d08c2860da
ysyx_22040000 李心杨 Linux calcite 6.6.19 #1-NixOS SMP PREEMPT_DYNAMIC Fri Mar 1 12:35:11 UTC 2024 x86_64 GNU/Linux 16:26:21 up 4 days 3:32, 2 users, load average: 0.85, 0.91, 0.95
950 lines
32 KiB
C
950 lines
32 KiB
C
/****************** "DHRYSTONE" Benchmark Program ***************************/
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#define Version "C, Version 2.2"
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/* File: dhry_1.c (part 2 of 3)
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* Author: Reinhold P. Weicker
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* Siemens Nixdorf, Paderborn/Germany
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* weicker@specbench.org
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* Date: May 25, 1988
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* Modified: Steven Pemberton, CWI, Amsterdam; Steven.Pemberton@cwi.nl
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* Date: October, 1993; March 1995
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* Included both files into one source, that gets compiled
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* in two passes. Made program auto-compiling, and auto-running,
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* and generally made it much easier to use.
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*
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* Original Version (in Ada) published in
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* "Communications of the ACM" vol. 27., no. 10 (Oct. 1984),
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* pp. 1013 - 1030, together with the statistics
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* on which the distribution of statements etc. is based.
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*
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* In this C version, the following C library functions are used:
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* - strcpy, strcmp (inside the measurement loop)
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* - printf, scanf (outside the measurement loop)
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* In addition, Berkeley UNIX system calls "times ()" or "time ()"
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* are used for execution time measurement. For measurements
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* on other systems, these calls have to be changed.
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*
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* Collection of Results:
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* Reinhold Weicker (address see above) and
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*
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* Rick Richardson
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* PC Research. Inc.
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* 94 Apple Orchard Drive
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* Tinton Falls, NJ 07724
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* Phone: (201) 389-8963 (9-17 EST)
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* Usenet: ...!uunet!pcrat!rick
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*
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* Please send results to Rick Richardson and/or Reinhold Weicker.
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* Complete information should be given on hardware and software used.
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* Hardware information includes: Machine type, CPU, type and size
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* of caches; for microprocessors: clock frequency, memory speed
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* (number of wait states).
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* Software information includes: Compiler (and runtime library)
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* manufacturer and version, compilation switches, OS version.
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* The Operating System version may give an indication about the compiler;
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* Dhrystone itself performs no OS calls in the measurement loop.
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*
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* The complete output generated by the program should be mailed
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* such that at least some checks for correctness can be made.
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*
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***************************************************************************
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*
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* Defines: The following "Defines" are possible:
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* -DREG (default: Not defined)
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* As an approximation to what an average C programmer
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* might do, causes the "register" storage class to be applied
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* - for local variables, if they are used (dynamically)
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* five or more times
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* - for parameters if they are used (dynamically)
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* six or more times
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* Note that an optimal "register" strategy is
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* compiler-dependent, and that "register" declarations
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* do not necessarily lead to faster execution.
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* -DNOSTRUCTASSIGN (default: Not defined)
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* Define if the C compiler does not support
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* assignment of structures.
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* -DNOENUMS (default: Not defined)
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* Define if the C compiler does not support
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* enumeration types.
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* -DTIMES (default)
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* -DTIME
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* The "times" function of UNIX (returning process times)
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* or the "time" function (returning wallclock time)
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* is used for measurement.
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* For single user machines, "time ()" is adequate. For
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* multi-user machines where you cannot get single-user
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* access, use the "times ()" function. If you have
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* neither, use a stopwatch in the dead of night.
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* "printf"s are provided marking the points "Start Timer"
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* and "Stop Timer". DO NOT use the UNIX "time(1)"
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* command, as this will measure the total time to
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* run this program, which will (erroneously) include
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* the time to allocate storage (malloc) and to perform
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* the initialization.
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* -DHZ=nnn
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* In Berkeley UNIX, the function "times" returns process
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* time in 1/HZ seconds, with HZ = 60 for most systems.
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* CHECK YOUR SYSTEM DESCRIPTION BEFORE YOU JUST APPLY
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* A VALUE.
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*
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***************************************************************************
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*
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* History: Version C/2.1 was made for two reasons:
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*
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* 1) There was an obvious need for a common C version of
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* Dhrystone, since C is at present the most popular system
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* programming language for the class of processors
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* (microcomputers, minicomputers) where Dhrystone is used most.
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* There should be, as far as possible, only one C version of
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* Dhrystone such that results can be compared without
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* restrictions. In the past, the C versions distributed
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* by Rick Richardson (Version 1.1) and by Reinhold Weicker
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* had small (though not significant) differences.
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*
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* 2) As far as it is possible without changes to the Dhrystone
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* statistics, optimizing compilers should be prevented from
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* removing significant statements.
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*
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* This C version has been developed in cooperation with
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* Rick Richardson (Tinton Falls, NJ), it incorporates many
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* ideas from the "Version 1.1" distributed previously by
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* him over the UNIX network Usenet.
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* I also thank Chaim Benedelac (National Semiconductor),
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* David Ditzel (SUN), Earl Killian and John Mashey (MIPS),
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* Alan Smith and Rafael Saavedra-Barrera (UC at Berkeley)
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* for their help with comments on earlier versions of the
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* benchmark.
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*
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* Changes: In the initialization part, this version follows mostly
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* Rick Richardson's version distributed via Usenet, not the
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* version distributed earlier via floppy disk by Reinhold Weicker.
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* As a concession to older compilers, names have been made
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* unique within the first 8 characters.
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* Inside the measurement loop, this version follows the
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* version previously distributed by Reinhold Weicker.
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*
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* At several places in the benchmark, code has been added,
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* but within the measurement loop only in branches that
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* are not executed. The intention is that optimizing compilers
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* should be prevented from moving code out of the measurement
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* loop, or from removing code altogether. Since the statements
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* that are executed within the measurement loop have NOT been
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* changed, the numbers defining the "Dhrystone distribution"
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* (distribution of statements, operand types and locality)
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* still hold. Except for sophisticated optimizing compilers,
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* execution times for this version should be the same as
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* for previous versions.
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*
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* Since it has proven difficult to subtract the time for the
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* measurement loop overhead in a correct way, the loop check
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* has been made a part of the benchmark. This does have
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* an impact - though a very minor one - on the distribution
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* statistics which have been updated for this version.
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*
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* All changes within the measurement loop are described
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* and discussed in the companion paper "Rationale for
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* Dhrystone version 2".
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*
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* Because of the self-imposed limitation that the order and
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* distribution of the executed statements should not be
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* changed, there are still cases where optimizing compilers
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* may not generate code for some statements. To a certain
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* degree, this is unavoidable for small synthetic benchmarks.
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* Users of the benchmark are advised to check code listings
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* whether code is generated for all statements of Dhrystone.
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*
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* Version 2.1 is identical to version 2.0 distributed via
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* the UNIX network Usenet in March 1988 except that it corrects
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* some minor deficiencies that were found by users of version 2.0.
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* The only change within the measurement loop is that a
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* non-executed "else" part was added to the "if" statement in
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* Func_3, and a non-executed "else" part removed from Proc_3.
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*
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* Version C/2.2, Steven Pemberton, October 1993
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* Functionally, identical to version 2.2; the changes are in
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* how you compile and use it:
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* - Everything is in one file now, but compiled in 2 passes
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* - Compile (and run) by running the file through the shell: 'sh dhry.c"
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* - Uses the system definition of HZ if one can be found
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* - HZ must be defined, otherwise it won't compile (no defaults here)
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* - The (uninteresting) output is printed to stderr (dhry2 > /dev/null)
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* - The number of loops is passed as a parameter, rather than read
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* (dhry2 500000)
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* - If the number of loops is insufficient to get a good result,
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* it repeats it with loops*10 until it is enough (rather than just
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* stopping)
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* - Output says which sort of clock it is using, and the HZ value
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* - You can use -DREG instead of the -DREG=register of previous versions
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* - Some stylistic cleanups.
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*
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***************************************************************************
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*
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* Compilation model and measurement (IMPORTANT):
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*
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* The following "ground rules" apply for measurements:
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* - Separate compilation
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* - No procedure merging
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* - Otherwise, compiler optimizations are allowed but should be indicated
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* - Default results are those without register declarations
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* See the companion paper "Rationale for Dhrystone Version 2" for a more
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* detailed discussion of these ground rules.
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*
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* For 16-Bit processors (e.g. 80186, 80286), times for all compilation
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* models ("small", "medium", "large" etc.) should be given if possible,
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* together with a definition of these models for the compiler system used.
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*
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**************************************************************************
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*
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* Dhrystone (C version) statistics:
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*
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* [Comment from the first distribution, updated for version 2.
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* Note that because of language differences, the numbers are slightly
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* different from the Ada version.]
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*
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* The following program contains statements of a high level programming
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* language (here: C) in a distribution considered representative:
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*
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* assignments 52 (51.0 %)
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* control statements 33 (32.4 %)
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* procedure, function calls 17 (16.7 %)
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*
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* 103 statements are dynamically executed. The program is balanced with
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* respect to the three aspects:
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*
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* - statement type
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* - operand type
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* - operand locality
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* operand global, local, parameter, or constant.
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*
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* The combination of these three aspects is balanced only approximately.
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*
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* 1. Statement Type:
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* ----------------- number
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*
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* V1 = V2 9
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* (incl. V1 = F(..)
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* V = Constant 12
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* Assignment, 7
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* with array element
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* Assignment, 6
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* with record component
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* --
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* 34 34
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*
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* X = Y +|-|"&&"|"|" Z 5
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* X = Y +|-|"==" Constant 6
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* X = X +|- 1 3
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* X = Y *|/ Z 2
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* X = Expression, 1
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* two operators
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* X = Expression, 1
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* three operators
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* --
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* 18 18
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*
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* if .... 14
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* with "else" 7
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* without "else" 7
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* executed 3
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* not executed 4
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* for ... 7 | counted every time
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* while ... 4 | the loop condition
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* do ... while 1 | is evaluated
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* switch ... 1
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* break 1
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* declaration with 1
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* initialization
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* --
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* 34 34
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*
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* P (...) procedure call 11
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* user procedure 10
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* library procedure 1
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* X = F (...)
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* function call 6
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* user function 5
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* library function 1
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* --
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* 17 17
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* ---
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* 103
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*
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* The average number of parameters in procedure or function calls
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* is 1.82 (not counting the function values aX *
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*
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* 2. Operators
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* ------------
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* number approximate
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* percentage
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*
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* Arithmetic 32 50.8
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*
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* + 21 33.3
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* - 7 11.1
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* * 3 4.8
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* / (int div) 1 1.6
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*
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* Comparison 27 42.8
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*
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* == 9 14.3
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* /= 4 6.3
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* > 1 1.6
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* < 3 4.8
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* >= 1 1.6
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* <= 9 14.3
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*
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* Logic 4 6.3
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*
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* && (AND-THEN) 1 1.6
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* | (OR) 1 1.6
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* ! (NOT) 2 3.2
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*
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* -- -----
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* 63 100.1
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*
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*
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* 3. Operand Type (counted once per operand reference):
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* ---------------
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* number approximate
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* percentage
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*
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* Integer 175 72.3 %
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* Character 45 18.6 %
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* Pointer 12 5.0 %
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* String30 6 2.5 %
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* Array 2 0.8 %
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* Record 2 0.8 %
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* --- -------
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* 242 100.0 %
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*
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* When there is an access path leading to the final operand (e.g. a record
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* component), only the final data type on the access path is counted.
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*
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*
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* 4. Operand Locality:
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* -------------------
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* number approximate
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* percentage
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*
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* local variable 114 47.1 %
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* global variable 22 9.1 %
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* parameter 45 18.6 %
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* value 23 9.5 %
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* reference 22 9.1 %
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* function result 6 2.5 %
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* constant 55 22.7 %
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* --- -------
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* 242 100.0 %
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*
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* The program does not compute anything meaningful, but it is syntactically
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* and semantically correct. All variables have a value assigned to them
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* before they are used as a source operand.
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*
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* There has been no explicit effort to account for the effects of a
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* cache, or to balance the use of long or short displacements for code or
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* data.
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*
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***************************************************************************
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*/
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/* Compiler and system dependent definitions: */
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/* variables for time measurement: */
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#include <am.h>
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#include <klib.h>
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#include <klib-macros.h>
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static uint32_t uptime_ms() { return io_read(AM_TIMER_UPTIME).us / 1000; }
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#define Start_Timer() Begin_Time = uptime_ms()
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#define Stop_Timer() End_Time = uptime_ms()
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#define NUMBER_OF_RUNS 500000 /* Default number of runs */
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#define PASS2
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#ifdef NOSTRUCTASSIGN
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#define structassign(d, s) memcpy(&(d), &(s), sizeof(d))
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#else
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#define structassign(d, s) d = s
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#endif
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#ifdef NOENUM
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#define Ident_1 0
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#define Ident_2 1
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#define Ident_3 2
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#define Ident_4 3
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#define Ident_5 4
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typedef int Enumeration;
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#else
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typedef enum {Ident_1, Ident_2, Ident_3, Ident_4, Ident_5}
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Enumeration;
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#endif
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/* for boolean and enumeration types in Ada, Pascal */
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/* General definitions: */
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#define Null 0
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/* Value of a Null pointer */
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typedef int One_Thirty;
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typedef int One_Fifty;
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typedef char Capital_Letter;
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typedef int Boolean;
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typedef char Str_30 [31];
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typedef int Arr_1_Dim [50];
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typedef int Arr_2_Dim [50] [50];
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typedef struct record
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{
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struct record *Ptr_Comp;
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Enumeration Discr;
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union {
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struct {
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Enumeration Enum_Comp;
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int Int_Comp;
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char Str_Comp [31];
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} var_1;
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struct {
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Enumeration E_Comp_2;
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char Str_2_Comp [31];
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} var_2;
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struct {
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char Ch_1_Comp;
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char Ch_2_Comp;
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} var_3;
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} variant;
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} Rec_Type, *Rec_Pointer;
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/* Global Variables: */
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Rec_Pointer Ptr_Glob,
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Next_Ptr_Glob;
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int Int_Glob;
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Boolean Bool_Glob;
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char Ch_1_Glob,
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Ch_2_Glob;
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int Arr_1_Glob [50];
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int Arr_2_Glob [50] [50];
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Enumeration Func_1 ();
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/* forward declaration necessary since Enumeration may not simply be int */
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#ifndef REG
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Boolean Reg = false;
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#define REG
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/* REG becomes defined as empty */
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/* i.e. no register variables */
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#else
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Boolean Reg = true;
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#undef REG
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#define REG register
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#endif
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Boolean Done;
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long Begin_Time,
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End_Time,
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User_Time;
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float Microseconds,
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Dhrystones_Per_Second;
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/* end of variables for time measurement */
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static char memory[1024];
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static char *free_mem = &memory[0];
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static char* myalloc(size_t size) {
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while ((unsigned long)free_mem % 4 != 0) free_mem ++;
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char *ret = free_mem;
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free_mem += size;
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return ret;
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}
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void Proc_6 (Enumeration, Enumeration*);
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void Proc_3 (Rec_Pointer*);
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void Proc_7 (One_Fifty a, One_Fifty b, One_Fifty* c);
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Boolean Func_2 (Str_30, Str_30);
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void Proc_8(Arr_1_Dim, Arr_2_Dim, int, int);
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Boolean Func_3 (Enumeration);
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void Proc_1 (Ptr_Val_Par)
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/******************/
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REG Rec_Pointer Ptr_Val_Par;
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/* executed once */
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{
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REG Rec_Pointer Next_Record = Ptr_Val_Par->Ptr_Comp;
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/* == Ptr_Glob_Next */
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/* Local variable, initialized with Ptr_Val_Par->Ptr_Comp, */
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/* corresponds to "rename" in Ada, "with" in Pascal */
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structassign (*Ptr_Val_Par->Ptr_Comp, *Ptr_Glob);
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Ptr_Val_Par->variant.var_1.Int_Comp = 5;
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Next_Record->variant.var_1.Int_Comp
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= Ptr_Val_Par->variant.var_1.Int_Comp;
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Next_Record->Ptr_Comp = Ptr_Val_Par->Ptr_Comp;
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Proc_3 (&Next_Record->Ptr_Comp);
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/* Ptr_Val_Par->Ptr_Comp->Ptr_Comp
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== Ptr_Glob->Ptr_Comp */
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if (Next_Record->Discr == Ident_1)
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/* then, executed */
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{
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Next_Record->variant.var_1.Int_Comp = 6;
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Proc_6 (Ptr_Val_Par->variant.var_1.Enum_Comp,
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&Next_Record->variant.var_1.Enum_Comp);
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Next_Record->Ptr_Comp = Ptr_Glob->Ptr_Comp;
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Proc_7 (Next_Record->variant.var_1.Int_Comp, 10,
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&Next_Record->variant.var_1.Int_Comp);
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}
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else /* not executed */
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structassign (*Ptr_Val_Par, *Ptr_Val_Par->Ptr_Comp);
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} /* Proc_1 */
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void Proc_2 (Int_Par_Ref)
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/******************/
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/* executed once */
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/* *Int_Par_Ref == 1, becomes 4 */
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One_Fifty *Int_Par_Ref;
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{
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One_Fifty Int_Loc;
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|
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 */
|
|
|
|
|
|
void 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 */
|
|
|
|
|
|
void 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 */
|
|
|
|
|
|
void 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
|
|
|
|
|
|
#ifndef REG
|
|
#define REG
|
|
/* REG becomes defined as empty */
|
|
/* i.e. no register variables */
|
|
#else
|
|
#undef REG
|
|
#define REG register
|
|
#endif
|
|
|
|
extern int Int_Glob;
|
|
extern char Ch_1_Glob;
|
|
|
|
|
|
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;
|
|
{
|
|
*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 */
|
|
|
|
|
|
void Proc_7 (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 */
|
|
|
|
|
|
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;
|
|
|
|
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)
|
|
{
|
|
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 */
|
|
|
|
|
|
Boolean pass = true;
|
|
Boolean check(int cond) {
|
|
if (!cond) pass = false;
|
|
return cond;
|
|
}
|
|
int main ()
|
|
/*****/
|
|
|
|
/* 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;
|
|
|
|
ioe_init();
|
|
|
|
Number_Of_Runs = NUMBER_OF_RUNS;
|
|
|
|
/* Initializations */
|
|
|
|
Next_Ptr_Glob = (Rec_Pointer) myalloc (sizeof (Rec_Type));
|
|
Ptr_Glob = (Rec_Pointer) myalloc (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 ("Dhrystone Benchmark, Version %s\n", Version);
|
|
|
|
Done = false;
|
|
while (!Done) {
|
|
|
|
printf ("Trying %d runs through Dhrystone.\n", Number_Of_Runs);
|
|
|
|
/***************/
|
|
/* Start timer */
|
|
/***************/
|
|
|
|
Start_Timer();
|
|
|
|
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 */
|
|
/**************/
|
|
|
|
Stop_Timer();
|
|
|
|
User_Time = End_Time - Begin_Time;
|
|
|
|
Done = true;
|
|
}
|
|
|
|
if (!check(Int_Glob == 5)) {
|
|
printf("Int_Glob: %d\n", Int_Glob);
|
|
printf(" should be: %d\n", 5);
|
|
}
|
|
if (!check(Bool_Glob == 1)) {
|
|
printf("Bool_Glob: %d\n", Bool_Glob);
|
|
printf(" should be: %d\n", 1);
|
|
}
|
|
if (!check(Ch_1_Glob == 'A')) {
|
|
printf("Ch_1_Glob: %c\n", Ch_1_Glob);
|
|
printf(" should be: %c\n", 'A');
|
|
}
|
|
if (!check(Ch_2_Glob == 'B')) {
|
|
printf("Ch_2_Glob: %c\n", Ch_2_Glob);
|
|
printf(" should be: %c\n", 'B');
|
|
}
|
|
if (!check(Arr_1_Glob[8] == 7)) {
|
|
printf("Arr_1_Glob[8]: %d\n", Arr_1_Glob[8]);
|
|
printf(" should be: %d\n", 7);
|
|
}
|
|
if (!check(Arr_2_Glob[8][7] == Number_Of_Runs + 10)) {
|
|
printf("Arr_2_Glob[8][7]: %d\n", Arr_2_Glob[8][7]);
|
|
printf(" should be: Number_Of_Runs + 10\n");
|
|
}
|
|
|
|
if (!check((int)Ptr_Glob->Discr == 0)) {
|
|
printf("Ptr_Glob->Discr: %d\n", Ptr_Glob->Discr);
|
|
printf(" should be: %d\n", 0);
|
|
}
|
|
if (!check(Ptr_Glob->variant.var_1.Enum_Comp == 2)) {
|
|
printf("Ptr_Glob->Enum_Comp: %d\n", Ptr_Glob->variant.var_1.Enum_Comp);
|
|
printf(" should be: %d\n", 2);
|
|
}
|
|
if (!check(Ptr_Glob->variant.var_1.Int_Comp == 17)) {
|
|
printf("Ptr_Glob->Int_Comp: %d\n", Ptr_Glob->variant.var_1.Int_Comp);
|
|
printf(" should be: %d\n", 17);
|
|
}
|
|
if (!check(strcmp(Ptr_Glob->variant.var_1.Str_Comp, "DHRYSTONE PROGRAM, SOME STRING") == 0)) {
|
|
printf("Ptr_Glob->Str_Comp: %s\n", Ptr_Glob->variant.var_1.Str_Comp);
|
|
printf(" should be: DHRYSTONE PROGRAM, SOME STRING\n");
|
|
}
|
|
|
|
if (!check((int)Next_Ptr_Glob->Discr == 0)) {
|
|
printf("Next_Ptr_Glob->Discr: %d\n", Next_Ptr_Glob->Discr);
|
|
printf(" should be: %d\n", 0);
|
|
}
|
|
if (!check(Next_Ptr_Glob->variant.var_1.Enum_Comp == 1)) {
|
|
printf("Next_Ptr_Glob->Enum_Comp: %d\n", Next_Ptr_Glob->variant.var_1.Enum_Comp);
|
|
printf(" should be: %d\n", 1);
|
|
}
|
|
if (!check(Next_Ptr_Glob->variant.var_1.Int_Comp == 18)) {
|
|
printf("Next_Ptr_Glob->Int_Comp: %d\n", Next_Ptr_Glob->variant.var_1.Int_Comp);
|
|
printf(" should be: %d\n", 18);
|
|
}
|
|
if (!check(strcmp(Next_Ptr_Glob->variant.var_1.Str_Comp, "DHRYSTONE PROGRAM, SOME STRING") == 0)) {
|
|
printf("Next_Ptr_Glob->Str_Comp: %s\n", Next_Ptr_Glob->variant.var_1.Str_Comp);
|
|
printf(" should be: DHRYSTONE PROGRAM, SOME STRING\n");
|
|
}
|
|
|
|
if (!check(Int_1_Loc == 5)) {
|
|
printf("Int_1_Loc: %d\n", Int_1_Loc);
|
|
printf(" should be: %d\n", 5);
|
|
}
|
|
if (!check(Int_2_Loc == 13)) {
|
|
printf("Int_2_Loc: %d\n", Int_2_Loc);
|
|
printf(" should be: %d\n", 13);
|
|
}
|
|
if (!check(Int_3_Loc == 7)) {
|
|
printf("Int_3_Loc: %d\n", Int_3_Loc);
|
|
printf(" should be: %d\n", 7);
|
|
}
|
|
if (!check(Enum_Loc == 1)) {
|
|
printf("Enum_Loc: %d\n", Enum_Loc);
|
|
printf(" should be: %d\n", 1);
|
|
}
|
|
|
|
if (!check(strcmp(Str_1_Loc, "DHRYSTONE PROGRAM, 1'ST STRING") == 0)) {
|
|
printf("Str_1_Loc: %s\n", Str_1_Loc);
|
|
printf(" should be: DHRYSTONE PROGRAM, 1'ST STRING\n");
|
|
}
|
|
if (!check(strcmp(Str_2_Loc, "DHRYSTONE PROGRAM, 2'ND STRING") == 0)) {
|
|
printf("Str_2_Loc: %s\n", Str_2_Loc);
|
|
printf(" should be: DHRYSTONE PROGRAM, 2'ND STRING\n");
|
|
}
|
|
|
|
printf ("Finished in %d ms\n", (int)User_Time);
|
|
printf("==================================================\n");
|
|
printf("Dhrystone %s %d Marks\n", pass ? "PASS" : "FAIL",
|
|
880900 / (int)User_Time * NUMBER_OF_RUNS/ 500000);
|
|
printf(" vs. 100000 Marks (i7-7700K @ 4.20GHz)\n");
|
|
|
|
return (pass ? 0 : 1);
|
|
}
|
|
|
|
|