default=yes]]),
  enable_halfspinor=$enableval, enable_halfspinor=yes)
if test $enable_halfspinor = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(_USE_HALFSPINOR,1,Exchange only a halfspinor in the Dirac Operator)
  if test $enable_gaugecopy = no; then
    AC_MSG_WARN([switching on gaugecopy for Dirac operator with halfspinor!])
    AC_DEFINE(_GAUGE_COPY,1,Construct an extra copy of the gauge fields)
  fi
else
  AC_MSG_RESULT(no)
fi

AC_MSG_CHECKING(whether we want to use shmem API)
AC_ARG_ENABLE(shmem,
  AS_HELP_STRING([--enable-shmem],[use shmem API [default=no]]),
  enable_shmem=$enableval, enable_shmem=no)
if test $enable_shmem = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(_USE_SHMEM,1,Use shmem API)
  LIBS="$LIBS -lsma"
else
  AC_MSG_RESULT(no)
fi

AC_MSG_CHECKING(whether we want to use timeslice-splitted communications)
AC_ARG_ENABLE(tsplitpar,
  AS_HELP_STRING([--enable-tsplitpar],[enable timeslice-splitted communications [default=no]]),
  enable_tsp=$enableval, enable_tsp=no)
if test $enable_tsp = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(_USE_TSPLITPAR,1,timeslice-splitted communications)
else
 AC_MSG_RESULT(no)
fi

AC_MSG_CHECKING(whether we want to compute the LapH eigenvalues)
AC_ARG_ENABLE(laph,
  AS_HELP_STRING([--enable-laph], [enable computation of LapH eigensystem [default=no]]),
  enable_laph=$enableval, enable_laph=no)
if test $enable_laph = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(WITHLAPH,1,LapH eigensystem)
else
 AC_MSG_RESULT(no)
fi


AC_MSG_CHECKING(whether we want to use CUDA GPU)
AC_ARG_ENABLE(gpu,
  AS_HELP_STRING([--enable-gpu],[use GPU [default=no]]),
  usegpu=$enableval, usegpu=no)
if test $usegpu = yes; then
  AC_MSG_RESULT(yes)
  AC_DEFINE(HAVE_GPU,1,Using CUDA GPU)
  NVCC="nvcc"
  USESUBDIRS="$USESUBDIRS GPU"
  GPUDIR="GPU"
  LIBS="$LIBS -lcuda -lcudart -lcublas"
  
  AC_MSG_CHECKING([where to search for CUDA libs])
  AC_ARG_WITH(cuda,
    AS_HELP_STRING([--with-cuda[=dir]], [use CUDA GPU with lib dir [default=/usr/local/cuda/lib]]),
    cuda_dir=$withval, cuda_dir="/usr/local/cuda/lib")
  AC_MSG_RESULT($cuda_dir)
  if test $usegpu = yes; then  
    LDFLAGS="$LDFLAGS -L$cuda_dir"
  fi


  AC_MSG_CHECKING([CUDA compile args])
  AC_ARG_WITH(cudacompileargs,
    AS_HELP_STRING([--with-cudacompileargs[=string]], [use CUDA compile args [default="--gpu-architecture sm_13 --use_fast_math -O3"]]),
    cuda_compileargs=$withval, cuda_compileargs="--gpu-architecture sm_13 --use_fast_math -O3")
  AC_MSG_RESULT($cuda_compileargs)
  if test $usegpu = yes; then  
    GPUCFLAGS="$GPUCFLAGS $cuda_compileargs"
  fi
  if test $enable_mpi = yes; then
    GPUMPICOMPILER="--compiler-bindir mpicc"
    if test $withmpidimension != 1; then
      AC_MSG_ERROR(ERROR! The GPU Code is only parallelized in t-direction so far!)
    fi
  else
    GPUMPICOMPILER=""
  fi
else
  AC_MSG_RESULT(no)
  NVCC=""
fi


AC_SUBST(USESUBDIRS)
AC_SUBST(NVCC)
AC_SUBST(GPUDIR)
AC_SUBST(GPUCFLAGS)
AC_SUBST(GPUMPICOMPILER)


# QUDA library for GPUs
AC_MSG_CHECKING(whether we want to use QUDA GPU)
AC_ARG_WITH(qudadir,
            AS_HELP_STRING([--with-qudadir[=dir]], [use QUDA, to be found in dir]),
             [echo yes
              QUDA_AVAILABLE=1
              AC_DEFINE(TM_USE_QUDA,1,Using QUDA GPU)
              quda_dir=$withval
              LDFLAGS="$LDFLAGS -L${quda_dir}/lib"
              INCLUDES="$INCLUDES -I${quda_dir}/include/"
              QUDA_INTERFACE="quda_interface"
              AC_MSG_CHECKING([where to search for CUDA libs])
						  AC_ARG_WITH(cudadir,
						    AS_HELP_STRING([--with-cudadir[=dir]], [if using QUDA, then set CUDA lib dir [default=/usr/local/cuda/lib]]),
						    cuda_dir=$withval, cuda_dir="/usr/local/cuda/lib")
						  AC_MSG_RESULT($cuda_dir)
						  LDFLAGS="$LDFLAGS -L$cuda_dir -lcuda -lcublas"
              AC_CHECK_LIB([cudart],
                           [cudaMalloc],
                           [],
                           [AC_MSG_ERROR([Can't link a simple program against library cudart.])]
                           )
              # Perform test in C++
              AC_LANG_PUSH([C++])
              AC_CHECK_LIB([quda],
                           [freeGaugeQuda],
                           [],
                           [AC_MSG_ERROR([Can't link a simple program against library libquda. (Did you set CXX properly?)])]
                           )
              AC_LANG_PUSH([C++])
              #QUDA needs to be linked with C++ linker
              CCLD=${CXX}
             ],
             [echo no
              QUDA_AVAILABLE=0
              QUDA_INTERFACE=""
              ]
              )
AC_SUBST([QUDA_AVAILABLE])


# QPhiX library for Intel Xeon and Xeon Phis
AC_MSG_CHECKING(whether we want to use QPhiX)
AC_ARG_WITH(qphixdir,
            AS_HELP_STRING([--with-qphixdir[=dir]], [use QPhiX, to be found in dir]),
             [echo yes
              QPHIX_AVAILABLE=1
              AC_DEFINE(TM_USE_QPHIX,1,Using QPhiX)
              qphix_dir=$withval
              LDFLAGS="$LDFLAGS -L${qphix_dir}/lib -lqphix_solver -lqphix_codegen"
              INCLUDES="$INCLUDES -I${qphix_dir}/include/" 
              QPHIX_INTERFACE="qphix_interface"
              QPHIX_PROGRAMS=""
              # Due to github issue #404, the qphix test_Dslash code has been disabled by BaKo
              # for the time being
              # it should be updated to make use of the QPhiX internal interfaces
              # for passing full lattice spinors
              # "qphix_test_Dslash"

              # QMP: TODO AC_CHECK_LIB
              AC_MSG_CHECKING([where to search for QMP libs])
              AC_ARG_WITH(qmpdir,
                          AS_HELP_STRING([--with-qmpdir[=dir]], [if using QPhiX, then set QMP lib dir]),
                          qmp_dir=$withval
                          LDFLAGS="$LDFLAGS -L${qmp_dir}/lib -lqmp"
                          INCLUDES="$INCLUDES -I${qmp_dir}/include/"
                          )
              AC_MSG_RESULT($qmp_dir)

              AC_MSG_CHECKING([Setting QPhiX SOALEN])
              AC_ARG_ENABLE(qphix-soalen,
                            AS_HELP_STRING([--enable-qphix-soalen], [if using QPhiX, set SOALEN [default=4]]),
                            enable_qphix_soalen=$enableval, enable_qphix_soalen=4)
              AC_MSG_RESULT($enable_qphix_soalen)
              AC_DEFINE_UNQUOTED(QPHIX_SOALEN, ${enable_qphix_soalen}, Structure of Array length to use with QPhiX)

              AC_PROG_CXX
              #QPhiX needs to be linked with C++ linker
              CCLD=${CXX}
             ],
             [echo no
              QPHIX_AVAILABLE=0
              QPHIX_INTERFACE=""])
AC_SUBST([QPHIX_AVAILABLE])


AC_MSG_CHECKING(checking consistency)
if test $enable_mpi = yes ; then
 if test $enable_iig = yes && test $withpersistent = yes ; then
  AC_MSG_ERROR(ERROR! indexindepgeom is not compatible with persistent communications )
 fi
 if test $enable_iig = yes && test $enable_shmem = yes ; then
   AC_MSG_ERROR(ERROR! indexindepgeom is not compatible with shmem API )
 fi
 if test $enable_tsp = yes && test $enable_iig = no; then
   AC_MSG_ERROR(ERROR! tsplitpar needs indexindepgeom)
 fi
 if test $enable_tsp = yes && test $enable_sse2 != yes ; then
   AC_MSG_ERROR(ERROR! tsplitpar needs at least SSE2 )
 fi
 if test $enable_tsp = yes && test $enable_gaugecopy != yes ; then
   AC_MSG_ERROR(ERROR! tsplitpar needs gaugecopy)
 fi
 if test $enable_laph = yes && test $enable_tsp != yes ; then
   AC_MSG_ERROR(ERROR! laph needs tsplitpar)
 fi
fi

if test ! -e lib; then
  mkdir lib
fi

dnl create the test and tests directory here
if test ! -e test; then
  mkdir test
fi

if test ! -e tests; then
  mkdir tests
fi

if test ! -e tests/regressions; then
  mkdir tests/regressions
fi


LIBS="-lhmc -lmonomial -loperator -lsolver -linit -lmeas -llinalg -lhmc -lxchange -lrational -lio $LIBS"
AUTOCONF=autoconf

for i in $USESUBDIRS
do
  make_files="$make_files $i/Makefile"
done

AC_CONFIG_FILES([Makefile $make_files])

AC_OUTPUT