#!/usr/bin/perl use lib '..'; use Memoize; print "1..7\n"; sub n_null { '' } { my $I = 0; sub n_diff { $I++ } } { my $I = 0; sub a1 { $I++; "$_[0]-$I" } my $J = 0; sub a2 { $J++; "$_[0]-$J" } my $K = 0; sub a3 { $K++; "$_[0]-$K" } } my $a_normal = memoize('a1', INSTALL => undef); my $a_nomemo = memoize('a2', INSTALL => undef, NORMALIZER => 'n_diff'); my $a_allmemo = memoize('a3', INSTALL => undef, NORMALIZER => 'n_null'); @ARGS = (1, 2, 3, 2, 1); @res = map { &$a_normal($_) } @ARGS; print ((("@res" eq "1-1 2-2 3-3 2-2 1-1") ? '' : 'not '), "ok 1\n"); @res = map { &$a_nomemo($_) } @ARGS; print ((("@res" eq "1-1 2-2 3-3 2-4 1-5") ? '' : 'not '), "ok 2\n"); @res = map { &$a_allmemo($_) } @ARGS; print ((("@res" eq "1-1 1-1 1-1 1-1 1-1") ? '' : 'not '), "ok 3\n"); # Test fully-qualified name and installation $COUNT = 0; sub parity { $COUNT++; $_[0] % 2 } sub parnorm { $_[0] % 2 } memoize('parity', NORMALIZER => 'main::parnorm'); @res = map { &parity($_) } @ARGS; print ((("@res" eq "1 0 1 0 1") ? '' : 'not '), "ok 4\n"); print (( ($COUNT == 2) ? '' : 'not '), "ok 5\n"); # Test normalization with reference to normalizer function $COUNT = 0; sub par2 { $COUNT++; $_[0] % 2 } memoize('par2', NORMALIZER => \&parnorm); @res = map { &par2($_) } @ARGS; print ((("@res" eq "1 0 1 0 1") ? '' : 'not '), "ok 6\n"); print (( ($COUNT == 2) ? '' : 'not '), "ok 7\n");