si->si_cxmax = cxitems - 1;
si->si_cxix = -1;
si->si_type = PERLSI_UNDEF;
- /* Needs to be Newz() because PUSHSUBST() in pp_subst()
- * might otherwise read uninitialized heap. */
+ /* Needs to be Newz() instead of New() because PUSHSUBST()
+ * in pp_subst() might otherwise read uninitialized heap. */
Newz(56, si->si_cxstack, cxitems, PERL_CONTEXT);
return si;
}
I32
Perl_cxinc(pTHX)
{
+ IV old_max = cxstack_max;
cxstack_max = GROW(cxstack_max);
Renew(cxstack, cxstack_max + 1, PERL_CONTEXT); /* XXX should fix CXINC macro */
+ /* Needs to Zero()ed because otherwise deep enough recursion
+ * (such as in lib/Math/BigInt/t/upgrade.t) will end up reading
+ * uninitialized heap. */
+ Zero(cxstack + old_max + 1, cxstack_max - old_max, PERL_CONTEXT);
return cxstack_ix + 1;
}
# test recursive functions.
#
-print "1..25\n";
+BEGIN {
+ chdir 't' if -d 't';
+ @INC = qw(. ../lib);
+ require "test.pl";
+ plan(tests => 26);
+}
+
+use strict;
-sub gcd ($$) {
+sub gcd {
return gcd($_[0] - $_[1], $_[1]) if ($_[0] > $_[1]);
return gcd($_[0], $_[1] - $_[0]) if ($_[0] < $_[1]);
$_[0];
}
-sub factorial ($) {
+sub factorial {
$_[0] < 2 ? 1 : $_[0] * factorial($_[0] - 1);
}
-sub fibonacci ($) {
+sub fibonacci {
$_[0] < 2 ? 1 : fibonacci($_[0] - 2) + fibonacci($_[0] - 1);
}
# For example ackermann(4,1) will take quite a long time.
# It will simply eat away your memory. Trust me.
-sub ackermann ($$) {
+sub ackermann {
return $_[1] + 1 if ($_[0] == 0);
return ackermann($_[0] - 1, 1) if ($_[1] == 0);
ackermann($_[0] - 1, ackermann($_[0], $_[1] - 1));
# Highly recursive, highly boring.
-sub takeuchi ($$$) {
+sub takeuchi {
$_[1] < $_[0] ?
takeuchi(takeuchi($_[0] - 1, $_[1], $_[2]),
takeuchi($_[1] - 1, $_[2], $_[0]),
: $_[2];
}
-print 'not ' unless (($d = gcd(1147, 1271)) == 31);
-print "ok 1\n";
-print "# gcd(1147, 1271) = $d\n";
-
-print 'not ' unless (($d = gcd(1908, 2016)) == 36);
-print "ok 2\n";
-print "# gcd(1908, 2016) = $d\n";
+is(gcd(1147, 1271), 31, "gcd(1147, 1271)");
-print 'not ' unless (($f = factorial(10)) == 3628800);
-print "ok 3\n";
-print "# factorial(10) = $f\n";
+is(gcd(1908, 2016), 36, "gcd(1908, 2016)");
-print 'not ' unless (($f = factorial(factorial(3))) == 720);
-print "ok 4\n";
-print "# factorial(factorial(3)) = $f\n";
+is(factorial(10), 3628800, "factorial(10)");
-print 'not ' unless (($f = fibonacci(10)) == 89);
-print "ok 5\n";
-print "# fibonacci(10) = $f\n";
+is(factorial(factorial(3)), 720, "factorial(factorial(3))");
-print 'not ' unless (($f = fibonacci(fibonacci(7))) == 17711);
-print "ok 6\n";
-print "# fibonacci(fibonacci(7)) = $f\n";
+is(fibonacci(10), 89, "fibonacci(10)");
-$i = 7;
+is(fibonacci(fibonacci(7)), 17711, "fibonacci(fibonacci(7))");
-@ack = qw(1 2 3 4 2 3 4 5 3 5 7 9 5 13 29 61);
+my @ack = qw(1 2 3 4 2 3 4 5 3 5 7 9 5 13 29 61);
-for $x (0..3) {
- for $y (0..3) {
- $a = ackermann($x, $y);
- print 'not ' unless ($a == shift(@ack));
- print "ok ", $i++, "\n";
- print "# ackermann($x, $y) = $a\n";
+for my $x (0..3) {
+ for my $y (0..3) {
+ my $a = ackermann($x, $y);
+ is($a, shift(@ack), "ackermann($x, y)");
}
}
-($x, $y, $z) = (18, 12, 6);
+my ($x, $y, $z) = (18, 12, 6);
-print 'not ' unless (($t = takeuchi($x, $y, $z)) == $z + 1);
-print "ok ", $i++, "\n";
-print "# takeuchi($x, $y, $z) = $t\n";
+is(takeuchi($x, $y, $z), $z + 1, "takeuchi($x, $y, $z) == $z + 1");
{
sub get_first1 {
}
sub get_list1 {
- return [24] unless $_[0];
+ return [curr_test] unless $_[0];
my $u = get_first1(0);
[$u];
}
my $x = get_first1(1);
- print "ok $x\n";
+ ok($x, "premature FREETMPS (change 5699)");
}
{
}
sub get_list2 {
- return [25] unless $_[0];
+ return [curr_test] unless $_[0];
my $u = get_first2(0);
return [$u];
}
my $x = get_first2(1);
- print "ok $x\n";
+ ok($x, "premature FREETMPS (change 5699)");
+}
+
+{
+ local $^W = 0; # We do not need recursion depth warning.
+
+ sub sillysum {
+ return $_[0] + ($_[0] > 0 ? sillysum($_[0] - 1) : 0);
+ }
+
+ is(sillysum(1000), 1000*1001/2, "recursive sum of 1..1000");
}
-$i = 26;
+
+
+
projects / platform / upstream / perl.git / commitdiff