# -*-perl-*- # # test some PDL core routines # use strict; use Test::More tests => 46; BEGIN { # if we've got this far in the tests then # we can probably assume PDL::LiteF works! # use_ok( "PDL::LiteF" ); } $| = 1; sub tapprox ($$) { my ( $a, $b ) = @_; my $d = abs( $a - $b ); print "diff = [$d]\n"; return $d <= 0.0001; } my $a_long = sequence long, 10; my $a_dbl = sequence 10; my $b_long = $a_long->slice('5'); my $b_dbl = $a_dbl->slice('5'); my $c_long = $a_long->slice('4:7'); my $c_dbl = $a_dbl->slice('4:7'); # test 'sclr' method # is $b_long->sclr, 5, "sclr test of 1-elem pdl (long)"; is $c_long->sclr, 4, "sclr test of 3-elem pdl (long)"; ok tapprox( $b_dbl->sclr, 5 ), "sclr test of 1-elem pdl (dbl)"; ok tapprox( $c_dbl->sclr, 4 ), "sclr test of 3-elem pdl (dbl)"; # switch multielement check on is( PDL->sclr({Check=>'barf'}), 2, "changed error mode of sclr" ); eval '$c_long->sclr'; like $@, qr/multielement piddle in 'sclr' call/, "sclr failed on multi-element piddle (long)"; eval '$c_dbl->sclr'; like $@, qr/multielement piddle in 'sclr' call/, "sclr failed on multi-element piddle (dbl)"; # test reshape barfing with negative args # eval 'my $d_long = $a_long->reshape(0,-3);'; like $@, qr/invalid dim size/, "reshape() failed with negative args (long)"; eval 'my $d_dbl = $a_dbl->reshape(0,-3);'; like $@, qr/invalid dim size/, "reshape() failed with negative args (dbl)"; # test reshape with no args my ( $a, $b, $c ); $a = ones 3,1,4; $b = $a->reshape; ok eq_array( [ $b->dims ], [3,4] ), "reshape()"; # test reshape(-1) and squeeze $a = ones 3,1,4; $b = $a->reshape(-1); $c = $a->squeeze; ok eq_array( [ $b->dims ], [3,4] ), "reshape(-1)"; ok all( $b == $c ), "squeeze"; $c++; # check dataflow ok all( $b == $c ), "dataflow"; # should flow back to b ok all( $a == 2 ), "dataflow"; # test topdl isa_ok( PDL->topdl(1), "PDL", "topdl(1) returns a piddle" ); isa_ok( PDL->topdl([1,2,3]), "PDL", "topdl([1,2,3]) returns a piddle" ); # test $PDL::undefval support in pdl (bug #886263) # is $PDL::undefval, 0, "default value of $PDL::undefval is 0"; $a = [ [ 2, undef ], [3, 4 ] ]; $b = pdl( $a ); $c = pdl( [ 2, 0, 3, 4 ] )->reshape(2,2); ok all( $b == $c ), "undef converted to 0 (dbl)"; ok eq_array( $a, [[2,undef],[3,4]] ), "pdl() has not changed input array"; $b = pdl( long, $a ); $c = pdl( long, [ 2, 0, 3, 4 ] )->reshape(2,2); ok all( $b == $c ), "undef converted to 0 (long)"; do { local($PDL::undefval) = -999; $a = [ [ 2, undef ], [3, 4 ] ]; $b = pdl( $a ); $c = pdl( [ 2, -999, 3, 4 ] )->reshape(2,2); ok all( $b == $c ), "undef converted to -999 (dbl)"; $b = pdl( long, $a ); $c = pdl( long, [ 2, -999, 3, 4 ] )->reshape(2,2); ok all( $b == $c ), "undef converted to -999 (long)"; } while(0); ############## # Funky constructor cases # pdl of a pdl $a = pdl(pdl(5)); ok all( $a== pdl(5)), "pdl() can piddlify a piddle"; TODO: { local $TODO = 'Known_problems bug sf.net #3011879' if ($PDL::Config{SKIP_KNOWN_PROBLEMS} or exists $ENV{SKIP_KNOWN_PROBLEMS}); # pdl of mixed-dim pdls: pad within a dimension $a = pdl( zeroes(5), ones(3) ); ok all($a == pdl([0,0,0,0,0],[1,1,1,0,0])),"Piddlifying two piddles catenates them and pads to length" or diag("a=$a\n"); } # pdl of mixed-dim pdls: pad a whole dimension $a = pdl( [[9,9],[8,8]], xvals(3)+1 ); ok all($a == pdl([[[9,9],[8,8],[0,0]] , [[1,0],[2,0],[3,0]] ])),"can catenate mixed-dim piddles" or diag("a=$a\n"); # pdl of mixed-dim pdls: a hairier case $c = pdl [1], pdl[2,3,4], pdl[5]; ok all($c == pdl([[[1,0,0],[0,0,0]],[[2,3,4],[5,0,0]]])),"Can catenate mixed-dim piddles: hairy case" or diag("c=$c\n"); # same thing, with undefval set differently do { local($PDL::undefval) = 99; $c = pdl [1], pdl[2,3,4], pdl[5]; ok all($c == pdl([[[1,99,99],[99,99,99]],[[2,3,4],[5,99,99]]])), "undefval works for padding" or diag("c=$c\n");; } while(0); # empty pdl cases eval {$a = zeroes(2,0,1);}; ok(!$@,"zeroes accepts empty PDL specification"); eval { $b = pdl($a,sequence(2,0,1)); }; ok((!$@ and all(pdl($b->dims) == pdl(2,0,1,2))), "catenating two empties gives an empty"); eval { $b = pdl($a,sequence(2,1,1)); }; ok((!$@ and all(pdl($b->dims) == pdl(2,1,1,2))), "catenating an empty and a nonempty treats the empty as a filler"); eval { $b = pdl($a,5) }; ok((!$@ and all(pdl($b->dims)==pdl(2,1,1,2))), "catenating an empty and a scalar on the right works"); ok( all($b==pdl([[[0,0]]],[[[5,0]]])), "catenating an empty and a scalar on the right gives the right answer"); eval { $b = pdl(5,$a) }; ok((!$@ and all(pdl($b->dims)==pdl(2,1,1,2))), "catenating an empty and a scalar on the left works"); ok( all($b==pdl([[[5,0]]],[[[0,0]]])), "catenating an empty and a scalar on the left gives the right answer"); # end # cat problems eval {cat(1, pdl(1,2,3), {}, 6)}; ok ($@ ne '', 'cat barfs on non-piddle arguments'); like ($@, qr/Arguments 0, 2 and 3 are not piddles/, 'cat correctly identifies non-piddle arguments'); $@ = ''; eval {cat(1, pdl(1,2,3))}; like($@, qr/Argument 0 is not a piddle/, 'cat uses good grammar when discussing non-piddles'); $@ = ''; my $two_dim_array = cat(pdl(1,2), pdl(1,2)); eval {cat(pdl(1,2,3,4,5), $two_dim_array, pdl(1,2,3,4,5), pdl(1,2,3))}; ok ($@ ne '', 'cat barfs on mismatched piddles'); like($@, qr/The dimensions of arguments 1 and 3 do not match/ , 'cat identifies all piddles with differing dimensions'); like ($@, qr/\(argument 0\)/, 'cat identifies the first actual piddle in the arg list'); $@ = ''; eval {cat(pdl(1,2,3), pdl(1,2))}; like($@, qr/The dimensions of argument 1 do not match/ , 'cat uses good grammar when discussing piddle dimension mismatches'); $@ = ''; eval {cat(1, pdl(1,2,3), $two_dim_array, 4, {}, pdl(4,5,6), pdl(7))}; ok ($@ ne '', 'cat barfs combined screw-ups'); like($@, qr/Arguments 0, 3 and 4 are not piddles/ , 'cat properly identifies non-piddles in combined screw-ups'); like($@, qr/arguments 2 and 6 do not match/ , 'cat properly identifies piddles with mismatched dimensions in combined screw-ups'); like($@, qr/\(argument 1\)/, 'cat properly identifies the first actual piddle in combined screw-ups'); $@ = '';