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/* High precision, low overhead timing functions.  IA-64 version.
   Copyright (C) 2001 Free Software Foundation, Inc.
   This file is part of the GNU C Library.
   Contributed by Ulrich Drepper <drepper@cygnus.com>, 2001.

   The GNU C Library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Library General Public License as
   published by the Free Software Foundation; either version 2 of the
   License, or (at your option) any later version.

   The GNU C Library is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   Library General Public License for more details.

   You should have received a copy of the GNU Library General Public
   License along with the GNU C Library; see the file COPYING.LIB.  If not,
   write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
   Boston, MA 02111-1307, USA.  */

#ifndef _HP_TIMING_H
#define _HP_TIMING_H	1

#include <string.h>
#include <sys/param.h>
#include <stdio-common/_itoa.h>
#include <ia64intrin.h>

/* The macros defined here use the timestamp counter in IA-64.  They
   provide a very accurate way to measure the time with very little
   overhead.  The time values themself have no real meaning, only
   differences are interesting.

   The list of macros we need includes the following:

   - HP_TIMING_AVAIL: test for availability.

   - HP_TIMING_INLINE: this macro is non-zero if the functionality is not
     implemented using function calls but instead uses some inlined code
     which might simply consist of a few assembler instructions.  We have to
     know this since we might want to use the macros here in places where we
     cannot make function calls.

   - hp_timing_t: This is the type for variables used to store the time
     values.

   - HP_TIMING_ZERO: clear `hp_timing_t' object.

   - HP_TIMING_NOW: place timestamp for current time in variable given as
     parameter.

   - HP_TIMING_DIFF_INIT: do whatever is necessary to be able to use the
     HP_TIMING_DIFF macro.

   - HP_TIMING_DIFF: compute difference between two times and store it
     in a third.  Source and destination might overlap.

   - HP_TIMING_ACCUM: add time difference to another variable.  This might
     be a bit more complicated to implement for some platforms as the
     operation should be thread-safe and 64bit arithmetic on 32bit platforms
     is not.

   - HP_TIMING_ACCUM_NT: this is the variant for situations where we know
     there are no threads involved.

   - HP_TIMING_PRINT: write decimal representation of the timing value into
     the given string.  This operation need not be inline even though
     HP_TIMING_INLINE is specified.

*/

/* We always assume having the timestamp register.  */
#define HP_TIMING_AVAIL		(1)

/* We indeed have inlined functions.  */
#define HP_TIMING_INLINE	(1)

/* We use 64bit values for the times.  */
typedef unsigned long int hp_timing_t;

/* Internal variable used to store the overhead of the measurement
   opcodes.  */
extern hp_timing_t __libc_hp_timing_overhead;

/* Set timestamp value to zero.  */
#define HP_TIMING_ZERO(Var)	(Var) = (0)


/* The Itanium/Merced has a bug where the ar.itc register value read
   is not correct in some situations.  The solution is to read again.
   For now we always do this until we know how to recognize a fixed
   processor implementation.  */
#define REPEAT_READ(val) __builtin_expect ((int) val == -1, 0)

/* That's quite simple.  Use the `rdtsc' instruction.  Note that the value
   might not be 100% accurate since there might be some more instructions
   running in this moment.  This could be changed by using a barrier like
   'cpuid' right before the `rdtsc' instruciton.  But we are not interested
   in accurate clock cycles here so we don't do this.  */
#define HP_TIMING_NOW(Var) \
  ({ unsigned long int __itc;						      \
     do									      \
       asm volatile ("mov %0=ar.itc" : "=r" (__itc) : : "memory");	      \
     while (REPEAT_READ (__itc));					      \
     Var = __itc; })

/* Use two 'ar.itc' instructions in a row to find out how long it takes.  */
#define HP_TIMING_DIFF_INIT() \
  do {									      \
    int __cnt = 5;							      \
    __libc_hp_timing_overhead = ~0ul;					      \
    do									      \
      {									      \
	hp_timing_t __t1, __t2;						      \
	HP_TIMING_NOW (__t1);						      \
	HP_TIMING_NOW (__t2);						      \
	if (__t2 - __t1 < __libc_hp_timing_overhead)			      \
	  __libc_hp_timing_overhead = __t2 - __t1;			      \
      }									      \
    while (--__cnt > 0);						      \
  } while (0)

/* It's simple arithmetic for us.  */
#define HP_TIMING_DIFF(Diff, Start, End)	(Diff) = ((End) - (Start))

/* We have to jump through hoops to get this correctly implemented.  */
#define HP_TIMING_ACCUM(Sum, Diff) \
  do {									      \
    hp_timing_t __oldval;						      \
    hp_timing_t __diff = (Diff) - __libc_hp_timing_overhead;		      \
    hp_timing_t __newval;						      \
    do									      \
      {									      \
	__oldval = (Sum);						      \
	__newval = __oldval + __diff;					      \
      }									      \
    while (! __sync_bool_compare_and_swap (&Sum, __oldvar, __newval));	      \
  } while (0)

/* No threads, no extra work.  */
#define HP_TIMING_ACCUM_NT(Sum, Diff)	(Sum) += (Diff)

/* Print the time value.  */
#define HP_TIMING_PRINT(Buf, Len, Val) \
  do {									      \
    char __buf[20];							      \
    char *__cp = _itoa_word (Val, __buf + sizeof (__buf), 10, 0);	      \
    int __len = (Len);							      \
    char *__dest = (Buf);						      \
    while (__len-- > 0 && __cp < __buf + sizeof (__buf))		      \
      *__dest++ = *__cp++;						      \
    memcpy (__dest, " clock cycles", MIN (__len, sizeof (" clock cycles")));  \
  } while (0)

#endif	/* hp-timing.h */