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//============================================================================= //####UNSUPPORTEDBEGIN#### // // ------------------------------------------- // This source file has been contributed to eCos/Red Hat. It may have been // changed slightly to provide an interface consistent with those of other // files. // // The functionality and contents of this file is supplied "AS IS" // without any form of support and will not necessarily be kept up // to date by Red Hat. // // The style of programming used in this file may not comply with the // eCos programming guidelines. Please do not use as a base for other // files. // // All inquiries about this file, or the functionality provided by it, // should be directed to the 'ecos-discuss' mailing list (see // http://sourceware.cygnus.com/ecos/intouch.html for details). // // ------------------------------------------- // //####UNSUPPORTEDEND#### //============================================================================= // Originally three different files, dhry.h, dhry21a.c and dhry21b.c // Merged into one file and changed a little to avoid compilation warnings. // The files were found at: // FTP ftp.nosc.mil/pub/aburto/dhrystone //============================================================================= #include <pkgconf/system.h> #include <pkgconf/infra.h> #include <pkgconf/kernel.h> #include <cyg/infra/cyg_type.h> #include <cyg/infra/testcase.h> #if !defined(CYGPKG_ISOINFRA) # define NA_MSG "Requires CYGPKG_ISOINFRA" #else # include <pkgconf/isoinfra.h> # if !defined(CYGFUN_KERNEL_API_C) \ || !defined(CYGINT_ISO_STDIO_FORMATTED_IO) \ || CYGINT_ISO_MALLOC == 0 \ || !defined(CYGINT_ISO_STRING_STRFUNCS) # define NA_MSG "Requires CYGFUN_KERNEL_API_C && CYGINT_ISO_STDIO_FORMATTED_IO && CYGINT_ISO_MALLOC && CYGINT_ISO_STRING_STRFUNCS" # elif !defined(__OPTIMIZE__) \ || defined(CYGPKG_INFRA_DEBUG) \ || defined(CYGPKG_KERNEL_INSTRUMENT) # define NA_MSG "Only runs with optimized code, no tracing and no asserts" # elif defined(CYGDBG_INFRA_DIAG_USE_DEVICE) # define NA_MSG "Must use HAL diag output to avoid background DSR activity" # endif #endif #ifndef NA_MSG #include <cyg/hal/hal_cache.h> #include <cyg/kernel/kapi.h> #include <stdlib.h> #include <string.h> // Time in seconds. double dtime(void) { return (double) cyg_current_time() / 100; } // Number of loops to run. #if defined(CYGPRI_KERNEL_TESTS_DHRYSTONE_PASSES) # define PASSES CYGPRI_KERNEL_TESTS_DHRYSTONE_PASSES #else # define PASSES 400000 #endif // Used in the code below to mark changes to the code. #define __ECOS__ #undef true #undef false /* ************************************************************************* * * "DHRYSTONE" Benchmark Program * ----------------------------- * * Version: C, Version 2.1 * * File: dhry.h (part 1 of 3) * * Date: May 25, 1988 * * Author: Reinhold P. Weicker * Siemens Nixdorf Inf. Syst. * STM OS 32 * Otto-Hahn-Ring 6 * W-8000 Muenchen 83 * Germany * Phone: [+49]-89-636-42436 * (8-17 Central European Time) * UUCP: weicker@ztivax.uucp@unido.uucp * Internet: weicker@ztivax.siemens.com * * 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) * * Collection of Results: * Reinhold Weicker (address see above) and * * Rick Richardson * PC Research. Inc. * 94 Apple Orchard Drive * Tinton Falls, NJ 07724 * Phone: (201) 834-1378 (9-17 EST) * UUCP: ...!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: * -DROPT (default: Not defined) * As an approximation to what an average C * programmer might do, the "register" storage class * is applied (if enabled by -DROPT) * - 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. * ************************************************************************* * * Compilation model and measurement (IMPORTANT): * * This C version of Dhrystone consists of three 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) * * The following "ground rules" apply for measurements: * - Separate compilation * - 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. * ************************************************************************* * * 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; #ifdef __ECOS__ #ifndef ROPT #define REG /* REG becomes defined as empty */ /* i.e. no register variables */ #else #define REG register #endif Boolean Func_2 (Str_30 Str_1_Par_Ref, Str_30 Str_2_Par_Ref); Boolean Func_3 (Enumeration Enum_Par_Val); 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); void Proc_5 (void); 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); #endif // __ECOS__ /* ************************************************************************* * * "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> #ifndef __ECOS__ #include "dhry.h" #endif // __ECOS__ /* 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."; #ifndef __ECOS__ extern char *malloc (); Enumeration Func_1 (); #endif /* forward declaration necessary since Enumeration may not simply be int */ #ifndef __ECOS__ #ifndef ROPT #define REG /* REG becomes defined as empty */ /* i.e. no register variables */ #else #define REG register #endif #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 */ #ifndef __ECOS__ void main () #else // __ECOS__ int main (void) #endif // __ECOS__ /*****/ /* main program, corresponds to procedures */ /* Main and Proc_0 in the Ada version */ { #ifndef __ECOS__ double dtime(); #endif // __ECOS__ 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; #ifdef __ECOS__ CYG_TEST_INIT(); #ifdef CYG_HAL_I386_LINUX CYG_TEST_NA("Only runs on hardware..."); #else if (cyg_test_is_simulator) CYG_TEST_NA("Only runs on hardware..."); #endif #else // __ECOS__ FILE *Ap; /* Initializations */ if ((Ap = fopen("dhry.res","a+")) == NULL) { printf("Can not open dhry.res\n\n"); exit(1); } #endif // __ECOS__ 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. */ printf ("\n"); printf ("Dhrystone Benchmark, Version 2.1 (Language: C)\n"); printf ("\n"); /* if (Reg) { printf ("Program compiled with 'register' attribute\n"); printf ("\n"); } else { printf ("Program compiled without 'register' attribute\n"); printf ("\n"); } */ #ifdef __ECOS__ Number_Of_Runs = PASSES; #else // __ECOS__ printf ("Please give the number of runs through the benchmark: "); { int n; scanf ("%d", &n); Number_Of_Runs = n; } printf ("\n"); #endif // __ECOS__ printf ("Execution starts, %d runs through Dhrystone\n",Number_Of_Runs); /***************/ /* 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) { printf ("Measured time too small to obtain meaningful results\n"); printf ("Please increase number of runs\n"); printf ("\n"); } 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"); #ifndef __ECOS__ strcpy(Reg_Define, "Register option not selected."); #endif // __ECOS__ #endif printf ("Microseconds for one run through Dhrystone: "); #ifdef __ECOS__ printf ("%7.1f \n", Microseconds); printf ("Dhrystones per Second: "); printf ("%10.1f \n", Dhrystones_Per_Second); printf ("VAX MIPS rating = %10.3f \n",Vax_Mips); printf ("\n"); #else // __ECOS__ 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"); 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); #endif // __ECOS__ } #ifdef __ECOS__ CYG_TEST_PASS_FINISH("Dhrystone test"); #endif // __ECOS__ } #ifdef __ECOS__ void #endif // __ECOS__ 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 */ #ifdef __ECOS__ void #endif // __ECOS__ Proc_2 (Int_Par_Ref) /******************/ /* executed once */ /* *Int_Par_Ref == 1, becomes 4 */ One_Fifty *Int_Par_Ref; { One_Fifty Int_Loc; #ifdef __ECOS__ Enumeration Enum_Loc = Ident_1; #else // __ECOS__ Enumeration Enum_Loc; #endif // __ECOS__ 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 */ #ifdef __ECOS__ void #endif // __ECOS__ 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 */ #ifdef __ECOS__ void #endif // __ECOS__ 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 */ #ifdef __ECOS__ void #endif // __ECOS__ 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 /* ************************************************************************* * * "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 __ECOS__ #include "dhry.h" #ifndef REG #define REG /* REG becomes defined as empty */ /* i.e. no register variables */ #else #define REG register #endif #endif // __ECOS__ extern int Int_Glob; extern char Ch_1_Glob; #ifdef __ECOS__ void #endif // __ECOS__ 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 */ #ifdef __ECOS__ void #endif // __ECOS__ 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 */ #ifdef __ECOS__ void #endif // __ECOS__ 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; #ifdef __ECOS__ Capital_Letter Ch_Loc = 'A'; #else // __ECOS__ Capital_Letter Ch_Loc; #endif // __ECOS__ 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 */ #else /* ifndef NA_MSG */ externC void cyg_start( void ) { CYG_TEST_INIT(); CYG_TEST_NA(NA_MSG); } #endif