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|
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *
* Copyright by The HDF Group. *
* Copyright by the Board of Trustees of the University of Illinois. *
* All rights reserved. *
* *
* This file is part of HDF5. The full HDF5 copyright notice, including *
* terms governing use, modification, and redistribution, is contained in *
* the files COPYING and Copyright.html. COPYING can be found at the root *
* of the source code distribution tree; Copyright.html can be found at the *
* root level of an installed copy of the electronic HDF5 document set and *
* is linked from the top-level documents page. It can also be found at *
* http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have *
* access to either file, you may request a copy from help@hdfgroup.org. *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/*keep this declaration near the top of this file -RPM*/
static const char *FileHeader = "\n\
/* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *\n\
* Copyright by The HDF Group. *\n\
* Copyright by the Board of Trustees of the University of Illinois. *\n\
* All rights reserved. *\n\
* *\n\
* This file is part of HDF5. The full HDF5 copyright notice, including *\n\
* terms governing use, modification, and redistribution, is contained in *\n\
* the files COPYING and Copyright.html. COPYING can be found at the root *\n\
* of the source code distribution tree; Copyright.html can be found at the *\n\
* root level of an installed copy of the electronic HDF5 document set and *\n\
* is linked from the top-level documents page. It can also be found at *\n\
* http://hdfgroup.org/HDF5/doc/Copyright.html. If you do not have *\n\
* access to either file, you may request a copy from help@hdfgroup.org. *\n\
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *";
/*
*
* Created: H5detect.c
* 10 Aug 1997
* Robb Matzke
*
* Purpose: This code was borrowed heavily from the `detect.c'
* program in the AIO distribution from Lawrence
* Livermore National Laboratory.
*
* Detects machine byte order and floating point
* format and generates a C source file (native.c)
* to describe those paramters.
*
* Assumptions: We have an ANSI compiler. We're on a Unix like
* system or configure has detected those Unix
* features which aren't available. We're not
* running on a Vax or other machine with mixed
* endianess.
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
#undef NDEBUG
#include "H5private.h"
#include "H5Tpublic.h"
#include "H5Rpublic.h"
#define MAXDETECT 64
/* The ALIGNMENT test code may generate the SIGBUS or SIGSEGV signals. We use
* setjmp/longjmp in the signal handlers for recovery. But setjmp/longjmp do
* not necessary restore the signal blocking status while sigsetjmp/siglongjmp
* do. If sigsetjmp/siglongjmp are not supported, need to use sigprocmask to
* unblock the signal before doing longjmp.
*/
/* Define H5SETJMP/H5LONGJMP depending on if sigsetjmp/siglongjmp are */
/* supported. */
#if defined(H5_HAVE_SIGSETJMP) && defined(H5_HAVE_SIGLONGJMP)
/* Always save blocked signals to be restore by siglongjmp. */
#define H5JMP_BUF sigjmp_buf
#define H5SETJMP(buf) HDsigsetjmp(buf, 1)
#define H5LONGJMP(buf, val) HDsiglongjmp(buf, val)
#define H5HAVE_SIGJMP # sigsetjmp/siglongjmp are supported.
#elif defined(H5_HAVE_LONGJMP)
#define H5JMP_BUF jmp_buf
#define H5SETJMP(buf) HDsetjmp(buf)
#define H5LONGJMP(buf, val) HDlongjmp(buf, val)
#endif
/* ALIGNMENT and signal-handling status codes */
#define STA_NoALIGNMENT 0x0001 /* No ALIGNMENT Test */
#define STA_NoHandlerVerify 0x0002 /* No signal handler Tests */
/*
* This structure holds information about a type that
* was detected.
*/
typedef struct detected_t {
const char *varname;
int size; /*total byte size */
int precision; /*meaningful bits */
int offset; /*bit offset to meaningful bits */
int perm[32]; /*for detection of byte order */
int is_vax; /*for vax (float & double) only */
int sign; /*location of sign bit */
int mpos, msize, imp;/*information about mantissa */
int epos, esize; /*information about exponent */
unsigned long bias; /*exponent bias for floating pt.*/
size_t align; /*required byte alignment */
size_t comp_align; /*alignment for structure */
} detected_t;
/* This structure holds structure alignment for pointers, hvl_t, hobj_ref_t,
* hdset_reg_ref_t */
typedef struct malign_t {
const char *name;
size_t comp_align; /*alignment for structure */
} malign_t;
/* global variables types detection code */
static detected_t d_g[MAXDETECT];
static malign_t m_g[MAXDETECT];
static volatile int nd_g = 0, na_g = 0;
static void print_results(int nd, detected_t *d, int na, malign_t *m);
static void iprint(detected_t *);
static int byte_cmp(int, const void *, const void *);
static int bit_cmp(int, int *, volatile void *, volatile void *);
static void fix_order(int, int, int, int *, const char **);
static int imp_bit(int, int *, volatile void *, volatile void *);
static unsigned long find_bias(int, int, int *, void *);
static void precision (detected_t*);
static void print_header(void);
static void detect_C89_integers(void);
static void detect_C89_floats(void);
static void detect_C99_integers(void);
static void detect_C99_floats(void);
static void detect_C99_integers8(void);
static void detect_C99_integers16(void);
static void detect_C99_integers32(void);
static void detect_C99_integers64(void);
static void detect_alignments(void);
static size_t align_g[] = {1, 2, 4, 8, 16};
static int align_status_g = 0; /* ALIGNMENT Signal Status */
static int sigbus_handler_called_g = 0; /* how many times called */
static int sigsegv_handler_called_g = 0; /* how many times called */
static int signal_handler_tested_g = 0; /* how many times tested */
#if defined(H5SETJMP) && defined(H5_HAVE_SIGNAL)
static int verify_signal_handlers(int signum, void (*handler)(int));
#endif
#ifdef H5JMP_BUF
static H5JMP_BUF jbuf_g;
#endif
/*-------------------------------------------------------------------------
* Function: precision
*
* Purpose: Determine the precision and offset.
*
* Return: void
*
* Programmer: Robb Matzke
* Thursday, June 18, 1998
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
precision (detected_t *d)
{
int n;
if (0==d->msize) {
/*
* An integer. The permutation can have negative values at the
* beginning or end which represent padding of bytes. We must adjust
* the precision and offset accordingly.
*/
if (d->perm[0] < 0) {
/*
* Lower addresses are padded.
*/
for (n=0; n<d->size && d->perm[n]<0; n++) /*void*/;
d->precision = 8*(d->size-n);
d->offset = 0;
} else if (d->perm[d->size - 1] < 0) {
/*
* Higher addresses are padded.
*/
for (n=0; n<d->size && d->perm[d->size-(n+1)]; n++) /*void*/;
d->precision = 8*(d->size-n);
d->offset = 8*n;
} else {
/*
* No padding.
*/
d->precision = 8*d->size;
d->offset = 0;
}
} else {
/* A floating point */
d->offset = MIN3 (d->mpos, d->epos, d->sign);
d->precision = d->msize + d->esize + 1;
}
}
/*-------------------------------------------------------------------------
* Function: DETECT_I
*
* Purpose: This macro takes a type like `int' and a base name like
* `nati' and detects the byte order. The VAR is used to
* construct the names of the C variables defined.
*
* Return: void
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 12 1996
*
* Modifications:
*
* Robb Matzke, 4 Nov 1996
* The INFO.perm now contains `-1' for bytes that aren't used and
* are always zero. This happens on the Cray for `short' where
* sizeof(short) is 8, but only the low-order 4 bytes are ever used.
*
* Robb Matzke, 4 Nov 1996
* Added a `padding' field to indicate how many zero bytes appear to
* the left (N) or right (-N) of the value.
*
* Robb Matzke, 5 Nov 1996
* Removed HFILE and CFILE arguments.
*
*-------------------------------------------------------------------------
*/
#define DETECT_I(TYPE,VAR,INFO) { \
TYPE _v; \
int _int_v; \
int _i, _j; \
unsigned char *_x; \
\
HDmemset(&INFO, 0, sizeof(INFO)); \
INFO.varname = #VAR; \
INFO.size = sizeof(TYPE); \
\
if(sizeof(TYPE) != 1) { \
for(_i = sizeof(TYPE), _v = 0; _i > 0; --_i) \
_v = (_v << 8) + _i; \
for(_i = 0, _x = (unsigned char *)&_v; _i < (signed)sizeof(TYPE); _i++) { \
_j = (*_x++) - 1; \
assert(_j < (signed)sizeof(TYPE)); \
INFO.perm[_i] = _j; \
} /* end for */ \
} else { /*Not able to detect order if type size is 1 byte. Use native int \
*instead. No effect on data, just make it look correct. */ \
for(_i = sizeof(int), _int_v = 0; _i > 0; --_i) \
_int_v = (_int_v << 8) + _i; \
for(_i = 0, _x = (unsigned char *)&_int_v; _i < (signed)sizeof(int); _i++) { \
_j = (*_x++)-1; \
assert(_j < (signed)sizeof(int)); \
INFO.perm[_i] = _j; \
} /* end for */ \
} /* end else */ \
\
INFO.sign = ('U' != *(#VAR)); \
precision (&(INFO)); \
ALIGNMENT(TYPE, INFO); \
if(!HDstrcmp(INFO.varname, "SCHAR") || !HDstrcmp(INFO.varname, "SHORT") || \
!HDstrcmp(INFO.varname, "INT") || !HDstrcmp(INFO.varname, "LONG") || \
!HDstrcmp(INFO.varname, "LLONG")) { \
COMP_ALIGNMENT(TYPE, INFO.comp_align); \
} \
}
/*-------------------------------------------------------------------------
* Function: DETECT_F
*
* Purpose: This macro takes a floating point type like `double' and
* a base name like `natd' and detects byte order, mantissa
* location, exponent location, sign bit location, presence or
* absence of implicit mantissa bit, and exponent bias and
* initializes a detected_t structure with those properties.
*
* Note: 'volatile' is used for the variables below to prevent the
* compiler from optimizing them away.
*
* Return: void
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 12 1996
*
*-------------------------------------------------------------------------
*/
#define DETECT_F(TYPE,VAR,INFO) { \
volatile TYPE _v1, _v2, _v3; \
unsigned char _buf1[sizeof(TYPE)], _buf3[sizeof(TYPE)]; \
int _i, _j, _first = (-1), _last = (-1); \
char *_mesg; \
\
memset(&INFO, 0, sizeof(INFO)); \
INFO.varname = #VAR; \
INFO.size = sizeof(TYPE); \
\
/* Completely initialize temporary variables, in case the bits used in */ \
/* the type take less space than the number of bits used to store the type */ \
memset(&_v3, 0, sizeof(TYPE)); \
memset(&_v2, 0, sizeof(TYPE)); \
memset(&_v1, 0, sizeof(TYPE)); \
\
/* Byte Order */ \
for(_i = 0, _v1 = 0.0, _v2 = 1.0; _i < (int)sizeof(TYPE); _i++) { \
_v3 = _v1; \
_v1 += _v2; \
_v2 /= 256.0; \
memcpy(_buf1, (const void *)&_v1, sizeof(TYPE)); \
memcpy(_buf3, (const void *)&_v3, sizeof(TYPE)); \
_j = byte_cmp(sizeof(TYPE), &_buf3, &_buf1); \
if(_j >= 0) { \
if(0 == _i || INFO.perm[_i - 1] != _j) { \
INFO.perm[_i] = _j; \
_last = _i; \
if(_first < 0) \
_first = _i; \
} \
} \
} \
fix_order(sizeof(TYPE), _first, _last, INFO.perm, (const char**)&_mesg); \
\
if(!strcmp(_mesg, "VAX")) \
INFO.is_vax = TRUE; \
\
/* Implicit mantissa bit */ \
_v1 = 0.5; \
_v2 = 1.0; \
INFO.imp = imp_bit (sizeof(TYPE), INFO.perm, &_v1, &_v2); \
\
/* Sign bit */ \
_v1 = 1.0; \
_v2 = -1.0; \
INFO.sign = bit_cmp (sizeof(TYPE), INFO.perm, &_v1, &_v2); \
\
/* Mantissa */ \
INFO.mpos = 0; \
\
_v1 = 1.0; \
_v2 = 1.5; \
INFO.msize = bit_cmp (sizeof(TYPE), INFO.perm, &_v1, &_v2); \
INFO.msize += 1 + (INFO.imp?0:1) - INFO.mpos; \
\
/* Exponent */ \
INFO.epos = INFO.mpos + INFO.msize; \
\
INFO.esize = INFO.sign - INFO.epos; \
\
_v1 = 1.0; \
INFO.bias = find_bias (INFO.epos, INFO.esize, INFO.perm, &_v1); \
precision (&(INFO)); \
ALIGNMENT(TYPE, INFO); \
if(!strcmp(INFO.varname, "FLOAT") || !strcmp(INFO.varname, "DOUBLE") || \
!strcmp(INFO.varname, "LDOUBLE")) { \
COMP_ALIGNMENT(TYPE,INFO.comp_align); \
} \
}
/*-------------------------------------------------------------------------
* Function: DETECT_M
*
* Purpose: This macro takes only miscellaneous structures or pointer
* (pointer, hvl_t, hobj_ref_t, hdset_reg_ref_t). It
* constructs the names and decides the alignment in structure.
*
* Return: void
*
* Programmer: Raymond Lu
* slu@ncsa.uiuc.edu
* Dec 9, 2002
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
#define DETECT_M(TYPE,VAR,INFO) { \
INFO.name = #VAR; \
COMP_ALIGNMENT(TYPE, INFO.comp_align); \
}
/* Detect alignment for C structure */
#define COMP_ALIGNMENT(TYPE,COMP_ALIGN) { \
struct { \
char c; \
TYPE x; \
} s; \
\
COMP_ALIGN = (size_t)((char*)(&(s.x)) - (char*)(&s)); \
}
#if defined(H5SETJMP) && defined(H5_HAVE_SIGNAL)
#define ALIGNMENT(TYPE,INFO) { \
char *volatile _buf = NULL; \
volatile TYPE _val = 1; \
volatile TYPE _val2; \
volatile size_t _ano = 0; \
void (*_handler)(int) = HDsignal(SIGBUS, sigbus_handler); \
void (*_handler2)(int) = HDsignal(SIGSEGV, sigsegv_handler);\
\
_buf = (char*)malloc(sizeof(TYPE) + align_g[NELMTS(align_g) - 1]); \
if(H5SETJMP(jbuf_g)) _ano++; \
if(_ano < NELMTS(align_g)) { \
*((TYPE*)(_buf+align_g[_ano])) = _val; /*possible SIGBUS or SEGSEGV*/ \
_val2 = *((TYPE*)(_buf+align_g[_ano])); /*possible SIGBUS or SEGSEGV*/\
/* Cray Check: This section helps detect alignment on Cray's */ \
/* vector machines (like the SV1) which mask off */ \
/* pointer values when pointing to non-word aligned */ \
/* locations with pointers that are supposed to be */ \
/* word aligned. -QAK */ \
memset(_buf, 0xff, sizeof(TYPE)+align_g[NELMTS(align_g)-1]); \
/*How to handle VAX types?*/ \
if(INFO.perm[0]) /* Big-Endian */ \
memcpy(_buf+align_g[_ano]+(INFO.size-((INFO.offset+INFO.precision)/8)),((char *)&_val)+(INFO.size-((INFO.offset+INFO.precision)/8)),(size_t)(INFO.precision/8)); \
else /* Little-Endian */ \
memcpy(_buf+align_g[_ano]+(INFO.offset/8),((char *)&_val)+(INFO.offset/8),(size_t)(INFO.precision/8)); \
_val2 = *((TYPE*)(_buf+align_g[_ano])); \
if(_val!=_val2) \
H5LONGJMP(jbuf_g, 1); \
/* End Cray Check */ \
(INFO.align)=align_g[_ano]; \
} else { \
(INFO.align)=0; \
fprintf(stderr, "unable to calculate alignment for %s\n", #TYPE); \
} \
free(_buf); \
HDsignal(SIGBUS, _handler); /*restore original handler*/ \
HDsignal(SIGSEGV, _handler2); /*restore original handler*/ \
}
#else
#define ALIGNMENT(TYPE,INFO) { \
align_status_g |= STA_NoALIGNMENT; \
(INFO.align)=0; \
}
#endif
#if defined(H5LONGJMP) && defined(H5_HAVE_SIGNAL)
/*-------------------------------------------------------------------------
* Function: sigsegv_handler
*
* Purpose: Handler for SIGSEGV. We use signal() instead of sigaction()
* because it's more portable to non-Posix systems. Although
* it's not nearly as nice to work with, it does the job for
* this simple stuff.
*
* Return: Returns via H5LONGJMP to jbuf_g.
*
* Programmer: Robb Matzke
* Thursday, March 18, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
sigsegv_handler(int UNUSED signo)
{
#if !defined(H5HAVE_SIGJMP) && defined(H5_HAVE_SIGPROCMASK)
/* Use sigprocmask to unblock the signal if sigsetjmp/siglongjmp are not */
/* supported. */
sigset_t set;
HDsigemptyset(&set);
HDsigaddset(&set, SIGSEGV);
HDsigprocmask(SIG_UNBLOCK, &set, NULL);
#endif
sigsegv_handler_called_g++;
HDsignal(SIGSEGV, sigsegv_handler);
H5LONGJMP(jbuf_g, SIGSEGV);
}
#endif
#if defined(H5LONGJMP) && defined(H5_HAVE_SIGNAL)
/*-------------------------------------------------------------------------
* Function: sigbus_handler
*
* Purpose: Handler for SIGBUS. We use signal() instead of sigaction()
* because it's more portable to non-Posix systems. Although
* it's not nearly as nice to work with, it does the job for
* this simple stuff.
*
* Return: Returns via H5LONGJMP to jbuf_g.
*
* Programmer: Robb Matzke
* Thursday, March 18, 1999
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
sigbus_handler(int UNUSED signo)
{
#if !defined(H5HAVE_SIGJMP) && defined(H5_HAVE_SIGPROCMASK)
/* Use sigprocmask to unblock the signal if sigsetjmp/siglongjmp are not */
/* supported. */
sigset_t set;
HDsigemptyset(&set);
HDsigaddset(&set, SIGBUS);
HDsigprocmask(SIG_UNBLOCK, &set, NULL);
#endif
sigbus_handler_called_g++;
HDsignal(SIGBUS, sigbus_handler);
H5LONGJMP(jbuf_g, SIGBUS);
}
#endif
/*-------------------------------------------------------------------------
* Function: print_results
*
* Purpose: Prints information about the detected data types.
*
* Return: void
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 14, 1996
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
print_results(int nd, detected_t *d, int na, malign_t *misc_align)
{
int byte_order=0; /*byte order of data types*/
int i, j;
/* Include files */
printf("\
/****************/\n\
/* Module Setup */\n\
/****************/\n\
\n\
#define H5T_PACKAGE /*suppress error about including H5Tpkg.h*/\n\
\n\
\n\
/***********/\n\
/* Headers */\n\
/***********/\n\
#include \"H5private.h\" /* Generic Functions */\n\
#include \"H5Eprivate.h\" /* Error handling */\n\
#include \"H5FLprivate.h\" /* Free Lists */\n\
#include \"H5Iprivate.h\" /* IDs */\n\
#include \"H5Tpkg.h\" /* Datatypes */\n\
\n\
\n\
/****************/\n\
/* Local Macros */\n\
/****************/\n\
\n\
\n\
/******************/\n\
/* Local Typedefs */\n\
/******************/\n\
\n\
\n\
/********************/\n\
/* Package Typedefs */\n\
/********************/\n\
\n\
\n\
/********************/\n\
/* Local Prototypes */\n\
/********************/\n\
\n\
\n\
/********************/\n\
/* Public Variables */\n\
/********************/\n\
\n\
\n\
/*****************************/\n\
/* Library Private Variables */\n\
/*****************************/\n\
\n\
\n\
/*********************/\n\
/* Package Variables */\n\
/*********************/\n\
\n\
\n");
printf("\n\
/*******************/\n\
/* Local Variables */\n\
/*******************/\n\
\n");
/* The interface initialization function */
printf("\n\
\n\
/*-------------------------------------------------------------------------\n\
* Function: H5TN_init_interface\n\
*\n\
* Purpose: Initialize pre-defined native datatypes from code generated\n\
* during the library configuration by H5detect.\n\
*\n\
* Return: Success: non-negative\n\
* Failure: negative\n\
*\n\
* Programmer: Robb Matzke\n\
* Wednesday, December 16, 1998\n\
*\n\
*-------------------------------------------------------------------------\n\
*/\n\
herr_t\n\
H5TN_init_interface(void)\n\
{\n\
H5T_t *dt = NULL;\n\
herr_t ret_value = SUCCEED;\n\
\n\
FUNC_ENTER_NOAPI(FAIL)\n");
for(i = 0; i < nd; i++) {
/* The native endianess of this machine */
/* The INFO.perm now contains `-1' for bytes that aren't used and
* are always zero. This happens on the Cray for `short' where
* sizeof(short) is 8, but only the low-order 4 bytes are ever used.
*/
if(d[i].is_vax) /* the type is a VAX floating number */
byte_order=-1;
else {
for(j=0; j<32; j++) {
/*Find the 1st containing valid data*/
if(d[i].perm[j]>-1) {
byte_order=d[i].perm[j];
break;
}
}
}
/* Print a comment to describe this section of definitions. */
printf("\n /*\n");
iprint(d+i);
printf(" */\n");
/* The part common to fixed and floating types */
printf("\
if(NULL == (dt = H5T__alloc()))\n\
HGOTO_ERROR(H5E_DATATYPE, H5E_NOSPACE, FAIL, \"datatype allocation failed\")\n\
dt->shared->state = H5T_STATE_IMMUTABLE;\n\
dt->shared->type = H5T_%s;\n\
dt->shared->size = %d;\n",
d[i].msize ? "FLOAT" : "INTEGER",/*class */
d[i].size); /*size */
if(byte_order==-1)
printf("\
dt->shared->u.atomic.order = H5T_ORDER_VAX;\n");
else if(byte_order==0)
printf("\
dt->shared->u.atomic.order = H5T_ORDER_LE;\n");
else
printf("\
dt->shared->u.atomic.order = H5T_ORDER_BE;\n");
printf("\
dt->shared->u.atomic.offset = %d;\n\
dt->shared->u.atomic.prec = %d;\n\
dt->shared->u.atomic.lsb_pad = H5T_PAD_ZERO;\n\
dt->shared->u.atomic.msb_pad = H5T_PAD_ZERO;\n",
d[i].offset, /*offset */
d[i].precision); /*precision */
/*assert((d[i].perm[0]>0)==(byte_order>0));*/ /* Double-check that byte-order doesn't change */
if (0 == d[i].msize) {
/* The part unique to fixed point types */
printf("\
dt->shared->u.atomic.u.i.sign = H5T_SGN_%s;\n",
d[i].sign ? "2" : "NONE");
} else {
/* The part unique to floating point types */
printf("\
dt->shared->u.atomic.u.f.sign = %d;\n\
dt->shared->u.atomic.u.f.epos = %d;\n\
dt->shared->u.atomic.u.f.esize = %d;\n\
dt->shared->u.atomic.u.f.ebias = 0x%08lx;\n\
dt->shared->u.atomic.u.f.mpos = %d;\n\
dt->shared->u.atomic.u.f.msize = %d;\n\
dt->shared->u.atomic.u.f.norm = H5T_NORM_%s;\n\
dt->shared->u.atomic.u.f.pad = H5T_PAD_ZERO;\n",
d[i].sign, /*sign location */
d[i].epos, /*exponent loc */
d[i].esize, /*exponent size */
(unsigned long)(d[i].bias), /*exponent bias */
d[i].mpos, /*mantissa loc */
d[i].msize, /*mantissa size */
d[i].imp ? "IMPLIED" : "NONE"); /*normalization */
}
/* Atomize the type */
printf("\
if((H5T_NATIVE_%s_g = H5I_register(H5I_DATATYPE, dt, FALSE)) < 0)\n\
HGOTO_ERROR(H5E_DATATYPE, H5E_CANTINIT, FAIL, \"can't register ID for built-in datatype\")\n",
d[i].varname);
printf(" H5T_NATIVE_%s_ALIGN_g = %lu;\n",
d[i].varname, (unsigned long)(d[i].align));
/* Variables for alignment of compound datatype */
if(!strcmp(d[i].varname, "SCHAR") || !strcmp(d[i].varname, "SHORT") ||
!strcmp(d[i].varname, "INT") || !strcmp(d[i].varname, "LONG") ||
!strcmp(d[i].varname, "LLONG") || !strcmp(d[i].varname, "FLOAT") ||
!strcmp(d[i].varname, "DOUBLE") || !strcmp(d[i].varname, "LDOUBLE")) {
printf(" H5T_NATIVE_%s_COMP_ALIGN_g = %lu;\n",
d[i].varname, (unsigned long)(d[i].comp_align));
}
}
/* Consider VAX a little-endian machine */
if(byte_order==0 || byte_order==-1) {
printf("\n\
/* Set the native order for this machine */\n\
H5T_native_order_g = H5T_ORDER_%s;\n", "LE");
} else {
printf("\n\
/* Set the native order for this machine */\n\
H5T_native_order_g = H5T_ORDER_%s;\n", "BE");
}
/* Structure alignment for pointers, hvl_t, hobj_ref_t, hdset_reg_ref_t */
printf("\n /* Structure alignment for pointers, hvl_t, hobj_ref_t, hdset_reg_ref_t */\n");
for(j=0; j<na; j++)
printf(" H5T_%s_COMP_ALIGN_g = %lu;\n", misc_align[j].name, (unsigned long)(misc_align[j].comp_align));
printf("\
\n\
done:\n\
if(ret_value < 0) {\n\
if(dt != NULL) {\n\
dt->shared = H5FL_FREE(H5T_shared_t, dt->shared);\n\
dt = H5FL_FREE(H5T_t, dt);\n\
} /* end if */\n\
} /* end if */\n\
\n\
FUNC_LEAVE_NOAPI(ret_value);\n} /* end H5TN_init_interface() */\n");
/* Print the ALIGNMENT and signal-handling status as comments */
printf("\n"
"/****************************************/\n"
"/* ALIGNMENT and signal-handling status */\n"
"/****************************************/\n");
if (align_status_g & STA_NoALIGNMENT)
printf("/* ALIGNAMENT test is not available */\n");
if (align_status_g & STA_NoHandlerVerify)
printf("/* Signal handlers verify test is not available */\n");
/* The following is available in H5pubconf.h. Printing them here for */
/* convenience. */
#ifdef H5_HAVE_SIGNAL
printf("/* Signal() support: yes */\n");
#else
printf("/* Signal() support: no */\n");
#endif
#ifdef H5_HAVE_SETJMP
printf("/* setjmp() support: yes */\n");
#else
printf("/* setjmp() support: no */\n");
#endif
#ifdef H5_HAVE_LONGJMP
printf("/* longjmp() support: yes */\n");
#else
printf("/* longjmp() support: no */\n");
#endif
#ifdef H5_HAVE_SIGSETJMP
printf("/* sigsetjmp() support: yes */\n");
#else
printf("/* sigsetjmp() support: no */\n");
#endif
#ifdef H5_HAVE_SIGLONGJMP
printf("/* siglongjmp() support: yes */\n");
#else
printf("/* siglongjmp() support: no */\n");
#endif
#ifdef H5_HAVE_SIGPROCMASK
printf("/* sigprocmask() support: yes */\n");
#else
printf("/* sigprocmask() support: no */\n");
#endif
/* Print the statics of signal handlers called for debugging */
printf("\n"
"/******************************/\n"
"/* signal handlers statistics */\n"
"/******************************/\n");
printf("/* signal_handlers tested: %d times */\n", signal_handler_tested_g);
printf("/* sigbus_handler called: %d times */\n", sigbus_handler_called_g);
printf("/* sigsegv_handler called: %d times */\n", sigsegv_handler_called_g);
} /* end print_results() */
/*-------------------------------------------------------------------------
* Function: iprint
*
* Purpose: Prints information about the fields of a floating point
* format.
*
* Return: void
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 13, 1996
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
iprint(detected_t *d)
{
int i, j, k, pass;
for (pass=(d->size-1)/4; pass>=0; --pass) {
/*
* Print the byte ordering above the bit fields.
*/
printf(" * ");
for (i=MIN(pass*4+3,d->size-1); i>=pass*4; --i) {
printf ("%4d", d->perm[i]);
if (i>pass*4) fputs (" ", stdout);
}
/*
* Print the bit fields
*/
printf("\n * ");
for (i=MIN(pass*4+3,d->size-1),
k=MIN(pass*32+31,8*d->size-1);
i>=pass*4; --i) {
for (j=7; j>=0; --j) {
if (k==d->sign && d->msize) {
putchar('S');
} else if (k>=d->epos && k<d->epos+d->esize) {
putchar('E');
} else if (k>=d->mpos && k<d->mpos+d->msize) {
putchar('M');
} else if (d->msize) {
putchar('?'); /*unknown floating point bit */
} else if (d->sign) {
putchar('I');
} else {
putchar('U');
}
--k;
}
if (i>pass*4) putchar(' ');
}
putchar('\n');
}
/*
* Is there an implicit bit in the mantissa.
*/
if (d->msize) {
printf(" * Implicit bit? %s\n", d->imp ? "yes" : "no");
}
/*
* Alignment
*/
if (0==d->align) {
printf(" * Alignment: NOT CALCULATED\n");
} else if (1==d->align) {
printf(" * Alignment: none\n");
} else {
printf(" * Alignment: %lu\n", (unsigned long)(d->align));
}
}
/*-------------------------------------------------------------------------
* Function: byte_cmp
*
* Purpose: Compares two chunks of memory A and B and returns the
* byte index into those arrays of the first byte that
* differs between A and B.
*
* Return: Success: Index of differing byte.
*
* Failure: -1 if all bytes are the same.
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 12, 1996
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static int
byte_cmp(int n, const void *_a, const void *_b)
{
int i;
const unsigned char *a = (const unsigned char *) _a;
const unsigned char *b = (const unsigned char *) _b;
for (i = 0; i < n; i++) if (a[i] != b[i]) return i;
return -1;
}
/*-------------------------------------------------------------------------
* Function: bit_cmp
*
* Purpose: Compares two bit vectors and returns the index for the
* first bit that differs between the two vectors. The
* size of the vector is NBYTES. PERM is a mapping from
* actual order to little endian.
*
* Return: Success: Index of first differing bit.
*
* Failure: -1
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 13, 1996
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static int
bit_cmp(int nbytes, int *perm, volatile void *_a, volatile void *_b)
{
int i, j;
volatile unsigned char *a = (volatile unsigned char *) _a;
volatile unsigned char *b = (volatile unsigned char *) _b;
unsigned char aa, bb;
for (i = 0; i < nbytes; i++) {
assert(perm[i] < nbytes);
if ((aa = a[perm[i]]) != (bb = b[perm[i]])) {
for (j = 0; j < 8; j++, aa >>= 1, bb >>= 1) {
if ((aa & 1) != (bb & 1)) return i * 8 + j;
}
assert("INTERNAL ERROR" && 0);
abort();
}
}
return -1;
}
/*-------------------------------------------------------------------------
* Function: fix_order
*
* Purpose: Given an array PERM with elements FIRST through LAST
* initialized with zero origin byte numbers, this function
* creates a permutation vector that maps the actual order
* of a floating point number to little-endian.
*
* This function assumes that the mantissa byte ordering
* implies the total ordering.
*
* Return: void
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 13, 1996
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
fix_order(int n, int first, int last, int *perm, const char **mesg)
{
int i;
if (first + 1 < last) {
/*
* We have at least three points to consider.
*/
if (perm[last] < perm[last - 1] && perm[last - 1] < perm[last - 2]) {
/*
* Little endian.
*/
if (mesg) *mesg = "Little-endian";
for (i = 0; i < n; i++) perm[i] = i;
} else if (perm[last] > perm[last-1] && perm[last-1] > perm[last-2]) {
/*
* Big endian.
*/
if (mesg) *mesg = "Big-endian";
for (i = 0; i < n; i++) perm[i] = (n - 1) - i;
} else {
/*
* Bi-endian machines like VAX.
*/
assert(0 == n % 2);
if (mesg) *mesg = "VAX";
for (i = 0; i < n; i += 2) {
perm[i] = (n - 2) - i;
perm[i + 1] = (n - 1) - i;
}
}
} else {
fprintf(stderr,
"Failed to detect byte order of %d-byte floating point.\n", n);
exit(1);
}
}
/*-------------------------------------------------------------------------
* Function: imp_bit
*
* Purpose: Looks for an implicit bit in the mantissa. The value
* of _A should be 1.0 and the value of _B should be 0.5.
* Some floating-point formats discard the most significant
* bit of the mantissa after normalizing since it will always
* be a one (except for 0.0). If this is true for the native
* floating point values stored in _A and _B then the function
* returns non-zero.
*
* This function assumes that the exponent occupies higher
* order bits than the mantissa and that the most significant
* bit of the mantissa is next to the least signficant bit
* of the exponent.
*
*
* Return: Success: Non-zero if the most significant bit
* of the mantissa is discarded (ie, the
* mantissa has an implicit `one' as the
* most significant bit). Otherwise,
* returns zero.
*
* Failure: exit(1)
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 13, 1996
*
* Modifications:
*
* Robb Matzke, 6 Nov 1996
* Fixed a bug that occurs with non-implicit architectures.
*
*-------------------------------------------------------------------------
*/
static int
imp_bit(int n, int *perm, volatile void *_a, volatile void *_b)
{
volatile unsigned char *a = (volatile unsigned char *) _a;
volatile unsigned char *b = (volatile unsigned char *) _b;
int changed, major, minor;
int msmb; /*most significant mantissa bit */
/*
* Look for the least significant bit that has changed between
* A and B. This is the least significant bit of the exponent.
*/
changed = bit_cmp(n, perm, a, b);
assert(changed >= 0);
/*
* The bit to the right (less significant) of the changed bit should
* be the most significant bit of the mantissa. If it is non-zero
* then the format does not remove the leading `1' of the mantissa.
*/
msmb = changed - 1;
major = msmb / 8;
minor = msmb % 8;
return (a[perm[major]] >> minor) & 0x01 ? 0 : 1;
}
/*-------------------------------------------------------------------------
* Function: find_bias
*
* Purpose: Determines the bias of the exponent. This function should
* be called with _A having a value of `1'.
*
* Return: Success: The exponent bias.
*
* Failure:
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 13, 1996
*
* Modifications:
*
* Robb Matzke, 6 Nov 1996
* Fixed a bug with non-implicit architectures returning the
* wrong exponent bias.
*
*-------------------------------------------------------------------------
*/
static unsigned long
find_bias(int epos, int esize, int *perm, void *_a)
{
unsigned char *a = (unsigned char *) _a;
unsigned char mask;
unsigned long b, shift = 0, nbits, bias = 0;
while (esize > 0) {
nbits = MIN(esize, (8 - epos % 8));
mask = (1 << nbits) - 1;
b = (a[perm[epos / 8]] >> (epos % 8)) & mask;
bias |= b << shift;
shift += nbits;
esize -= nbits;
epos += nbits;
}
return bias;
}
/*-------------------------------------------------------------------------
* Function: print_header
*
* Purpose: Prints the C file header for the generated file.
*
* Return: void
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Mar 12 1997
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
print_header(void)
{
time_t now = time(NULL);
struct tm *tm = localtime(&now);
char real_name[30];
char host_name[256];
int i;
const char *s;
#ifdef H5_HAVE_GETPWUID
struct passwd *pwd = NULL;
#else
int pwd = 1;
#endif
static const char *month_name[] =
{
"Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec"};
static const char *purpose = "\
This machine-generated source code contains\n\
information about the various integer and\n\
floating point numeric formats found on this\n\
architecture. The parameters below should be\n\
checked carefully and errors reported to the\n\
HDF5 maintainer.\n\
\n\
Each of the numeric formats listed below are\n\
printed from most significant bit to least\n\
significant bit even though the actual bytes\n\
might be stored in a different order in\n\
memory. The integers above each binary byte\n\
indicate the relative order of the bytes in\n\
memory; little-endian machines have\n\
decreasing numbers while big-endian machines\n\
have increasing numbers.\n\
\n\
The fields of the numbers are printed as\n\
letters with `S' for the mantissa sign bit,\n\
`M' for the mantissa magnitude, and `E' for\n\
the exponent. The exponent has an associated\n\
bias which can be subtracted to find the\n\
true exponent. The radix point is assumed\n\
to be before the first `M' bit. Any bit\n\
of a floating-point value not falling into one\n\
of these categories is printed as a question\n\
mark. Bits of integer types are printed as\n\
`I' for 2's complement and `U' for magnitude.\n\
\n\
If the most significant bit of the normalized\n\
mantissa (always a `1' except for `0.0') is\n\
not stored then an `implicit=yes' appears\n\
under the field description. In thie case,\n\
the radix point is still assumed to be\n\
before the first `M' but after the implicit\n\
bit.\n";
/*
* The real name is the first item from the passwd gecos field.
*/
#ifdef H5_HAVE_GETPWUID
{
size_t n;
char *comma;
if ((pwd = getpwuid(getuid()))) {
if ((comma = strchr(pwd->pw_gecos, ','))) {
n = MIN(sizeof(real_name)-1, (unsigned)(comma-pwd->pw_gecos));
strncpy(real_name, pwd->pw_gecos, n);
real_name[n] = '\0';
} else {
strncpy(real_name, pwd->pw_gecos, sizeof(real_name));
real_name[sizeof(real_name) - 1] = '\0';
}
} else {
real_name[0] = '\0';
}
}
#else
real_name[0] = '\0';
#endif
/*
* The FQDM of this host or the empty string.
*/
#ifdef H5_HAVE_GETHOSTNAME
if (gethostname(host_name, sizeof(host_name)) < 0) {
host_name[0] = '\0';
}
#else
host_name[0] = '\0';
#endif
/*
* The file header: warning, copyright notice, build information.
*/
printf("/* Generated automatically by H5detect -- do not edit */\n\n\n");
puts(FileHeader); /*the copyright notice--see top of this file */
printf(" *\n * Created:\t\t%s %2d, %4d\n",
month_name[tm->tm_mon], tm->tm_mday, 1900 + tm->tm_year);
if (pwd || real_name[0] || host_name[0]) {
printf(" *\t\t\t");
if (real_name[0]) printf("%s <", real_name);
#ifdef H5_HAVE_GETPWUID
if (pwd) fputs(pwd->pw_name, stdout);
#endif
if (host_name[0]) printf("@%s", host_name);
if (real_name[0]) printf(">");
putchar('\n');
}
printf(" *\n * Purpose:\t\t");
for (s = purpose; *s; s++) {
putchar(*s);
if ('\n' == *s && s[1]) printf(" *\t\t\t");
}
printf(" *\n * Modifications:\n *\n");
printf(" *\tDO NOT MAKE MODIFICATIONS TO THIS FILE!\n");
printf(" *\tIt was generated by code in `H5detect.c'.\n");
printf(" *\n *");
for (i = 0; i < 73; i++) putchar('-');
printf("\n */\n\n");
}
/*-------------------------------------------------------------------------
* Function: detect_C89_integers
*
* Purpose: Detect C89 integer types
*
* Return: void
*
* Programmer: Albert Cheng
* 2004/05/20
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
detect_C89_integers(void)
{
DETECT_I(signed char, SCHAR, d_g[nd_g]); nd_g++;
DETECT_I(unsigned char, UCHAR, d_g[nd_g]); nd_g++;
DETECT_I(short, SHORT, d_g[nd_g]); nd_g++;
DETECT_I(unsigned short, USHORT, d_g[nd_g]); nd_g++;
DETECT_I(int, INT, d_g[nd_g]); nd_g++;
DETECT_I(unsigned int, UINT, d_g[nd_g]); nd_g++;
DETECT_I(long, LONG, d_g[nd_g]); nd_g++;
DETECT_I(unsigned long, ULONG, d_g[nd_g]); nd_g++;
}
/*-------------------------------------------------------------------------
* Function: detect_C89_floats
*
* Purpose: Detect C89 floating point types
*
* Return: void
*
* Programmer: Albert Cheng
* 2004/05/20
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
detect_C89_floats(void)
{
DETECT_F(float, FLOAT, d_g[nd_g]); nd_g++;
DETECT_F(double, DOUBLE, d_g[nd_g]); nd_g++;
}
/*-------------------------------------------------------------------------
* Function: detect_C99_integers8
*
* Purpose: Detect C99 8 bit integer types
*
* Return: void
*
* Programmer: Albert Cheng
* 2004/05/20
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
detect_C99_integers8(void)
{
#if H5_SIZEOF_INT8_T>0
DETECT_I(int8_t, INT8, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT8_T>0
DETECT_I(uint8_t, UINT8, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_INT_LEAST8_T>0
DETECT_I(int_least8_t, INT_LEAST8, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT_LEAST8_T>0
DETECT_I(uint_least8_t, UINT_LEAST8, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_INT_FAST8_T>0
DETECT_I(int_fast8_t, INT_FAST8, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT_FAST8_T>0
DETECT_I(uint_fast8_t, UINT_FAST8, d_g[nd_g]); nd_g++;
#endif
}
/*-------------------------------------------------------------------------
* Function: detect_C99_integers16
*
* Purpose: Detect C99 16 bit integer types
*
* Return: void
*
* Programmer: Albert Cheng
* 2004/05/20
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
detect_C99_integers16(void)
{
#if H5_SIZEOF_INT16_T>0
DETECT_I(int16_t, INT16, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT16_T>0
DETECT_I(uint16_t, UINT16, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_INT_LEAST16_T>0
DETECT_I(int_least16_t, INT_LEAST16, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT_LEAST16_T>0
DETECT_I(uint_least16_t, UINT_LEAST16, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_INT_FAST16_T>0
DETECT_I(int_fast16_t, INT_FAST16, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT_FAST16_T>0
DETECT_I(uint_fast16_t, UINT_FAST16, d_g[nd_g]); nd_g++;
#endif
}
/*-------------------------------------------------------------------------
* Function: detect_C99_integers32
*
* Purpose: Detect C99 32 bit integer types
*
* Return: void
*
* Programmer: Albert Cheng
* 2004/05/20
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
detect_C99_integers32(void)
{
#if H5_SIZEOF_INT32_T>0
DETECT_I(int32_t, INT32, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT32_T>0
DETECT_I(uint32_t, UINT32, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_INT_LEAST32_T>0
DETECT_I(int_least32_t, INT_LEAST32, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT_LEAST32_T>0
DETECT_I(uint_least32_t, UINT_LEAST32, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_INT_FAST32_T>0
DETECT_I(int_fast32_t, INT_FAST32, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT_FAST32_T>0
DETECT_I(uint_fast32_t, UINT_FAST32, d_g[nd_g]); nd_g++;
#endif
}
/*-------------------------------------------------------------------------
* Function: detect_C99_integers64
*
* Purpose: Detect C99 64 bit integer types
*
* Return: void
*
* Programmer: Albert Cheng
* 2004/05/20
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
detect_C99_integers64(void)
{
#if H5_SIZEOF_INT64_T>0
DETECT_I(int64_t, INT64, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT64_T>0
DETECT_I(uint64_t, UINT64, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_INT_LEAST64_T>0
DETECT_I(int_least64_t, INT_LEAST64, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT_LEAST64_T>0
DETECT_I(uint_least64_t, UINT_LEAST64, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_INT_FAST64_T>0
DETECT_I(int_fast64_t, INT_FAST64, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_UINT_FAST64_T>0
DETECT_I(uint_fast64_t, UINT_FAST64, d_g[nd_g]); nd_g++;
#endif
#if H5_SIZEOF_LONG_LONG>0
DETECT_I(long long, LLONG, d_g[nd_g]); nd_g++;
DETECT_I(unsigned long long, ULLONG, d_g[nd_g]); nd_g++;
#else
/*
* This architecture doesn't support an integer type larger than `long'
* so we'll just make H5T_NATIVE_LLONG the same as H5T_NATIVE_LONG since
* `long long' is probably equivalent to `long' here anyway.
*/
DETECT_I(long, LLONG, d_g[nd_g]); nd_g++;
DETECT_I(unsigned long, ULLONG, d_g[nd_g]); nd_g++;
#endif
}
/*-------------------------------------------------------------------------
* Function: detect_C99_integers
*
* Purpose: Detect C99 integer types
*
* Return: void
*
* Programmer: Albert Cheng
* 2004/05/20
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
detect_C99_integers(void)
{
/* break it down to more subroutines so that each module subroutine */
/* is smaller and takes less time to compile with optimization on. */
detect_C99_integers8();
detect_C99_integers16();
detect_C99_integers32();
detect_C99_integers64();
}
/*-------------------------------------------------------------------------
* Function: detect_C99_floats
*
* Purpose: Detect C99 floating point types
*
* Return: void
*
* Programmer: Albert Cheng
* 2004/05/20
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
detect_C99_floats(void)
{
#if H5_SIZEOF_DOUBLE == H5_SIZEOF_LONG_DOUBLE
/*
* If sizeof(double)==sizeof(long double) then assume that `long double'
* isn't supported and use `double' instead. This suppresses warnings on
* some systems and `long double' is probably the same as `double' here
* anyway.
*/
DETECT_F(double, LDOUBLE, d_g[nd_g]); nd_g++;
#elif H5_SIZEOF_LONG_DOUBLE !=0
DETECT_F(long double, LDOUBLE, d_g[nd_g]); nd_g++;
#endif
}
/*-------------------------------------------------------------------------
* Function: detect_alignments
*
* Purpose: Detect structure alignments
*
* Return: void
*
* Programmer: Albert Cheng
* 2004/05/20
*
* Modifications:
*
*-------------------------------------------------------------------------
*/
static void
detect_alignments(void)
{
/* Detect structure alignment for pointers, hvl_t, hobj_ref_t, hdset_reg_ref_t */
DETECT_M(void *, POINTER, m_g[na_g]); na_g++;
DETECT_M(hvl_t, HVL, m_g[na_g]); na_g++;
DETECT_M(hobj_ref_t, HOBJREF, m_g[na_g]); na_g++;
DETECT_M(hdset_reg_ref_t, HDSETREGREF, m_g[na_g]); na_g++;
}
#if defined(H5SETJMP) && defined(H5_HAVE_SIGNAL)
/* Verify the signal handler for signal signum works correctly multiple times.
* One possible cause of failure is that the signal handling is blocked or
* changed to SIG_DFL after H5LONGJMP.
* Return 0 for success, -1 for failure.
*/
static int verify_signal_handlers(int signum, void (*handler)(int))
{
void (*save_handler)(int) = HDsignal(signum, handler);
int i, val;
int ntries=5;
volatile int nfailures=0;
volatile int nsuccesses=0;
for (i=0;i<ntries; i++){
val=H5SETJMP(jbuf_g);
if (val==0)
{
/* send self the signal to trigger the handler */
signal_handler_tested_g++;
HDraise(signum);
/* Should not reach here. Record error. */
nfailures++;
}else{
if (val==signum){
/* return from signum handler. Record a sucess. */
nsuccesses++;
}else{
fprintf(stderr, "Unknown return value (%d) from H5SETJMP",
val);
nfailures++;
}
}
}
/* restore save handler, check results and report failures */
HDsignal(signum, save_handler);
if (nfailures>0 || nsuccesses != ntries){
fprintf(stderr, "verify_signal_handlers for signal %d did %d tries. "
"Found %d failures and %d successes\n",
signum, ntries, nfailures, nsuccesses);
return(-1);
}else{
/* all succeeded */
return(0);
}
}
#endif
/*-------------------------------------------------------------------------
* Function: main
*
* Purpose: Main entry point.
*
* Return: Success: exit(0)
*
* Failure: exit(1)
*
* Programmer: Robb Matzke
* matzke@llnl.gov
* Jun 12, 1996
*
* Modifications:
* Albert Cheng, 2004/05/20
* Some compilers, e.g., Intel C v7.0, took a long time to compile
* with optimization when a module routine contains many code lines.
* Divide up all those types detections macros into subroutines, both
* to avoid the compiler optimization error and cleaner codes.
*
*-------------------------------------------------------------------------
*/
int
main(void)
{
#if defined(H5_HAVE_SETSYSINFO) && defined(SSI_NVPAIRS)
#if defined(UAC_NOPRINT) && defined(UAC_SIGBUS)
/*
* Make sure unaligned access generates SIGBUS and doesn't print warning
* messages so that we can detect alignment constraints on the DEC Alpha.
*/
int nvpairs[2];
nvpairs[0] = SSIN_UACPROC;
nvpairs[1] = UAC_NOPRINT | UAC_SIGBUS;
if (setsysinfo(SSI_NVPAIRS, nvpairs, 1, 0, 0)<0) {
fprintf(stderr, "H5detect: unable to turn off UAC handling: %s\n",
strerror(errno));
}
#endif
#endif
#if defined(H5SETJMP) && defined(H5_HAVE_SIGNAL)
/* verify the SIGBUS and SIGSEGV handlers work properly */
if (verify_signal_handlers (SIGBUS, sigbus_handler) != 0){
fprintf(stderr, "Signal handler %s for signal %d failed\n",
"sigbus_handler", SIGBUS);
}
if (verify_signal_handlers (SIGSEGV, sigsegv_handler) != 0){
fprintf(stderr, "Signal handler %s for signal %d failed\n",
"sigsegv_handler", SIGSEGV);
}
#else
align_status_g |= STA_NoHandlerVerify;
#endif
print_header();
/* C89 integer types */
detect_C89_integers();
/* C99 integer types */
detect_C99_integers();
/* C89 floating point types */
detect_C89_floats();
/* C99 floating point types */
detect_C99_floats();
/* Detect structure alignment */
detect_alignments();
print_results (nd_g, d_g, na_g, m_g);
return 0;
}
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