/* -*- Mode: C; c-basic-offset:4 ; -*- */ /* * Copyright (c) 2004-2006 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2007 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2007 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * Copyright (c) 2007 Cisco Systems, Inc. All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #include "ompi_config.h" #include "ompi/constants.h" #include "ompi/op/op.h" #include "ompi/op/op_predefined.h" #include "opal/class/opal_pointer_array.h" #include "ompi/datatype/datatype_internal.h" /* * Table for Fortran <-> C op handle conversion */ opal_pointer_array_t *ompi_op_f_to_c_table; /* * Create intrinsic op */ static int add_intrinsic(ompi_op_t *op, int fort_handle); /* * Class information */ static void ompi_op_construct(ompi_op_t *eh); static void ompi_op_destruct(ompi_op_t *eh); /* * Class instance */ OBJ_CLASS_INSTANCE(ompi_op_t, opal_object_t, ompi_op_construct, ompi_op_destruct); /* * Helpful defines, because there's soooo many names! * * **NOTE** These #define's are strictly ordered! A series of macros * are built up to assemble a list of function names (or NULLs) that * are put into the intrinsict ompi_op_t's in the middle of this * file. The order of these function names is critical, and must be * the same as the OMPI_OP_TYPE_* enums in op.h (i.e., the enum's * starting with OMPI_OP_TYPE_UNSIGNED_CHAR -- at the time of this writing, * this is op.h:78). */ /** C integer ***********************************************************/ #ifdef HAVE_LONG_LONG #define C_INTEGER_LONG_LONG(name) \ { ompi_mpi_op_##name##_long_long_int }, /* OMPI_OP_TYPE_LONG_LONG_INT */ \ { ompi_mpi_op_##name##_unsigned_long_long } /* OMPI_OP_TYPE_UNSIGNED_LONG_LONG */ #define C_INTEGER_LONG_LONG_3BUFF(name) \ { ompi_mpi_op_three_buff_##name##_long_long_int }, /* OMPI_OP_TYPE_LONG_LONG_INT */ \ { ompi_mpi_op_three_buff_##name##_unsigned_long_long } /* OMPI_OP_TYPE_UNSIGNED_LONG_LONG */ #else #define C_INTEGER_LONG_LONG(name) \ { NULL }, /* OMPI_OP_TYPE_LONG_LONG_INT */ \ { NULL } /* OMPI_OP_TYPE_UNSIGNED_LONG_LONG */ #define C_INTEGER_LONG_LONG_3BUFF(name) \ { NULL }, /* OMPI_OP_TYPE_LONG_LONG_INT */ \ { NULL } /* OMPI_OP_TYPE_UNSIGNED_LONG_LONG */ #endif #define C_INTEGER(name) \ { ompi_mpi_op_##name##_unsigned_char }, /* OMPI_OP_TYPE_UNSIGNED_CHAR */ \ { ompi_mpi_op_##name##_signed_char }, /* OMPI_OP_TYPE_SIGNED_CHAR */ \ { ompi_mpi_op_##name##_int }, /* OMPI_OP_TYPE_INT */ \ { ompi_mpi_op_##name##_long }, /* OMPI_OP_TYPE_LONG */ \ { ompi_mpi_op_##name##_short }, /* OMPI_OP_TYPE_SHORT */ \ { ompi_mpi_op_##name##_unsigned_short }, /* OMPI_OP_TYPE_UNSIGNED_SHORT */ \ { ompi_mpi_op_##name##_unsigned }, /* OMPI_OP_TYPE_UNSIGNED */ \ { ompi_mpi_op_##name##_unsigned_long }, /* OMPI_OP_TYPE_UNSIGNED_LONG */ \ C_INTEGER_LONG_LONG(name) #define C_INTEGER_3BUFF(name) \ { ompi_mpi_op_three_buff_##name##_unsigned_char }, /* OMPI_OP_TYPE_UNSIGNED_CHAR */ \ { ompi_mpi_op_three_buff_##name##_signed_char }, /* OMPI_OP_TYPE_SIGNED_CHAR */ \ { ompi_mpi_op_three_buff_##name##_int }, /* OMPI_OP_TYPE_INT */ \ { ompi_mpi_op_three_buff_##name##_long }, /* OMPI_OP_TYPE_LONG */ \ { ompi_mpi_op_three_buff_##name##_short }, /* OMPI_OP_TYPE_SHORT */ \ { ompi_mpi_op_three_buff_##name##_unsigned_short }, /* OMPI_OP_TYPE_UNSIGNED_SHORT */ \ { ompi_mpi_op_three_buff_##name##_unsigned }, /* OMPI_OP_TYPE_UNSIGNED */ \ { ompi_mpi_op_three_buff_##name##_unsigned_long }, /* OMPI_OP_TYPE_UNSIGNED_LONG */ \ C_INTEGER_LONG_LONG_3BUFF(name) #define C_INTEGER_NULL \ { NULL }, /* OMPI_OP_TYPE_UNSIGNED_CHAR */ \ { NULL }, /* OMPI_OP_TYPE_SIGNED_CHAR */ \ { NULL }, /* OMPI_OP_TYPE_INT */ \ { NULL }, /* OMPI_OP_TYPE_LONG */ \ { NULL }, /* OMPI_OP_TYPE_SHORT */ \ { NULL }, /* OMPI_OP_TYPE_UNSIGNED_SHORT */ \ { NULL }, /* OMPI_OP_TYPE_UNSIGNED */ \ { NULL }, /* OMPI_OP_TYPE_UNSIGNED_LONG */ \ { NULL }, /* OMPI_OP_TYPE_LONG_LONG_INT */ \ { NULL } /* OMPI_OP_TYPE_UNSIGNED_LONG_LONG */ #define C_INTEGER_NULL_3BUFF \ { NULL }, /* OMPI_OP_TYPE_UNSIGNED_CHAR */ \ { NULL }, /* OMPI_OP_TYPE_SIGNED_CHAR */ \ { NULL }, /* OMPI_OP_TYPE_INT */ \ { NULL }, /* OMPI_OP_TYPE_LONG */ \ { NULL }, /* OMPI_OP_TYPE_SHORT */ \ { NULL }, /* OMPI_OP_TYPE_UNSIGNED_SHORT */ \ { NULL }, /* OMPI_OP_TYPE_UNSIGNED */ \ { NULL }, /* OMPI_OP_TYPE_UNSIGNED_LONG */ \ { NULL }, /* OMPI_OP_TYPE_LONG_LONG_INT */ \ { NULL } /* OMPI_OP_TYPE_UNSIGNED_LONG_LONG */ /** All the Fortran integers ********************************************/ #if OMPI_HAVE_FORTRAN_INTEGER #define FORTRAN_INTEGER_PLAIN(name) { ompi_mpi_op_##name##_fortran_integer } #define FORTRAN_INTEGER_PLAIN_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_integer } #else #define FORTRAN_INTEGER_PLAIN(name) { NULL } #define FORTRAN_INTEGER_PLAIN_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_INTEGER1 #define FORTRAN_INTEGER1(name) { ompi_mpi_op_##name##_fortran_integer1 } #define FORTRAN_INTEGER1_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_integer1 } #else #define FORTRAN_INTEGER1(name) { NULL } #define FORTRAN_INTEGER1_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_INTEGER2 #define FORTRAN_INTEGER2(name) { ompi_mpi_op_##name##_fortran_integer2 } #define FORTRAN_INTEGER2_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_integer2 } #else #define FORTRAN_INTEGER2(name) { NULL } #define FORTRAN_INTEGER2_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_INTEGER4 #define FORTRAN_INTEGER4(name) { ompi_mpi_op_##name##_fortran_integer4 } #define FORTRAN_INTEGER4_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_integer4 } #else #define FORTRAN_INTEGER4(name) { NULL } #define FORTRAN_INTEGER4_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_INTEGER8 #define FORTRAN_INTEGER8(name) { ompi_mpi_op_##name##_fortran_integer8 } #define FORTRAN_INTEGER8_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_integer8 } #else #define FORTRAN_INTEGER8(name) { NULL } #define FORTRAN_INTEGER8_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_INTEGER16 #define FORTRAN_INTEGER16(name) { ompi_mpi_op_##name##_fortran_integer16 } #define FORTRAN_INTEGER16_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_integer16 } #else #define FORTRAN_INTEGER16(name) { NULL } #define FORTRAN_INTEGER16_3BUFF(name) { NULL } #endif #define FORTRAN_INTEGER(name) \ FORTRAN_INTEGER_PLAIN(name), /* OMPI_OP_TYPE_INTEGER */ \ FORTRAN_INTEGER1(name), /* OMPI_OP_TYPE_INTEGER1 */ \ FORTRAN_INTEGER2(name), /* OMPI_OP_TYPE_INTEGER2 */ \ FORTRAN_INTEGER4(name), /* OMPI_OP_TYPE_INTEGER4 */ \ FORTRAN_INTEGER8(name), /* OMPI_OP_TYPE_INTEGER8 */ \ FORTRAN_INTEGER16(name) /* OMPI_OP_TYPE_INTEGER16 */ #define FORTRAN_INTEGER_3BUFF(name) \ FORTRAN_INTEGER_PLAIN_3BUFF(name), /* OMPI_OP_TYPE_INTEGER */ \ FORTRAN_INTEGER1_3BUFF(name), /* OMPI_OP_TYPE_INTEGER1 */ \ FORTRAN_INTEGER2_3BUFF(name), /* OMPI_OP_TYPE_INTEGER2 */ \ FORTRAN_INTEGER4_3BUFF(name), /* OMPI_OP_TYPE_INTEGER4 */ \ FORTRAN_INTEGER8_3BUFF(name), /* OMPI_OP_TYPE_INTEGER8 */ \ FORTRAN_INTEGER16_3BUFF(name) /* OMPI_OP_TYPE_INTEGER16 */ #define FORTRAN_INTEGER_NULL \ { NULL }, /* OMPI_OP_TYPE_INTEGER */ \ { NULL }, /* OMPI_OP_TYPE_INTEGER1 */ \ { NULL }, /* OMPI_OP_TYPE_INTEGER2 */ \ { NULL }, /* OMPI_OP_TYPE_INTEGER4 */ \ { NULL }, /* OMPI_OP_TYPE_INTEGER8 */ \ { NULL } /* OMPI_OP_TYPE_INTEGER16 */ #define FORTRAN_INTEGER_NULL_3BUFF \ { NULL }, /* OMPI_OP_TYPE_INTEGER */ \ { NULL }, /* OMPI_OP_TYPE_INTEGER1 */ \ { NULL }, /* OMPI_OP_TYPE_INTEGER2 */ \ { NULL }, /* OMPI_OP_TYPE_INTEGER4 */ \ { NULL }, /* OMPI_OP_TYPE_INTEGER8 */ \ { NULL } /* OMPI_OP_TYPE_INTEGER16 */ /** All the Fortran reals ***********************************************/ #if OMPI_HAVE_FORTRAN_REAL #define FLOATING_POINT_FORTRAN_REAL_PLAIN(name) { ompi_mpi_op_##name##_fortran_real } #define FLOATING_POINT_FORTRAN_REAL_PLAIN_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_real } #else #define FLOATING_POINT_FORTRAN_REAL_PLAIN(name) { NULL } #define FLOATING_POINT_FORTRAN_REAL_PLAIN_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_REAL2 #define FLOATING_POINT_FORTRAN_REAL2(name) { ompi_mpi_op_##name##_fortran_real2 } #define FLOATING_POINT_FORTRAN_REAL2_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_real2 } #else #define FLOATING_POINT_FORTRAN_REAL2(name) { NULL } #define FLOATING_POINT_FORTRAN_REAL2_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_REAL4 #define FLOATING_POINT_FORTRAN_REAL4(name) { ompi_mpi_op_##name##_fortran_real4 } #define FLOATING_POINT_FORTRAN_REAL4_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_real4 } #else #define FLOATING_POINT_FORTRAN_REAL4(name) { NULL } #define FLOATING_POINT_FORTRAN_REAL4_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_REAL8 #define FLOATING_POINT_FORTRAN_REAL8(name) { ompi_mpi_op_##name##_fortran_real8 } #define FLOATING_POINT_FORTRAN_REAL8_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_real8 } #else #define FLOATING_POINT_FORTRAN_REAL8(name) { NULL } #define FLOATING_POINT_FORTRAN_REAL8_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_REAL16 #define FLOATING_POINT_FORTRAN_REAL16(name) { ompi_mpi_op_##name##_fortran_real16 } #define FLOATING_POINT_FORTRAN_REAL16_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_real16 } #else #define FLOATING_POINT_FORTRAN_REAL16(name) { NULL } #define FLOATING_POINT_FORTRAN_REAL16_3BUFF(name) { NULL } #endif #define FLOATING_POINT_FORTRAN_REAL(name) \ FLOATING_POINT_FORTRAN_REAL_PLAIN(name), /* OMPI_OP_TYPE_REAL */ \ FLOATING_POINT_FORTRAN_REAL2(name), /* OMPI_OP_TYPE_REAL2 */ \ FLOATING_POINT_FORTRAN_REAL4(name), /* OMPI_OP_TYPE_REAL4 */ \ FLOATING_POINT_FORTRAN_REAL8(name), /* OMPI_OP_TYPE_REAL8 */ \ FLOATING_POINT_FORTRAN_REAL16(name) /* OMPI_OP_TYPE_REAL16 */ #define FLOATING_POINT_FORTRAN_REAL_3BUFF(name) \ FLOATING_POINT_FORTRAN_REAL_PLAIN_3BUFF(name), /* OMPI_OP_TYPE_REAL */ \ FLOATING_POINT_FORTRAN_REAL2_3BUFF(name), /* OMPI_OP_TYPE_REAL2 */ \ FLOATING_POINT_FORTRAN_REAL4_3BUFF(name), /* OMPI_OP_TYPE_REAL4 */ \ FLOATING_POINT_FORTRAN_REAL8_3BUFF(name), /* OMPI_OP_TYPE_REAL8 */ \ FLOATING_POINT_FORTRAN_REAL16_3BUFF(name) /* OMPI_OP_TYPE_REAL16 */ /** Fortran double precision ********************************************/ #if OMPI_HAVE_FORTRAN_DOUBLE_PRECISION #define FLOATING_POINT_FORTRAN_DOUBLE_PRECISION(name) \ { ompi_mpi_op_##name##_fortran_double_precision } #define FLOATING_POINT_FORTRAN_DOUBLE_PRECISION_3BUFF(name) \ { ompi_mpi_op_three_buff_##name##_fortran_double_precision } #else #define FLOATING_POINT_FORTRAN_DOUBLE_PRECISION(name) { NULL } #define FLOATING_POINT_FORTRAN_DOUBLE_PRECISION_3BUFF(name) { NULL } #endif /** Floating point, including all the Fortran reals *********************/ #define FLOATING_POINT(name) \ { ompi_mpi_op_##name##_float }, /* OMPI_OP_TYPE_FLOAT */\ { ompi_mpi_op_##name##_double }, /* OMPI_OP_TYPE_DOUBLE */\ FLOATING_POINT_FORTRAN_REAL(name), /* OMPI_OP_TYPE_REAL */ \ FLOATING_POINT_FORTRAN_DOUBLE_PRECISION(name), /* OMPI_OP_TYPE_DOUBLE_PRECISION */ \ { ompi_mpi_op_##name##_long_double } /* OMPI_OP_TYPE_LONG_DOUBLE */ #define FLOATING_POINT_3BUFF(name) \ { ompi_mpi_op_three_buff_##name##_float }, /* OMPI_OP_TYPE_FLOAT */\ { ompi_mpi_op_three_buff_##name##_double }, /* OMPI_OP_TYPE_DOUBLE */\ FLOATING_POINT_FORTRAN_REAL_3BUFF(name), /* OMPI_OP_TYPE_REAL */ \ FLOATING_POINT_FORTRAN_DOUBLE_PRECISION_3BUFF(name), /* OMPI_OP_TYPE_DOUBLE_PRECISION */ \ { ompi_mpi_op_three_buff_##name##_long_double } /* OMPI_OP_TYPE_LONG_DOUBLE */ #define FLOATING_POINT_NULL \ { NULL }, /* OMPI_OP_TYPE_FLOAT */ \ { NULL }, /* OMPI_OP_TYPE_DOUBLE */ \ { NULL }, /* OMPI_OP_TYPE_REAL */ \ { NULL }, /* OMPI_OP_TYPE_REAL2 */ \ { NULL }, /* OMPI_OP_TYPE_REAL4 */ \ { NULL }, /* OMPI_OP_TYPE_REAL8 */ \ { NULL }, /* OMPI_OP_TYPE_REAL16 */ \ { NULL }, /* OMPI_OP_TYPE_DOUBLE_PRECISION */ \ { NULL } /* OMPI_OP_TYPE_LONG_DOUBLE */ #define FLOATING_POINT_NULL_3BUFF \ { NULL }, /* OMPI_OP_TYPE_FLOAT */ \ { NULL }, /* OMPI_OP_TYPE_DOUBLE */ \ { NULL }, /* OMPI_OP_TYPE_REAL */ \ { NULL }, /* OMPI_OP_TYPE_REAL2 */ \ { NULL }, /* OMPI_OP_TYPE_REAL4 */ \ { NULL }, /* OMPI_OP_TYPE_REAL8 */ \ { NULL }, /* OMPI_OP_TYPE_REAL16 */ \ { NULL }, /* OMPI_OP_TYPE_DOUBLE_PRECISION */ \ { NULL } /* OMPI_OP_TYPE_LONG_DOUBLE */ /** Fortran logical *****************************************************/ #if OMPI_HAVE_FORTRAN_LOGICAL #define FORTRAN_LOGICAL(name) \ { ompi_mpi_op_##name##_fortran_logical } /* OMPI_OP_TYPE_LOGICAL */ #define FORTRAN_LOGICAL_3BUFF(name) \ { ompi_mpi_op_three_buff_##name##_fortran_logical } /* OMPI_OP_TYPE_LOGICAL */ #else #define FORTRAN_LOGICAL(name) { NULL } #define FORTRAN_LOGICAL_3BUFF(name) { NULL } #endif #define LOGICAL(name) \ FORTRAN_LOGICAL(name), \ { ompi_mpi_op_##name##_bool } /* OMPI_OP_TYPE_BOOL */ #define LOGICAL_3BUFF(name) \ FORTRAN_LOGICAL_3BUFF(name), \ { ompi_mpi_op_three_buff_##name##_bool } /* OMPI_OP_TYPE_BOOL */ #define LOGICAL_NULL \ { NULL }, /* OMPI_OP_TYPE_LOGICAL */ \ { NULL } /* OMPI_OP_TYPE_BOOL */ #define LOGICAL_NULL_3BUFF \ { NULL }, /* OMPI_OP_TYPE_LOGICAL */ \ { NULL } /* OMPI_OP_TYPE_BOOL */ /** Fortran complex *****************************************************/ #if OMPI_HAVE_FORTRAN_REAL && OMPI_HAVE_FORTRAN_COMPLEX #define COMPLEX_PLAIN(name) { ompi_mpi_op_##name##_fortran_complex } #define COMPLEX_PLAIN_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_complex } #else #define COMPLEX_PLAIN(name) { NULL } #define COMPLEX_PLAIN_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_DOUBLE_PRECISION && OMPI_HAVE_FORTRAN_COMPLEX #define COMPLEX_DOUBLE(name) { ompi_mpi_op_##name##_fortran_double_complex } #define COMPLEX_DOUBLE_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_double_complex } #else #define COMPLEX_DOUBLE(name) { NULL } #define COMPLEX_DOUBLE_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_REAL4 && OMPI_HAVE_FORTRAN_COMPLEX8 #define COMPLEX8(name) { ompi_mpi_op_##name##_fortran_complex8 } #define COMPLEX8_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_complex8 } #else #define COMPLEX8(name) { NULL } #define COMPLEX8_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_REAL8 && OMPI_HAVE_FORTRAN_COMPLEX16 #define COMPLEX16(name) { ompi_mpi_op_##name##_fortran_complex16 } #define COMPLEX16_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_complex16 } #else #define COMPLEX16(name) { NULL } #define COMPLEX16_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_REAL16 && OMPI_HAVE_FORTRAN_COMPLEX32 #define COMPLEX32(name) { ompi_mpi_op_##name##_fortran_complex32 } #define COMPLEX32_3BUFF(name) { ompi_mpi_op_three_buff_##name##_fortran_complex32 } #else #define COMPLEX32(name) { NULL } #define COMPLEX32_3BUFF(name) { NULL } #endif #define COMPLEX(name) \ COMPLEX_PLAIN(name), /* OMPI_OP_TYPE_COMPLEX */ \ COMPLEX_DOUBLE(name), /* OMPI_OP_TYPE_DOUBLE_COMPLEX */ \ COMPLEX8(name), /* OMPI_OP_TYPE_COMPLEX8 */ \ COMPLEX16(name), /* OMPI_OP_TYPE_COMPLEX16 */ \ COMPLEX32(name) /* OMPI_OP_TYPE_COMPLEX32 */ #define COMPLEX_3BUFF(name) \ COMPLEX_PLAIN_3BUFF(name), /* OMPI_OP_TYPE_COMPLEX */ \ COMPLEX_DOUBLE_3BUFF(name), /* OMPI_OP_TYPE_DOUBLE_COMPLEX */ \ COMPLEX8_3BUFF(name), /* OMPI_OP_TYPE_COMPLEX8 */ \ COMPLEX16_3BUFF(name), /* OMPI_OP_TYPE_COMPLEX16 */ \ COMPLEX32_3BUFF(name) /* OMPI_OP_TYPE_COMPLEX32 */ #define COMPLEX_NULL \ { NULL }, /* OMPI_OP_TYPE_COMPLEX */ \ { NULL }, /* OMPI_OP_TYPE_DOUBLE_COMPLEX */ \ { NULL }, /* OMPI_OP_TYPE_COMPLEX8 */ \ { NULL }, /* OMPI_OP_TYPE_COMPLEX16 */ \ { NULL } /* OMPI_OP_TYPE_COMPLEX32 */ #define COMPLEX_NULL_3BUFF \ { NULL }, /* OMPI_OP_TYPE_COMPLEX */ \ { NULL }, /* OMPI_OP_TYPE_DOUBLE_COMPLEX */ \ { NULL }, /* OMPI_OP_TYPE_COMPLEX8 */ \ { NULL }, /* OMPI_OP_TYPE_COMPLEX16 */ \ { NULL } /* OMPI_OP_TYPE_COMPLEX32 */ /** Byte ****************************************************************/ #define BYTE(name) \ { ompi_mpi_op_##name##_byte } /* OMPI_OP_TYPE_BYTE */ #define BYTE_3BUFF(name) \ { ompi_mpi_op_three_buff_##name##_byte } /* OMPI_OP_TYPE_BYTE */ #define BYTE_NULL \ { NULL } /* OMPI_OP_TYPE_BYTE */ #define BYTE_NULL_3BUFF \ { NULL } /* OMPI_OP_TYPE_BYTE */ /** Fortran complex *****************************************************/ /** Fortran "2" types ***************************************************/ #if OMPI_HAVE_FORTRAN_REAL #define TWOLOC_FORTRAN_2REAL(name) { ompi_mpi_op_##name##_2real } #define TWOLOC_FORTRAN_2REAL_3BUFF(name) { ompi_mpi_op_three_buff_##name##_2real } #else #define TWOLOC_FORTRAN_2REAL(name) { NULL } #define TWOLOC_FORTRAN_2REAL_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_DOUBLE_PRECISION #define TWOLOC_FORTRAN_2DOUBLE_PRECISION(name) { ompi_mpi_op_##name##_2double_precision } #define TWOLOC_FORTRAN_2DOUBLE_PRECISION_3BUFF(name) { ompi_mpi_op_three_buff_##name##_2double_precision } #else #define TWOLOC_FORTRAN_2DOUBLE_PRECISION(name) { NULL } #define TWOLOC_FORTRAN_2DOUBLE_PRECISION_3BUFF(name) { NULL } #endif #if OMPI_HAVE_FORTRAN_INTEGER #define TWOLOC_FORTRAN_2INTEGER(name) { ompi_mpi_op_##name##_2integer } #define TWOLOC_FORTRAN_2INTEGER_3BUFF(name) { ompi_mpi_op_three_buff_##name##_2integer } #else #define TWOLOC_FORTRAN_2INTEGER(name) { NULL } #define TWOLOC_FORTRAN_2INTEGER_3BUFF(name) { NULL } #endif /** All "2" types *******************************************************/ #define TWOLOC(name) \ TWOLOC_FORTRAN_2REAL(name), /* OMPI_OP_TYPE_2REAL */ \ TWOLOC_FORTRAN_2DOUBLE_PRECISION(name), /* OMPI_OP_TYPE_2DOUBLE_PRECISION */ \ TWOLOC_FORTRAN_2INTEGER(name), /* OMPI_OP_TYPE_2INTEGER */ \ { ompi_mpi_op_##name##_float_int }, /* OMPI_OP_TYPE_FLOAT_INT */ \ { ompi_mpi_op_##name##_double_int }, /* OMPI_OP_TYPE_DOUBLE_INT */ \ { ompi_mpi_op_##name##_long_int }, /* OMPI_OP_TYPE_LONG_INT */ \ { ompi_mpi_op_##name##_2int }, /* OMPI_OP_TYPE_2INT */ \ { ompi_mpi_op_##name##_short_int }, /* OMPI_OP_TYPE_SHORT_INT */ \ { ompi_mpi_op_##name##_long_double_int } /* OMPI_OP_TYPE_LONG_DOUBLE_INT */ #define TWOLOC_3BUFF(name) \ TWOLOC_FORTRAN_2REAL_3BUFF(name), /* OMPI_OP_TYPE_2REAL */ \ TWOLOC_FORTRAN_2DOUBLE_PRECISION_3BUFF(name), /* OMPI_OP_TYPE_2DOUBLE_PRECISION */ \ TWOLOC_FORTRAN_2INTEGER_3BUFF(name), /* OMPI_OP_TYPE_2INTEGER */ \ { ompi_mpi_op_three_buff_##name##_float_int }, /* OMPI_OP_TYPE_FLOAT_INT */ \ { ompi_mpi_op_three_buff_##name##_double_int }, /* OMPI_OP_TYPE_DOUBLE_INT */ \ { ompi_mpi_op_three_buff_##name##_long_int }, /* OMPI_OP_TYPE_LONG_INT */ \ { ompi_mpi_op_three_buff_##name##_2int }, /* OMPI_OP_TYPE_2INT */ \ { ompi_mpi_op_three_buff_##name##_short_int }, /* OMPI_OP_TYPE_SHORT_INT */ \ { ompi_mpi_op_three_buff_##name##_long_double_int } /* OMPI_OP_TYPE_LONG_DOUBLE_INT */ #define TWOLOC_NULL \ { NULL }, /* OMPI_OP_TYPE_2REAL */\ { NULL }, /* OMPI_OP_TYPE_2DOUBLE_PRECISION */ \ { NULL }, /* OMPI_OP_TYPE_2INTEGER */ \ { NULL }, /* OMPI_OP_TYPE_FLOAT_INT */ \ { NULL }, /* OMPI_OP_TYPE_DOUBLE_INT */ \ { NULL }, /* OMPI_OP_TYPE_LONG_INT */ \ { NULL }, /* OMPI_OP_TYPE_2INT */ \ { NULL }, /* OMPI_OP_TYPE_SHORT_INT */ \ { NULL } /* OMPI_OP_TYPE_LONG_DOUBLE_INT */ #define TWOLOC_NULL_3BUFF \ { NULL }, /* OMPI_OP_TYPE_2REAL */\ { NULL }, /* OMPI_OP_TYPE_2DOUBLE_PRECISION */ \ { NULL }, /* OMPI_OP_TYPE_2INTEGER */ \ { NULL }, /* OMPI_OP_TYPE_FLOAT_INT */ \ { NULL }, /* OMPI_OP_TYPE_DOUBLE_INT */ \ { NULL }, /* OMPI_OP_TYPE_LONG_INT */ \ { NULL }, /* OMPI_OP_TYPE_2INT */ \ { NULL }, /* OMPI_OP_TYPE_SHORT_INT */ \ { NULL } /* OMPI_OP_TYPE_LONG_DOUBLE_INT */ /* * MPI_OP_NULL * All types */ #define FLAGS_NO_FLOAT \ (OMPI_OP_FLAGS_INTRINSIC | OMPI_OP_FLAGS_ASSOC | OMPI_OP_FLAGS_COMMUTE) #define FLAGS \ (OMPI_OP_FLAGS_INTRINSIC | OMPI_OP_FLAGS_ASSOC | \ OMPI_OP_FLAGS_FLOAT_ASSOC | OMPI_OP_FLAGS_COMMUTE) ompi_op_t ompi_mpi_op_null = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_OP_NULL", FLAGS, { C_INTEGER_NULL, FORTRAN_INTEGER_NULL, FLOATING_POINT_NULL, LOGICAL_NULL, COMPLEX_NULL, BYTE_NULL, TWOLOC_NULL }, -1, { C_INTEGER_NULL_3BUFF, FORTRAN_INTEGER_NULL_3BUFF, FLOATING_POINT_NULL_3BUFF, LOGICAL_NULL_3BUFF, COMPLEX_NULL_3BUFF, BYTE_NULL_3BUFF, TWOLOC_NULL_3BUFF } }; /* * MPI_OP_MAX * C integer, Fortran integer, Floating point */ ompi_op_t ompi_mpi_op_max = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_MAX", FLAGS, { C_INTEGER(max), FORTRAN_INTEGER(max), FLOATING_POINT(max), LOGICAL_NULL, COMPLEX_NULL, BYTE_NULL, TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(max), FORTRAN_INTEGER_3BUFF(max), FLOATING_POINT_3BUFF(max), LOGICAL_NULL_3BUFF, COMPLEX_NULL_3BUFF, BYTE_NULL_3BUFF, TWOLOC_NULL_3BUFF } }; /* * MPI_OP_MIN */ ompi_op_t ompi_mpi_op_min = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_MIN", FLAGS, { C_INTEGER(min), FORTRAN_INTEGER(min), FLOATING_POINT(min), LOGICAL_NULL, COMPLEX_NULL, BYTE_NULL, TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(min), FORTRAN_INTEGER_3BUFF(min), FLOATING_POINT_3BUFF(min), LOGICAL_NULL_3BUFF, COMPLEX_NULL_3BUFF, BYTE_NULL_3BUFF, TWOLOC_NULL_3BUFF } }; /* * MPI_OP_SUM */ ompi_op_t ompi_mpi_op_sum = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_SUM", FLAGS_NO_FLOAT, { C_INTEGER(sum), FORTRAN_INTEGER(sum), FLOATING_POINT(sum), LOGICAL_NULL, COMPLEX(sum), BYTE_NULL, TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(sum), FORTRAN_INTEGER_3BUFF(sum), FLOATING_POINT_3BUFF(sum), LOGICAL_NULL_3BUFF, COMPLEX_3BUFF(sum), BYTE_NULL_3BUFF, TWOLOC_NULL_3BUFF } }; /* * MPI_OP_PROD */ ompi_op_t ompi_mpi_op_prod = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_PROD", FLAGS_NO_FLOAT, { C_INTEGER(prod), FORTRAN_INTEGER(prod), FLOATING_POINT(prod), LOGICAL_NULL, COMPLEX(prod), BYTE_NULL, TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(prod), FORTRAN_INTEGER_3BUFF(prod), FLOATING_POINT_3BUFF(prod), LOGICAL_NULL_3BUFF, COMPLEX_3BUFF(prod), BYTE_NULL_3BUFF, TWOLOC_NULL_3BUFF } }; /* * MPI_OP_LAND */ ompi_op_t ompi_mpi_op_land = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_LAND", FLAGS, { C_INTEGER(land), FORTRAN_INTEGER_NULL, FLOATING_POINT_NULL, LOGICAL(land), COMPLEX_NULL, BYTE_NULL, TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(land), FORTRAN_INTEGER_NULL_3BUFF, FLOATING_POINT_NULL_3BUFF, LOGICAL_3BUFF(land), COMPLEX_NULL_3BUFF, BYTE_NULL_3BUFF, TWOLOC_NULL_3BUFF } }; /* * MPI_OP_BAND */ ompi_op_t ompi_mpi_op_band = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_BAND", FLAGS, { C_INTEGER(band), FORTRAN_INTEGER(band), FLOATING_POINT_NULL, LOGICAL_NULL, COMPLEX_NULL, BYTE(band), TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(band), FORTRAN_INTEGER_3BUFF(band), FLOATING_POINT_NULL_3BUFF, LOGICAL_NULL_3BUFF, COMPLEX_NULL_3BUFF, BYTE_3BUFF(band), TWOLOC_NULL_3BUFF } }; /* * MPI_OP_LOR */ ompi_op_t ompi_mpi_op_lor = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_LOR", FLAGS, { C_INTEGER(lor), FORTRAN_INTEGER_NULL, FLOATING_POINT_NULL, LOGICAL(lor), COMPLEX_NULL, BYTE_NULL, TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(lor), FORTRAN_INTEGER_NULL_3BUFF, FLOATING_POINT_NULL_3BUFF, LOGICAL_3BUFF(lor), COMPLEX_NULL_3BUFF, BYTE_NULL_3BUFF, TWOLOC_NULL_3BUFF } }; /* * MPI_OP_BOR */ ompi_op_t ompi_mpi_op_bor = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_BOR", FLAGS, { C_INTEGER(bor), FORTRAN_INTEGER(bor), FLOATING_POINT_NULL, LOGICAL_NULL, COMPLEX_NULL, BYTE(bor), TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(bor), FORTRAN_INTEGER_3BUFF(bor), FLOATING_POINT_NULL_3BUFF, LOGICAL_NULL_3BUFF, COMPLEX_NULL_3BUFF, BYTE_3BUFF(bor), TWOLOC_NULL_3BUFF } }; /* * MPI_OP_LXOR */ ompi_op_t ompi_mpi_op_lxor = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_LXOR", FLAGS, { C_INTEGER(lxor), FORTRAN_INTEGER_NULL, FLOATING_POINT_NULL, LOGICAL(lxor), COMPLEX_NULL, BYTE_NULL, TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(lxor), FORTRAN_INTEGER_NULL_3BUFF, FLOATING_POINT_NULL_3BUFF, LOGICAL_3BUFF(lxor), COMPLEX_NULL_3BUFF, BYTE_NULL_3BUFF, TWOLOC_NULL_3BUFF } }; /* * MPI_OP_BXOR */ ompi_op_t ompi_mpi_op_bxor = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_BXOR", FLAGS, { C_INTEGER(bxor), FORTRAN_INTEGER(bxor), FLOATING_POINT_NULL, LOGICAL_NULL, COMPLEX_NULL, BYTE(bxor), TWOLOC_NULL }, -1, { C_INTEGER_3BUFF(bxor), FORTRAN_INTEGER_3BUFF(bxor), FLOATING_POINT_NULL_3BUFF, LOGICAL_NULL_3BUFF, COMPLEX_NULL_3BUFF, BYTE_3BUFF(bxor), TWOLOC_NULL_3BUFF } }; /* * MPI_OP_MAXLOC */ ompi_op_t ompi_mpi_op_maxloc = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_MAXLOC", (OMPI_OP_FLAGS_INTRINSIC | OMPI_OP_FLAGS_ASSOC | OMPI_OP_FLAGS_COMMUTE), { C_INTEGER_NULL, FORTRAN_INTEGER_NULL, FLOATING_POINT_NULL, LOGICAL_NULL, COMPLEX_NULL, BYTE_NULL, TWOLOC(maxloc) }, -1, { C_INTEGER_NULL_3BUFF, FORTRAN_INTEGER_NULL_3BUFF, FLOATING_POINT_NULL_3BUFF, LOGICAL_NULL_3BUFF, COMPLEX_NULL_3BUFF, BYTE_NULL_3BUFF, TWOLOC_3BUFF(maxloc) } }; /* * MPI_OP_MINLOC */ ompi_op_t ompi_mpi_op_minloc = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_MINLOC", FLAGS, { C_INTEGER_NULL, FORTRAN_INTEGER_NULL, FLOATING_POINT_NULL, LOGICAL_NULL, COMPLEX_NULL, BYTE_NULL, TWOLOC(minloc) }, -1, { C_INTEGER_NULL_3BUFF, FORTRAN_INTEGER_NULL_3BUFF, FLOATING_POINT_NULL_3BUFF, LOGICAL_NULL_3BUFF, COMPLEX_NULL_3BUFF, BYTE_NULL_3BUFF, TWOLOC_3BUFF(minloc) } }; /* * MPI_OP_REPLACE * (MPI_ACCUMULATE is handled differently than the other reductions, * so just zero out its function impementations here to ensure that * users don't invoke MPI_REPLACE with any reduction operations other * than ACCUMULATE) */ ompi_op_t ompi_mpi_op_replace = { OPAL_OBJ_STATIC_INIT(opal_object_t), "MPI_REPLACE", FLAGS, { C_INTEGER_NULL, FORTRAN_INTEGER_NULL, FLOATING_POINT_NULL, LOGICAL_NULL, COMPLEX_NULL, BYTE_NULL, TWOLOC_NULL }, -1, { C_INTEGER_NULL_3BUFF, FORTRAN_INTEGER_NULL_3BUFF, FLOATING_POINT_NULL_3BUFF, LOGICAL_NULL_3BUFF, COMPLEX_NULL_3BUFF, BYTE_NULL_3BUFF, TWOLOC_NULL_3BUFF } }; /* * Map from ddt->id to position in op function pointer array */ int ompi_op_ddt_map[DT_MAX_PREDEFINED]; /* * Initialize OMPI op infrastructure */ int ompi_op_init(void) { int i; /* initialize ompi_op_f_to_c_table */ ompi_op_f_to_c_table = OBJ_NEW(opal_pointer_array_t); if (NULL == ompi_op_f_to_c_table){ return OMPI_ERROR; } /* Fill in the ddt.id->op_position map */ for (i = 0; i < DT_MAX_PREDEFINED; ++i) { ompi_op_ddt_map[i] = -1; } ompi_op_ddt_map[DT_UNSIGNED_CHAR] = OMPI_OP_TYPE_UNSIGNED_CHAR; ompi_op_ddt_map[DT_SIGNED_CHAR] = OMPI_OP_TYPE_SIGNED_CHAR; ompi_op_ddt_map[DT_BYTE] = OMPI_OP_TYPE_BYTE; ompi_op_ddt_map[DT_SHORT] = OMPI_OP_TYPE_SHORT; ompi_op_ddt_map[DT_UNSIGNED_SHORT] = OMPI_OP_TYPE_UNSIGNED_SHORT; ompi_op_ddt_map[DT_INT] = OMPI_OP_TYPE_INT; ompi_op_ddt_map[DT_UNSIGNED_INT] = OMPI_OP_TYPE_UNSIGNED; ompi_op_ddt_map[DT_LONG] = OMPI_OP_TYPE_LONG; ompi_op_ddt_map[DT_UNSIGNED_LONG] = OMPI_OP_TYPE_UNSIGNED_LONG; ompi_op_ddt_map[DT_LONG_LONG_INT] = OMPI_OP_TYPE_LONG_LONG_INT; ompi_op_ddt_map[DT_UNSIGNED_LONG_LONG] = OMPI_OP_TYPE_UNSIGNED_LONG_LONG; ompi_op_ddt_map[DT_FLOAT] = OMPI_OP_TYPE_FLOAT; ompi_op_ddt_map[DT_DOUBLE] = OMPI_OP_TYPE_DOUBLE; ompi_op_ddt_map[DT_LONG_DOUBLE] = OMPI_OP_TYPE_LONG_DOUBLE; ompi_op_ddt_map[DT_COMPLEX_FLOAT] = OMPI_OP_TYPE_COMPLEX; ompi_op_ddt_map[DT_COMPLEX_DOUBLE] = OMPI_OP_TYPE_DOUBLE_COMPLEX; ompi_op_ddt_map[DT_LOGIC] = OMPI_OP_TYPE_LOGICAL; ompi_op_ddt_map[DT_CXX_BOOL] = OMPI_OP_TYPE_BOOL; ompi_op_ddt_map[DT_FLOAT_INT] = OMPI_OP_TYPE_FLOAT_INT; ompi_op_ddt_map[DT_DOUBLE_INT] = OMPI_OP_TYPE_DOUBLE_INT; ompi_op_ddt_map[DT_LONG_INT] = OMPI_OP_TYPE_LONG_INT; ompi_op_ddt_map[DT_2INT] = OMPI_OP_TYPE_2INT; ompi_op_ddt_map[DT_SHORT_INT] = OMPI_OP_TYPE_SHORT_INT; ompi_op_ddt_map[DT_INTEGER] = OMPI_OP_TYPE_INTEGER; ompi_op_ddt_map[DT_REAL] = OMPI_OP_TYPE_REAL; ompi_op_ddt_map[DT_DBLPREC] = OMPI_OP_TYPE_DOUBLE_PRECISION; ompi_op_ddt_map[DT_2REAL] = OMPI_OP_TYPE_2REAL; ompi_op_ddt_map[DT_2DBLPREC] = OMPI_OP_TYPE_2DOUBLE_PRECISION; ompi_op_ddt_map[DT_2INTEGER] = OMPI_OP_TYPE_2INTEGER; ompi_op_ddt_map[DT_LONG_DOUBLE_INT] = OMPI_OP_TYPE_LONG_DOUBLE_INT; ompi_op_ddt_map[DT_WCHAR] = OMPI_OP_TYPE_WCHAR; /* Create the intrinsic ops */ if (add_intrinsic(&ompi_mpi_op_null, OMPI_OP_FORTRAN_NULL) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_max, OMPI_OP_FORTRAN_MAX) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_min, OMPI_OP_FORTRAN_MIN) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_sum, OMPI_OP_FORTRAN_SUM) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_prod, OMPI_OP_FORTRAN_PROD) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_land, OMPI_OP_FORTRAN_LAND) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_band, OMPI_OP_FORTRAN_BAND) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_lor, OMPI_OP_FORTRAN_LOR) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_bor, OMPI_OP_FORTRAN_BOR) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_lxor, OMPI_OP_FORTRAN_LXOR) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_bxor, OMPI_OP_FORTRAN_BXOR) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_maxloc, OMPI_OP_FORTRAN_MAXLOC) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_minloc, OMPI_OP_FORTRAN_MINLOC) != OMPI_SUCCESS || add_intrinsic(&ompi_mpi_op_replace, OMPI_OP_FORTRAN_REPLACE) != OMPI_SUCCESS) { return OMPI_ERROR; } /* All done */ return OMPI_SUCCESS; } /* * Clean up the op resources */ int ompi_op_finalize(void) { /* clean up the intrinsic ops */ OBJ_DESTRUCT(&ompi_mpi_op_minloc); OBJ_DESTRUCT(&ompi_mpi_op_maxloc); OBJ_DESTRUCT(&ompi_mpi_op_bxor); OBJ_DESTRUCT(&ompi_mpi_op_lxor); OBJ_DESTRUCT(&ompi_mpi_op_bor); OBJ_DESTRUCT(&ompi_mpi_op_lor); OBJ_DESTRUCT(&ompi_mpi_op_band); OBJ_DESTRUCT(&ompi_mpi_op_land); OBJ_DESTRUCT(&ompi_mpi_op_prod); OBJ_DESTRUCT(&ompi_mpi_op_sum); OBJ_DESTRUCT(&ompi_mpi_op_min); OBJ_DESTRUCT(&ompi_mpi_op_max); OBJ_DESTRUCT(&ompi_mpi_op_null); /* Remove op F2C table */ OBJ_RELEASE(ompi_op_f_to_c_table); /* All done */ return OMPI_SUCCESS; } /* * Create a new MPI_Op */ ompi_op_t *ompi_op_create(bool commute, ompi_op_fortran_handler_fn_t *func) { int i; ompi_op_t *new_op; /* Create a new object and ensure that it's valid */ new_op = OBJ_NEW(ompi_op_t); if (NULL == new_op) goto error; if (OMPI_ERROR == new_op->o_f_to_c_index) { OBJ_RELEASE(new_op); new_op = NULL; goto error; } /* * The new object is valid -- initialize it. If this is being * created from fortran, the fortran MPI API wrapper function * will override the o_flags field directly. We cast the * function pointer type to the fortran type arbitrarily -- it * only has to be a function pointer in order to store properly, * it doesn't matter what type it is (we'll cast it to the Right * type when we *use* it). */ new_op->o_flags = OMPI_OP_FLAGS_ASSOC; if (commute) { new_op->o_flags |= OMPI_OP_FLAGS_COMMUTE; } new_op->o_func[0].fort_fn = func; for (i = 1; i < OMPI_OP_TYPE_MAX; ++i) { new_op->o_func[i].fort_fn = NULL; } error: /* All done */ return new_op; } void ompi_op_set_cxx_callback(ompi_op_t *op, MPI_User_function *fn) { op->o_flags |= OMPI_OP_FLAGS_CXX_FUNC; op->o_func[1].c_fn = fn; } /************************************************************************** * * Static functions * **************************************************************************/ static int add_intrinsic(ompi_op_t *op, int fort_handle) { /* Add the op to the table */ OBJ_CONSTRUCT(op, ompi_op_t); if (op->o_f_to_c_index != fort_handle) { return OMPI_ERROR; } /* All done */ return OMPI_SUCCESS; } /* * Op constructor */ static void ompi_op_construct(ompi_op_t *new_op) { int ret_val; /* assign entry in fortran <-> c translation array */ ret_val = opal_pointer_array_add(ompi_op_f_to_c_table, new_op); new_op->o_f_to_c_index = ret_val; } /* * Op destructor */ static void ompi_op_destruct(ompi_op_t *op) { /* reset the ompi_op_f_to_c_table entry - make sure that the entry is in the table */ if (NULL != opal_pointer_array_get_item(ompi_op_f_to_c_table, op->o_f_to_c_index)) { opal_pointer_array_set_item(ompi_op_f_to_c_table, op->o_f_to_c_index, NULL); } }