#!/usr/bin/perl
use lib '..';
use Memoize;
if (-e '.fast') {
print "1..0\n";
exit 0;
}
$| = 1;
# If we don't say anything, maybe nobody will notice.
# print STDERR "\nWarning: I'm testing the speedup. This might take up to thirty seconds.\n ";
my $COARSE_TIME = 1;
sub times_to_time { my ($u) = times; $u; }
if ($^O eq 'riscos') {
eval {require Time::HiRes; *my_time = \&Time::HiRes::time };
if ($@) { *my_time = sub { time }; $COARSE_TIME = 1 }
} else {
*my_time = \×_to_time;
}
print "1..6\n";
# This next test finds an example that takes a long time to run, then
# checks to make sure that the run is actually speeded up by memoization.
# In some sense, this is the most essential correctness test in the package.
#
# We do this by running the fib() function with successfily larger
# arguments until we find one that tales at least $LONG_RUN seconds
# to execute. Then we memoize fib() and run the same call cagain. If
# it doesn't produce the same test in less than one-tenth the time,
# something is seriously wrong.
#
# $LONG_RUN is the number of seconds that the function call must last
# in order for the call to be considered sufficiently long.
sub fib {
my $n = shift;
$COUNT++;
return $n if $n < 2;
fib($n-1) + fib($n-2);
}
sub max { $_[0] > $_[1] ?
$_[0] : $_[1]
}
$N = 1;
$ELAPSED = 0;
my $LONG_RUN = 10;
while (1) {
my $start = time;
$COUNT=0;
$RESULT = fib($N);
$ELAPSED = time - $start;
last if $ELAPSED >= $LONG_RUN;
if ($ELAPSED > 1) {
print "# fib($N) took $ELAPSED seconds.\n" if $N % 1 == 0;
# we'd expect that fib(n+1) takes about 1.618 times as long as fib(n)
# so now that we have a longish run, let's estimate the value of $N
# that will get us a sufficiently long run.
$N += 1 + int(log($LONG_RUN/$ELAPSED)/log(1.618));
print "# OK, N=$N ought to do it.\n";
# It's important not to overshoot here because the running time
# is exponential in $N. If we increase $N too aggressively,
# the user will be forced to wait a very long time.
} else {
$N++;
}
}
print "# OK, fib($N) was slow enough; it took $ELAPSED seconds.\n";
print "# Total calls: $COUNT.\n";
&memoize('fib');
$COUNT=0;
$start = time;
$RESULT2 = fib($N);
$ELAPSED2 = time - $start + .001; # prevent division by 0 errors
print (($RESULT == $RESULT2) ? "ok 1\n" : "not ok 1\n");
# If it's not ten times as fast, something is seriously wrong.
print (($ELAPSED/$ELAPSED2 > 10) ? "ok 2\n" : "not ok 2\n");
# If it called the function more than $N times, it wasn't memoized properly
print (($COUNT > $N) ? "ok 3\n" : "not ok 3\n");
# Do it again. Should be even faster this time.
$COUNT = 0;
$start = time;
$RESULT2 = fib($N);
$ELAPSED2 = time - $start + .001; # prevent division by 0 errors
print (($RESULT == $RESULT2) ? "ok 4\n" : "not ok 4\n");
print (($ELAPSED/$ELAPSED2 > 10) ? "ok 5\n" : "not ok 5\n");
# This time it shouldn't have called the function at all.
print ($COUNT == 0 ? "ok 6\n" : "not ok 6\n");
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