/*
 ****************************************************************************
 *
 *                   "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>

/*
 ****************************************************************************
 *
 *                   "DHRYSTONE" Benchmark Program
 *                   -----------------------------
 *                                                                            
 *  Version:    C, Version 2.1
 *                                                                            
 *  File:       dhry.h (part 1 of 3)
 *
 *  Date:       May 25, 1988
 *
 *  Author:     Reinhold P. Weicker
 *                      Siemens AG, AUT E 51
 *                      Postfach 3220
 *                      8520 Erlangen
 *                      Germany (West)
 *                              Phone:  [+49]-9131-7-20330
 *                                      (8-17 Central European Time)
 *                              Usenet: ..!mcsun!unido!estevax!weicker
 *
 *              Original Version (in Ada) published in
 *              "Communications of the ACM" vol. 27., no. 10 (Oct. 1984),
 *              pp. 1013 - 1030, together with the statistics
 *              on which the distribution of statements etc. is based.
 *
 *              In this C version, the following C library functions are used:
 *              - strcpy, strcmp (inside the measurement loop)
 *              - printf, scanf (outside the measurement loop)
 *              In addition, Berkeley UNIX system calls "times ()" or "time ()"
 *              are used for execution time measurement. For measurements
 *              on other systems, these calls have to be changed.
 *       
 *              Updated January, 1997 Rick Cramer, Galileo(R) to work with 
 *              the i960jx and Galileo-5 Reference Design.
 *
 *
 *  Collection of Results:
 *              Reinhold Weicker (address see above) and
 *              
 *              Rick Richardson
 *              PC Research. Inc.
 *              94 Apple Orchard Drive
 *              Tinton Falls, NJ 07724
 *                      Phone:  (201) 389-8963 (9-17 EST)               
 *                      Usenet: ...!uunet!pcrat!rick
 *
 *      Please send results to Rick Richardson and/or Reinhold Weicker.
 *      Complete information should be given on hardware and software used.
 *      Hardware information includes: Machine type, CPU, type and size
 *      of caches; for microprocessors: clock frequency, memory speed
 *      (number of wait states).
 *      Software information includes: Compiler (and runtime library)
 *      manufacturer and version, compilation switches, OS version.
 *      The Operating System version may give an indication about the
 *      compiler; Dhrystone itself performs no OS calls in the measurement loop.
 *
 *      The complete output generated by the program should be mailed
 *      such that at least some checks for correctness can be made.
 *
 ***************************************************************************
 *
 *  History:    This version C/2.1 has been made for two reasons:
 *
 *              1) There is an obvious need for a common C version of
 *              Dhrystone, since C is at present the most popular system
 *              programming language for the class of processors
 *              (microcomputers, minicomputers) where Dhrystone is used most.
 *              There should be, as far as possible, only one C version of
 *              Dhrystone such that results can be compared without
 *              restrictions. In the past, the C versions distributed
 *              by Rick Richardson (Version 1.1) and by Reinhold Weicker
 *              had small (though not significant) differences.
 *
 *              2) As far as it is possible without changes to the Dhrystone
 *              statistics, optimizing compilers should be prevented from
 *              removing significant statements.
 *
 *              This C version has been developed in cooperation with
 *              Rick Richardson (Tinton Falls, NJ), it incorporates many
 *              ideas from the "Version 1.1" distributed previously by
 *              him over the UNIX network Usenet.
 *              I also thank Chaim Benedelac (National Semiconductor),
 *              David Ditzel (SUN), Earl Killian and John Mashey (MIPS),
 *              Alan Smith and Rafael Saavedra-Barrera (UC at Berkeley)
 *              for their help with comments on earlier versions of the
 *              benchmark.
 *
 *  Changes:    In the initialization part, this version follows mostly
 *              Rick Richardson's version distributed via Usenet, not the
 *              version distributed earlier via floppy disk by Reinhold Weicker.
 *              As a concession to older compilers, names have been made
 *              unique within the first 8 characters.
 *              Inside the measurement loop, this version follows the
 *              version previously distributed by Reinhold Weicker.
 *
 *              At several places in the benchmark, code has been added,
 *              but within the measurement loop only in branches that 
 *              are not executed. The intention is that optimizing compilers
 *              should be prevented from moving code out of the measurement
 *              loop, or from removing code altogether. Since the statements
 *              that are executed within the measurement loop have NOT been
 *              changed, the numbers defining the "Dhrystone distribution"
 *              (distribution of statements, operand types and locality)
 *              still hold. Except for sophisticated optimizing compilers,
 *              execution times for this version should be the same as
 *              for previous versions.
 *              
 *              Since it has proven difficult to subtract the time for the
 *              measurement loop overhead in a correct way, the loop check
 *              has been made a part of the benchmark. This does have
 *              an impact - though a very minor one - on the distribution
 *              statistics which have been updated for this version.
 *
 *              All changes within the measurement loop are described
 *              and discussed in the companion paper "Rationale for
 *              Dhrystone version 2".
 *
 *              Because of the self-imposed limitation that the order and
 *              distribution of the executed statements should not be
 *              changed, there are still cases where optimizing compilers
 *              may not generate code for some statements. To a certain
 *              degree, this is unavoidable for small synthetic benchmarks.
 *              Users of the benchmark are advised to check code listings
 *              whether code is generated for all statements of Dhrystone.
 *
 *              Version 2.1 is identical to version 2.0 distributed via
 *              the UNIX network Usenet in March 1988 except that it corrects
 *              some minor deficiencies that were found by users of version 2.0.
 *              The only change within the measurement loop is that a
 *              non-executed "else" part was added to the "if" statement in
 *              Func_3, and a non-executed "else" part removed from Proc_3.
 *
 ***************************************************************************
 *
 * Defines:     The following "Defines" are possible:
 *              -DREG=register          (default: Not defined)
 *                      As an approximation to what an average C programmer
 *                      might do, the "register" storage class is applied
 *                      (if enabled by -DREG=register)
 *                      - for local variables, if they are used (dynamically)
 *                        five or more times
 *                      - for parameters if they are used (dynamically)
 *                        six or more times
 *                      Note that an optimal "register" strategy is
 *                      compiler-dependent, and that "register" declarations
 *                      do not necessarily lead to faster execution.
 *              -DNOSTRUCTASSIGN        (default: Not defined)
 *                      Define if the C compiler does not support
 *                      assignment of structures.
 *              -DNOENUMS               (default: Not defined)
 *                      Define if the C compiler does not support
 *                      enumeration types.
 *              -DICACHEON              (default: Not defined)
 *                      Adjust performace by conditionally compiling 
 *                      these i960jx CACHE paramaters.
 *              -DICACHEOFF             
 *              -DDCACHEON              (default: Not defined)
 *              -DDCACHEOFF             
 *
 *         NOTE:  Galileo-5 Board Frequency is set to 33Mhz in the
 *                file jx-timer.c.  If the operating frequency is
 *                changed by replacing the crystal, then this #define
 *                must also be changed.
 *
 ***************************************************************************
 *
 *  Compilation model and measurement (IMPORTANT):
 *
 *  This C version of Dhrystone consists of four files:
 *  - dhry.h (this file, containing global definitions and comments)
 *  - dhry_1.c (containing the code corresponding to Ada package Pack_1)
 *  - dhry_2.c (containing the code corresponding to Ada package Pack_2)
 *  - jx-timer.c (containing the code to access the i960jx timer)
 *
 *  The following "ground rules" apply for measurements:
 *  - No procedure merging
 *  - Otherwise, compiler optimizations are allowed but should be indicated
 *  - Default results are those without register declarations
 *  See the companion paper "Rationale for Dhrystone Version 2" for a more
 *  detailed discussion of these ground rules.
 *
 *  For 16-Bit processors (e.g. 80186, 80286), times for all compilation
 *  models ("small", "medium", "large" etc.) should be given if possible,
 *  together with a definition of these models for the compiler system used.
 *
 *  Example Intel 960jx compile syntax for Galileo-5.
 *
 *  ic960 -AJA -Tgal5 -O2 -DREG=register dhry_1.c dhry_2.c jx-timer.c
 *
 **************************************************************************
 *
 *  Dhrystone (C version) statistics:
 *
 *  [Comment from the first distribution, updated for version 2.
 *   Note that because of language differences, the numbers are slightly
 *   different from the Ada version.]
 *
 *  The following program contains statements of a high level programming
 *  language (here: C) in a distribution considered representative:           
 *
 *    assignments                  52 (51.0 %)
 *    control statements           33 (32.4 %)
 *    procedure, function calls    17 (16.7 %)
 *
 *  103 statements are dynamically executed. The program is balanced with
 *  respect to the three aspects:                                             
 *
 *    - statement type
 *    - operand type
 *    - operand locality
 *         operand global, local, parameter, or constant.                     
 *
 *  The combination of these three aspects is balanced only approximately.    
 *
 *  1. Statement Type:                                                        
 *  -----------------             number
 *
 *     V1 = V2                     9
 *       (incl. V1 = F(..)
 *     V = Constant               12
 *     Assignment,                 7
 *       with array element
 *     Assignment,                 6
 *       with record component
 *                                --
 *                                34       34
 *
 *     X = Y +|-|"&&"|"|" Z        5
 *     X = Y +|-|"==" Constant     6
 *     X = X +|- 1                 3
 *     X = Y *|/ Z                 2
 *     X = Expression,             1
 *           two operators
 *     X = Expression,             1
 *           three operators
 *                                --
 *                                18       18
 *
 *     if ....                    14
 *       with "else"      7
 *       without "else"   7
 *           executed        3
 *           not executed    4
 *     for ...                     7  |  counted every time
 *     while ...                   4  |  the loop condition
 *     do ... while                1  |  is evaluated
 *     switch ...                  1
 *     break                       1
 *     declaration with            1
 *       initialization
 *                                --
 *                                34       34
 *
 *     P (...)  procedure call    11
 *       user procedure      10
 *       library procedure    1
 *     X = F (...)
 *             function  call      6
 *       user function        5                                         
 *       library function     1                                               
 *                                --                                          
 *                                17       17
 *                                        ---
 *                                        103
 *
 *    The average number of parameters in procedure or function calls
 *    is 1.82 (not counting the function values as implicit parameters).
 *
 *
 *  2. Operators
 *  ------------
 *                          number    approximate
 *                                    percentage
 *
 *    Arithmetic             32          50.8                                 
 *
 *       +                     21          33.3                              
 *       -                      7          11.1                              
 *       *                      3           4.8
 *       / (int div)            1           1.6
 *
 *    Comparison             27           42.8
 *
 *       ==                     9           14.3
 *       /=                     4            6.3
 *       >                      1            1.6
 *       <                      3            4.8
 *       >=                     1            1.6
 *       <=                     9           14.3
 *
 *    Logic                   4            6.3
 *
 *       && (AND-THEN)          1            1.6
 *       |  (OR)                1            1.6
 *       !  (NOT)               2            3.2
 * 
 *                           --          -----
 *                           63          100.1
 *
 *
 *  3. Operand Type (counted once per operand reference):
 *  ---------------
 *                          number    approximate
 *                                    percentage
 *
 *     Integer               175        72.3 %
 *     Character              45        18.6 %
 *     Pointer                12         5.0 %
 *     String30                6         2.5 %
 *     Array                   2         0.8 %
 *     Record                  2         0.8 %
 *                           ---       -------
 *                           242       100.0 %
 *
 *  When there is an access path leading to the final operand (e.g. a record
 *  component), only the final data type on the access path is counted.       
 *
 *
 *  4. Operand Locality:                                                      
 *  -------------------
 *                                number    approximate
 *                                          percentage
 *
 *     local variable              114        47.1 %
 *     global variable              22         9.1 %
 *     parameter                    45        18.6 %
 *        value                        23         9.5 %
 *        reference                    22         9.1 %
 *     function result               6         2.5 %
 *     constant                     55        22.7 %
 *                                 ---       -------
 *                                 242       100.0 %
 *
 *
 *  The program does not compute anything meaningful, but it is syntactically
 *  and semantically correct. All variables have a value assigned to them
 *  before they are used as a source operand.
 *
 *  There has been no explicit effort to account for the effects of a
 *  cache, or to balance the use of long or short displacements for code or
 *  data.
 *
 ***************************************************************************
 */

/* Compiler and system dependent definitions: */


#define Mic_secs_Per_Second     1000000.0
                /* Berkeley UNIX C returns process times in seconds/HZ */

#ifdef  NOSTRUCTASSIGN
#define structassign(d, s)      memcpy(&(d), &(s), sizeof(d))
#else
#define structassign(d, s)      d = s
#endif

#ifdef  NOENUM
#define Ident_1 0
#define Ident_2 1
#define Ident_3 2
#define Ident_4 3
#define Ident_5 4
  typedef int   Enumeration;
#else
  typedef       enum    {Ident_1, Ident_2, Ident_3, Ident_4, Ident_5}
                Enumeration;
#endif
        /* for boolean and enumeration types in Ada, Pascal */

/* General definitions: */

/* #include <stdio.h>
 */
                /* for strcpy, strcmp */

#define Null 0 
                /* Value of a Null pointer */
#define true  1
#define false 0

typedef int     One_Thirty;
typedef int     One_Fifty;
typedef char    Capital_Letter;
typedef int     Boolean;
typedef char    Str_30 [31];
typedef int     Arr_1_Dim [50];
typedef int     Arr_2_Dim [50] [50];

typedef struct record 
    {
    struct record *Ptr_Comp;
    Enumeration    Discr;
    union {
          struct {
                  Enumeration Enum_Comp;
                  int         Int_Comp;
                  char        Str_Comp [31];
                  } var_1;
          struct {
                  Enumeration E_Comp_2;
                  char        Str_2_Comp [31];
                  } var_2;
          struct {
                  char        Ch_1_Comp;
                  char        Ch_2_Comp;
                  } var_3;
          } variant;
      } Rec_Type, *Rec_Pointer;



//#define NUM_RUNS (20)
#ifdef CONSTANT
#define NUM_RUNS (CONSTANT)
#else
//#define NUM_RUNS (5000000)
#define NUM_RUNS (10000)
#endif
#define DLX_FREQ 1  /* in MHz */
#define PROC_6 0

void Ireport ( int c ) {
  // report(c);
}

#ifndef strcpy
char *strcpy (char *dst0, const char *src0)
{
  char *s = dst0;

  while ((*dst0++ = *src0++));

  return s;
}
#endif

#ifndef strcmp
int strcmp (const char *s1, const char *s2)
{
  while (*s1 && *s2 && *s1 == *s2) {
    s1++;
    s2++;
  }
  return (*(unsigned char *) s1) - (*(unsigned char *) s2);
}
#endif

#define DETECTNULL(X) (((X) - 0x01010101) & ~(X) & 0x80808080)
#define UNALIGNED(X, Y) \
  (((long)X & (sizeof (long) - 1)) | ((long)Y & (sizeof (long) - 1)))


/* 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];


  /* forward declaration necessary since Enumeration may not simply be int */

#ifndef REG
        Boolean Reg = false;
#define REG
        /* REG becomes defined as empty */
        /* i.e. no register variables   */
#else
        Boolean Reg = true;
#endif

/* variables for time measurement: */

#if DLX || OR1K
#define Too_Small_Time DLX_FREQ
#else
#define Too_Small_Time 1
#endif

#define TIMER (*(uint64_t volatile *)0x40004000)

#define Start_Timer() Begin_Time = TIMER
#define Stop_Timer()  End_Time   = TIMER

#define TIMER0 0
#define TIMER1 1





unsigned int	Begin_Time,
                End_Time,
                User_Time,
		Microseconds,
		Dhrystones_Per_Second;

/* end of variables for time measurement */


void Proc_1(REG Rec_Pointer Ptr_Val_Par);
void Proc_2(One_Fifty      *Int_Par_Ref);
void Proc_3(Rec_Pointer    *Ptr_Ref_Par);
void Proc_4();
void Proc_5();
void Proc_6(
    Enumeration     Enum_Val_Par,
    Enumeration    *Enum_Ref_Par);
void Proc_7(
    One_Fifty       Int_1_Par_Val,
    One_Fifty       Int_2_Par_Val,
    One_Fifty      *Int_Par_Ref);
void Proc_8(
    Arr_1_Dim       Arr_1_Par_Ref,
    Arr_2_Dim       Arr_2_Par_Ref,
    int             Int_1_Par_Val,
    int             Int_2_Par_Val);
Enumeration Func_1(Capital_Letter Ch_1_Par_Val,
                   Capital_Letter Ch_2_Par_Val);
Boolean Func_2(Str_30 Str_1_Par_Ref, Str_30 Str_2_Par_Ref);
Boolean Func_3(Enumeration     Enum_Par_Val);

int main (int argc, char *argv[])
/*****/

  /* main program, corresponds to procedures        */
  /* Main and Proc_0 in the Ada version             */
{
        One_Fifty       Int_1_Loc;
  REG   One_Fifty       Int_2_Loc=0;
        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;
  Rec_Type		x, y;

  /* Initializations */

  Next_Ptr_Glob = (Rec_Pointer) &x;
  Ptr_Glob = (Rec_Pointer) &y;

  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.                   */

/* Initalize Data and Instruction Cache */


  printf (" %c", '\n');
  printf ("Dhrystone Benchmark, Version 2.1 (Language: C)%c", '\n');
  printf (" %c", '\n');
  if (Reg)
  {
    printf ("Program compiled with 'register' attribute%c", '\n');
    printf (" %c", '\n');
  }
  else
  {
    printf ("Program compiled without 'register' attribute%c", '\n');
    printf (" %c", '\n');
  }

  Number_Of_Runs = (argc >= 2) ? atoi(argv[1]) : NUM_RUNS;

  printf ("Execution starts, %d runs through Dhrystone\n", Number_Of_Runs);

  /** Start */
  Start_Timer();

  for (Run_Index = 1; Run_Index <= Number_Of_Runs; ++Run_Index)
  {

	Ireport(1);
	Ireport(Run_Index);
    Proc_5();
	Ireport(2);
    Proc_4();
	Ireport(3);
      /* 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;
	Ireport(0x31);
	Ireport((unsigned long)Str_1_Loc);
	Ireport((unsigned long)Str_2_Loc);

    Bool_Glob = ! Func_2 (Str_1_Loc, Str_2_Loc);
      /* Bool_Glob == 1 */
	Ireport(4);
    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 */
	Ireport(5);
      /* Int_1_Loc == 3, Int_2_Loc == 3, Int_3_Loc == 7 */
#if DBG
      printf("a) Int_1_Loc: %x\n", Int_1_Loc);
      printf("a) Int_2_Loc: %x\n", Int_2_Loc);
      printf("a) Int_3_Loc: %x\n\n", Int_3_Loc);
#endif
    Proc_8 (Arr_1_Glob, Arr_2_Glob, Int_1_Loc, Int_3_Loc);
      /* Int_Glob == 5 */
#if DBG
      printf("b) Int_1_Loc: %x\n", Int_1_Loc);
      printf("b) Int_2_Loc: %x\n", Int_2_Loc);
      printf("b) Int_3_Loc: %x\n\n", Int_3_Loc);
#endif
	Ireport(6);

    Proc_1 (Ptr_Glob);
#if DBG
      printf("c) Int_1_Loc: %x\n", Int_1_Loc);
      printf("c) Int_2_Loc: %x\n", Int_2_Loc);
      printf("c) Int_3_Loc: %x\n\n", Int_3_Loc);
#endif
	Ireport(7);

    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;
#if DBG
      printf("d) Int_1_Loc: %x\n", Int_1_Loc);
      printf("d) Int_2_Loc: %x\n", Int_2_Loc);
      printf("d) Int_3_Loc: %x\n\n", Int_3_Loc);
#endif
        }
    }
    	Ireport(8);

      /* Int_1_Loc == 3, Int_2_Loc == 3, Int_3_Loc == 7 */
#if DBG
      printf("e) Int_1_Loc: %x\n", Int_1_Loc);
      printf("e) Int_2_Loc: %x\n", Int_2_Loc);
      printf("e) Int_3_Loc: %x\n", Int_3_Loc);
      printf("e) Ch_1_Glob: %c\n\n", Ch_1_Glob);
#endif
    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);
	Ireport(9);

      /* Int_1_Loc == 5 */
#if DBG
      printf("f) Int_1_Loc: %x\n", Int_1_Loc);
      printf("f) Int_2_Loc: %x\n", Int_2_Loc);
      printf("f) Int_3_Loc: %x\n\n", Int_3_Loc);
#endif

  } /* loop "for Run_Index" */


  printf ("Execution ends%c", '\n');
  printf (" %c", '\n');
  printf ("Final values of the variables used in the benchmark:%c", '\n');
  printf (" %c", '\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%c", '\n');
  printf ("Ptr_Glob->%c", '\n');
//  printf ("  Ptr_Comp:          %d\n", (int) Ptr_Glob->Ptr_Comp);
  printf ("        should be:   (implementation-dependent)%c", '\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%c", '\n');
  printf ("Next_Ptr_Glob->%c", '\n');
//  printf ("  Ptr_Comp:          %d\n", (int) Next_Ptr_Glob->Ptr_Comp);
  printf ("        should be:   (implementation-dependent), same as above%c", '\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%c", '\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%c", '\n');
  printf ("Str_2_Loc:           %s\n", Str_2_Loc);
  printf ("        should be:   DHRYSTONE PROGRAM, 2'ND STRING%c", '\n');


 Stop_Timer();

  User_Time = End_Time - Begin_Time;
 /* microseconds */

  printf("Begin Time = %d\n",Begin_Time);
  printf("End Time   = %d\n",End_Time);


  if (User_Time < Too_Small_Time)
  {
    printf ("Measured time too small to obtain meaningful results%c", '\n');
    printf ("Please increase number of runs%c", '\n');
    printf (" %c", '\n');
  }
  else
  {
#if DLX || OR1K
    User_Time /= DLX_FREQ;
#if DLX
    printf("DLX%c", ' ');
#else
#if OR1K
    printf("OR1K%c", ' ');
#else
    printf("Unknown CPU%c", '\n');
#endif
#endif
    printf("at %u MHz  ", DLX_FREQ);
    if (PROC_6)
	    printf("(+PROC_6) ");
    printf(" %c", '\n');
#endif
    Microseconds = User_Time / Number_Of_Runs;
    Dhrystones_Per_Second = Number_Of_Runs * 1000 / User_Time;
    printf ("Microseconds for one run through Dhrystone:%c", ' ');
    printf ("%d us / %d runs\n", User_Time,Number_Of_Runs);
    printf ("Dhrystones per Second:                     %c", ' ');
    printf ("%d \n", Dhrystones_Per_Second);
  }
  //report (0xdeaddead);
#ifdef MICROBLAZE
  void exit(int);
  exit(0);
#endif
  asm volatile ("EBREAK");

  return 0;
}


void 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           */

	Ireport(0x20010);

	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);
	Ireport(0x20011);
	/*
	 * 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);
	Ireport(0x20012);
	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);
	Ireport(0x20013);

}               /* Proc_1 */


void
  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 = 0;

	Ireport(0x20020);

	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 */


void
  Proc_3(Ptr_Ref_Par)
/******************/
 /* executed once */
 /* Ptr_Ref_Par becomes Ptr_Glob */

	Rec_Pointer    *Ptr_Ref_Par;

{
	Ireport(0x20030);

	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 */


void
  Proc_4()
{               /* without parameters */
	/*******/
	/* executed once */
	Boolean         Bool_Loc;

	Ireport(0x20040);

	Bool_Loc = Ch_1_Glob == 'A';
	Bool_Glob = Bool_Loc | Bool_Glob;
	Ch_2_Glob = 'B';
}               /* Proc_4 */


void
  Proc_5()
{               /* without parameters */
	/*******/
	/* executed once */
	Ireport(0x20050);

	Ch_1_Glob = 'A';
	Bool_Glob = false;
}               /* Proc_5 */

/* @(#)dhry_2.c	1.2 92/05/28 14:44:54, AMD */
/*
 ****************************************************************************
 *
 *                   "DHRYSTONE" Benchmark Program
 *                   -----------------------------
 *
 *  Version:    C, Version 2.1
 *
 *  File:       dhry_2.c (part 3 of 3)
 *
 *  Date:       May 25, 1988
 *
 *  Author:     Reinhold P. Weicker
 *
 ****************************************************************************
 */

#ifndef REG
#define REG
 /* REG becomes defined as empty */
 /* i.e. no register variables   */
#ifdef _AM29K
#undef REG
#define REG register	/* Define REG; saves room on 127-char MS-DOS cmd line */
#endif
#endif


void
  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;
{
#if PROC_6
	Ireport(0x20060);

    *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 */
#endif
    return;
}				/* Proc_6 */


void
  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;

	Ireport(0x20070);

    Int_Loc = Int_1_Par_Val + 2;
    *Int_Par_Ref = Int_2_Par_Val + Int_Loc;
}				/* Proc_7 */


void
  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;

#if DBG
      printf("X) Int_1_Par_Val: %x\n", Int_1_Par_Val);
      printf("X) Int_2_Par_Val: %x\n", Int_2_Par_Val);
#endif

	Ireport(0x20080);

    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;

#if DBG
      printf("Y) Int_1_Par_Val: %x\n", Int_1_Par_Val);
      printf("Y) Int_2_Par_Val: %x\n", Int_2_Par_Val);
#endif

}				/* 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;

	Ireport(0x30010);

    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 = 0;

	Ireport(0x30020);

    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 */
	Ireport(0x30021);

    if (Ch_Loc >= 'W' && Ch_Loc < 'Z')
	/* then, not executed */
	Int_Loc = 7;
	Ireport(0x30022);
    if (Ch_Loc == 'R')
	/* then, not executed */
	return (true);
    else {			/* executed */
	Ireport(0x30023);
	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;
	Ireport(0x30030);
    if (Enum_Loc == Ident_3)
	/* then, executed */
	return (true);
    else			/* not executed */
	return (false);
}				/* Func_3 */