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author | William Joye <wjoye@cfa.harvard.edu> | 2018-01-09 19:06:55 (GMT) |
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committer | William Joye <wjoye@cfa.harvard.edu> | 2018-01-09 19:06:55 (GMT) |
commit | 01e0ebfe59d9028b0246ec4a549bd7528ada94eb (patch) | |
tree | a6c5b54db03177a1c8f3e7fb531990dfbc7bae39 /ast/f77.h.in | |
parent | d64cf9c0bd23e752867b149be636d1bbd4501cf4 (diff) | |
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update ast 8.6.2
Diffstat (limited to 'ast/f77.h.in')
-rw-r--r-- | ast/f77.h.in | 1096 |
1 files changed, 1096 insertions, 0 deletions
diff --git a/ast/f77.h.in b/ast/f77.h.in new file mode 100644 index 0000000..3a886fc --- /dev/null +++ b/ast/f77.h.in @@ -0,0 +1,1096 @@ +/* +*+ +* Name: +* f77.h and cnf.h + +* Purpose: +* C - FORTRAN interace macros and prototypes + +* Language: +* C (part ANSI, part not) + +* Type of Module: +* C include file + +* Description: +* For historical reasons two files, F77.h and cnf.h are required +* but the have now been combined and for new code, only one is +* necessary. +* +* This file defines the macros needed to write C functions that are +* designed to be called from FORTRAN programs, and to do so in a +* portable way. Arguments are normally passed by reference from a +* FORTRAN program, and so the F77 macros arrange for a pointer to +* all arguments to be available. This requires no work on most +* machines, but will actually generate the pointers on a machine +* that passes FORTRAN arguments by value. + +* Notes: +* - Macros are provided to handle the conversion of logical data +* values between the way that FORTRAN represents a value and the +* way that C represents it. +* - Macros are provided to convert variables between the FORTRAN and +* C method of representing them. In most cases there is no +* conversion required, the macros just arrange for a pointer to +* the FORTRAN variable to be set appropriately. The possibility that +* FORTRAN and C might use different ways of representing integer +* and floating point values is considered remote, the macros are +* really only there for completeness and to assist in the automatic +* generation of C interfaces. +* - For character variables the macros convert between +* the FORTRAN method of representing them (fixed length, blank +* filled strings) and the C method (variable length, null +* terminated strings) using calls to the CNF functions. + +* Implementation Deficiencies: +* - The macros support the K&R style of function definition, but +* this file may not work with all K&R compilers as it contains +* "#if defined" statements. These could be replaced with #ifdef's +* if necessary. This has not been done as is would make the code +* less clear and the need for support for K&R sytle definitions +* should disappear as ANSI compilers become the default. + +* Copyright: +* Copyright (C) 1991, 1993 Science & Engineering Research Council. +* Copyright (C) 2006 Particle Physics and Astronomy Research Council. +* Copyright (C) 2007,2008 Science and Technology Facilities Council. +* All Rights Reserved. + +* Licence: +* This program is free software; you can redistribute it and/or +* modify it under the terms of the GNU General Public License as +* published by the Free Software Foundation; either version 2 of +* the License, or (at your option) any later version. +* +* This program is distributed in the hope that it will be +* useful,but WITHOUT ANY WARRANTY; without even the implied +* warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR +* PURPOSE. See the GNU General Public License for more details. +* +* You should have received a copy of the GNU General Public License +* along with this program; if not, write to the Free Software +* Foundation, Inc., 51 Franklin Street,Fifth Floor, Boston, MA +* 02110-1301, USA + +* Authors: +* PMA: Peter Allan (Starlink, RAL) +* AJC: Alan Chipperfield (Starlink, RAL) +* TIMJ: Tim Jenness (JAC) +* PWD: Peter W. Draper (JAC, Durham University) +* {enter_new_authors_here} + +* History: +* 23-MAY-1991 (PMA): +* Original version. +* 19-JUN-1991 (PMA): +* Removed VMS versions of IM(EX)PORT_LOGICAL macros that tried +* to convert data representations. +* 24-JUN-1991 (PMA): +* Changed the names of IMPORT macros to GENPTR. +* Removed the EXPORT macros. +* 27-JUN-1991 (PMA): +* Modified DECstation specific stuff to allow use of the c89 +* compiler. +* 8-JUL-1991 (PMA): +* Added macros to call FORTRAN from C. +* 16-OCT-1991 (PMA): +* Remove type_ARRAY2 definitions. +* Remove the length argument from CHARACTER_ARRAY and the +* dimension specifier from GENPTR_type_ARRAY. +* Add extra brackets to F77_ISFALSE and F77_ISTRUE. +* 25-OCT-1991 (PMA): +* Changed "if defined(sun4)" to "if defined(sun)" +* 2-JUN-1992 (PMA): +* Changed "if defined(mips)" to "if defined(ultrix)" to prevent +* those definitions being used on a Silicon Graphics machine. +* 11-JUN-1992 (PMA): +* Changed "if defined(ultrix)" back to "if defined(mips)" so that +* it still works on OSF/1 on a DECstation. +* Add support for general non-ANSI compilers, but not basic K&R +* ones. +* 12-JUN-1992 (PMA): +* Change declaration of dummy scalar arguments to be const +* pointers. Change declaration of dummy array arguments to be +* const pointers. +* 5-JAN-1993 (PMA): +* Changed "if defined(mips)" so that it will recognise a +* DECstation running Ultrix or OSF/1, but not a Silicon Graphics +* workstation. +* Change the definition of F77_BYTE_TYPE to add "signed". +* Redefine this on VMS where signed is invalid syntax. +* Add new types of UBYTE and UWORD. +* 8-JAN-1993 (PMA): +* Fix bug in the definition of CHARACTER_RETURN_VALUE. There was +* an extraneous space. +* Add a macro F77_POINTER_TYPE and use it to define POINTER. +* 13-JAN-1993 (PMA): +* Start to add support for K&R function definitions. These are +* done on a per machine basis. +* 16-APR-1993 (PMA): +* Change the definition of F77_POINTER_TYPE from int to unsigned +* int. +* 7-MAY-1993 (PMA): +* Change from using a null comment as a token concatenation +* operator to using the internal macro _f77_x on non-ANSI +* systems. +* 10-MAY-1993 (PMA): +* Finish adding K&R support. This will form version 2.0 of F77. +* 10-MAY-1993 (PMA): +* Add support for Alpha OSF/1. +* 9-JUL-1993 (PMA): +* Add further POINTER macros: POINTER_ARRAY, +* GENPTR_POINTER_ARRAY, DECLARE_POINTER, DECLARE_POINTER_ARRAY, +* POINTER_ARG, POINTER_ARRAY_ARG, F77_POINTER_FUNCTION, +* KR_POINTER_ARRAY. +* 24-AUG-1993 (PMA): +* Add const to the VMS definitions of CHARACTER and CHARACTER_ARRAY. +* 3-NOV-1993 (PMA): +* Remove K&R stuff to a separate file. +* Released on Unix as version 2.0 of CNF. +* 11-NOV-1993 (PMA): +* Return to using the null comment to concatenate text on non-ANSI +* systems as _f77_x caused problems with the c89 -common flag on +* DECstations. +* 23-JAN-1996 (AJC): +* Add SUBROUTINE, type_FUNCTION, SUBROUTINE_ARG, +* type_FUNCTION_ARG, GENPTR_SUBROUTINE and GENPTR_type_FUNCTION +* required for passed subroutine and function name. +* 29-JAN-1996 (AJC): +* Add the dynamic CHARACTER_ macros +* and CHARACTER_ARG_TYPE +* 22-FEB-1996 (AJC): +* Add CHARACTER_RETURN_ARG +* 23-MAY-1996 (AJC): +* Add DECLARE_CHARACTER_ARRAY_DYN +* F77_CREATE_CHARACTER_ARRAY +* F77_CHARACTER_ARG_TYPE +* 14-JUN-1996 (AJC): +* Add DECLARE_LOGICAL_ARRAY_DYN +* F77_CREATE_LOGICAL_ARRAY +* 21-JUN-1996 (AJC): +* Add cast to _ARRAY_ARGs to allow multidimensional arrays +* 17-MAR-1998 (AJC): +* Add DECLARE, CREATE and FREE dynamic array macros for all types +* Changed CREATE_CHARACTER_ARRAY and CREATE_LOGICAL_ARRAY to use +* number of elements rather than dimensions. +* Add IMPORT, EXPORT and ASSOC macros +* 22-JUL-1998 (AJC): +* Combined F77.h and cnf.h +* 23-SEP-1998 (AJC): +* Input strings for cnf -> const char * +* Input int arrays for cnf -> const int * +* 4-NOV-1998 (AJC): +* Bring cnf prototypes in line with .c routines +* 8-FEB-1999 (AJC): +* Added cnf_mem stuff +* 9-FEB-1999 (AJC): +* Use cnf_cptr/fptr for IMPORT/EXPORT_POINTER +* 16-FEB-1999 (AJC): +* Added missing cnf_fptr prototype +* 23-JUN-1999 (AJC): +* Change cnf_name to cnfName +* and add macros for cnf_name +* 1-DEC-1999 (AJC): +* Add define cnf_free +* 7-JAN-2000 (AJC): +* Correct omission of F77_ASSOC_UBYTE_ARRAY +* Correct F77_EXPORT_UWORD_ARRAY +* 25-AUG-2005 (TIMJ): +* Add cnfInitRTL +* 23-FEB-2006 (TIMJ): +* Add cnfRealloc +* Use starMalloc rather than malloc in F77_CREATE_POINTER_ARRAY +* (since it needs to match what goes on in cnfFree) +* 21-JUN-2006 (PWD): +* Changed to use a different return type for REAL functions. This +* effects g77 under 64-bit, when the f2c bindings expect the return +* value of a REAL function to be a double, not a float. +* 25-SEP-2006 (PWD): +* Introduced F77_CREATE_IMPORT_CHARACTER. Match length of +* F77_CREATE_CHARACTER to result from cnfCref. +* 13-JUL-2007 (PWD): +* Parameterise the type of Fortran character string lengths. Can +* be long. +* 7-OCT-2008 (TIMJ): +* Initialise pointers. +* 11-MAY-2011 (DSB): +* Added F77_LOCK +* {enter_further_changes_here} +* + +* Bugs: +* {note_any_bugs_here} + +*- +------------------------------------------------------------------------------ +*/ +#if !defined(CNF_MACROS) +#define CNF_MACROS + +#include <stdlib.h> +#include <string.h> +/* This initial sections defines values for all macros. These are the */ +/* values that are generally appropriate to an ANSI C compiler on Unix. */ +/* For macros that have different values on other systems, the macros */ +/* should be undefined and then redefined in the system specific sections. */ +/* At the end of this section, some macros are redefined if the compiler */ +/* is non-ANSI. */ + +#if defined(__STDC__) || defined(VMS) +#define CNF_CONST const +#else +#define CNF_CONST +#endif + +/* ----- Macros common to calling C from FORTRAN and FORTRAN from C ---- */ + + +/* --- External Names --- */ + +/* Macro to define the name of a Fortran routine or common block. This */ +/* ends in an underscore on many Unix systems. */ + +#define F77_EXTERNAL_NAME(X) X ## _ + + +/* --- Logical Values --- */ + +/* Define the values that are used to represent the logical values TRUE */ +/* and FALSE in Fortran. */ + +#define F77_TRUE 1 +#define F77_FALSE 0 + +/* Define macros that evaluate to C logical values, given a FORTRAN */ +/* logical value. */ + +#define F77_ISTRUE(X) ( X ) +#define F77_ISFALSE(X) ( !( X ) ) + + +/* --- Common Blocks --- */ + +/* Macros used in referring to FORTRAN common blocks. */ + +#define F77_BLANK_COMMON @BLANK_COMMON_SYMBOL@ +#define F77_NAMED_COMMON(B) F77_EXTERNAL_NAME(B) + + + +/* ------------------ Calling C from FORTRAN --------------------------- */ + + +/* --- Data Types --- */ + +/* Define macros for all the Fortran data types (except COMPLEX, which is */ +/* not handled by this package). */ + +#define F77_INTEGER_TYPE int +#define F77_REAL_TYPE float +#define F77_REAL_FUNCTION_TYPE @REAL_FUNCTION_TYPE@ +#define F77_DOUBLE_TYPE double +#define F77_LOGICAL_TYPE int +#define F77_CHARACTER_TYPE char +#define F77_BYTE_TYPE signed char +#define F77_WORD_TYPE short int +#define F77_UBYTE_TYPE unsigned char +#define F77_UWORD_TYPE unsigned short int + +/* Define macros for the type of a CHARACTER and CHARACTER_ARRAY argument */ +#define F77_CHARACTER_ARG_TYPE char +#define F77_CHARACTER_ARRAY_ARG_TYPE char + +/* Define a macro to use when passing arguments that STARLINK FORTRAN */ +/* treats as a pointer. From the point of view of C, this type should be */ +/* (void *), but it is declared as type unsigned int as we actually pass */ +/* an INTEGER from the FORTRAN routine. The distinction is important for */ +/* architectures where the size of an INTEGER is not the same as the size */ +/* of a pointer. */ + +#define F77_POINTER_TYPE unsigned int + + +/* --- Subroutine Names --- */ + +/* This declares that the C function returns a value of void. */ + +#define F77_SUBROUTINE(X) void F77_EXTERNAL_NAME(X) + + +/* --- Function Names --- */ + +/* Macros to define the types and names of functions that return values. */ +/* Due the the different ways that function return values could be */ +/* implemented, it is better not to use functions, but to stick to using */ +/* subroutines. */ + +/* Character functions are implemented, but in a way that cannot be */ +/* guaranteed to be portable although it will work on VMS, SunOS, Ultrix */ +/* and DEC OSF/1. It would be better to return the character value as a */ +/* subroutine argument where possible, rather than use a character */ +/* function. */ + +#define F77_INTEGER_FUNCTION(X) F77_INTEGER_TYPE F77_EXTERNAL_NAME(X) +#define F77_REAL_FUNCTION(X) F77_REAL_FUNCTION_TYPE F77_EXTERNAL_NAME(X) +#define F77_DOUBLE_FUNCTION(X) F77_DOUBLE_TYPE F77_EXTERNAL_NAME(X) +#define F77_LOGICAL_FUNCTION(X) F77_LOGICAL_TYPE F77_EXTERNAL_NAME(X) +#define F77_CHARACTER_FUNCTION(X) void F77_EXTERNAL_NAME(X) +#define F77_BYTE_FUNCTION(X) F77_BYTE_TYPE F77_EXTERNAL_NAME(X) +#define F77_WORD_FUNCTION(X) F77_WORD_TYPE F77_EXTERNAL_NAME(X) +#define F77_UBYTE_FUNCTION(X) F77_UBYTE_TYPE F77_EXTERNAL_NAME(X) +#define F77_UWORD_FUNCTION(X) F77_UWORD_TYPE F77_EXTERNAL_NAME(X) +#define F77_POINTER_FUNCTION(X) F77_POINTER_TYPE F77_EXTERNAL_NAME(X) + + +/* --- Character return value for a function --- */ + +#define CHARACTER_RETURN_VALUE(X) CHARACTER(X) TRAIL(X) +#define CHARACTER_RETURN_ARG(X) CHARACTER_ARG(X) TRAIL_ARG(X) + +/* --- Dummy Arguments --- */ + +/* Macros for defining subroutine arguments. All these macros take a */ +/* single argument; the name of the parameter. On most systems, a numeric */ +/* argument is passed as a pointer. */ + +#define INTEGER(X) F77_INTEGER_TYPE *CNF_CONST X +#define REAL(X) F77_REAL_TYPE *CNF_CONST X +#define DOUBLE(X) F77_DOUBLE_TYPE *CNF_CONST X +#define LOGICAL(X) F77_LOGICAL_TYPE *CNF_CONST X +#define BYTE(X) F77_BYTE_TYPE *CNF_CONST X +#define WORD(X) F77_WORD_TYPE *CNF_CONST X +#define UBYTE(X) F77_UBYTE_TYPE *CNF_CONST X +#define UWORD(X) F77_UWORD_TYPE *CNF_CONST X + +/* Pointer arguments. Define a pointer type for passing pointer values */ +/* between subroutines. */ + +#define POINTER(X) F77_POINTER_TYPE *CNF_CONST X + +/* EXTERNAL arguments. Define a passed subroutine or function name */ +#define SUBROUTINE(X) void (*X)() +#define INTEGER_FUNCTION(X) F77_INTEGER_TYPE (*X)() +#define REAL_FUNCTION(X) F77_REAL_TYPE (*X)() +#define DOUBLE_FUNCTION(X) F77_DOUBLE_TYPE (*X)() +#define LOGICAL_FUNCTION(X) F77_LOGICAL_TYPE (*X)() +#define CHARACTER_FUNCTION(X) F77_CHARACTER_TYPE (*X)() +#define BYTE_FUNCTION(X) F77_BYTE_TYPE (*X)() +#define WORD_FUNCTION(X) F77_WORD_TYPE (*X)() +#define UBYTE_FUNCTION(X) F77_UBYTE_TYPE (*X)() +#define UWORD_FUNCTION(X) F77_UWORD_TYPE (*X)() +#define POINTER_FUNCTION(X) F77_POINTER_TYPE (*X)() + +/* Array arguments. */ + +#define INTEGER_ARRAY(X) F77_INTEGER_TYPE *CNF_CONST X +#define REAL_ARRAY(X) F77_REAL_TYPE *CNF_CONST X +#define DOUBLE_ARRAY(X) F77_DOUBLE_TYPE *CNF_CONST X +#define LOGICAL_ARRAY(X) F77_LOGICAL_TYPE *CNF_CONST X +#define BYTE_ARRAY(X) F77_BYTE_TYPE *CNF_CONST X +#define WORD_ARRAY(X) F77_WORD_TYPE *CNF_CONST X +#define UBYTE_ARRAY(X) F77_UBYTE_TYPE *CNF_CONST X +#define UWORD_ARRAY(X) F77_UWORD_TYPE *CNF_CONST X + +#define POINTER_ARRAY(X) F77_POINTER_TYPE *CNF_CONST X + +/* Macros to handle character arguments. */ + +/* Character arguments can be passed in many ways. The purpose of these */ +/* macros and the GENPTR_CHARACTER macro (defined in the next section) is */ +/* to generate a pointer to a character variable called ARG and an integer */ +/* ARG_length containing the length of ARG. If these two variables are */ +/* available directly from the argument list of the routine, then the */ +/* GENPTR_CHARACTER macro is null, otherwise it works on intermediate */ +/* variables. */ + +#define CHARACTER(X) F77_CHARACTER_TYPE *CNF_CONST X +#define TRAIL(X) ,@TRAIL_TYPE@ X ## _length +#define CHARACTER_ARRAY(X) F77_CHARACTER_TYPE *CNF_CONST X + + +/* --- Getting Pointers to Arguments --- */ + +/* Macros that ensure that a pointer to each argument is available for the */ +/* programmer to use. Usually this means that these macros are null. On */ +/* VMS, a pointer to a character variable has to be generated. If a */ +/* particular machine were to pass arguments by reference, rather than by */ +/* value, then these macros would construct the appropriate pointers. */ + +#define GENPTR_INTEGER(X) +#define GENPTR_REAL(X) +#define GENPTR_DOUBLE(X) +#define GENPTR_CHARACTER(X) +#define GENPTR_LOGICAL(X) +#define GENPTR_BYTE(X) +#define GENPTR_WORD(X) +#define GENPTR_UBYTE(X) +#define GENPTR_UWORD(X) +#define GENPTR_POINTER(X) + +#define GENPTR_INTEGER_ARRAY(X) +#define GENPTR_REAL_ARRAY(X) +#define GENPTR_DOUBLE_ARRAY(X) +#define GENPTR_CHARACTER_ARRAY(X) +#define GENPTR_LOGICAL_ARRAY(X) +#define GENPTR_BYTE_ARRAY(X) +#define GENPTR_WORD_ARRAY(X) +#define GENPTR_UBYTE_ARRAY(X) +#define GENPTR_UWORD_ARRAY(X) +#define GENPTR_POINTER_ARRAY(X) + +#define GENPTR_SUBROUTINE(X) +#define GENPTR_INTEGER_FUNCTION(X) +#define GENPTR_REAL_FUNCTION(X) +#define GENPTR_DOUBLE_FUNCTION(X) +#define GENPTR_CHARACTER_FUNCTION(X) +#define GENPTR_LOGICAL_FUNCTION(X) +#define GENPTR_BYTE_FUNCTION(X) +#define GENPTR_WORD_FUNCTION(X) +#define GENPTR_UBYTE_FUNCTION(X) +#define GENPTR_UWORD_FUNCTION(X) +#define GENPTR_POINTER_FUNCTION(X) + + + +/* ------------------ Calling FORTRAN from C --------------------------- */ + + +/* --- Declare variables --- */ + +#define DECLARE_INTEGER(X) F77_INTEGER_TYPE X +#define DECLARE_REAL(X) F77_REAL_TYPE X +#define DECLARE_DOUBLE(X) F77_DOUBLE_TYPE X +#define DECLARE_LOGICAL(X) F77_LOGICAL_TYPE X +#define DECLARE_BYTE(X) F77_BYTE_TYPE X +#define DECLARE_WORD(X) F77_WORD_TYPE X +#define DECLARE_UBYTE(X) F77_UBYTE_TYPE X +#define DECLARE_UWORD(X) F77_UWORD_TYPE X + +#define DECLARE_POINTER(X) F77_POINTER_TYPE X + +#define DECLARE_CHARACTER(X,L) F77_CHARACTER_TYPE X[L]; \ + const int X##_length = L + + +/* --- Declare arrays --- */ + +#define DECLARE_INTEGER_ARRAY(X,D) F77_INTEGER_TYPE X[D] +#define DECLARE_REAL_ARRAY(X,D) F77_REAL_TYPE X[D] +#define DECLARE_DOUBLE_ARRAY(X,D) F77_DOUBLE_TYPE X[D] +#define DECLARE_LOGICAL_ARRAY(X,D) F77_LOGICAL_TYPE X[D] +#define DECLARE_BYTE_ARRAY(X,D) F77_BYTE_TYPE X[D] +#define DECLARE_WORD_ARRAY(X,D) F77_WORD_TYPE X[D] +#define DECLARE_UBYTE_ARRAY(X,D) F77_UBYTE_TYPE X[D] +#define DECLARE_UWORD_ARRAY(X,D) F77_UWORD_TYPE X[D] +#define DECLARE_POINTER_ARRAY(X,D) F77_POINTER_TYPE X[D] +#define DECLARE_CHARACTER_ARRAY(X,L,D) F77_CHARACTER_TYPE X[D][L]; \ + const int X##_length = L + +/* --- Declare and construct dynamic CHARACTER arguments --- */ +#define DECLARE_CHARACTER_DYN(X) F77_CHARACTER_TYPE *X = NULL;\ + int X##_length = 0 +#define F77_CREATE_CHARACTER(X,L) X=cnfCref(L);\ + X##_length = (L>0?L:1) + +/* Declare Dynamic Fortran arrays */ +#define DECLARE_INTEGER_ARRAY_DYN(X) F77_INTEGER_TYPE *X = NULL +#define DECLARE_REAL_ARRAY_DYN(X) F77_REAL_TYPE *X = NULL +#define DECLARE_DOUBLE_ARRAY_DYN(X) F77_DOUBLE_TYPE *X = NULL +#define DECLARE_LOGICAL_ARRAY_DYN(X) F77_LOGICAL_TYPE *X = NULL +#define DECLARE_BYTE_ARRAY_DYN(X) F77_BYTE_TYPE *X = NULL +#define DECLARE_WORD_ARRAY_DYN(X) F77_WORD_TYPE *X = NULL +#define DECLARE_UBYTE_ARRAY_DYN(X) F77_UBYTE_TYPE *X = NULL +#define DECLARE_UWORD_ARRAY_DYN(X) F77_UWORD_TYPE *X = NULL +#define DECLARE_POINTER_ARRAY_DYN(X) F77_POINTER_TYPE *X = NULL +#define DECLARE_CHARACTER_ARRAY_DYN(X) F77_CHARACTER_TYPE *X = NULL;\ + int X##_length = 0 + +/* Create arrays dynamic Fortran arrays for those types which require */ +/* Separate space for Fortran and C arrays */ +/* Character and logical are already defined */ +/* For most types there is nothing to do */ +#define F77_CREATE_CHARACTER_ARRAY(X,L,N) \ + {int f77dims[1];f77dims[0]=N;X=cnfCrefa(L,1,f77dims);X##_length=L;} +#define F77_CREATE_CHARACTER_ARRAY_M(X,L,N,D) X=cnfCrefa(L,N,D);\ + X##_length = L +#define F77_CREATE_LOGICAL_ARRAY(X,N) \ + {int f77dims[1];f77dims[0]=N;X=cnfCrela(1,f77dims);} +#define F77_CREATE_LOGICAL_ARRAY_M(X,N,D) X=cnfCrela(N,D) +#define F77_CREATE_INTEGER_ARRAY(X,N) +#define F77_CREATE_REAL_ARRAY(X,N) +#define F77_CREATE_DOUBLE_ARRAY(X,N) +#define F77_CREATE_BYTE_ARRAY(X,N) +#define F77_CREATE_UBYTE_ARRAY(X,N) +#define F77_CREATE_WORD_ARRAY(X,N) +#define F77_CREATE_UWORD_ARRAY(X,N) +#define F77_CREATE_POINTER_ARRAY(X,N)\ + X=(F77_POINTER_TYPE *) malloc(N*sizeof(F77_POINTER_TYPE)) + +/* Associate Fortran arrays with C arrays */ +/* These macros ensure that there is space somewhere for the Fortran */ +/* array. They are complemetary to the CREATE_type_ARRAY macros */ +#define F77_ASSOC_CHARACTER_ARRAY(F,C) +#define F77_ASSOC_LOGICAL_ARRAY(F,C) +#define F77_ASSOC_INTEGER_ARRAY(F,C) F=C +#define F77_ASSOC_REAL_ARRAY(F,C) F=C +#define F77_ASSOC_DOUBLE_ARRAY(F,C) F=C +#define F77_ASSOC_BYTE_ARRAY(F,C) F=C +#define F77_ASSOC_UBYTE_ARRAY(F,C) F=C +#define F77_ASSOC_WORD_ARRAY(F,C) F=C +#define F77_ASSOC_UWORD_ARRAY(F,C) F=C +#define F77_ASSOC_POINTER_ARRAY(F,C) + +/* Free created dynamic arrays */ +/* Character and logical are already defined */ +/* For most types there is nothing to do */ +#define F77_FREE_INTEGER(X) +#define F77_FREE_REAL(X) +#define F77_FREE_DOUBLE(X) +#define F77_FREE_BYTE(X) +#define F77_FREE_UBYTE(X) +#define F77_FREE_WORD(X) +#define F77_FREE_UWORD(X) +#define F77_FREE_POINTER(X) cnfFree((void *)X); +#define F77_FREE_CHARACTER(X) cnfFreef( X ) +#define F77_FREE_LOGICAL(X) cnfFree( (char *)X ) + +/* --- IMPORT and EXPORT of values --- */ +/* Export C variables to Fortran variables */ +#define F77_EXPORT_CHARACTER(C,F,L) cnfExprt(C,F,L) +#define F77_EXPORT_DOUBLE(C,F) F=C +#define F77_EXPORT_INTEGER(C,F) F=C +#define F77_EXPORT_LOGICAL(C,F) F=C?F77_TRUE:F77_FALSE +#define F77_EXPORT_REAL(C,F) F=C +#define F77_EXPORT_BYTE(C,F) F=C +#define F77_EXPORT_WORD(C,F) F=C +#define F77_EXPORT_UBYTE(C,F) F=C +#define F77_EXPORT_UWORD(C,F) F=C +#define F77_EXPORT_POINTER(C,F) F=cnfFptr(C) +#define F77_EXPORT_LOCATOR(C,F) cnfExpch(C,F,DAT__SZLOC) + +/* Allow for character strings to be NULL, protects strlen. Note this + * does not allow lengths to differ. */ +#define F77_CREATE_EXPORT_CHARACTER(C,F) \ + if (C) { \ + F77_CREATE_CHARACTER(F,strlen(C)); \ + F77_EXPORT_CHARACTER(C,F,F##_length); \ + } else { \ + F77_CREATE_CHARACTER(F,1); \ + F77_EXPORT_CHARACTER(" ",F,F##_length); \ + } + +/* Export C arrays to Fortran */ +/* Arrays are assumed to be 1-d so just the number of elements is given */ +/* This may be OK for n-d arrays also */ +/* CHARACTER arrays may be represented in C as arrays of arrays of char or */ +/* as arrays of pointers to char (the _P variant) */ +#define F77_EXPORT_CHARACTER_ARRAY(C,LC,F,LF,N) \ + {int f77dims[1];f77dims[0]=N;cnfExprta(C,LC,F,LF,1,f77dims);} +#define F77_EXPORT_CHARACTER_ARRAY_P(C,F,LF,N) \ + {int f77dims[1];f77dims[0]=N;cnfExprtap(C,F,LF,1,f77dims);} +#define F77_EXPORT_DOUBLE_ARRAY(C,F,N) F=(F77_DOUBLE_TYPE *)C +#define F77_EXPORT_INTEGER_ARRAY(C,F,N) F=(F77_INTEGER_TYPE *)C +#define F77_EXPORT_LOGICAL_ARRAY(C,F,N) \ + {int f77dims[1];f77dims[0]=N;cnfExpla(C,F,1,f77dims);} +#define F77_EXPORT_REAL_ARRAY(C,F,N) F=(F77_REAL_TYPE *)C +#define F77_EXPORT_BYTE_ARRAY(C,F,N) F=(F77_BYTE_TYPE *)C +#define F77_EXPORT_WORD_ARRAY(C,F,N) F=(F77_WORD_TYPE *)C +#define F77_EXPORT_UBYTE_ARRAY(C,F,N) F=(F77_UBYTE_TYPE *)C +#define F77_EXPORT_UWORD_ARRAY(C,F,N) F=(F77_UWORD_TYPE * )C +#define F77_EXPORT_POINTER_ARRAY(C,F,N) \ + {int f77i;for (f77i=0;f77i<N;f77i++)F[f77i]=cnfFptr(C[f77i]);} +#define F77_EXPORT_LOCATOR_ARRAY(C,F,N) \ + {int f77i;for (f77i=0;f77i<N;f77i++)cnfExpch(C,F,DAT__SZLOC);} + +/* Import Fortran variables to C */ +#define F77_IMPORT_CHARACTER(F,L,C) cnfImprt(F,L,C) +#define F77_IMPORT_DOUBLE(F,C) C=F +#define F77_IMPORT_INTEGER(F,C) C=F +#define F77_IMPORT_LOGICAL(F,C) C=F77_ISTRUE(F) +#define F77_IMPORT_REAL(F,C) C=F +#define F77_IMPORT_BYTE(F,C) C=F +#define F77_IMPORT_WORD(F,C) C=F +#define F77_IMPORT_UBYTE(F,C) C=F +#define F77_IMPORT_UWORD(F,C) C=F +#define F77_IMPORT_POINTER(F,C) C=cnfCptr(F) +#define F77_IMPORT_LOCATOR(F,C) cnfImpch(F,DAT__SZLOC,C) + +/* Import Fortran arrays to C */ +/* Arrays are assumed to be 1-d so just the number of elements is given */ +/* This may be OK for n-d arrays also */ +/* CHARACTER arrays may be represented in C as arrays of arrays of char or */ +/* as arrays of pointers to char (the _P variant) */ +#define F77_IMPORT_CHARACTER_ARRAY(F,LF,C,LC,N) \ + {int f77dims[1];f77dims[0]=N;cnfImprta(F,LF,C,LC,1,f77dims);} +#define F77_IMPORT_CHARACTER_ARRAY_P(F,LF,C,LC,N) \ + {int f77dims[1];f77dims[0]=N;cnfImprtap(F,LF,C,LC,1,f77dims);} +#define F77_IMPORT_DOUBLE_ARRAY(F,C,N) +#define F77_IMPORT_INTEGER_ARRAY(F,C,N) +#define F77_IMPORT_LOGICAL_ARRAY(F,C,N) \ + {int f77dims[1];f77dims[0]=N;cnfImpla(F,C,1,f77dims);} +#define F77_IMPORT_REAL_ARRAY(F,C,N) +#define F77_IMPORT_BYTE_ARRAY(F,C,N) +#define F77_IMPORT_WORD_ARRAY(F,C,N) +#define F77_IMPORT_UBYTE_ARRAY(F,C,N) +#define F77_IMPORT_UWORD_ARRAY(F,C,N) +#define F77_IMPORT_POINTER_ARRAY(F,C,N) \ + {int f77i;for (f77i=0;f77i<N;f77i++)C[f77i]=cnfCptr(F[f77i]);} +#define F77_IMPORT_LOCATOR_ARRAY(F,C,N) \ + {int f77i;for (f77i=0;f77i<N;f77i++)cnfImpch(F,DAT__SZLOC,C);} + +/* --- Call a FORTRAN routine --- */ + +#define F77_CALL(X) F77_EXTERNAL_NAME(X) + + +/* --- Execute code synchronised by the CNF global mutex */ +#define F77_LOCK(code) \ + cnfLock(); \ + code \ + cnfUnlock(); + +/* --- Pass arguments to a FORTRAN routine --- */ + +#define INTEGER_ARG(X) X +#define REAL_ARG(X) X +#define DOUBLE_ARG(X) X +#define LOGICAL_ARG(X) X +#define BYTE_ARG(X) X +#define WORD_ARG(X) X +#define UBYTE_ARG(X) X +#define UWORD_ARG(X) X +#define POINTER_ARG(X) X +#define CHARACTER_ARG(X) X +#define TRAIL_ARG(X) ,X##_length + +#define SUBROUTINE_ARG(X) X +#define INTEGER_FUNCTION_ARG(X) X +#define REAL_FUNCTION_ARG(X) X +#define DOUBLE_FUNCTION_ARG(X) X +#define LOGICAL_FUNCTION_ARG(X) X +#define CHARACTER_FUNCTION_ARG(X) X +#define BYTE_FUNCTION_ARG(X) X +#define WORD_FUNCTION_ARG(X) X +#define UBYTE_FUNCTION_ARG(X) X +#define UWORD_FUNCTION_ARG(X) X +#define POINTER_FUNCTION_ARG(X) X + +#define INTEGER_ARRAY_ARG(X) (F77_INTEGER_TYPE *)X +#define REAL_ARRAY_ARG(X) (F77_REAL_TYPE *)X +#define DOUBLE_ARRAY_ARG(X) (F77_DOUBLE_TYPE *)X +#define LOGICAL_ARRAY_ARG(X) (F77_LOGICAL_TYPE *)X +#define BYTE_ARRAY_ARG(X) (F77_BYTE_TYPE *)X +#define WORD_ARRAY_ARG(X) (F77_WORD_TYPE *)X +#define UBYTE_ARRAY_ARG(X) (F77_UBYTE_TYPE *)X +#define UWORD_ARRAY_ARG(X) (F77_UWORD_TYPE *)X +#define POINTER_ARRAY_ARG(X) (F77_POINTER_TYPE *)X +#define CHARACTER_ARRAY_ARG(X) (F77_CHARACTER_ARRAY_ARG_TYPE *)X + +/* Put the 64-bit INT support in one place */ +#define F77_INTEGER8_TYPE int64_t +#define F77_INTEGER8_FUNCTION(X) F77_INTEGER8_TYPE F77_EXTERNAL_NAME(X) +#define INTEGER8(X) F77_INTEGER8_TYPE *CNF_CONST X +#define INTEGER8_FUNCTION(X) F77_INTEGER8_TYPE (*X)() +#define INTEGER8_ARRAY(X) F77_INTEGER8_TYPE *CNF_CONST X +#define GENPTR_INTEGER8(X) +#define GENPTR_INTEGER8_ARRAY(X) +#define GENPTR_INTEGER8_FUNCTION(X) +#define DECLARE_INTEGER8(X) F77_INTEGER8_TYPE X +#define DECLARE_INTEGER8_ARRAY(X,D) F77_INTEGER8_TYPE X[D] +#define DECLARE_INTEGER8_ARRAY_DYN(X) F77_INTEGER8_TYPE *X = NULL +#define F77_CREATE_INTEGER8_ARRAY(X,N) +#define F77_ASSOC_INTEGER8_ARRAY(F,C) F=C +#define F77_FREE_INTEGER8(X) +#define F77_EXPORT_INTEGER8(C,F) F=C +#define F77_EXPORT_INTEGER8_ARRAY(C,F,N) F=(F77_INTEGER8_TYPE *)C +#define F77_IMPORT_INTEGER8(F,C) C=F +#define F77_IMPORT_INTEGER8_ARRAY(F,C,N) +#define INTEGER8_ARG(X) X +#define INTEGER8_FUNCTION_ARG(X) X +#define INTEGER8_ARRAY_ARG(X) (F77_INTEGER8_TYPE *)X + +/* ------------------------ Non-ansi section ------------------------------ */ + +/* The difference between ANSI and non-ANSI compilers, as far as macro */ +/* definition is concerned, is that non-ANSI compilers do not support the */ +/* token concatenation operator (##). To work around this, we use the fact */ +/* that the null comment is preprocessed to produce no characters at all */ +/* by our non-ANSI compilers. */ +/* This section does not deal with the fact that some non-ANSI compilers */ +/* cannot handle function prototypes. That is handled in the machine */ +/* specific sections. */ + +#if !defined(__STDC__) + +/* --- External Name --- */ + +/* Macro to define the name of a Fortran routine or common block. This */ +/* ends in an underscore on many Unix systems. */ + +#undef F77_EXTERNAL_NAME +#define F77_EXTERNAL_NAME(X) X/**/_ + + +/* --- Dummy Arguments --- */ + +/* Macros to handle character dummy arguments. */ + +#undef TRAIL +#define TRAIL(X) ,@TRAIL_TYPE@ X/**/_length + + +/* --- Declare variables --- */ + +#undef DECLARE_CHARACTER +#define DECLARE_CHARACTER(X,L) F77_CHARACTER_TYPE X[L]; \ + const int X/**/_length = L +#undef DECLARE_CHARACTER_ARRAY +#define DECLARE_CHARACTER_ARRAY(X,L,D) F77_CHARACTER_TYPE X[D][L]; \ + const int X/**/_length = L +#undef DECLARE_CHARACTER_DYN +#define DECLARE_CHARACTER_DYN(X) F77_CHARACTER_TYPE *X;\ + int X/**/_length +#undef DECLARE_CHARACTER_ARRAY_DYN +#define DECLARE_CHARACTER_ARRAY_DYN(X) F77_CHARACTER_TYPE *X;\ + int X/**/_length +#undef F77_CREATE_CHARACTER +#define F77_CREATE_CHARACTER(X,L) X=cnfCref(L);\ + X/**/_length = L +#undef F77_CREATE_CHARACTER_ARRAY +#define F77_CREATE_CHARACTER_ARRAY(X,L,N) \ + {int f77dims[1];f77dims[0]=N;X=cnfCrefa(L,1,f77dims);X/**/_length=L;} + +/* --- Pass arguments to a FORTRAN routine --- */ + +#undef TRAIL_ARG +#define TRAIL_ARG(X) ,X/**/_length + + +#endif /* of non ANSI redefinitions */ + + +/* ----------------------------------------------------------------------- */ + +/* The standard macros defined above are known to work with the following */ +/* systems: */ + +/*-------- +| Sun | +---------*/ + +/* On SunOS, the ANSI definitions work with the acc and gcc compilers. */ +/* The cc compiler uses the non ANSI definitions. It also needs the K&R */ +/* definitions in the file kr.h. */ +/* On Solaris, the standard definitions work with the cc compiler. */ + +#if defined(sun) + +#if !defined(__STDC__) +#if !defined(_F77_KR) +#define _F77_KR +#endif +#endif + +#endif /* Sun */ + +/* -------------------- System dependent sections ------------------------- */ + +/*------------ +| VAX/VMS | +-------------*/ + +/* Many macros need to be changed due to the way that VMS handles external */ +/* names, passes character arguments and handles logical values. */ + + +#if defined(VMS) + +/* --- Data Types --- */ + +/* Redefine the macro for the byte data type as signed is not valid syntax */ +/* as the VMS compiler is not ANSI compliant. */ + +#undef F77_BYTE_TYPE +#define F77_BYTE_TYPE char + + +/* --- External Names --- */ + +/* Macro to define the name of a Fortran routine or common block. */ +/* Fortran and C routines names are the same on VMS. */ + +#undef F77_EXTERNAL_NAME +#define F77_EXTERNAL_NAME(X) X + + +/* --- Dummy Arguments --- */ + +/* Macros to handle character arguments. */ +/* Character string arguments are pointers to character string descriptors */ +/* and there are no trailing arguments. */ + +#if( VMS != 0 ) +#include <descrip.h> +#endif + + +#undef F77_CHARACTER_ARG_TYPE +#define F77_CHARACTER_ARG_TYPE struct dsc$descriptor_s +#undef F77_CHARACTER_ARRAY_ARG_TYPE +#define F77_CHARACTER_ARRAY_ARG_TYPE struct dsc$descriptor_a +#undef CHARACTER +#define CHARACTER(X) F77_CHARACTER_ARG_TYPE *CNF_CONST X/**/_arg +#undef TRAIL +#define TRAIL(X) +#undef CHARACTER_ARRAY +#define CHARACTER_ARRAY(X) F77_CHARACTER_ARRAY_ARG_TYPE *CNF_CONST X/**/_arg +#undef GENPTR_CHARACTER +#define GENPTR_CHARACTER(X) \ + F77_CHARACTER_TYPE *X = X/**/_arg->dsc$a_pointer; \ + int X/**/_length = X/**/_arg->dsc$w_length; +#undef GENPTR_CHARACTER_ARRAY +#define GENPTR_CHARACTER_ARRAY(X) GENPTR_CHARACTER(X) + + +/* --- Logical Values --- */ + +#undef F77_TRUE +#define F77_TRUE -1 +#undef F77_ISTRUE +#define F77_ISTRUE(X) ( (X)&1 ) +#undef F77_ISFALSE +#define F77_ISFALSE(X) ( ! ( (X)&1 ) ) + + +/* --- Common Blocks --- */ + +#undef F77_BLANK_COMMON +#define F77_BLANK_COMMON $BLANK + + +/* --- Declare Variables --- */ + +#undef DECLARE_CHARACTER +#define DECLARE_CHARACTER(X,L) \ + F77_CHARACTER_TYPE X[L]; const int X/**/_length = L; \ + F77_CHARACTER_ARG_TYPE X/**/_descr = \ + { L, DSC$K_DTYPE_T, DSC$K_CLASS_S, X }; \ + F77_CHARACTER_ARG_TYPE *X/**/_arg = &X/**/_descr +#undef DECLARE_CHARACTER_ARRAY +#define DECLARE_CHARACTER_ARRAY(X,L,D) \ + F77_CHARACTER_TYPE X[D][L]; const int X/**/_length = L; \ + F77_CHARACTER_ARRAY_ARG_TYPE X/**/_descr = \ + { L, DSC$K_DTYPE_T, DSC$K_CLASS_S, X }; \ + F77_CHARACTER_ARRAY_ARG_TYPE *X/**/_arg = &X/**/_descr + + +/* --- The dynamic allocation of character arguments --- */ +#undef DECLARE_CHARACTER_DYN +#define DECLARE_CHARACTER_DYN(X) int X/**/_length;\ + F77_CHARACTER_ARG_TYPE *X/**/_arg;\ + F77_CHARACTER_TYPE *X +#undef DECLARE_CHARACTER_ARRAY_DYN +#define DECLARE_CHARACTER_ARRAY_DYN(X) int X/**/_length;\ + F77_CHARACTER_ARRAY_ARG_TYPE *X/**/_arg;\ + F77_CHARACTER_TYPE *X +#undef F77_CREATE_CHARACTER +#define F77_CREATE_CHARACTER(X,L) X/**/_arg = cnfCref(L);\ + X = X/**/_arg->dsc$a_pointer; \ + X/**/_length = X/**/_arg->dsc$w_length +#undef F77_CREATE_CHARACTER_ARRAY +#define F77_CREATE_CHARACTER_ARRAY(X,L,N) \ + {int f77dims[1];f77dims[0]=N;X/**/_arg=cnfCrefa(L,1,f77dims);X/**/_length=L;} +#define F77_CREATE_CHARACTER_ARRAY_M(X,L,N,D) X/**/_arg = cnfCrefa(L,N,D);\ + X = X/**/_arg->dsc$a_pointer; \ + X/**/_length = X/**/_arg->dsc$w_length +#undef F77_FREE_CHARACTER +#define F77_FREE_CHARACTER(X) cnfFreef( X/**/_arg ) + +/* --- Pass arguments to a FORTRAN routine --- */ + +#undef CHARACTER_ARG +#define CHARACTER_ARG(X) X/**/_arg +#undef CHARACTER_ARRAY_ARG +#define CHARACTER_ARRAY_ARG(X) X/**/_arg +#undef TRAIL_ARG +#define TRAIL_ARG(X) + +#endif /* VMS */ + +/* ----------------------------------------------------------------------- */ + +/*-------------------------- +| DECstation Ultrix (cc) | +| DECstation Ultrix (c89) | +| DECstation OSF/1 | +| Alpha OSF/1 | + --------------------------*/ + +/* Do this complicated set of definitions as a single #if cannot be */ +/* continued across multiple lines. */ + +#if defined(mips) && defined(ultrix) +#define _dec_unix 1 +#endif +#if defined(__mips) && defined(__ultrix) +#define _dec_unix 1 +#endif +#if defined(__mips__) && defined(__osf__) +#define _dec_unix 1 +#endif +#if defined(__alpha) && defined(__osf__) +#define _dec_unix 1 +#endif + +#if _dec_unix + +/* The macros for Ultrix are the same as the standard ones except for ones */ +/* dealing with logical values. The ANSI definitions work with the c89 */ +/* compiler, and the non ANSI definitions work with the cc compiler. */ +/* The same applies to DEC OSF/1, except that its cc compiler is ANSI */ +/* compliant. */ + + +/* --- Logical Values --- */ + +/* Redefine macros that evaluate to a C logical value, given a FORTRAN */ +/* logical value. These definitions are only valid when used with the DEC */ +/* FORTRAN for RISC compiler. If you are using the earlier FORTRAN for */ +/* RISC compiler from MIPS, then these macros should be deleted. */ + +#undef F77_TRUE +#define F77_TRUE -1 +#undef F77_ISTRUE +#define F77_ISTRUE(X) ( (X)&1 ) +#undef F77_ISFALSE +#define F77_ISFALSE(X) ( ! ( (X)&1 ) ) + + +#endif /* DEC Unix */ + +/* +*+ +* Name: +* cnf.h + +* Purpose: +* Function prototypes for cnf routines + +* Language: +* ANSI C + +* Type of Module: +* C include file + +* Description: +* These are the prototype definitions for the functions in the CNF +* library. They are used used in mixing C and FORTRAN programs. + +* Copyright: +* Copyright (C) 1991 Science & Engineering Research Council + +* Authors: +* PMA: Peter Allan (Starlink, RAL) +* AJC: Alan Chipperfield (Starlink, RAL) +* {enter_new_authors_here} + +* History: +* 23-MAY-1991 (PMA): +* Original version. +* 12-JAN-1996 (AJC): +* Add cnf_cref and cnf_freef +* 14-JUN-1996 (AJC): +* Add cnf_crefa, imprta, exprta +* crela, impla, expla +* 18-JUL-1996 (AJC): +* Add impch and expch +* 17-MAR-1998 (AJC): +* Add imprtap and exprtap +* {enter_changes_here} + +* Bugs: +* {note_any_bugs_here} + +*- +------------------------------------------------------------------------------ +*/ +void cnfInitRTL( int, char** ); +void *cnfCalloc( size_t, size_t ); +void cnfCopyf( const char *source_f, int source_len, char *dest_f, + int dest_len ); +void *cnfCptr( F77_POINTER_TYPE ); +char *cnfCreat( int length ); +F77_CHARACTER_ARG_TYPE *cnfCref( int length ); +F77_CHARACTER_ARG_TYPE *cnfCrefa( int length, int ndims, const int *dims ); +char *cnfCreib( const char *source_f, int source_len ); +char *cnfCreim( const char *source_f, int source_len ); +F77_LOGICAL_TYPE *cnfCrela( int ndims, const int *dims ); +void cnfExpch( const char *source_c, char *dest_f, int nchars ); +void cnfExpla( const int *source_c, F77_LOGICAL_TYPE *dest_f, int ndims, + const int *dims ); +void cnfExpn( const char *source_c, int max, char *dest_f, int dest_len ); +void cnfExprt( const char *source_c, char *dest_f, int dest_len ); +void cnfExprta( const char *source_c, int source_len, char *dest_f, + int dest_len, int ndims, const int *dims ); +void cnfExprtap( char *const *source_c, char *dest_f, int dest_len, + int ndims, const int *dims ); +F77_POINTER_TYPE cnfFptr( void *cpointer ); +void cnfFree( void * ); +void cnfFreef( F77_CHARACTER_ARG_TYPE *temp ); +void cnfImpb( const char *source_f, int source_len, char *dest_c ); +void cnfImpbn( const char *source_f, int source_len, int max, char *dest_c ); +void cnfImpch( const char *source_f, int nchars, char *dest_c ); +void cnfImpla( const F77_LOGICAL_TYPE *source_f, int *dest_c, + int ndims, const int *dims ); +void cnfImpn( const char *source_f, int source_len, int max, char *dest_c ); +void cnfImprt( const char *source_f, int source_len, char *dest_c ); +void cnfImprta( const char *source_f, int source_len, char *dest_c, + int dest_len, int ndims, const int *dims ); +void cnfImprtap( const char *source_f, int source_len, char *const *dest_c, + int dest_len, int ndims, const int *dims ); +int cnfLenc( const char *source_c ); +int cnfLenf( const char *source_f, int source_len ); +void *cnfMalloc( size_t ); +void *cnfRealloc( void *, size_t ); +int cnfRegp( void * ); +void cnfUregp( void * ); +void cnfLock( void ); +void cnfUnlock( void ); +#endif + +#ifndef CNF_OLD_DEFINED +#define CNF_OLD_DEFINED +/* Define old names to be new names */ +#define cnf_calloc cnfCalloc +#define cnf_copyf cnfCopyf +#define cnf_cptr cnfCptr +#define cnf_creat cnfCreat +#define cnf_cref cnfCref +#define cnf_crefa cnfCrefa +#define cnf_creib cnfCreib +#define cnf_creim cnfCreim +#define cnf_crela cnfCrela +#define cnf_expch cnfExpch +#define cnf_expla cnfExpla +#define cnf_expn cnfExpn +#define cnf_exprt cnfExprt +#define cnf_exprta cnfExprta +#define cnf_exprtap cnfExprtap +#define cnf_fptr cnfFptr +#define cnf_free cnfFree +#define cnf_freef cnfFreef +#define cnf_impb cnfImpb +#define cnf_impbn cnfImpbn +#define cnf_impch cnfImpch +#define cnf_impla cnfImpla +#define cnf_impn cnfImpn +#define cnf_imprt cnfImprt +#define cnf_imprta cnfImprta +#define cnf_imprtap cnfImprtap +#define cnf_lenc cnfLenc +#define cnf_lenf cnfLenf +#define cnf_malloc cnfMalloc +#define cnf_regp cnfRegp +#define cnf_uregp cnfUregp + +#endif /* CNF_MACROS */ |