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putget.m4
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putget.m4
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dnl This is m4 source.
dnl Process using m4 to produce 'C' language file.
dnl
undefine(`begin')dnl
undefine(`index')dnl
undefine(`len')dnl
dnl
dnl If you see this line, you can ignore the next one.
/* Do not edit this file. It is produced from the corresponding .m4 source */
dnl
/*
* Copyright 1996, University Corporation for Atmospheric Research
* See netcdf/COPYRIGHT file for copying and redistribution conditions.
*/
/* $Id: putget.m4 2783 2014-10-26 05:19:35Z wkliao $ */
#if HAVE_CONFIG_H
#include <config.h>
#endif
#include <string.h>
#include <stdlib.h>
#include <assert.h>
#include "netcdf.h"
#include "nc3dispatch.h"
#include "nc3internal.h"
#include "ncx.h"
#include "fbits.h"
#include "onstack.h"
#ifdef LOCKNUMREC
# include <mpp/shmem.h> /* for SGI/Cray SHMEM routines */
# ifdef LN_TEST
# include <stdio.h>
# endif
#endif
#undef MIN /* system may define MIN somewhere and complain */
#define MIN(mm,nn) (((mm) < (nn)) ? (mm) : (nn))
static int
readNCv(const NC3_INFO* ncp, const NC_var* varp, const size_t* start,
const size_t nelems, void* value, const nc_type memtype);
static int
writeNCv(NC3_INFO* ncp, const NC_var* varp, const size_t* start,
const size_t nelems, const void* value, const nc_type memtype);
/* #define ODEBUG 1 */
#if ODEBUG
#include <stdio.h>
/*
* Print the values of an array of size_t
*/
void
arrayp(const char *label, size_t count, const size_t *array)
{
(void) fprintf(stderr, "%s", label);
(void) fputc('\t',stderr);
for(; count > 0; count--, array++)
(void) fprintf(stderr," %lu", (unsigned long)*array);
(void) fputc('\n',stderr);
}
#endif /* ODEBUG */
/* Begin fill */
/*
* This is tunable parameter.
* It essentially controls the tradeoff between the number of times
* memcpy() gets called to copy the external data to fill
* a large buffer vs the number of times its called to
* prepare the external data.
*/
#if _SX
/* NEC SX specific optimization */
#define NFILL 2048
#else
#define NFILL 16
#endif
dnl
dnl NCFILL(Type, Xtype, XSize, Fill)
dnl
define(`NCFILL',dnl
`dnl
static int
NC_fill_$2(
void **xpp,
size_t nelems) /* how many */
{
$1 fillp[NFILL * sizeof(double)/$3];
assert(nelems <= sizeof(fillp)/sizeof(fillp[0]));
{
$1 *vp = fillp; /* lower bound of area to be filled */
const $1 *const end = vp + nelems;
while(vp < end)
{
*vp++ = $4;
}
}
return ncx_putn_$2_$1(xpp, nelems, fillp ifelse(`$1',`char',,`,NULL'));
}
')dnl
/*
* Next 6 type specific functions
* Fill a some memory with the default special value.
* Formerly
NC_arrayfill()
*/
NCFILL(schar, schar, X_SIZEOF_CHAR, NC_FILL_BYTE)
NCFILL(char, char, X_SIZEOF_CHAR, NC_FILL_CHAR)
NCFILL(short, short, X_SIZEOF_SHORT, NC_FILL_SHORT)
#if (SIZEOF_INT >= X_SIZEOF_INT)
NCFILL(int, int, X_SIZEOF_INT, NC_FILL_INT)
#elif SIZEOF_LONG == X_SIZEOF_INT
NCFILL(long, int, X_SIZEOF_INT, NC_FILL_INT)
#else
#error "NC_fill_int implementation"
#endif
NCFILL(float, float, X_SIZEOF_FLOAT, NC_FILL_FLOAT)
NCFILL(double, double, X_SIZEOF_DOUBLE, NC_FILL_DOUBLE)
NCFILL(uchar, uchar, X_SIZEOF_UBYTE, NC_FILL_UBYTE)
NCFILL(ushort, ushort, X_SIZEOF_USHORT, NC_FILL_USHORT)
NCFILL(uint, uint, X_SIZEOF_UINT, NC_FILL_UINT)
NCFILL(longlong, longlong, X_SIZEOF_LONGLONG, NC_FILL_INT64)
NCFILL(ulonglong, ulonglong, X_SIZEOF_ULONGLONG, NC_FILL_UINT64)
/*
* Fill the external space for variable 'varp' values at 'recno' with
* the appropriate value. If 'varp' is not a record variable, fill the
* whole thing. For the special case when 'varp' is the only record
* variable and it is of type byte, char, or short, varsize should be
* ncp->recsize, otherwise it should be varp->len.
* Formerly
xdr_NC_fill()
*/
int
fill_NC_var(NC3_INFO* ncp, const NC_var *varp, size_t varsize, size_t recno)
{
char xfillp[NFILL * X_SIZEOF_DOUBLE];
const size_t step = varp->xsz;
const size_t nelems = sizeof(xfillp)/step;
const size_t xsz = varp->xsz * nelems;
NC_attr **attrpp = NULL;
off_t offset;
size_t remaining = varsize;
void *xp;
int status = NC_NOERR;
/*
* Set up fill value
*/
attrpp = NC_findattr(&varp->attrs, _FillValue);
if( attrpp != NULL )
{
/* User defined fill value */
if( (*attrpp)->type != varp->type || (*attrpp)->nelems != 1 )
{
return NC_EBADTYPE;
}
else
{
/* Use the user defined value */
char *cp = xfillp;
const char *const end = &xfillp[sizeof(xfillp)];
assert(step <= (*attrpp)->xsz);
for( /*NADA*/; cp < end; cp += step)
{
(void) memcpy(cp, (*attrpp)->xvalue, step);
}
}
}
else
{
/* use the default */
assert(xsz % X_ALIGN == 0);
assert(xsz <= sizeof(xfillp));
xp = xfillp;
switch(varp->type){
case NC_BYTE :
status = NC_fill_schar(&xp, nelems);
break;
case NC_CHAR :
status = NC_fill_char(&xp, nelems);
break;
case NC_SHORT :
status = NC_fill_short(&xp, nelems);
break;
case NC_INT :
status = NC_fill_int(&xp, nelems);
break;
case NC_FLOAT :
status = NC_fill_float(&xp, nelems);
break;
case NC_DOUBLE :
status = NC_fill_double(&xp, nelems);
break;
case NC_UBYTE :
status = NC_fill_uchar(&xp, nelems);
break;
case NC_USHORT :
status = NC_fill_ushort(&xp, nelems);
break;
case NC_UINT :
status = NC_fill_uint(&xp, nelems);
break;
case NC_INT64 :
status = NC_fill_longlong(&xp, nelems);
break;
case NC_UINT64 :
status = NC_fill_ulonglong(&xp, nelems);
break;
default :
assert("fill_NC_var invalid type" == 0);
status = NC_EBADTYPE;
break;
}
if(status != NC_NOERR)
return status;
assert(xp == xfillp + xsz);
}
/*
* copyout:
* xfillp now contains 'nelems' elements of the fill value
* in external representation.
*/
/*
* Copy it out.
*/
offset = varp->begin;
if(IS_RECVAR(varp))
{
offset += (off_t)ncp->recsize * recno;
}
assert(remaining > 0);
for(;;)
{
const size_t chunksz = MIN(remaining, ncp->chunk);
size_t ii;
status = ncio_get(ncp->nciop, offset, chunksz,
RGN_WRITE, &xp);
if(status != NC_NOERR)
{
return status;
}
/*
* fill the chunksz buffer in units of xsz
*/
for(ii = 0; ii < chunksz/xsz; ii++)
{
(void) memcpy(xp, xfillp, xsz);
xp = (char *)xp + xsz;
}
/*
* Deal with any remainder
*/
{
const size_t rem = chunksz % xsz;
if(rem != 0)
{
(void) memcpy(xp, xfillp, rem);
/* xp = (char *)xp + xsz; */
}
}
status = ncio_rel(ncp->nciop, offset, RGN_MODIFIED);
if(status != NC_NOERR)
{
break;
}
remaining -= chunksz;
if(remaining == 0)
break; /* normal loop exit */
offset += chunksz;
}
return status;
}
/* End fill */
/*
* Add a record containing the fill values.
*/
static int
NCfillrecord(NC3_INFO* ncp, const NC_var *const *varpp, size_t recno)
{
size_t ii = 0;
for(; ii < ncp->vars.nelems; ii++, varpp++)
{
if( !IS_RECVAR(*varpp) )
{
continue; /* skip non-record variables */
}
{
const int status = fill_NC_var(ncp, *varpp, (*varpp)->len, recno);
if(status != NC_NOERR)
return status;
}
}
return NC_NOERR;
}
/*
* Add a record containing the fill values in the special case when
* there is exactly one record variable, where we don't require each
* record to be four-byte aligned (no record padding).
*/
static int
NCfillspecialrecord(NC3_INFO* ncp, const NC_var *varp, size_t recno)
{
int status;
assert(IS_RECVAR(varp));
status = fill_NC_var(ncp, varp, ncp->recsize, recno);
if(status != NC_NOERR)
return status;
return NC_NOERR;
}
/*
* It is advantageous to
* #define TOUCH_LAST
* when using memory mapped io.
*/
#if TOUCH_LAST
/*
* Grow the file to a size which can contain recno
*/
static int
NCtouchlast(NC3_INFO* ncp, const NC_var *const *varpp, size_t recno)
{
int status = NC_NOERR;
const NC_var *varp = NULL;
{
size_t ii = 0;
for(; ii < ncp->vars.nelems; ii++, varpp++)
{
if( !IS_RECVAR(*varpp) )
{
continue; /* skip non-record variables */
}
varp = *varpp;
}
}
assert(varp != NULL);
assert( IS_RECVAR(varp) );
{
const off_t offset = varp->begin
+ (off_t)(recno-1) * (off_t)ncp->recsize
+ (off_t)(varp->len - varp->xsz);
void *xp;
status = ncio_get(ncp->nciop, offset, varp->xsz,
RGN_WRITE, &xp);
if(status != NC_NOERR)
return status;
(void)memset(xp, 0, varp->xsz);
status = ncio_rel(ncp->nciop, offset, RGN_MODIFIED);
}
return status;
}
#endif /* TOUCH_LAST */
/*
* Ensure that the netcdf file has 'numrecs' records,
* add records and fill as necessary.
*/
static int
NCvnrecs(NC3_INFO* ncp, size_t numrecs)
{
int status = NC_NOERR;
#ifdef LOCKNUMREC
ushmem_t myticket = 0, nowserving = 0;
ushmem_t numpe = (ushmem_t) _num_pes();
/* get ticket and wait */
myticket = shmem_short_finc((shmem_t *) ncp->lock + LOCKNUMREC_LOCK,
ncp->lock[LOCKNUMREC_BASEPE]);
#ifdef LN_TEST
fprintf(stderr,"%d of %d : ticket = %hu\n",
_my_pe(), _num_pes(), myticket);
#endif
do {
shmem_short_get((shmem_t *) &nowserving,
(shmem_t *) ncp->lock + LOCKNUMREC_SERVING, 1,
ncp->lock[LOCKNUMREC_BASEPE]);
#ifdef LN_TEST
fprintf(stderr,"%d of %d : serving = %hu\n",
_my_pe(), _num_pes(), nowserving);
#endif
/* work-around for non-unique tickets */
if (nowserving > myticket && nowserving < myticket + numpe ) {
/* get a new ticket ... you've been bypassed */
/* and handle the unlikely wrap-around effect */
myticket = shmem_short_finc(
(shmem_t *) ncp->lock + LOCKNUMREC_LOCK,
ncp->lock[LOCKNUMREC_BASEPE]);
#ifdef LN_TEST
fprintf(stderr,"%d of %d : new ticket = %hu\n",
_my_pe(), _num_pes(), myticket);
#endif
}
} while(nowserving != myticket);
/* now our turn to check & update value */
#endif
if(numrecs > NC_get_numrecs(ncp))
{
#if TOUCH_LAST
status = NCtouchlast(ncp,
(const NC_var *const*)ncp->vars.value,
numrecs);
if(status != NC_NOERR)
goto common_return;
#endif /* TOUCH_LAST */
set_NC_ndirty(ncp);
if(!NC_dofill(ncp))
{
/* Simply set the new numrecs value */
NC_set_numrecs(ncp, numrecs);
}
else
{
/* Treat two cases differently:
- exactly one record variable (no padding)
- multiple record variables (each record padded
to 4-byte alignment)
*/
NC_var **vpp = (NC_var **)ncp->vars.value;
NC_var *const *const end = &vpp[ncp->vars.nelems];
NC_var *recvarp = NULL; /* last record var */
int numrecvars = 0;
size_t cur_nrecs;
/* determine how many record variables */
for( /*NADA*/; vpp < end; vpp++) {
if(IS_RECVAR(*vpp)) {
recvarp = *vpp;
numrecvars++;
}
}
if (numrecvars != 1) { /* usual case */
/* Fill each record out to numrecs */
while((cur_nrecs = NC_get_numrecs(ncp)) < numrecs)
{
status = NCfillrecord(ncp,
(const NC_var *const*)ncp->vars.value,
cur_nrecs);
if(status != NC_NOERR)
{
break;
}
NC_increase_numrecs(ncp, cur_nrecs +1);
}
if(status != NC_NOERR)
goto common_return;
} else { /* special case */
/* Fill each record out to numrecs */
while((cur_nrecs = NC_get_numrecs(ncp)) < numrecs)
{
status = NCfillspecialrecord(ncp,
recvarp,
cur_nrecs);
if(status != NC_NOERR)
{
break;
}
NC_increase_numrecs(ncp, cur_nrecs +1);
}
if(status != NC_NOERR)
goto common_return;
}
}
if(NC_doNsync(ncp))
{
status = write_numrecs(ncp);
}
}
common_return:
#ifdef LOCKNUMREC
/* finished with our lock - increment serving number */
(void) shmem_short_finc((shmem_t *) ncp->lock + LOCKNUMREC_SERVING,
ncp->lock[LOCKNUMREC_BASEPE]);
#endif
return status;
}
/*
* Check whether 'coord' values are valid for the variable.
*/
static int
NCcoordck(NC3_INFO* ncp, const NC_var *varp, const size_t *coord)
{
const size_t *ip;
size_t *up;
if(varp->ndims == 0)
return NC_NOERR; /* 'scalar' variable */
if(IS_RECVAR(varp))
{
if(*coord > X_UINT_MAX) /* rkr: bug fix from previous X_INT_MAX */
return NC_EINVALCOORDS; /* sanity check */
#ifdef RELAX_COORD_BOUND
if(NC_readonly(ncp) && *coord > NC_get_numrecs(ncp))
#else
if(NC_readonly(ncp) && *coord >= NC_get_numrecs(ncp))
#endif
{
if(!NC_doNsync(ncp))
return NC_EINVALCOORDS;
/* else */
{
/* Update from disk and check again */
const int status = read_numrecs(ncp);
if(status != NC_NOERR)
return status;
#ifdef RELAX_COORD_BOUND
if(*coord > NC_get_numrecs(ncp))
#else
if(*coord >= NC_get_numrecs(ncp))
#endif
return NC_EINVALCOORDS;
}
}
ip = coord + 1;
up = varp->shape + 1;
}
else
{
ip = coord;
up = varp->shape;
}
#ifdef CDEBUG
fprintf(stderr," NCcoordck: coord %ld, count %d, ip %ld\n",
coord, varp->ndims, ip );
#endif /* CDEBUG */
for(; ip < coord + varp->ndims; ip++, up++)
{
#ifdef CDEBUG
fprintf(stderr," NCcoordck: ip %p, *ip %ld, up %p, *up %lu\n",
ip, *ip, up, *up );
#endif /* CDEBUG */
/* cast needed for braindead systems with signed size_t */
#ifdef RELAX_COORD_BOUND
if((unsigned long) *ip > (unsigned long) *up )
#else
if((unsigned long) *ip >= (unsigned long) *up )
#endif
return NC_EINVALCOORDS;
}
return NC_NOERR;
}
/*
* Check whether 'edges' are valid for the variable and 'start'
*/
/*ARGSUSED*/
static int
NCedgeck(const NC3_INFO* ncp, const NC_var *varp,
const size_t *start, const size_t *edges)
{
const size_t *const end = start + varp->ndims;
const size_t *shp = varp->shape;
if(varp->ndims == 0)
return NC_NOERR; /* 'scalar' variable */
if(IS_RECVAR(varp))
{
#ifdef RELAX_COORD_BOUND
if (NC_readonly(ncp) &&
(start[0] == NC_get_numrecs(ncp) && edges[0] > 0))
return(NC_EINVALCOORDS);
#endif
start++;
edges++;
shp++;
}
for(; start < end; start++, edges++, shp++)
{
#ifdef RELAX_COORD_BOUND
if ((unsigned long) *start == *shp && *edges > 0)
return(NC_EINVALCOORDS);
#endif
/* cast needed for braindead systems with signed size_t */
if((unsigned long) *edges > *shp ||
(unsigned long) *start + (unsigned long) *edges > *shp)
{
return(NC_EEDGE);
}
}
return NC_NOERR;
}
/*
* Translate the (variable, coord) pair into a seek index
*/
static off_t
NC_varoffset(const NC3_INFO* ncp, const NC_var *varp, const size_t *coord)
{
if(varp->ndims == 0) /* 'scalar' variable */
return varp->begin;
if(varp->ndims == 1)
{
if(IS_RECVAR(varp))
return varp->begin +
(off_t)(*coord) * (off_t)ncp->recsize;
/* else */
return varp->begin + (off_t)(*coord) * (off_t)varp->xsz;
}
/* else */
{
off_t lcoord = (off_t)coord[varp->ndims -1];
off_t *up = varp->dsizes +1;
const size_t *ip = coord;
const off_t *const end = varp->dsizes + varp->ndims;
if(IS_RECVAR(varp))
up++, ip++;
for(; up < end; up++, ip++)
lcoord += (off_t)(*up) * (off_t)(*ip);
lcoord *= varp->xsz;
if(IS_RECVAR(varp))
lcoord += (off_t)(*coord) * ncp->recsize;
lcoord += varp->begin;
return lcoord;
}
}
dnl
dnl Output 'nelems' items of contiguous data of type "Type"
dnl for variable 'varp' at 'start'.
dnl "Xtype" had better match 'varp->type'.
dnl---
dnl
dnl PUTNCVX(Xtype, Type)
dnl
define(`PUTNCVX',dnl
`dnl
static int
putNCvx_$1_$2(NC3_INFO* ncp, const NC_var *varp,
const size_t *start, size_t nelems, const $2 *value)
{
off_t offset = NC_varoffset(ncp, varp, start);
size_t remaining = varp->xsz * nelems;
int status = NC_NOERR;
void *xp;
void *fillp=NULL;
if(nelems == 0)
return NC_NOERR;
assert(value != NULL);
#ifdef ERANGE_FILL
fillp = malloc(varp->xsz);
status = NC3_inq_var_fill(varp, fillp);
#endif
for(;;)
{
size_t extent = MIN(remaining, ncp->chunk);
size_t nput = ncx_howmany(varp->type, extent);
int lstatus = ncio_get(ncp->nciop, offset, extent,
RGN_WRITE, &xp);
if(lstatus != NC_NOERR)
return lstatus;
lstatus = ncx_putn_$1_$2(&xp, nput, value ifelse(`$1',`char',,`,fillp'));
if(lstatus != NC_NOERR && status == NC_NOERR)
{
/* not fatal to the loop */
status = lstatus;
}
(void) ncio_rel(ncp->nciop, offset,
RGN_MODIFIED);
remaining -= extent;
if(remaining == 0)
break; /* normal loop exit */
offset += (off_t)extent;
value += nput;
}
#ifdef ERANGE_FILL
free(fillp);
#endif
return status;
}
')dnl
PUTNCVX(char, char)
PUTNCVX(schar, schar)
PUTNCVX(schar, uchar)
PUTNCVX(schar, short)
PUTNCVX(schar, int)
PUTNCVX(schar, float)
PUTNCVX(schar, double)
PUTNCVX(schar, longlong)
PUTNCVX(schar, ushort)
PUTNCVX(schar, uint)
PUTNCVX(schar, ulonglong)
PUTNCVX(short, schar)
PUTNCVX(short, uchar)
PUTNCVX(short, short)
PUTNCVX(short, int)
PUTNCVX(short, float)
PUTNCVX(short, double)
PUTNCVX(short, longlong)
PUTNCVX(short, ushort)
PUTNCVX(short, uint)
PUTNCVX(short, ulonglong)
PUTNCVX(int, schar)
PUTNCVX(int, uchar)
PUTNCVX(int, short)
PUTNCVX(int, int)
PUTNCVX(int, float)
PUTNCVX(int, double)
PUTNCVX(int, longlong)
PUTNCVX(int, ushort)
PUTNCVX(int, uint)
PUTNCVX(int, ulonglong)
PUTNCVX(float, schar)
PUTNCVX(float, uchar)
PUTNCVX(float, short)
PUTNCVX(float, int)
PUTNCVX(float, float)
PUTNCVX(float, double)
PUTNCVX(float, longlong)
PUTNCVX(float, ushort)
PUTNCVX(float, uint)
PUTNCVX(float, ulonglong)
PUTNCVX(double, schar)
PUTNCVX(double, uchar)
PUTNCVX(double, short)
PUTNCVX(double, int)
PUTNCVX(double, float)
PUTNCVX(double, double)
PUTNCVX(double, longlong)
PUTNCVX(double, ushort)
PUTNCVX(double, uint)
PUTNCVX(double, ulonglong)
PUTNCVX(uchar, schar)
PUTNCVX(uchar, uchar)
PUTNCVX(uchar, short)
PUTNCVX(uchar, int)
PUTNCVX(uchar, float)
PUTNCVX(uchar, double)
PUTNCVX(uchar, longlong)
PUTNCVX(uchar, ushort)
PUTNCVX(uchar, uint)
PUTNCVX(uchar, ulonglong)
PUTNCVX(ushort, schar)
PUTNCVX(ushort, uchar)
PUTNCVX(ushort, short)
PUTNCVX(ushort, int)
PUTNCVX(ushort, float)
PUTNCVX(ushort, double)
PUTNCVX(ushort, longlong)
PUTNCVX(ushort, ushort)
PUTNCVX(ushort, uint)
PUTNCVX(ushort, ulonglong)
PUTNCVX(uint, schar)
PUTNCVX(uint, uchar)
PUTNCVX(uint, short)
PUTNCVX(uint, int)
PUTNCVX(uint, float)
PUTNCVX(uint, double)
PUTNCVX(uint, longlong)
PUTNCVX(uint, ushort)
PUTNCVX(uint, uint)
PUTNCVX(uint, ulonglong)
PUTNCVX(longlong, schar)
PUTNCVX(longlong, uchar)
PUTNCVX(longlong, short)
PUTNCVX(longlong, int)
PUTNCVX(longlong, float)
PUTNCVX(longlong, double)
PUTNCVX(longlong, longlong)
PUTNCVX(longlong, ushort)
PUTNCVX(longlong, uint)
PUTNCVX(longlong, ulonglong)
PUTNCVX(ulonglong, schar)
PUTNCVX(ulonglong, uchar)
PUTNCVX(ulonglong, short)
PUTNCVX(ulonglong, int)
PUTNCVX(ulonglong, float)
PUTNCVX(ulonglong, double)
PUTNCVX(ulonglong, longlong)
PUTNCVX(ulonglong, ushort)
PUTNCVX(ulonglong, uint)
PUTNCVX(ulonglong, ulonglong)
dnl
dnl GETNCVX(XType, Type)
dnl
define(`GETNCVX',dnl
`dnl
static int
getNCvx_$1_$2(const NC3_INFO* ncp, const NC_var *varp,
const size_t *start, size_t nelems, $2 *value)
{
off_t offset = NC_varoffset(ncp, varp, start);
size_t remaining = varp->xsz * nelems;
int status = NC_NOERR;
const void *xp;
if(nelems == 0)
return NC_NOERR;
assert(value != NULL);
for(;;)
{
size_t extent = MIN(remaining, ncp->chunk);
size_t nget = ncx_howmany(varp->type, extent);
int lstatus = ncio_get(ncp->nciop, offset, extent,
0, (void **)&xp); /* cast away const */
if(lstatus != NC_NOERR)
return lstatus;
lstatus = ncx_getn_$1_$2(&xp, nget, value);
if(lstatus != NC_NOERR && status == NC_NOERR)
status = lstatus;
(void) ncio_rel(ncp->nciop, offset, 0);
remaining -= extent;
if(remaining == 0)
break; /* normal loop exit */
offset += (off_t)extent;
value += nget;
}
return status;
}
')dnl
GETNCVX(char, char)
GETNCVX(schar, schar)
GETNCVX(schar, short)
GETNCVX(schar, int)
GETNCVX(schar, float)
GETNCVX(schar, double)
GETNCVX(schar, longlong)
GETNCVX(schar, uint)
GETNCVX(schar, ulonglong)
GETNCVX(schar, uchar)
GETNCVX(schar, ushort)
GETNCVX(short, schar)
GETNCVX(short, uchar)
GETNCVX(short, short)
GETNCVX(short, int)
GETNCVX(short, float)
GETNCVX(short, double)
GETNCVX(short, longlong)
GETNCVX(short, uint)
GETNCVX(short, ulonglong)
GETNCVX(short, ushort)
GETNCVX(int, schar)
GETNCVX(int, uchar)
GETNCVX(int, short)
GETNCVX(int, int)
GETNCVX(int, float)
GETNCVX(int, double)
GETNCVX(int, longlong)
GETNCVX(int, uint)
GETNCVX(int, ulonglong)
GETNCVX(int, ushort)
GETNCVX(float, schar)
GETNCVX(float, uchar)
GETNCVX(float, short)
GETNCVX(float, int)
GETNCVX(float, float)
GETNCVX(float, double)
GETNCVX(float, longlong)
GETNCVX(float, uint)
GETNCVX(float, ulonglong)
GETNCVX(float, ushort)
GETNCVX(double, schar)
GETNCVX(double, uchar)
GETNCVX(double, short)
GETNCVX(double, int)
GETNCVX(double, float)
GETNCVX(double, double)
GETNCVX(double, longlong)
GETNCVX(double, uint)
GETNCVX(double, ulonglong)
GETNCVX(double, ushort)
GETNCVX(uchar, schar)
GETNCVX(uchar, uchar)
GETNCVX(uchar, short)
GETNCVX(uchar, int)
GETNCVX(uchar, float)
GETNCVX(uchar, double)
GETNCVX(uchar, longlong)
GETNCVX(uchar, uint)
GETNCVX(uchar, ulonglong)
GETNCVX(uchar, ushort)
GETNCVX(ushort, schar)
GETNCVX(ushort, uchar)
GETNCVX(ushort, short)
GETNCVX(ushort, int)
GETNCVX(ushort, float)
GETNCVX(ushort, double)
GETNCVX(ushort, longlong)
GETNCVX(ushort, uint)
GETNCVX(ushort, ulonglong)
GETNCVX(ushort, ushort)
GETNCVX(uint, schar)
GETNCVX(uint, uchar)
GETNCVX(uint, short)
GETNCVX(uint, int)
GETNCVX(uint, float)
GETNCVX(uint, double)
GETNCVX(uint, longlong)
GETNCVX(uint, uint)
GETNCVX(uint, ulonglong)
GETNCVX(uint, ushort)