/*
*+
* Name:
* fmoc.c
* Purpose:
* Define a FORTRAN 77 interface to the AST Moc class.
* Type of Module:
* C source file.
* Description:
* This file defines FORTRAN 77-callable C functions which provide
* a public FORTRAN 77 interface to the Moc class.
* Routines Defined:
* AST_ISAMOC
* AST_MOC
* Copyright:
* Copyright (C) 2018 East Asian Observatory
* Licence:
* This program is free software: you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, either
* version 3 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General
* License along with this program. If not, see
* .
* Authors:
* DSB: David S Berry (EAO)
* History:
* 12-OCT-2018 (DSB):
* Original version.
*/
/* Define the astFORTRAN77 macro which prevents error messages from
AST C functions from reporting the file and line number where the
error occurred (since these would refer to this file, they would
not be useful). */
#define astFORTRAN77
/* Header files. */
/* ============= */
#include "f77.h" /* FORTRAN <-> C interface macros (SUN/209) */
#include "c2f77.h" /* F77 <-> C support functions/macros */
#include "error.h" /* Error reporting facilities */
#include "memory.h" /* Memory handling facilities */
#include "moc.h" /* C interface to the Moc class */
F77_SUBROUTINE(ast_addregion)( INTEGER(THIS),
INTEGER(CMODE),
INTEGER(REGION),
INTEGER(STATUS) ) {
GENPTR_INTEGER(THIS)
GENPTR_INTEGER(CMODE)
GENPTR_INTEGER(REGION)
astAt( "AST_ADDREGION", NULL, 0 );
astWatchSTATUS(
astAddRegion( astI2P( *THIS ), *CMODE, astI2P( *REGION ) );
)
}
F77_SUBROUTINE(ast_addmocdata)( INTEGER(THIS),
INTEGER(CMODE),
LOGICAL(NEGATE),
INTEGER(MAXORDER),
INTEGER(LEN),
INTEGER(NBYTE),
BYTE_ARRAY(DATA),
INTEGER(STATUS) ) {
GENPTR_INTEGER(THIS)
GENPTR_INTEGER(CMODE)
GENPTR_LOGICAL(NEGATE)
GENPTR_INTEGER(MAXORDER)
GENPTR_INTEGER(LEN)
GENPTR_INTEGER(NBYTE)
GENPTR_BYTE_ARRAY(DATA)
astAt( "AST_ADDMOCDATA", NULL, 0 );
astWatchSTATUS(
astAddMocData( astI2P( *THIS ), *CMODE, F77_ISTRUE( *NEGATE ),
*MAXORDER, *LEN, *NBYTE, (void *) DATA );
)
}
F77_SUBROUTINE(ast_addmocstring)( INTEGER(THIS),
INTEGER(CMODE),
LOGICAL(NEGATE),
INTEGER(MAXORDER),
INTEGER8(LEN),
CHARACTER(STRING),
LOGICAL(JSON),
INTEGER(STATUS)
TRAIL(STRING) ) {
GENPTR_INTEGER(THIS)
GENPTR_INTEGER(CMODE)
GENPTR_LOGICAL(NEGATE)
GENPTR_INTEGER(MAXORDER)
GENPTR_INTEGER8(LEN)
GENPTR_CHARACTER(STRING)
GENPTR_LOGICAL(JSON)
size_t len;
int json;
if( *LEN > STRING_length ) {
len = STRING_length;
} else {
len = *LEN;
}
astAt( "AST_ADDMOCSTRING", NULL, 0 );
astWatchSTATUS(
astAddMocString( astI2P( *THIS ), *CMODE, F77_ISTRUE( *NEGATE ),
*MAXORDER, len, (const char *) STRING, &json );
*JSON = json ? F77_TRUE : F77_FALSE;
)
}
F77_SUBROUTINE(ast_addcell)( INTEGER(THIS),
INTEGER(CMODE),
INTEGER(ORDER),
INTEGER8(NPIX),
INTEGER(STATUS) ) {
GENPTR_INTEGER(THIS)
GENPTR_INTEGER(CMODE)
GENPTR_INTEGER(ORDER)
GENPTR_INTEGER8(NPIX)
astAt( "AST_ADDCELL", NULL, 0 );
astWatchSTATUS(
astAddCell( astI2P( *THIS ), *CMODE, *ORDER, *NPIX );
)
}
F77_SUBROUTINE(ast_getcell)( INTEGER(THIS),
INTEGER(ICELL),
INTEGER(ORDER),
INTEGER8(NPIX),
INTEGER(STATUS) ) {
GENPTR_INTEGER(THIS)
GENPTR_INTEGER(ICELL)
GENPTR_INTEGER(ORDER)
GENPTR_INTEGER8(NPIX)
astAt( "AST_GETCELL", NULL, 0 );
astWatchSTATUS(
astGetCell( astI2P( *THIS ), *ICELL - 1, ORDER, NPIX );
)
}
F77_LOGICAL_FUNCTION(ast_isamoc)( INTEGER(THIS),
INTEGER(STATUS) ) {
GENPTR_INTEGER(THIS)
F77_LOGICAL_TYPE(RESULT);
astAt( "AST_ISAMOC", NULL, 0 );
astWatchSTATUS(
RESULT = astIsAMoc( astI2P( *THIS ) ) ? F77_TRUE : F77_FALSE;
)
return RESULT;
}
F77_INTEGER_FUNCTION(ast_moc)( CHARACTER(OPTIONS),
INTEGER(STATUS)
TRAIL(OPTIONS) ) {
GENPTR_CHARACTER(OPTIONS)
F77_INTEGER_TYPE(RESULT);
int i;
char *options;
astAt( "AST_MOC", NULL, 0 );
astWatchSTATUS(
options = astString( OPTIONS, OPTIONS_length );
/* Truncate the options string to exlucde any trailing spaces. */
astChrTrunc( options );
/* Change ',' to '\n' (see AST_SET in fobject.c for why). */
if ( astOK ) {
for ( i = 0; options[ i ]; i++ ) {
if ( options[ i ] == ',' ) options[ i ] = '\n';
}
}
RESULT = astP2I( astMoc( "%s", options ) );
astFree( options );
)
return RESULT;
}
F77_SUBROUTINE(ast_getmocdata)( INTEGER(THIS),
INTEGER(MXSIZE),
BYTE_ARRAY(DATA),
INTEGER(STATUS) ) {
GENPTR_INTEGER(THIS)
GENPTR_INTEGER(MXSIZE)
GENPTR_BYTE_ARRAY(DATA)
astAt( "AST_GETMOCDATA", NULL, 0 );
astWatchSTATUS(
astGetMocData( astI2P( *THIS ), *MXSIZE, (void *) DATA );
)
}
F77_INTEGER_FUNCTION(ast_getmocheader)( INTEGER(THIS),
INTEGER(STATUS) ) {
GENPTR_INTEGER(THIS)
F77_INTEGER_TYPE(RESULT);
astAt( "AST_GETMOCHEADER", NULL, 0 );
astWatchSTATUS(
RESULT = astP2I( astGetMocHeader( astI2P( *THIS ) ) );
)
return RESULT;
}
/* AST_ADDPIXELMASK requires a function for each possible data type, so
define it via a macro. */
#define MAKE_AST_ADDPIXELMASK(f,F,Ftype,X,Xtype) \
F77_SUBROUTINE(ast_addpixelmask##f)( INTEGER(THIS), \
INTEGER(CMODE), \
INTEGER(WCS), \
Ftype(VALUE), \
INTEGER(OPER), \
INTEGER(FLAGS), \
Ftype(BADVAL), \
Ftype##_ARRAY(ARRAY), \
INTEGER_ARRAY(DIMS), \
INTEGER(STATUS) ) { \
\
GENPTR_INTEGER(THIS) \
GENPTR_INTEGER(CMODE) \
GENPTR_INTEGER(WCS) \
GENPTR_##Ftype(VALUE) \
GENPTR_INTEGER(OPER) \
GENPTR_INTEGER(FLAGS) \
GENPTR_##Ftype(BADVAL) \
GENPTR_##Ftype##_ARRAY(ARRAY) \
GENPTR_INTEGER_ARRAY(DIMS) \
GENPTR_INTEGER(STATUS) \
\
astAt( "AST_ADDPIXELMASK"#F, NULL, 0 ); \
astWatchSTATUS( \
astAddPixelMask##X( astI2P( *THIS ), *CMODE, astI2P( *WCS ), \
*VALUE, *OPER, *FLAGS, *BADVAL, (Xtype *) ARRAY, \
DIMS ); \
) \
}
/* Invoke the above macro to define a function for each data
type. Include synonyms for some functions. */
MAKE_AST_ADDPIXELMASK(d,D,DOUBLE,D,double)
MAKE_AST_ADDPIXELMASK(r,R,REAL,F,float)
MAKE_AST_ADDPIXELMASK(i,I,INTEGER,I,int)
MAKE_AST_ADDPIXELMASK(ui,UI,INTEGER,UI,unsigned int)
MAKE_AST_ADDPIXELMASK(s,S,WORD,S,short int)
MAKE_AST_ADDPIXELMASK(us,US,UWORD,US,unsigned short int)
MAKE_AST_ADDPIXELMASK(w,W,WORD,S,short int)
MAKE_AST_ADDPIXELMASK(uw,UW,UWORD,US,unsigned short int)
MAKE_AST_ADDPIXELMASK(b,B,BYTE,B,signed char)
MAKE_AST_ADDPIXELMASK(ub,UB,UBYTE,UB,unsigned char)
#undef MAKE_AST_ADDPIXELMASK
F77_LOGICAL_FUNCTION(ast_testcell)( INTEGER(THIS),
INTEGER(ORDER),
INTEGER8(NPIX),
LOGICAL(PARENT),
INTEGER(STATUS) ) {
GENPTR_INTEGER(THIS)
GENPTR_INTEGER(ORDER)
GENPTR_INTEGER8(NPIX)
GENPTR_LOGICAL(PARENT)
GENPTR_INTEGER(STATUS)
F77_LOGICAL_TYPE(RESULT);
astAt( "AST_TESTCELL", NULL, 0 );
astWatchSTATUS(
RESULT = astTestCell( astI2P( *THIS ), *ORDER, *NPIX,
F77_ISTRUE( *PARENT ) ? 1 : 0 );
)
return RESULT;
}
F77_SUBROUTINE(ast_getmocstring)( INTEGER(THIS),
LOGICAL(JSON),
INTEGER(MXSIZE),
CHARACTER(STRING),
INTEGER8(SIZE),
INTEGER(STATUS) ) {
GENPTR_INTEGER(THIS)
GENPTR_LOGICAL(JSON)
GENPTR_INTEGER(MXSIZE)
GENPTR_CHARACTER(STRING)
GENPTR_INTEGER8(SIZE)
GENPTR_INTEGER(MXSIZE)
GENPTR_INTEGER(STATUS)
size_t size;
size_t mxsize = *MXSIZE;
astAt( "AST_GETMOCSTRING", NULL, 0 );
astWatchSTATUS(
astGetMocString( astI2P( *THIS ), F77_ISTRUE( *JSON ) ? 1 : 0,
mxsize, (char *) STRING, &size );
*SIZE = size;
)
}