stasis-aries-wal/test/stasis/check_kiss.c
Gregory Burd 3a559a3b3c merge in changes from svn[r1572..r1601]
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r1601 | sears.russell@gmail.com | 2012-03-20 18:43:00 -0400 (Tue, 20
Mar 2012) | 1 line

commit bLSM bloom filter to stasis/util, which is where it really
belongs
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r1600 | sears.russell@gmail.com | 2012-03-04 01:58:38 -0500 (Sun, 04
Mar 2012) | 1 line

fix memory leak in skiplist unit test (now it is valgrind clean)
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r1599 | sears.russell@gmail.com | 2012-03-04 01:58:05 -0500 (Sun, 04
Mar 2012) | 1 line

fix typo in finalize type
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r1598 | sears.russell@gmail.com | 2012-03-04 00:59:59 -0500 (Sun, 04
Mar 2012) | 1 line

add comparator and finalizer parameters to skiplist constructor
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r1597 | sears.russell@gmail.com | 2012-03-03 18:23:16 -0500 (Sat, 03
Mar 2012) | 1 line

bugfixes for skiplist
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r1596 | sears.russell@gmail.com | 2012-03-02 15:05:07 -0500 (Fri, 02
Mar 2012) | 1 line

updated concurrentSkipList.  Seeing strange crashes
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r1595 | sears.russell@gmail.com | 2012-03-01 16:51:59 -0500 (Thu, 01
Mar 2012) | 1 line

add progress reports
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r1594 | sears.russell@gmail.com | 2012-02-28 13:17:05 -0500 (Tue, 28
Feb 2012) | 1 line

experimental support for automatic logfile preallocation
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r1593 | sears.russell@gmail.com | 2012-02-28 12:10:01 -0500 (Tue, 28
Feb 2012) | 1 line

add histogram reporting to rawIOPS benchmark
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r1592 | sears.russell@gmail.com | 2012-02-24 16:31:36 -0500 (Fri, 24
Feb 2012) | 1 line

userspace raid 0 implementation
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r1591 | sears.russell@gmail.com | 2012-02-12 01:47:25 -0500 (Sun, 12
Feb 2012) | 1 line

add skiplist unit test, fix compile warnings
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r1590 | sears.russell@gmail.com | 2012-02-12 00:52:52 -0500 (Sun, 12
Feb 2012) | 1 line

fix compile error
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r1589 | sears.russell@gmail.com | 2012-02-12 00:50:21 -0500 (Sun, 12
Feb 2012) | 1 line

fix some bugs in hazard.h surrounding thread list management and
overruns of R under high contention
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r1588 | sears.russell@gmail.com | 2012-02-11 14:23:10 -0500 (Sat, 11
Feb 2012) | 1 line

add hazard pointer for get_lock.  It was implicitly blowing away the
hazard pointer protecting y in the caller
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r1587 | sears.russell@gmail.com | 2012-02-10 18:51:25 -0500 (Fri, 10
Feb 2012) | 1 line

fix null pointer bug
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r1586 | sears.russell@gmail.com | 2012-02-10 18:03:39 -0500 (Fri, 10
Feb 2012) | 1 line

add simple refcounting scheme to concurrentSkipList.  This solves the
problem where a deleted node points to another deleted node, and we
only have a hazard pointer for the first node.
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r1585 | sears.russell@gmail.com | 2012-02-10 14:19:14 -0500 (Fri, 10
Feb 2012) | 1 line

add hazard pointers for update using the smallest free slot first.  The
old method left a race condition, since hazard_scan stops at the first
null pointer.
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r1584 | sears.russell@gmail.com | 2012-02-10 02:45:30 -0500 (Fri, 10
Feb 2012) | 1 line

add hazard pointers for update array
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r1583 | sears.russell@gmail.com | 2012-02-10 00:04:50 -0500 (Fri, 10
Feb 2012) | 1 line

skiplist update: concurrent, but broken
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r1582 | sears.russell@gmail.com | 2012-02-09 17:44:27 -0500 (Thu, 09
Feb 2012) | 1 line

skip list implementation.  Not concurrent yet.
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r1581 | sears.russell@gmail.com | 2012-02-08 13:33:29 -0500 (Wed, 08
Feb 2012) | 1 line

Commit of a bunch of new, unused code: KISS random number generator,
Hazard Pointers, SUX latches (untested) and bit twiddling for
concurrent b-tree
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r1580 | sears.russell@gmail.com | 2012-01-17 19:17:37 -0500 (Tue, 17
Jan 2012) | 1 line

fix typo
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r1579 | sears.russell@gmail.com | 2012-01-11 18:33:31 -0500 (Wed, 11
Jan 2012) | 1 line

static build fixes for linux.  hopefully these do not break macos...
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r1578 | sears.russell@gmail.com | 2012-01-09 19:13:34 -0500 (Mon, 09
Jan 2012) | 1 line

fix cmake under linux
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r1577 | sears.russell@gmail.com | 2012-01-09 18:37:15 -0500 (Mon, 09
Jan 2012) | 1 line

fix linux static binary compilation bugs
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r1576 | sears.russell | 2012-01-09 18:00:08 -0500 (Mon, 09 Jan 2012) |
1 line

port to macos x
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r1575 | sears.russell | 2012-01-09 17:39:43 -0500 (Mon, 09 Jan 2012) |
1 line

add missing _ from sync call name
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r1574 | sears.russell@gmail.com | 2012-01-09 14:26:31 -0500 (Mon, 09
Jan 2012) | 1 line

add -rt flag to static builds
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r1573 | sears.russell@gmail.com | 2011-12-20 23:38:29 -0500 (Tue, 20
Dec 2011) | 1 line

Simple makefile geared toward building libstasis.so and libstasis.a
(and nothing else)
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r1572 | sears.russell@gmail.com | 2011-12-20 22:37:54 -0500 (Tue, 20
Dec 2011) | 1 line

add some missing #include<config.h> lines
2012-04-21 12:52:31 -04:00

409 lines
17 KiB
C

/*
* check_kiss.c
*
* Created on: Feb 8, 2012
* Author: sears
*/
/*---
This software is copyrighted by the Regents of the University of
California, and other parties. The following terms apply to all files
associated with the software unless explicitly disclaimed in
individual files.
The authors hereby grant permission to use, copy, modify, distribute,
and license this software and its documentation for any purpose,
provided that existing copyright notices are retained in all copies
and that this notice is included verbatim in any distributions. No
written agreement, license, or royalty fee is required for any of the
authorized uses. Modifications to this software may be copyrighted by
their authors and need not follow the licensing terms described here,
provided that the new terms are clearly indicated on the first page of
each file where they apply.
IN NO EVENT SHALL THE AUTHORS OR DISTRIBUTORS BE LIABLE TO ANY PARTY
FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES
ARISING OUT OF THE USE OF THIS SOFTWARE, ITS DOCUMENTATION, OR ANY
DERIVATIVES THEREOF, EVEN IF THE AUTHORS HAVE BEEN ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.
THE AUTHORS AND DISTRIBUTORS SPECIFICALLY DISCLAIM ANY WARRANTIES,
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, AND
NON-INFRINGEMENT. THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, AND
THE AUTHORS AND DISTRIBUTORS HAVE NO OBLIGATION TO PROVIDE
MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
GOVERNMENT USE: If you are acquiring this software on behalf of the
U.S. government, the Government shall have only "Restricted Rights" in
the software and related documentation as defined in the Federal
Acquisition Regulations (FARs) in Clause 52.227.19 (c) (2). If you are
acquiring the software on behalf of the Department of Defense, the
software shall be classified as "Commercial Computer Software" and the
Government shall have only "Restricted Rights" as defined in Clause
252.227-7013 (c) (1) of DFARs. Notwithstanding the foregoing, the
authors grant the U.S. Government and others acting in its behalf
permission to use and distribute the software in accordance with the
terms specified in this license.
---*/
#include "../check_includes.h"
#include <stasis/constants.h>
#include <stasis/util/random.h>
#include <sys/time.h>
#include <time.h>
#include <assert.h>
#define LOG_NAME "check_lhtable.log"
/**
@test
*/
START_TEST(kiss_smokeTest) {
int i; uint32_t k;
kiss_table_t kiss;
stasis_util_random_kiss_settable(&kiss, 12345,65435,34221,12345,9983651,95746118);
for(i=1;i<1000001;i++){k=stasis_util_random_kiss_LFIB4(&kiss);} printf("%u\n", k-1064612766U);
for(i=1;i<1000001;i++){k=stasis_util_random_kiss_SWB (&kiss);} printf("%u\n", k- 627749721U);
for(i=1;i<1000001;i++){k=stasis_util_random_kiss_KISS (&kiss);} printf("%u\n", k-1372460312U);
for(i=1;i<1000001;i++){k=stasis_util_random_kiss_CONG (&kiss);} printf("%u\n", k-1529210297U);
for(i=1;i<1000001;i++){k=stasis_util_random_kiss_SHR3 (&kiss);} printf("%u\n", k-2642725982U);
for(i=1;i<1000001;i++){k=stasis_util_random_kiss_MWC (&kiss);} printf("%u\n", k- 904977562U);
for(i=1;i<1000001;i++){k=stasis_util_random_kiss_FIB (&kiss);} printf("%u\n", k-3519793928U);
} END_TEST
Suite * check_suite(void) {
Suite *s = suite_create("hazard");
/* Begin a new test */
TCase *tc = tcase_create("hazard");
tcase_set_timeout(tc, 0); // disable timeouts
/* Sub tests are added, one per line, here */
// XXX this test might be flawed.
tcase_add_test(tc, kiss_smokeTest);
/* --------------------------------------------- */
tcase_add_checked_fixture(tc, setup, teardown);
suite_add_tcase(s, tc);
return s;
}
#include "../check_setup.h"
#if 0
/* RCS: Note, the unmodified code no longer works. It assumes longs are 32-bit
* Change the UL macro to "unsigned int" to get it to pass tests.
*/
/*
Subject: Random numbers for C: The END?
Date: Wed, 20 Jan 1999 10:55:14 -0500
From: George Marsaglia <geo@stat.fsu.edu>
Message-ID: <36A5FC62.17C9CC33@stat.fsu.edu>
Newsgroups: sci.stat.math,sci.math
Lines: 301
My offer of RNG's for C was an invitation to dance;
I did not expect the Tarantella. I hope this post will
stop the music, or at least slow it to a stately dance
for language chauvinists and software police---under
a different heading.
In response to a number of requests for good RNG's in
C, and mindful of the desirability of having a variety
of methods readily available, I offered several. They
were implemented as in-line functions using the #define
feature of C.
Numerous responses have led to improvements; the result
is the listing below, with comments describing the
generators.
I thank all the experts who contributed suggestions, either
directly to me or as part of the numerous threads.
It seems necessary to use a (circular) table in order
to get extremely long periods for some RNG's. Each new
number is some combination of the previous r numbers, kept
in the circular table. The circular table has to keep
at least the last r, but possible more than r, numbers.
For speed, an 8-bit index seems best for accessing
members of the table---at least for Fortran, where an
8-bit integer is readily available via integer*1, and
arithmetic on the index is automatically mod 256
(least-absolute-residue).
Having little experience with C, I got out my little
(but BIG) Kernighan and Ritchie book to see if there
were an 8-bit integer type. I found none, but I did
find char and unsigned char: one byte. Furthemore, K&R
said arithmetic on characters was ok. That, and a study
of the #define examples, led me to propose #define's
for in-line generators LFIB4 and SWB, with monster
periods. But it turned out that char arithmetic jumps
"out of character", other than for simple cases such as
c++ or c+=1. So, for safety, the index arithmetic
below is kept in character by the UC definition.
Another improvement on the original version takes
advantage of the comma operator, which, to my chagrin,
I had not seen in K&R. It is there, but only with an
example of (expression,expression). From the advice of
contributors, I found that the comma operator allows
(expression,...,expression,expression) with the
last expression determining the value. That makes it
much easier to create in-line functions via #define
(see SHR3, LFIB4, SWB and FIB below).
The improved #define's are listed below, with a
function to initialize the table and a main program
that calls each of the in-line functions one million
times and then compares the result to what I got with
a DOS version of gcc. That main program can serve
as a test to see if your system produces the same
results as mine.
_________________________________________
|If you run the program below, your output|
| should be seven lines, each a 0 (zero).|
-----------------------------------------
Some readers of the threads are not much interested
in the philosophical aspects of computer languages,
but want to know: what is the use of this stuff?
Here are simple examples of the use of the in-line
functions: Include the #define's in your program, with
the accompanying static variable declarations, and a
procedure, such as the example, for initializing
the static variable (seeds) and the table.
Then any one of those in-line functions, inserted
in a C expression, will provide a random 32-bit
integer, or a random float if UNI or VNI is used.
For example, KISS&255; would provide a random byte,
while 5.+2.*UNI; would provide a random real (float)
from 5 to 7. Or 1+MWC%10; would provide the
proverbial "take a number from 1 to 10",
(but with not quite, but virtually, equal
probabilities).
More generally, something such as 1+KISS%n; would
provide a practical uniform random choice from 1 to n,
if n is not too big.
A key point is: a wide variety of very fast, high-
quality, easy-to-use RNG's are available by means of
the nine in-line functions below, used individually or
in combination.
The comments after the main test program describe the
generators. These descriptions are much as in the first
post, for those who missed them. Some of the
generators (KISS, MWC, LFIB4) seem to pass all tests of
randomness, particularly the DIEHARD battery of tests,
and combining virtually any two or more of them should
provide fast, reliable, long period generators. (CONG
or FIB alone and CONG+FIB are suspect, but quite useful
in combinations.)
Serious users of random numbers may want to
run their simulations with several different
generators, to see if they get consistent results.
These #define's may make it easy to do.
Bonne chance,
George Marsaglia
The C code follows---------------------------------:
*/
#include <stdio.h>
#define znew (z=36969*(z&65535)+(z>>16))
#define wnew (w=18000*(w&65535)+(w>>16))
#define MWC ((znew<<16)+wnew )
#define SHR3 (jsr^=(jsr<<17), jsr^=(jsr>>13), jsr^=(jsr<<5))
#define CONG (jcong=69069*jcong+1234567)
#define FIB ((b=a+b),(a=b-a))
#define KISS ((MWC^CONG)+SHR3)
#define LFIB4 (c++,t[c]=t[c]+t[UC(c+58)]+t[UC(c+119)]+t[UC(c+178)])
#define SWB (c++,bro=(x<y),t[c]=(x=t[UC(c+34)])-(y=t[UC(c+19)]+bro))
#define UNI (KISS*2.328306e-10)
#define VNI ((long) KISS)*4.656613e-10
#define UC (unsigned char) /*a cast operation*/
typedef unsigned long UL;
/* Global static variables: */
static UL z=362436069, w=521288629, jsr=123456789, jcong=380116160;
static UL a=224466889, b=7584631, t[256];
/* Use random seeds to reset z,w,jsr,jcong,a,b, and the table t[256]*/
static UL x=0,y=0,bro; static unsigned char c=0;
/* Example procedure to set the table, using KISS: */
void settable(UL i1,UL i2,UL i3,UL i4,UL i5, UL i6)
{ int i; z=i1;w=i2,jsr=i3; jcong=i4; a=i5; b=i6;
for(i=0;i<256;i=i+1) t[i]=KISS;
}
/* This is a test main program. It should compile and print 7 0's. */
int main(void){
int i; UL k;
settable(12345,65435,34221,12345,9983651,95746118);
for(i=1;i<1000001;i++){k=LFIB4;} printf("%u\n", k-1064612766U);
for(i=1;i<1000001;i++){k=SWB ;} printf("%u\n", k- 627749721U);
for(i=1;i<1000001;i++){k=KISS ;} printf("%u\n", k-1372460312U);
for(i=1;i<1000001;i++){k=CONG ;} printf("%u\n", k-1529210297U);
for(i=1;i<1000001;i++){k=SHR3 ;} printf("%u\n", k-2642725982U);
for(i=1;i<1000001;i++){k=MWC ;} printf("%u\n", k- 904977562U);
for(i=1;i<1000001;i++){k=FIB ;} printf("%u\n", k-3519793928U);
}
/*-----------------------------------------------------
Write your own calling program and try one or more of
the above, singly or in combination, when you run a
simulation. You may want to change the simple 1-letter
names, to avoid conflict with your own choices. */
/* All that follows is comment, mostly from the initial
post. You may want to remove it */
/* Any one of KISS, MWC, FIB, LFIB4, SWB, SHR3, or CONG
can be used in an expression to provide a random 32-bit
integer.
The KISS generator, (Keep It Simple Stupid), is
designed to combine the two multiply-with-carry
generators in MWC with the 3-shift register SHR3 and
the congruential generator CONG, using addition and
exclusive-or. Period about 2^123.
It is one of my favorite generators.
The MWC generator concatenates two 16-bit multiply-
with-carry generators, x(n)=36969x(n-1)+carry,
y(n)=18000y(n-1)+carry mod 2^16, has period about
2^60 and seems to pass all tests of randomness. A
favorite stand-alone generator---faster than KISS,
which contains it.
FIB is the classical Fibonacci sequence
x(n)=x(n-1)+x(n-2),but taken modulo 2^32.
Its period is 3*2^31 if one of its two seeds is odd
and not 1 mod 8. It has little worth as a RNG by
itself, but provides a simple and fast component for
use in combination generators.
SHR3 is a 3-shift-register generator with period
2^32-1. It uses y(n)=y(n-1)(I+L^17)(I+R^13)(I+L^5),
with the y's viewed as binary vectors, L the 32x32
binary matrix that shifts a vector left 1, and R its
transpose. SHR3 seems to pass all except those
related to the binary rank test, since 32 successive
values, as binary vectors, must be linearly
independent, while 32 successive truly random 32-bit
integers, viewed as binary vectors, will be linearly
independent only about 29% of the time.
CONG is a congruential generator with the widely used 69069
multiplier: x(n)=69069x(n-1)+1234567. It has period
2^32. The leading half of its 32 bits seem to pass
tests, but bits in the last half are too regular.
LFIB4 is an extension of what I have previously
defined as a lagged Fibonacci generator:
x(n)=x(n-r) op x(n-s), with the x's in a finite
set over which there is a binary operation op, such
as +,- on integers mod 2^32, * on odd such integers,
exclusive-or(xor) on binary vectors. Except for
those using multiplication, lagged Fibonacci
generators fail various tests of randomness, unless
the lags are very long. (See SWB below).
To see if more than two lags would serve to overcome
the problems of 2-lag generators using +,- or xor, I
have developed the 4-lag generator LFIB4 using
addition: x(n)=x(n-256)+x(n-179)+x(n-119)+x(n-55)
mod 2^32. Its period is 2^31*(2^256-1), about 2^287,
and it seems to pass all tests---in particular,
those of the kind for which 2-lag generators using
+,-,xor seem to fail. For even more confidence in
its suitability, LFIB4 can be combined with KISS,
with a resulting period of about 2^410: just use
(KISS+LFIB4) in any C expression.
SWB is a subtract-with-borrow generator that I
developed to give a simple method for producing
extremely long periods:
x(n)=x(n-222)-x(n-237)- borrow mod 2^32.
The 'borrow' is 0, or set to 1 if computing x(n-1)
caused overflow in 32-bit integer arithmetic. This
generator has a very long period, 2^7098(2^480-1),
about 2^7578. It seems to pass all tests of
randomness, except for the Birthday Spacings test,
which it fails badly, as do all lagged Fibonacci
generators using +,- or xor. I would suggest
combining SWB with KISS, MWC, SHR3, or CONG.
KISS+SWB has period >2^7700 and is highly
recommended.
Subtract-with-borrow has the same local behaviour
as lagged Fibonacci using +,-,xor---the borrow
merely provides a much longer period.
SWB fails the birthday spacings test, as do all
lagged Fibonacci and other generators that merely
combine two previous values by means of =,- or xor.
Those failures are for a particular case: m=512
birthdays in a year of n=2^24 days. There are
choices of m and n for which lags >1000 will also
fail the test. A reasonable precaution is to always
combine a 2-lag Fibonacci or SWB generator with
another kind of generator, unless the generator uses
*, for which a very satisfactory sequence of odd
32-bit integers results.
The classical Fibonacci sequence mod 2^32 from FIB
fails several tests. It is not suitable for use by
itself, but is quite suitable for combining with
other generators.
The last half of the bits of CONG are too regular,
and it fails tests for which those bits play a
significant role. CONG+FIB will also have too much
regularity in trailing bits, as each does. But keep
in mind that it is a rare application for which
the trailing bits play a significant role. CONG
is one of the most widely used generators of the
last 30 years, as it was the system generator for
VAX and was incorporated in several popular
software packages, all seemingly without complaint.
Finally, because many simulations call for uniform
random variables in 0<x<1 or -1<x<1, I use #define
statements that permit inclusion of such variates
directly in expressions: using UNI will provide a
uniform random real (float) in (0,1), while VNI will
provide one in (-1,1).
All of these: MWC, SHR3, CONG, KISS, LFIB4, SWB, FIB
UNI and VNI, permit direct insertion of the desired
random quantity into an expression, avoiding the
time and space costs of a function call. I call
these in-line-define functions. To use them, static
variables z,w,jsr,jcong,a and b should be assigned
seed values other than their initial values. If
LFIB4 or SWB are used, the static table t[256] must
be initialized.
A note on timing: It is difficult to provide exact
time costs for inclusion of one of these in-line-
define functions in an expression. Times may differ
widely for different compilers, as the C operations
may be deeply nested and tricky. I suggest these
rough comparisons, based on averaging ten runs of a
routine that is essentially a long loop:
for(i=1;i<10000000;i++) L=KISS; then with KISS
replaced with SHR3, CONG,... or KISS+SWB, etc. The
times on my home PC, a Pentium 300MHz, in nanoseconds:
FIB 49;LFIB4 77;SWB 80;CONG 80;SHR3 84;MWC 93;KISS 157;
VNI 417;UNI 450;
*/
#endif