include/valgrind.h - fp2-dev/platform/external/valgrind - Gitiles


 /*
    ----------------------------------------------------------------

    Notice that the following BSD-style license applies to this one
    file (valgrind.h) only.  The entire rest of Valgrind is licensed
    under the terms of the GNU General Public License, version 2.  See
    the COPYING file in the source distribution for details.

    ----------------------------------------------------------------

    This file is part of Valgrind, an extensible x86 protected-mode
    emulator for monitoring program execution on x86-Unixes.

    Copyright (C) 2000-2004 Julian Seward.  All rights reserved.

    Redistribution and use in source and binary forms, with or without
    modification, are permitted provided that the following conditions
    are met:

    1. Redistributions of source code must retain the above copyright
       notice, this list of conditions and the following disclaimer.

    2. The origin of this software must not be misrepresented; you must
       not claim that you wrote the original software.  If you use this
       software in a product, an acknowledgment in the product
       documentation would be appreciated but is not required.

    3. Altered source versions must be plainly marked as such, and must
       not be misrepresented as being the original software.

    4. The name of the author may not be used to endorse or promote
       products derived from this software without specific prior written
       permission.

    THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
    OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
    WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
    ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
    DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
    DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
    GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
    INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
    WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
    NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
    SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

    ----------------------------------------------------------------

    Notice that the above BSD-style license applies to this one file
    (valgrind.h) only.  The entire rest of Valgrind is licensed under
    the terms of the GNU General Public License, version 2.  See the
    COPYING file in the source distribution for details.

    ----------------------------------------------------------------
 */


 #ifndef __VALGRIND_H
 #define __VALGRIND_H

 #include <stdarg.h>


 /* This file is for inclusion into client (your!) code.

    You can use these macros to manipulate and query Valgrind's
    execution inside your own programs.

    The resulting executables will still run without Valgrind, just a
    little bit more slowly than they otherwise would, but otherwise
    unchanged.  When not running on valgrind, each client request
    consumes about 9 x86 instructions, so the resulting performance
    loss is negligible unless you plan to execute client requests
    millions of times per second.  Nevertheless, if that is still a
    problem, you can compile with the NVALGRIND symbol defined (gcc
    -DNVALGRIND) so that client requests are not even compiled in.  */


 #ifndef NVALGRIND
 /* This defines the magic code sequence which the JITter spots and
    handles magically.  Don't look too closely at this; it will rot
    your brain.  Valgrind dumps the result value in %EDX, so we first
    copy the default value there, so that it is returned when not
    running on Valgrind.  Since %EAX points to a block of mem
    containing the args, you can pass as many args as you want like
    this.  Currently this is set up to deal with 4 args since that's
    the max that we appear to need (pthread_create).
 */
 #define VALGRIND_MAGIC_SEQUENCE(                                        \
         _zzq_rlval,   /* result lvalue */                               \
         _zzq_default, /* result returned when running on real CPU */    \
         _zzq_request, /* request code */                                \
         _zzq_arg1,    /* request first param */                         \
         _zzq_arg2,    /* request second param */                        \
         _zzq_arg3,    /* request third param */                         \
         _zzq_arg4     /* request fourth param */ )                      \
                                                                         \
   { volatile unsigned int _zzq_args[5];                                 \
     _zzq_args[0] = (volatile unsigned int)(_zzq_request);               \
     _zzq_args[1] = (volatile unsigned int)(_zzq_arg1);                  \
     _zzq_args[2] = (volatile unsigned int)(_zzq_arg2);                  \
     _zzq_args[3] = (volatile unsigned int)(_zzq_arg3);                  \
     _zzq_args[4] = (volatile unsigned int)(_zzq_arg4);                  \
     asm volatile("movl %1, %%eax\n\t"                                   \
                  "movl %2, %%edx\n\t"                                   \
                  "roll $29, %%eax ; roll $3, %%eax\n\t"                 \
                  "rorl $27, %%eax ; rorl $5, %%eax\n\t"                 \
                  "roll $13, %%eax ; roll $19, %%eax\n\t"                \
                  "movl %%edx, %0\t"                                     \
                  : "=r" (_zzq_rlval)                                    \
                  : "r" (&_zzq_args[0]), "r" (_zzq_default)              \
                  : "eax", "edx", "cc", "memory"                         \
                 );                                                      \
   }
 #else  /* NVALGRIND */
 /* Define NVALGRIND to completely remove the Valgrind magic sequence
    from the compiled code (analogous to NDEBUG's effects on
    assert())  */
 #define VALGRIND_MAGIC_SEQUENCE(					\
         _zzq_rlval,   /* result lvalue */				\
         _zzq_default, /* result returned when running on real CPU */	\
         _zzq_request, /* request code */				\
         _zzq_arg1,    /* request first param */				\
         _zzq_arg2,    /* request second param */			\
         _zzq_arg3,    /* request third param */				\
         _zzq_arg4     /* request fourth param */ )			\
    {									\
       (_zzq_rlval) = (_zzq_default);					\
    }
 #endif /* NVALGRIND */

 /* Some request codes.  There are many more of these, but most are not
    exposed to end-user view.  These are the public ones, all of the
    form 0x1000 + small_number.

    Core ones are in the range 0x00000000--0x0000ffff.  The non-public ones
    start at 0x2000.
 */

 #define VG_USERREQ_SKIN_BASE(a,b) \
    ((unsigned int)(((a)&0xff) << 24 | ((b)&0xff) << 16))
 #define VG_IS_SKIN_USERREQ(a, b, v) \
    (VG_USERREQ_SKIN_BASE(a,b) == ((v) & 0xffff0000))

 typedef
    enum { VG_USERREQ__RUNNING_ON_VALGRIND  = 0x1001,
           VG_USERREQ__DISCARD_TRANSLATIONS = 0x1002,

           /* These allow any function of 0--3 args to be called from the
              simulated CPU but run on the real CPU */
           VG_USERREQ__CLIENT_CALL0 = 0x1101,
           VG_USERREQ__CLIENT_CALL1 = 0x1102,
           VG_USERREQ__CLIENT_CALL2 = 0x1103,
           VG_USERREQ__CLIENT_CALL3 = 0x1104,

           /* Can be useful in regression testing suites -- eg. can send
              Valgrind's output to /dev/null and still count errors. */
           VG_USERREQ__COUNT_ERRORS = 0x1201,

           /* These are useful and can be interpreted by any tool that tracks
              malloc() et al, by using vg_replace_malloc.c. */
           VG_USERREQ__MALLOCLIKE_BLOCK = 0x1301,
           VG_USERREQ__FREELIKE_BLOCK   = 0x1302,

           /* Allow printfs to valgrind log. */
           VG_USERREQ__PRINTF = 0x1401,
           VG_USERREQ__PRINTF_BACKTRACE = 0x1402,
    } Vg_ClientRequest;

 #ifndef __GNUC__
 #define __extension__
 #endif

 /* Returns 1 if running on Valgrind, 0 if running on the real CPU.
    Currently implemented but untested. */
 #define RUNNING_ON_VALGRIND  __extension__                         \
    ({unsigned int _qzz_res;                                        \
     VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0 /* returned if not */,     \
                             VG_USERREQ__RUNNING_ON_VALGRIND,       \
                             0, 0, 0, 0);                           \
     _qzz_res;                                                      \
    })


 /* Discard translation of code in the range [_qzz_addr .. _qzz_addr +
    _qzz_len - 1].  Useful if you are debugging a JITter or some such,
    since it provides a way to make sure valgrind will retranslate the
    invalidated area.  Returns no value. */
 #define VALGRIND_DISCARD_TRANSLATIONS(_qzz_addr,_qzz_len)          \
    {unsigned int _qzz_res;                                         \
     VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0,                           \
                             VG_USERREQ__DISCARD_TRANSLATIONS,      \
                             _qzz_addr, _qzz_len, 0, 0);            \
    }

 #ifndef NVALGRIND

 int VALGRIND_PRINTF(const char *format, ...)
    __attribute__((format(__printf__, 1, 2)));
 __attribute__((weak))
 int
 VALGRIND_PRINTF(const char *format, ...)
 {
    unsigned int _qzz_res;
    va_list vargs;
    va_start(vargs, format);
    VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0, VG_USERREQ__PRINTF,
                            (unsigned int)format, (unsigned int)vargs, 0, 0);
    va_end(vargs);
    return _qzz_res;
 }

 int VALGRIND_PRINTF_BACKTRACE(const char *format, ...)
    __attribute__((format(__printf__, 1, 2)));
 __attribute__((weak))
 int
 VALGRIND_PRINTF_BACKTRACE(const char *format, ...)
 {
    unsigned int _qzz_res;
    va_list vargs;
    va_start(vargs, format);
    VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0, VG_USERREQ__PRINTF_BACKTRACE,
                            (unsigned int)format, (unsigned int)vargs, 0, 0);
    va_end(vargs);
    return _qzz_res;
 }

 #else /* NVALGRIND */

 #define VALGRIND_PRINTF(...)
 #define VALGRIND_PRINTF_BACKTRACE(...)

 #endif /* NVALGRIND */

 /* These requests allow control to move from the simulated CPU to the
    real CPU, calling an arbitary function */
 #define VALGRIND_NON_SIMD_CALL0(_qyy_fn)                       \
    ({unsigned int _qyy_res;                                    \
     VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */,  \
                             VG_USERREQ__CLIENT_CALL0,          \
                             _qyy_fn,                           \
                             0, 0, 0);                          \
     _qyy_res;                                                  \
    })

 #define VALGRIND_NON_SIMD_CALL1(_qyy_fn, _qyy_arg1)            \
    ({unsigned int _qyy_res;                                    \
     VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */,  \
                             VG_USERREQ__CLIENT_CALL1,          \
                             _qyy_fn,                           \
                             _qyy_arg1, 0, 0);                  \
     _qyy_res;                                                  \
    })

 #define VALGRIND_NON_SIMD_CALL2(_qyy_fn, _qyy_arg1, _qyy_arg2) \
    ({unsigned int _qyy_res;                                    \
     VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */,  \
                             VG_USERREQ__CLIENT_CALL2,          \
                             _qyy_fn,                           \
                             _qyy_arg1, _qyy_arg2, 0);          \
     _qyy_res;                                                  \
    })

 #define VALGRIND_NON_SIMD_CALL3(_qyy_fn, _qyy_arg1, _qyy_arg2, _qyy_arg3)  \
    ({unsigned int _qyy_res;                                          \
     VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */,        \
                             VG_USERREQ__CLIENT_CALL3,                \
                             _qyy_fn,                                 \
                             _qyy_arg1, _qyy_arg2, _qyy_arg3);        \
     _qyy_res;                                                        \
    })


 /* Counts the number of errors that have been recorded by a tool.  Nb:
    the tool must record the errors with VG_(maybe_record_error)() or
    VG_(unique_error)() for them to be counted. */
 #define VALGRIND_COUNT_ERRORS                                           \
    ({unsigned int _qyy_res;                                             \
     VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */,           \
                             VG_USERREQ__COUNT_ERRORS,                   \
                             0, 0, 0, 0);                                \
     _qyy_res;                                                           \
    })

 /* Mark a block of memory as having been allocated by a malloc()-like
    function.  `addr' is the start of the usable block (ie. after any
    redzone) `rzB' is redzone size if the allocator can apply redzones;
    use '0' if not.  Adding redzones makes it more likely Valgrind will spot
    block overruns.  `is_zeroed' indicates if the memory is zeroed, as it is
    for calloc().  Put it immediately after the point where a block is
    allocated.

    If you're allocating memory via superblocks, and then handing out small
    chunks of each superblock, if you don't have redzones on your small
    blocks, it's worth marking the superblock with VALGRIND_MAKE_NOACCESS
    when it's created, so that block overruns are detected.  But if you can
    put redzones on, it's probably better to not do this, so that messages
    for small overruns are described in terms of the small block rather than
    the superblock (but if you have a big overrun that skips over a redzone,
    you could miss an error this way).  See memcheck/tests/custom_alloc.c
    for an example.

    Nb: block must be freed via a free()-like function specified
    with VALGRIND_FREELIKE_BLOCK or mismatch errors will occur. */
 #define VALGRIND_MALLOCLIKE_BLOCK(addr, sizeB, rzB, is_zeroed)     \
    {unsigned int _qzz_res;                                         \
     VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0,                           \
                             VG_USERREQ__MALLOCLIKE_BLOCK,          \
                             addr, sizeB, rzB, is_zeroed);          \
    }

 /* Mark a block of memory as having been freed by a free()-like function.
    `rzB' is redzone size;  it must match that given to
    VALGRIND_MALLOCLIKE_BLOCK.  Memory not freed will be detected by the leak
    checker.  Put it immediately after the point where the block is freed. */
 #define VALGRIND_FREELIKE_BLOCK(addr, rzB)                         \
    {unsigned int _qzz_res;                                         \
     VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0,                           \
                             VG_USERREQ__FREELIKE_BLOCK,            \
                             addr, rzB, 0, 0);                      \
    }

 #endif   /* __VALGRIND_H */

	/*
	----------------------------------------------------------------

	Notice that the following BSD-style license applies to this one
	file (valgrind.h) only. The entire rest of Valgrind is licensed
	under the terms of the GNU General Public License, version 2. See
	the COPYING file in the source distribution for details.

	----------------------------------------------------------------

	This file is part of Valgrind, an extensible x86 protected-mode
	emulator for monitoring program execution on x86-Unixes.

	Copyright (C) 2000-2004 Julian Seward. All rights reserved.

	Redistribution and use in source and binary forms, with or without
	modification, are permitted provided that the following conditions
	are met:

	1. Redistributions of source code must retain the above copyright
	notice, this list of conditions and the following disclaimer.

	2. The origin of this software must not be misrepresented; you must
	not claim that you wrote the original software. If you use this
	software in a product, an acknowledgment in the product
	documentation would be appreciated but is not required.

	3. Altered source versions must be plainly marked as such, and must
	not be misrepresented as being the original software.

	4. The name of the author may not be used to endorse or promote
	products derived from this software without specific prior written
	permission.

	THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
	OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
	WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY
	DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
	GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
	WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
	NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
	SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

	----------------------------------------------------------------

	Notice that the above BSD-style license applies to this one file
	(valgrind.h) only. The entire rest of Valgrind is licensed under
	the terms of the GNU General Public License, version 2. See the
	COPYING file in the source distribution for details.

	----------------------------------------------------------------
	*/


	#ifndef __VALGRIND_H
	#define __VALGRIND_H

	#include <stdarg.h>


	/* This file is for inclusion into client (your!) code.

	You can use these macros to manipulate and query Valgrind's
	execution inside your own programs.

	The resulting executables will still run without Valgrind, just a
	little bit more slowly than they otherwise would, but otherwise
	unchanged. When not running on valgrind, each client request
	consumes about 9 x86 instructions, so the resulting performance
	loss is negligible unless you plan to execute client requests
	millions of times per second. Nevertheless, if that is still a
	problem, you can compile with the NVALGRIND symbol defined (gcc
	-DNVALGRIND) so that client requests are not even compiled in. */



	#ifndef NVALGRIND
	/* This defines the magic code sequence which the JITter spots and
	handles magically. Don't look too closely at this; it will rot
	your brain. Valgrind dumps the result value in %EDX, so we first
	copy the default value there, so that it is returned when not
	running on Valgrind. Since %EAX points to a block of mem
	containing the args, you can pass as many args as you want like
	this. Currently this is set up to deal with 4 args since that's
	the max that we appear to need (pthread_create).
	*/
	#define VALGRIND_MAGIC_SEQUENCE( \
	_zzq_rlval, /* result lvalue */ \
	_zzq_default, /* result returned when running on real CPU */ \
	_zzq_request, /* request code */ \
	_zzq_arg1, /* request first param */ \
	_zzq_arg2, /* request second param */ \
	_zzq_arg3, /* request third param */ \
	_zzq_arg4 /* request fourth param */ ) \
	\
	{ volatile unsigned int _zzq_args[5]; \
	_zzq_args[0] = (volatile unsigned int)(_zzq_request); \
	_zzq_args[1] = (volatile unsigned int)(_zzq_arg1); \
	_zzq_args[2] = (volatile unsigned int)(_zzq_arg2); \
	_zzq_args[3] = (volatile unsigned int)(_zzq_arg3); \
	_zzq_args[4] = (volatile unsigned int)(_zzq_arg4); \
	asm volatile("movl %1, %%eax\n\t" \
	"movl %2, %%edx\n\t" \
	"roll $29, %%eax ; roll $3, %%eax\n\t" \
	"rorl $27, %%eax ; rorl $5, %%eax\n\t" \
	"roll $13, %%eax ; roll $19, %%eax\n\t" \
	"movl %%edx, %0\t" \
	: "=r" (_zzq_rlval) \
	: "r" (&_zzq_args[0]), "r" (_zzq_default) \
	: "eax", "edx", "cc", "memory" \
	); \
	}
	#else /* NVALGRIND */
	/* Define NVALGRIND to completely remove the Valgrind magic sequence
	from the compiled code (analogous to NDEBUG's effects on
	assert()) */
	#define VALGRIND_MAGIC_SEQUENCE( \
	_zzq_rlval, /* result lvalue */ \
	_zzq_default, /* result returned when running on real CPU */ \
	_zzq_request, /* request code */ \
	_zzq_arg1, /* request first param */ \
	_zzq_arg2, /* request second param */ \
	_zzq_arg3, /* request third param */ \
	_zzq_arg4 /* request fourth param */ ) \
	{ \
	(_zzq_rlval) = (_zzq_default); \
	}
	#endif /* NVALGRIND */

	/* Some request codes. There are many more of these, but most are not
	exposed to end-user view. These are the public ones, all of the
	form 0x1000 + small_number.

	Core ones are in the range 0x00000000--0x0000ffff. The non-public ones
	start at 0x2000.
	*/

	#define VG_USERREQ_SKIN_BASE(a,b) \
	((unsigned int)(((a)&0xff) << 24 \| ((b)&0xff) << 16))
	#define VG_IS_SKIN_USERREQ(a, b, v) \
	(VG_USERREQ_SKIN_BASE(a,b) == ((v) & 0xffff0000))

	typedef
	enum { VG_USERREQ__RUNNING_ON_VALGRIND = 0x1001,
	VG_USERREQ__DISCARD_TRANSLATIONS = 0x1002,

	/* These allow any function of 0--3 args to be called from the
	simulated CPU but run on the real CPU */
	VG_USERREQ__CLIENT_CALL0 = 0x1101,
	VG_USERREQ__CLIENT_CALL1 = 0x1102,
	VG_USERREQ__CLIENT_CALL2 = 0x1103,
	VG_USERREQ__CLIENT_CALL3 = 0x1104,

	/* Can be useful in regression testing suites -- eg. can send
	Valgrind's output to /dev/null and still count errors. */
	VG_USERREQ__COUNT_ERRORS = 0x1201,

	/* These are useful and can be interpreted by any tool that tracks
	malloc() et al, by using vg_replace_malloc.c. */
	VG_USERREQ__MALLOCLIKE_BLOCK = 0x1301,
	VG_USERREQ__FREELIKE_BLOCK = 0x1302,

	/* Allow printfs to valgrind log. */
	VG_USERREQ__PRINTF = 0x1401,
	VG_USERREQ__PRINTF_BACKTRACE = 0x1402,
	} Vg_ClientRequest;

	#ifndef __GNUC__
	#define __extension__
	#endif

	/* Returns 1 if running on Valgrind, 0 if running on the real CPU.
	Currently implemented but untested. */
	#define RUNNING_ON_VALGRIND __extension__ \
	({unsigned int _qzz_res; \
	VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0 /* returned if not */, \
	VG_USERREQ__RUNNING_ON_VALGRIND, \
	0, 0, 0, 0); \
	_qzz_res; \
	})


	/* Discard translation of code in the range [_qzz_addr .. _qzz_addr +
	_qzz_len - 1]. Useful if you are debugging a JITter or some such,
	since it provides a way to make sure valgrind will retranslate the
	invalidated area. Returns no value. */
	#define VALGRIND_DISCARD_TRANSLATIONS(_qzz_addr,_qzz_len) \
	{unsigned int _qzz_res; \
	VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0, \
	VG_USERREQ__DISCARD_TRANSLATIONS, \
	_qzz_addr, _qzz_len, 0, 0); \
	}

	#ifndef NVALGRIND

	int VALGRIND_PRINTF(const char *format, ...)
	__attribute__((format(__printf__, 1, 2)));
	__attribute__((weak))
	int
	VALGRIND_PRINTF(const char *format, ...)
	{
	unsigned int _qzz_res;
	va_list vargs;
	va_start(vargs, format);
	VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0, VG_USERREQ__PRINTF,
	(unsigned int)format, (unsigned int)vargs, 0, 0);
	va_end(vargs);
	return _qzz_res;
	}

	int VALGRIND_PRINTF_BACKTRACE(const char *format, ...)
	__attribute__((format(__printf__, 1, 2)));
	__attribute__((weak))
	int
	VALGRIND_PRINTF_BACKTRACE(const char *format, ...)
	{
	unsigned int _qzz_res;
	va_list vargs;
	va_start(vargs, format);
	VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0, VG_USERREQ__PRINTF_BACKTRACE,
	(unsigned int)format, (unsigned int)vargs, 0, 0);
	va_end(vargs);
	return _qzz_res;
	}

	#else /* NVALGRIND */

	#define VALGRIND_PRINTF(...)
	#define VALGRIND_PRINTF_BACKTRACE(...)

	#endif /* NVALGRIND */

	/* These requests allow control to move from the simulated CPU to the
	real CPU, calling an arbitary function */
	#define VALGRIND_NON_SIMD_CALL0(_qyy_fn) \
	({unsigned int _qyy_res; \
	VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */, \
	VG_USERREQ__CLIENT_CALL0, \
	_qyy_fn, \
	0, 0, 0); \
	_qyy_res; \
	})

	#define VALGRIND_NON_SIMD_CALL1(_qyy_fn, _qyy_arg1) \
	({unsigned int _qyy_res; \
	VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */, \
	VG_USERREQ__CLIENT_CALL1, \
	_qyy_fn, \
	_qyy_arg1, 0, 0); \
	_qyy_res; \
	})

	#define VALGRIND_NON_SIMD_CALL2(_qyy_fn, _qyy_arg1, _qyy_arg2) \
	({unsigned int _qyy_res; \
	VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */, \
	VG_USERREQ__CLIENT_CALL2, \
	_qyy_fn, \
	_qyy_arg1, _qyy_arg2, 0); \
	_qyy_res; \
	})

	#define VALGRIND_NON_SIMD_CALL3(_qyy_fn, _qyy_arg1, _qyy_arg2, _qyy_arg3) \
	({unsigned int _qyy_res; \
	VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */, \
	VG_USERREQ__CLIENT_CALL3, \
	_qyy_fn, \
	_qyy_arg1, _qyy_arg2, _qyy_arg3); \
	_qyy_res; \
	})


	/* Counts the number of errors that have been recorded by a tool. Nb:
	the tool must record the errors with VG_(maybe_record_error)() or
	VG_(unique_error)() for them to be counted. */
	#define VALGRIND_COUNT_ERRORS \
	({unsigned int _qyy_res; \
	VALGRIND_MAGIC_SEQUENCE(_qyy_res, 0 /* default return */, \
	VG_USERREQ__COUNT_ERRORS, \
	0, 0, 0, 0); \
	_qyy_res; \
	})

	/* Mark a block of memory as having been allocated by a malloc()-like
	function. `addr' is the start of the usable block (ie. after any
	redzone) `rzB' is redzone size if the allocator can apply redzones;
	use '0' if not. Adding redzones makes it more likely Valgrind will spot
	block overruns. `is_zeroed' indicates if the memory is zeroed, as it is
	for calloc(). Put it immediately after the point where a block is
	allocated.

	If you're allocating memory via superblocks, and then handing out small
	chunks of each superblock, if you don't have redzones on your small
	blocks, it's worth marking the superblock with VALGRIND_MAKE_NOACCESS
	when it's created, so that block overruns are detected. But if you can
	put redzones on, it's probably better to not do this, so that messages
	for small overruns are described in terms of the small block rather than
	the superblock (but if you have a big overrun that skips over a redzone,
	you could miss an error this way). See memcheck/tests/custom_alloc.c
	for an example.

	Nb: block must be freed via a free()-like function specified
	with VALGRIND_FREELIKE_BLOCK or mismatch errors will occur. */
	#define VALGRIND_MALLOCLIKE_BLOCK(addr, sizeB, rzB, is_zeroed) \
	{unsigned int _qzz_res; \
	VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0, \
	VG_USERREQ__MALLOCLIKE_BLOCK, \
	addr, sizeB, rzB, is_zeroed); \
	}

	/* Mark a block of memory as having been freed by a free()-like function.
	`rzB' is redzone size; it must match that given to
	VALGRIND_MALLOCLIKE_BLOCK. Memory not freed will be detected by the leak
	checker. Put it immediately after the point where the block is freed. */
	#define VALGRIND_FREELIKE_BLOCK(addr, rzB) \
	{unsigned int _qzz_res; \
	VALGRIND_MAGIC_SEQUENCE(_qzz_res, 0, \
	VG_USERREQ__FREELIKE_BLOCK, \
	addr, rzB, 0, 0); \
	}

	#endif /* __VALGRIND_H */