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authoralwin <alwin>2004-02-27 23:29:32 (UTC)
committer alwin <alwin>2004-02-27 23:29:32 (UTC)
commit5d508c3d19bfe4f0840f43d7c221db4c3cc8cfad (patch) (side-by-side diff)
tree4e641b1ef1aa28d95f56066413f4c548415cc6b3
parent2b2f507809e55267bf8b2700d36fcab51b03f86a (diff)
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small bugfix so it compiles with arm-linux-gcc
Diffstat (more/less context) (ignore whitespace changes)
-rw-r--r--noncore/settings/sysinfo/contrib/dhry.c2
1 files changed, 1 insertions, 1 deletions
diff --git a/noncore/settings/sysinfo/contrib/dhry.c b/noncore/settings/sysinfo/contrib/dhry.c
index d1dadbd..20b627c 100644
--- a/noncore/settings/sysinfo/contrib/dhry.c
+++ b/noncore/settings/sysinfo/contrib/dhry.c
@@ -1,1010 +1,1010 @@
/*****************************************************/
/* Various timer routines. */
/* Al Aburto, aburto@nosc.mil, 18 Feb 1997 */
/* */
/* t = dtime() outputs the current time in seconds. */
/* Use CAUTION as some of these routines will mess */
/* up when timing across the hour mark!!! */
/* */
/* For timing I use the 'user' time whenever */
/* possible. Using 'user+sys' time is a separate */
/* issue. */
/* */
/* Example Usage: */
/* [timer options added here] */
/* main() */
/* { */
/* double starttime,benchtime,dtime(); */
/* */
/* starttime = dtime(); */
/* [routine to time] */
/* benchtime = dtime() - starttime; */
/* } */
/* */
/* [timer code below added here] */
/*****************************************************/
/***************************************************************/
/* Timer options. You MUST uncomment one of the options below */
/* or compile, for example, with the '-DUNIX' option. */
/***************************************************************/
/* #define Amiga */
/* #define UNIX */
/* #define UNIX_Old */
/* #define VMS */
/* #define BORLAND_C */
/* #define MSC */
/* #define MAC */
/* #define IPSC */
/* #define FORTRAN_SEC */
/* #define GTODay */
/* #define CTimer */
/* #define UXPM */
/* #define MAC_TMgr */
/* #define PARIX */
/* #define POSIX */
/* #define WIN32 */
/* #define POSIX1 */
/***********************/
/*********************************/
/* Timer code. */
/*********************************/
/*******************/
/* Amiga dtime() */
/*******************/
#ifdef Amiga
#include <ctype.h>
#define HZ 50
double dtime()
{
double q;
struct tt
{
long days;
long minutes;
long ticks;
} tt;
DateStamp(&tt);
q = ((double)(tt.ticks + (tt.minutes * 60L * 50L))) / (double)HZ;
return q;
}
#endif
/*****************************************************/
/* UNIX dtime(). This is the preferred UNIX timer. */
/* Provided by: Markku Kolkka, mk59200@cc.tut.fi */
/* HP-UX Addition by: Bo Thide', bt@irfu.se */
/*****************************************************/
#ifdef UNIX
#include <sys/time.h>
#include <sys/resource.h>
#ifdef hpux
#include <sys/syscall.h>
#define getrusage(a,b) syscall(SYS_getrusage,a,b)
#endif
struct rusage rusage;
double dtime()
{
double q;
getrusage(RUSAGE_SELF,&rusage);
q = (double)(rusage.ru_utime.tv_sec);
q = q + (double)(rusage.ru_utime.tv_usec) * 1.0e-06;
return q;
}
#endif
/***************************************************/
/* UNIX_Old dtime(). This is the old UNIX timer. */
/* Make sure HZ is properly defined in param.h !! */
/***************************************************/
#ifdef UNIX_Old
#include <sys/types.h>
#include <sys/times.h>
#include <sys/param.h>
#ifndef HZ
#define HZ 60
#endif
struct tms tms;
double dtime()
{
double q;
times(&tms);
q = (double)(tms.tms_utime) / (double)HZ;
return q;
}
#endif
/*********************************************************/
/* VMS dtime() for VMS systems. */
/* Provided by: RAMO@uvphys.phys.UVic.CA */
/* Some people have run into problems with this timer. */
/*********************************************************/
#ifdef VMS
#include time
#ifndef HZ
#define HZ 100
#endif
struct tbuffer_t
{
int proc_user_time;
int proc_system_time;
int child_user_time;
int child_system_time;
};
struct tbuffer_t tms;
double dtime()
{
double q;
times(&tms);
q = (double)(tms.proc_user_time) / (double)HZ;
return q;
}
#endif
/******************************/
/* BORLAND C dtime() for DOS */
/******************************/
#ifdef BORLAND_C
#include <ctype.h>
#include <dos.h>
#include <time.h>
#define HZ 100
struct time tnow;
double dtime()
{
double q;
gettime(&tnow);
q = 60.0 * (double)(tnow.ti_min);
q = q + (double)(tnow.ti_sec);
q = q + (double)(tnow.ti_hund)/(double)HZ;
return q;
}
#endif
/**************************************/
/* Microsoft C (MSC) dtime() for DOS */
/**************************************/
#ifdef MSC
#include <time.h>
#include <ctype.h>
#define HZ CLOCKS_PER_SEC
clock_t tnow;
double dtime()
{
double q;
tnow = clock();
q = (double)tnow / (double)HZ;
return q;
}
#endif
/*************************************/
/* Macintosh (MAC) Think C dtime() */
/*************************************/
#ifdef MAC
#include <time.h>
#define HZ 60
double dtime()
{
double q;
q = (double)clock() / (double)HZ;
return q;
}
#endif
/************************************************************/
/* iPSC/860 (IPSC) dtime() for i860. */
/* Provided by: Dan Yergeau, yergeau@gloworm.Stanford.EDU */
/************************************************************/
#ifdef IPSC
extern double dclock();
double dtime()
{
double q;
q = dclock();
return q;
}
#endif
/**************************************************/
/* FORTRAN dtime() for Cray type systems. */
/* This is the preferred timer for Cray systems. */
/**************************************************/
#ifdef FORTRAN_SEC
fortran double second();
double dtime()
{
double q;
second(&q);
return q;
}
#endif
/***********************************************************/
/* UNICOS C dtime() for Cray UNICOS systems. Don't use */
/* unless absolutely necessary as returned time includes */
/* 'user+system' time. Provided by: R. Mike Dority, */
/* dority@craysea.cray.com */
/***********************************************************/
#ifdef CTimer
#include <time.h>
double dtime()
{
double q;
clock_t clock(void);
q = (double)clock() / (double)CLOCKS_PER_SEC;
return q;
}
#endif
/********************************************/
/* Another UNIX timer using gettimeofday(). */
/* However, getrusage() is preferred. */
/********************************************/
#ifdef GTODay
#include <sys/time.h>
struct timeval tnow;
double dtime()
{
double q;
gettimeofday(&tnow,NULL);
q = (double)tnow.tv_sec + (double)tnow.tv_usec * 1.0e-6;
return q;
}
#endif
/*****************************************************/
/* Fujitsu UXP/M timer. */
/* Provided by: Mathew Lim, ANUSF, M.Lim@anu.edu.au */
/*****************************************************/
#ifdef UXPM
#include <sys/types.h>
#include <sys/timesu.h>
struct tmsu rusage;
double dtime()
{
double q;
timesu(&rusage);
q = (double)(rusage.tms_utime) * 1.0e-06;
return q;
}
#endif
/**********************************************/
/* Macintosh (MAC_TMgr) Think C dtime() */
/* requires Think C Language Extensions or */
/* #include <MacHeaders> in the prefix */
/* provided by Francis H Schiffer 3rd (fhs) */
/* skipschiffer@genie.geis.com */
/**********************************************/
#ifdef MAC_TMgr
#include <Timer.h>
#include <stdlib.h>
static TMTask mgrTimer;
static Boolean mgrInited = false;
static double mgrClock;
#define RMV_TIMER RmvTime( (QElemPtr)&mgrTimer )
#define MAX_TIME 1800000000L
/* MAX_TIME limits time between calls to */
/* dtime( ) to no more than 30 minutes */
/* this limitation could be removed by */
/* creating a completion routine to sum */
/* 30 minute segments (fhs 1994 feb 9) */
static void Remove_timer( )
{
RMV_TIMER;
mgrInited = false;
}
double dtime( )
{
if( mgrInited ) {
RMV_TIMER;
mgrClock += (MAX_TIME + mgrTimer.tmCount)*1.0e-6;
} else {
if( _atexit( &Remove_timer ) == 0 ) mgrInited = true;
mgrClock = 0.0;
}
if ( mgrInited )
{
mgrTimer.tmAddr = NULL;
mgrTimer.tmCount = 0;
mgrTimer.tmWakeUp = 0;
mgrTimer.tmReserved = 0;
InsTime( (QElemPtr)&mgrTimer );
PrimeTime( (QElemPtr)&mgrTimer, -MAX_TIME );
}
return( mgrClock );
}
#endif
/***********************************************************/
/* Parsytec GCel timer. */
/* Provided by: Georg Wambach, gw@informatik.uni-koeln.de */
/***********************************************************/
#ifdef PARIX
#include <sys/time.h>
double dtime()
{
double q;
q = (double) (TimeNowHigh()) / (double) CLK_TCK_HIGH;
return q;
}
#endif
/************************************************/
/* Sun Solaris POSIX dtime() routine */
/* Provided by: Case Larsen, CTLarsen.lbl.gov */
/************************************************/
#ifdef POSIX
#include <sys/time.h>
#include <sys/resource.h>
#include <sys/rusage.h>
#ifdef __hpux
#include <sys/syscall.h>
#endif
struct rusage rusage;
double dtime()
{
double q;
getrusage(RUSAGE_SELF,&rusage);
q = (double)(rusage.ru_utime.tv_sec);
q = q + (double)(rusage.ru_utime.tv_nsec) * 1.0e-09;
return q;
}
#endif
/****************************************************/
/* Windows NT (32 bit) dtime() routine */
/* Provided by: Piers Haken, piersh@microsoft.com */
/****************************************************/
#ifdef WIN32
#include <windows.h>
double dtime(void)
{
double q;
q = (double)GetTickCount() * 1.0e-03;
return q;
}
#endif
/*****************************************************/
/* Time according to POSIX.1 - <J.Pelan@qub.ac.uk> */
/* Ref: "POSIX Programmer's Guide" O'Reilly & Assoc.*/
/*****************************************************/
#ifdef POSIX1
#define _POSIX_SOURCE 1
#include <unistd.h>
#include <limits.h>
#include <sys/times.h>
struct tms tms;
double dtime()
{
double q;
times(&tms);
q = (double)tms.tms_utime / (double)CLK_TCK;
return q;
}
#endif
/*
*************************************************************************
*
* "DHRYSTONE" Benchmark Program
* -----------------------------
*
* Version: C, Version 2.1
*
* File: dhry_1.c (part 2 of 3)
*
* Date: May 25, 1988
*
* Author: Reinhold P. Weicker
*
*************************************************************************
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "dhry.h"
/* Global Variables: */
Rec_Pointer Ptr_Glob,
Next_Ptr_Glob;
int Int_Glob;
Boolean Bool_Glob;
char Ch_1_Glob,
Ch_2_Glob;
int Arr_1_Glob [50];
int Arr_2_Glob [50] [50];
char Reg_Define[] = "Register option selected.";
-extern char *malloc ();
+//extern char *malloc ();
Enumeration Func_1 ();
/*
forward declaration necessary since Enumeration may not simply be int
*/
#ifndef ROPT
#define REG
/* REG becomes defined as empty */
/* i.e. no register variables */
#else
#define REG register
#endif
/* variables for time measurement: */
#define Too_Small_Time 2
/* Measurements should last at least 2 seconds */
double Begin_Time,
End_Time,
User_Time;
double Microseconds,
Dhrystones_Per_Second,
Vax_Mips;
/* end of variables for time measurement */
/**********************************************************************************************/
Proc_1 (Ptr_Val_Par)
/******************/
REG Rec_Pointer Ptr_Val_Par;
/* executed once */
{
REG Rec_Pointer Next_Record = Ptr_Val_Par->Ptr_Comp;
/* == Ptr_Glob_Next */
/* Local variable, initialized with Ptr_Val_Par->Ptr_Comp, */
/* corresponds to "rename" in Ada, "with" in Pascal */
structassign (*Ptr_Val_Par->Ptr_Comp, *Ptr_Glob);
Ptr_Val_Par->variant.var_1.Int_Comp = 5;
Next_Record->variant.var_1.Int_Comp
= Ptr_Val_Par->variant.var_1.Int_Comp;
Next_Record->Ptr_Comp = Ptr_Val_Par->Ptr_Comp;
Proc_3 (&Next_Record->Ptr_Comp);
/* Ptr_Val_Par->Ptr_Comp->Ptr_Comp
== Ptr_Glob->Ptr_Comp */
if (Next_Record->Discr == Ident_1)
/* then, executed */
{
Next_Record->variant.var_1.Int_Comp = 6;
Proc_6 (Ptr_Val_Par->variant.var_1.Enum_Comp,
&Next_Record->variant.var_1.Enum_Comp);
Next_Record->Ptr_Comp = Ptr_Glob->Ptr_Comp;
Proc_7 (Next_Record->variant.var_1.Int_Comp, 10,
&Next_Record->variant.var_1.Int_Comp);
}
else /* not executed */
structassign (*Ptr_Val_Par, *Ptr_Val_Par->Ptr_Comp);
} /* Proc_1 */
Proc_2 (Int_Par_Ref)
/******************/
/* executed once */
/* *Int_Par_Ref == 1, becomes 4 */
One_Fifty *Int_Par_Ref;
{
One_Fifty Int_Loc;
Enumeration Enum_Loc;
Int_Loc = *Int_Par_Ref + 10;
do /* executed once */
if (Ch_1_Glob == 'A')
/* then, executed */
{
Int_Loc -= 1;
*Int_Par_Ref = Int_Loc - Int_Glob;
Enum_Loc = Ident_1;
} /* if */
while (Enum_Loc != Ident_1); /* true */
} /* Proc_2 */
Proc_3 (Ptr_Ref_Par)
/******************/
/* executed once */
/* Ptr_Ref_Par becomes Ptr_Glob */
Rec_Pointer *Ptr_Ref_Par;
{
if (Ptr_Glob != Null)
/* then, executed */
*Ptr_Ref_Par = Ptr_Glob->Ptr_Comp;
Proc_7 (10, Int_Glob, &Ptr_Glob->variant.var_1.Int_Comp);
} /* Proc_3 */
Proc_4 () /* without parameters */
/*******/
/* executed once */
{
Boolean Bool_Loc;
Bool_Loc = Ch_1_Glob == 'A';
Bool_Glob = Bool_Loc | Bool_Glob;
Ch_2_Glob = 'B';
} /* Proc_4 */
Proc_5 () /* without parameters */
/*******/
/* executed once */
{
Ch_1_Glob = 'A';
Bool_Glob = false;
} /* Proc_5 */
/* Procedure for the assignment of structures, */
/* if the C compiler doesn't support this feature */
#ifdef NOSTRUCTASSIGN
memcpy (d, s, l)
register char *d;
register char *s;
register int l;
{
while (l--) *d++ = *s++;
}
#endif
Proc_6 (Enum_Val_Par, Enum_Ref_Par)
/*********************************/
/* executed once */
/* Enum_Val_Par == Ident_3, Enum_Ref_Par becomes Ident_2 */
Enumeration Enum_Val_Par;
Enumeration *Enum_Ref_Par;
{
*Enum_Ref_Par = Enum_Val_Par;
if (! Func_3 (Enum_Val_Par))
/* then, not executed */
*Enum_Ref_Par = Ident_4;
switch (Enum_Val_Par)
{
case Ident_1:
*Enum_Ref_Par = Ident_1;
break;
case Ident_2:
if (Int_Glob > 100)
/* then */
*Enum_Ref_Par = Ident_1;
else *Enum_Ref_Par = Ident_4;
break;
case Ident_3: /* executed */
*Enum_Ref_Par = Ident_2;
break;
case Ident_4: break;
case Ident_5:
*Enum_Ref_Par = Ident_3;
break;
} /* switch */
} /* Proc_6 */
Proc_7 (Int_1_Par_Val, Int_2_Par_Val, Int_Par_Ref)
/**********************************************/
/* executed three times */
/* first call: Int_1_Par_Val == 2, Int_2_Par_Val == 3, */
/* Int_Par_Ref becomes 7 */
/* second call: Int_1_Par_Val == 10, Int_2_Par_Val == 5, */
/* Int_Par_Ref becomes 17 */
/* third call: Int_1_Par_Val == 6, Int_2_Par_Val == 10, */
/* Int_Par_Ref becomes 18 */
One_Fifty Int_1_Par_Val;
One_Fifty Int_2_Par_Val;
One_Fifty *Int_Par_Ref;
{
One_Fifty Int_Loc;
Int_Loc = Int_1_Par_Val + 2;
*Int_Par_Ref = Int_2_Par_Val + Int_Loc;
} /* Proc_7 */
Proc_8 (Arr_1_Par_Ref, Arr_2_Par_Ref, Int_1_Par_Val, Int_2_Par_Val)
/*********************************************************************/
/* executed once */
/* Int_Par_Val_1 == 3 */
/* Int_Par_Val_2 == 7 */
Arr_1_Dim Arr_1_Par_Ref;
Arr_2_Dim Arr_2_Par_Ref;
int Int_1_Par_Val;
int Int_2_Par_Val;
{
REG One_Fifty Int_Index;
REG One_Fifty Int_Loc;
Int_Loc = Int_1_Par_Val + 5;
Arr_1_Par_Ref [Int_Loc] = Int_2_Par_Val;
Arr_1_Par_Ref [Int_Loc+1] = Arr_1_Par_Ref [Int_Loc];
Arr_1_Par_Ref [Int_Loc+30] = Int_Loc;
for (Int_Index = Int_Loc; Int_Index <= Int_Loc+1; ++Int_Index)
Arr_2_Par_Ref [Int_Loc] [Int_Index] = Int_Loc;
Arr_2_Par_Ref [Int_Loc] [Int_Loc-1] += 1;
Arr_2_Par_Ref [Int_Loc+20] [Int_Loc] = Arr_1_Par_Ref [Int_Loc];
Int_Glob = 5;
} /* Proc_8 */
Enumeration Func_1 (Ch_1_Par_Val, Ch_2_Par_Val)
/*************************************************/
/* executed three times */
/* first call: Ch_1_Par_Val == 'H', Ch_2_Par_Val == 'R' */
/* second call: Ch_1_Par_Val == 'A', Ch_2_Par_Val == 'C' */
/* third call: Ch_1_Par_Val == 'B', Ch_2_Par_Val == 'C' */
Capital_Letter Ch_1_Par_Val;
Capital_Letter Ch_2_Par_Val;
{
Capital_Letter Ch_1_Loc;
Capital_Letter Ch_2_Loc;
Ch_1_Loc = Ch_1_Par_Val;
Ch_2_Loc = Ch_1_Loc;
if (Ch_2_Loc != Ch_2_Par_Val)
/* then, executed */
return (Ident_1);
else /* not executed */
{
Ch_1_Glob = Ch_1_Loc;
return (Ident_2);
}
} /* Func_1 */
Boolean Func_2 (Str_1_Par_Ref, Str_2_Par_Ref)
/*************************************************/
/* executed once */
/* Str_1_Par_Ref == "DHRYSTONE PROGRAM, 1'ST STRING" */
/* Str_2_Par_Ref == "DHRYSTONE PROGRAM, 2'ND STRING" */
Str_30 Str_1_Par_Ref;
Str_30 Str_2_Par_Ref;
{
REG One_Thirty Int_Loc;
Capital_Letter Ch_Loc;
Int_Loc = 2;
while (Int_Loc <= 2) /* loop body executed once */
if (Func_1 (Str_1_Par_Ref[Int_Loc],
Str_2_Par_Ref[Int_Loc+1]) == Ident_1)
/* then, executed */
{
Ch_Loc = 'A';
Int_Loc += 1;
} /* if, while */
if (Ch_Loc >= 'W' && Ch_Loc < 'Z')
/* then, not executed */
Int_Loc = 7;
if (Ch_Loc == 'R')
/* then, not executed */
return (true);
else /* executed */
{
if (strcmp (Str_1_Par_Ref, Str_2_Par_Ref) > 0)
/* then, not executed */
{
Int_Loc += 7;
Int_Glob = Int_Loc;
return (true);
}
else /* executed */
return (false);
} /* if Ch_Loc */
} /* Func_2 */
Boolean Func_3 (Enum_Par_Val)
/***************************/
/* executed once */
/* Enum_Par_Val == Ident_3 */
Enumeration Enum_Par_Val;
{
Enumeration Enum_Loc;
Enum_Loc = Enum_Par_Val;
if (Enum_Loc == Ident_3)
/* then, executed */
return (true);
else /* not executed */
return (false);
} /* Func_3 */
/*********************************************************************************/
double dhry_main( int n )
/*****/
/* main program, corresponds to procedures */
/* Main and Proc_0 in the Ada version */
{
One_Fifty Int_1_Loc;
REG One_Fifty Int_2_Loc;
One_Fifty Int_3_Loc;
REG char Ch_Index;
Enumeration Enum_Loc;
Str_30 Str_1_Loc;
Str_30 Str_2_Loc;
REG int Run_Index;
REG int Number_Of_Runs;
FILE *Ap;
/* Initializations */
/* if ((Ap = fopen("dhry.res","a+")) == NULL)
{
printf("Can not open dhry.res\n\n");
exit(1);
}
*/
Next_Ptr_Glob = (Rec_Pointer) malloc (sizeof (Rec_Type));
Ptr_Glob = (Rec_Pointer) malloc (sizeof (Rec_Type));
Ptr_Glob->Ptr_Comp = Next_Ptr_Glob;
Ptr_Glob->Discr = Ident_1;
Ptr_Glob->variant.var_1.Enum_Comp = Ident_3;
Ptr_Glob->variant.var_1.Int_Comp = 40;
strcpy (Ptr_Glob->variant.var_1.Str_Comp,
"DHRYSTONE PROGRAM, SOME STRING");
strcpy (Str_1_Loc, "DHRYSTONE PROGRAM, 1'ST STRING");
Arr_2_Glob [8][7] = 10;
/* Was missing in published program. Without this statement, */
/* Arr_2_Glob [8][7] would have an undefined value. */
/* Warning: With 16-Bit processors and Number_Of_Runs > 32000, */
/* overflow may occur for this array element. */
/*
if (Reg)
{
printf ("Program compiled with 'register' attribute\n");
printf ("\n");
}
else
{
printf ("Program compiled without 'register' attribute\n");
printf ("\n");
}
*/
Number_Of_Runs = n;
/***************/
/* Start timer */
/***************/
Begin_Time = dtime();
for (Run_Index = 1; Run_Index <= Number_Of_Runs; ++Run_Index)
{
Proc_5();
Proc_4();
/* Ch_1_Glob == 'A', Ch_2_Glob == 'B', Bool_Glob == true */
Int_1_Loc = 2;
Int_2_Loc = 3;
strcpy (Str_2_Loc, "DHRYSTONE PROGRAM, 2'ND STRING");
Enum_Loc = Ident_2;
Bool_Glob = ! Func_2 (Str_1_Loc, Str_2_Loc);
/* Bool_Glob == 1 */
while (Int_1_Loc < Int_2_Loc) /* loop body executed once */
{
Int_3_Loc = 5 * Int_1_Loc - Int_2_Loc;
/* Int_3_Loc == 7 */
Proc_7 (Int_1_Loc, Int_2_Loc, &Int_3_Loc);
/* Int_3_Loc == 7 */
Int_1_Loc += 1;
} /* while */
/* Int_1_Loc == 3, Int_2_Loc == 3, Int_3_Loc == 7 */
Proc_8 (Arr_1_Glob, Arr_2_Glob, Int_1_Loc, Int_3_Loc);
/* Int_Glob == 5 */
Proc_1 (Ptr_Glob);
for (Ch_Index = 'A'; Ch_Index <= Ch_2_Glob; ++Ch_Index)
/* loop body executed twice */
{
if (Enum_Loc == Func_1 (Ch_Index, 'C'))
/* then, not executed */
{
Proc_6 (Ident_1, &Enum_Loc);
strcpy (Str_2_Loc, "DHRYSTONE PROGRAM, 3'RD STRING");
Int_2_Loc = Run_Index;
Int_Glob = Run_Index;
}
}
/* Int_1_Loc == 3, Int_2_Loc == 3, Int_3_Loc == 7 */
Int_2_Loc = Int_2_Loc * Int_1_Loc;
Int_1_Loc = Int_2_Loc / Int_3_Loc;
Int_2_Loc = 7 * (Int_2_Loc - Int_3_Loc) - Int_1_Loc;
/* Int_1_Loc == 1, Int_2_Loc == 13, Int_3_Loc == 7 */
Proc_2 (&Int_1_Loc);
/* Int_1_Loc == 5 */
} /* loop "for Run_Index" */
/**************/
/* Stop timer */
/**************/
End_Time = dtime();
/*
printf ("Execution ends\n");
printf ("\n");
printf ("Final values of the variables used in the benchmark:\n");
printf ("\n");
printf ("Int_Glob: %d\n", Int_Glob);
printf (" should be: %d\n", 5);
printf ("Bool_Glob: %d\n", Bool_Glob);
printf (" should be: %d\n", 1);
printf ("Ch_1_Glob: %c\n", Ch_1_Glob);
printf (" should be: %c\n", 'A');
printf ("Ch_2_Glob: %c\n", Ch_2_Glob);
printf (" should be: %c\n", 'B');
printf ("Arr_1_Glob[8]: %d\n", Arr_1_Glob[8]);
printf (" should be: %d\n", 7);
printf ("Arr_2_Glob[8][7]: %d\n", Arr_2_Glob[8][7]);
printf (" should be: Number_Of_Runs + 10\n");
printf ("Ptr_Glob->\n");
printf (" Ptr_Comp: %d\n", (int) Ptr_Glob->Ptr_Comp);
printf (" should be: (implementation-dependent)\n");
printf (" Discr: %d\n", Ptr_Glob->Discr);
printf (" should be: %d\n", 0);
printf (" Enum_Comp: %d\n", Ptr_Glob->variant.var_1.Enum_Comp);
printf (" should be: %d\n", 2);
printf (" Int_Comp: %d\n", Ptr_Glob->variant.var_1.Int_Comp);
printf (" should be: %d\n", 17);
printf (" Str_Comp: %s\n", Ptr_Glob->variant.var_1.Str_Comp);
printf (" should be: DHRYSTONE PROGRAM, SOME STRING\n");
printf ("Next_Ptr_Glob->\n");
printf (" Ptr_Comp: %d\n", (int) Next_Ptr_Glob->Ptr_Comp);
printf (" should be: (implementation-dependent), same as above\n");
printf (" Discr: %d\n", Next_Ptr_Glob->Discr);
printf (" should be: %d\n", 0);
printf (" Enum_Comp: %d\n", Next_Ptr_Glob->variant.var_1.Enum_Comp);
printf (" should be: %d\n", 1);
printf (" Int_Comp: %d\n", Next_Ptr_Glob->variant.var_1.Int_Comp);
printf (" should be: %d\n", 18);
printf (" Str_Comp: %s\n", Next_Ptr_Glob->variant.var_1.Str_Comp);
printf (" should be: DHRYSTONE PROGRAM, SOME STRING\n");
printf ("Int_1_Loc: %d\n", Int_1_Loc);
printf (" should be: %d\n", 5);
printf ("Int_2_Loc: %d\n", Int_2_Loc);
printf (" should be: %d\n", 13);
printf ("Int_3_Loc: %d\n", Int_3_Loc);
printf (" should be: %d\n", 7);
printf ("Enum_Loc: %d\n", Enum_Loc);
printf (" should be: %d\n", 1);
printf ("Str_1_Loc: %s\n", Str_1_Loc);
printf (" should be: DHRYSTONE PROGRAM, 1'ST STRING\n");
printf ("Str_2_Loc: %s\n", Str_2_Loc);
printf (" should be: DHRYSTONE PROGRAM, 2'ND STRING\n");
printf ("\n");
*/
User_Time = End_Time - Begin_Time;
if (User_Time < Too_Small_Time) return -1;
else
{
Microseconds = User_Time * Mic_secs_Per_Second
/ (double) Number_Of_Runs;
Dhrystones_Per_Second = (double) Number_Of_Runs / User_Time;
Vax_Mips = Dhrystones_Per_Second / 1757.0;
#ifdef ROPT
//printf ("Register option selected? YES\n");
#else
//printf ("Register option selected? NO\n");
strcpy(Reg_Define, "Register option not selected.");
#endif
printf ("Microseconds for one run through Dhrystone: ");
printf ("%7.1lf \n", Microseconds);
printf ("Dhrystones per Second: ");
printf ("%10.1lf \n", Dhrystones_Per_Second);
printf ("VAX MIPS rating = %10.3lf \n",Vax_Mips);
printf ("\n");
return Dhrystones_Per_Second;
/*
fprintf(Ap,"\n");
fprintf(Ap,"Dhrystone Benchmark, Version 2.1 (Language: C)\n");
fprintf(Ap,"%s\n",Reg_Define);
fprintf(Ap,"Microseconds for one loop: %7.1lf\n",Microseconds);
fprintf(Ap,"Dhrystones per second: %10.1lf\n",Dhrystones_Per_Second);
fprintf(Ap,"VAX MIPS rating: %10.3lf\n",Vax_Mips);
fclose(Ap);
*/
}
}