#!./perl 

my $has_perlio;

BEGIN {
    chdir 't' if -d 't';
    @INC = '../lib';
    require './test.pl';
    unless ($has_perlio = find PerlIO::Layer 'perlio') {
	print <<EOF;
# Since you don't have perlio you might get failures with UTF-8 locales.
EOF
    }
}

use strict;
use warnings;
no utf8; # Ironic, no?

# NOTE!
#
# Think carefully before adding tests here.  In general this should be
# used only for about three categories of tests:
#
# (1) tests that absolutely require 'use utf8', and since that in general
#     shouldn't be needed as the utf8 is being obsoleted, this should
#     have rather few tests.  If you want to test Unicode and regexes,
#     you probably want to go to op/regexp or op/pat; if you want to test
#     split, go to op/split; pack, op/pack; appending or joining,
#     op/append or op/join, and so forth
#
# (2) tests that have to do with Unicode tokenizing (though it's likely
#     that all the other Unicode tests sprinkled around the t/**/*.t are
#     going to catch that)
#
# (3) complicated tests that simultaneously stress so many Unicode features
#     that deciding into which other test script the tests should go to
#     is hard -- maybe consider breaking up the complicated test
#
#

{
    # bug id 20001009.001

    my ($a, $b);

    { use bytes; $a = "\xc3\xa4" }
    { use utf8;  $b = "\xe4"     }

    my $test = 68;

    ok($a ne $b);

    { use utf8; ok($a ne $b) }
}


{
    # bug id 20000730.004

    my $smiley = "\x{263a}";

    for my $s ("\x{263a}",
	       $smiley,
		
	       "" . $smiley,
	       "" . "\x{263a}",

	       $smiley    . "",
	       "\x{263a}" . "",
	       ) {
	my $length_chars = length($s);
	my $length_bytes;
	{ use bytes; $length_bytes = length($s) }
	my @regex_chars = $s =~ m/(.)/g;
	my $regex_chars = @regex_chars;
	my @split_chars = split //, $s;
	my $split_chars = @split_chars;
	ok("$length_chars/$regex_chars/$split_chars/$length_bytes" eq
	   "1/1/1/3");
    }

    for my $s ("\x{263a}" . "\x{263a}",
	       $smiley    . $smiley,

	       "\x{263a}\x{263a}",
	       "$smiley$smiley",
	       
	       "\x{263a}" x 2,
	       $smiley    x 2,
	       ) {
	my $length_chars = length($s);
	my $length_bytes;
	{ use bytes; $length_bytes = length($s) }
	my @regex_chars = $s =~ m/(.)/g;
	my $regex_chars = @regex_chars;
	my @split_chars = split //, $s;
	my $split_chars = @split_chars;
	ok("$length_chars/$regex_chars/$split_chars/$length_bytes" eq
	   "2/2/2/6");
    }
}


{
    my $w = 0;
    local $SIG{__WARN__} = sub { print "#($_[0])\n"; $w++ };
    my $x = eval q/"\\/ . "\x{100}" . q/"/;;
   
    ok($w == 0 && $x eq "\x{100}");
}

{
    my $show = q(
                 sub show {
                   my $result;
                   $result .= '>' . join (',', map {ord} split //, $_) . '<'
                     foreach @_;
                   $result;
                 }
                 1;
                );
    eval $show or die $@; # We don't expect this sub definition to fail.
    my $progfile = 'utf' . $$;
    END {unlink_all $progfile}

    # If I'm right 60 is '>' in ASCII, ' ' in EBCDIC
    # 173 is not punctuation in either ASCII or EBCDIC
    my (@char);
    foreach (60, 173, 257, 65532) {
      my $char = chr $_;
      utf8::encode($char);
      # I don't want to use map {ord} and I've no need to hardcode the UTF
      # version
      my $charsubst = $char;
      $charsubst =~ s/(.)/ord ($1) . ','/ge;
      chop $charsubst;
      # Not testing this one against map {ord}
      my $char_as_ord
          = join " . ", map {sprintf 'chr (%d)', ord $_} split //, $char;
      push @char, [$_, $char, $charsubst, $char_as_ord];
    }
    # Now we've done all the UTF8 munching hopefully we're safe
    my @tests = (
             ['check our detection program works',
              'my @a = ("'.chr(60).'\x2A", ""); $b = show @a', qr/^>60,42<><$/],
             ['check literal 8 bit input',
              '$a = "' . chr (173) . '"; $b = show $a', qr/^>173<$/],
             ['check no utf8; makes no change',
              'no utf8; $a = "' . chr (173) . '"; $b = show $a', qr/^>173<$/],
             # Now we do the real byte sequences that are valid UTF8
             (map {
               ["the utf8 sequence for chr $_->[0]",
                qq{\$a = "$_->[1]"; \$b = show \$a}, qr/^>$_->[2]<$/],
               ["no utf8; for the utf8 sequence for chr $_->[0]",
                qq(no utf8; \$a = "$_->[1]"; \$b = show \$a), qr/^>$_->[2]<$/],
               ["use utf8; for the utf8 sequence for chr $_->[0]",
                qq(use utf8; \$a = "$_->[1]"; \$b = show \$a), qr/^>$_->[0]<$/],
              } @char),
             # Interpolation of hex characters needs to take place now, as we're
             # testing feeding malformed utf8 into perl. Bug now fixed was an
             # "out of memory" error. We really need the "" [rather than qq()
             # or q()] to get the best explosion.
             ["!Feed malformed utf8 into perl.", <<"BANG",
    use utf8; %a = ("\xE1\xA0"=>"sterling");
    print 'start'; printf '%x,', ord \$_ foreach keys %a; print "end\n";
BANG
	      qr/^Malformed UTF-8 character \(\d bytes?, need \d, .+\).*start\d+,end$/sm
	     ],
            );
    foreach (@tests) {
        my ($why, $prog, $expect) = @$_;
        open P, ">$progfile" or die "Can't open '$progfile': $!";
        binmode(P, ":bytes") if $has_perlio;
	print P $show, $prog, '; print $b'
            or die "Print to 'progfile' failed: $!";
        close P or die "Can't close '$progfile': $!";
        if ($why =~ s/^!//) {
            print "# Possible delay...\n";
        } else {
            print "# $prog\n";
        }
        my $result = runperl ( stderr => 1, progfile => $progfile );
        like ($result, $expect, $why);
    }
    print
        "# Again! Again! [but this time as eval, and not the explosive one]\n";
    # and now we've safely done them all as separate files, check that the
    # evals do the same thing. Hopefully doing it later successfully decouples
    # the previous tests from anything messy that may go wrong with the evals.
    foreach (@tests) {
        my ($why, $prog, $expect) = @$_;
        next if $why =~ m/^!/; # Goes bang.
        my $result = eval $prog;
        if ($@) {
            print "# prog is $prog\n";
            print "# \$\@=", _qq($@), "\n";
        }
        like ($result, $expect, $why);
    }

    # See what the tokeniser does with hash keys.
    print "# What does the tokeniser do with utf8 hash keys?\n";
    @tests = (map {
        # This is the control - I don't expect it to fail
        ["assign utf8 for chr $_->[0] to a hash",
         qq(my \$a = "$_->[1]"; my %h; \$h{\$a} = 1;
            my \$b = show keys %h; \$b .= 'F' unless \$h{$_->[3]}; \$b),
         qr/^>$_->[2]<$/],
        ["no utf8; assign utf8 for chr $_->[0] to a hash",
         qq(no utf8; my \$a = "$_->[1]"; my %h; \$h{\$a} = 1;
            my \$b = show keys %h; \$b .= 'F' unless \$h{$_->[3]}; \$b),
         qr/^>$_->[2]<$/],
        ["use utf8; assign utf8 for chr $_->[0] to a hash",
         qq(use utf8; my \$a = "$_->[1]"; my %h; \$h{\$a} = 1;
            my \$b = show keys %h; \$b .= 'F' unless \$h{chr $_->[0]}; \$b),
         qr/^>$_->[0]<$/],
        # Now check literal $h{"x"} constructions.
        ["\$h{\"x\"} construction, where x is utf8 for chr $_->[0]",
         qq(my \$a = "$_->[1]"; my %h; \$h{"$_->[1]"} = 1;
            my \$b = show keys %h; \$b .= 'F' unless \$h{$_->[3]}; \$b),
         qr/^>$_->[2]<$/],
        ["no utf8; \$h{\"x\"} construction, where x is utf8 for chr $_->[0]",
         qq(no utf8; my \$a = "$_->[1]"; my %h; \$h{"$_->[1]"} = 1;
            my \$b = show keys %h; \$b .= 'F' unless \$h{$_->[3]}; \$b),
         qr/^>$_->[2]<$/],
        ["use utf8; \$h{\"x\"} construction, where x is utf8 for chr $_->[0]",
         qq(use utf8; my \$a = "$_->[1]"; my %h; \$h{"$_->[1]"} = 1;
            my \$b = show keys %h; \$b .= 'F' unless \$h{chr $_->[0]}; \$b),
         qr/^>$_->[0]<$/],
        # Now check "x" => constructions.
        ["assign \"x\"=>1 to a hash, where x is utf8 for chr $_->[0]",
         qq(my \$a = "$_->[1]"; my %h; %h = ("$_->[1]" => 1);
            my \$b = show keys %h; \$b .= 'F' unless \$h{$_->[3]}; \$b),
         qr/^>$_->[2]<$/],
        ["no utf8; assign \"x\"=>1 to a hash, where x is utf8 for chr $_->[0]",
         qq(no utf8; my \$a = "$_->[1]"; my %h; %h = ("$_->[1]" => 1);
            my \$b = show keys %h; \$b .= 'F' unless \$h{$_->[3]}; \$b),
         qr/^>$_->[2]<$/],
        ["use utf8; assign \"x\"=>1 to a hash, where x is utf8 for chr $_->[0]",
         qq(use utf8; my \$a = "$_->[1]"; my %h; %h = ("$_->[1]" => 1);
            my \$b = show keys %h; \$b .= 'F' unless \$h{chr $_->[0]}; \$b),
         qr/^>$_->[0]<$/],
        # Check copies of hashes made from literal utf8 keys
        ["assign utf8 for chr $_->[0] to a hash, then copy it",
         qq(my \$a = "$_->[1]"; my %i; \$i{\$a} = 1; my %h = %i;
            my \$b = show keys %h; \$b .= 'F' unless \$h{$_->[3]}; \$b),
         qr/^>$_->[2]<$/],
        ["no utf8; assign utf8 for chr $_->[0] to a hash, then copy it",
         qq(no utf8; my \$a = "$_->[1]"; my %i; \$i{\$a} = 1;; my %h = %i;
            my \$b = show keys %h; \$b .= 'F' unless \$h{$_->[3]}; \$b),
         qr/^>$_->[2]<$/],
        ["use utf8; assign utf8 for chr $_->[0] to a hash, then copy it",
         qq(use utf8; my \$a = "$_->[1]"; my %i; \$i{\$a} = 1; my %h = %i;
            my \$b = show keys %h; \$b .= 'F' unless \$h{chr $_->[0]}; \$b),
         qr/^>$_->[0]<$/],
     } @char);
    foreach (@tests) {
        my ($why, $prog, $expect) = @$_;
        # print "# $prog\n";
        my $result = eval $prog;
        like ($result, $expect, $why);
    }
}

#
# bug fixed by change #17928
# separate perl used because we rely on 'strict' not yet loaded;
# before the patch, the eval died with an error like:
#   "my" variable $strict::VERSION can't be in a package
#
SKIP: {
    skip("Embedded UTF-8 does not work in EBCDIC", 1) if ord("A") == 193;
    ok('' eq runperl(prog => <<'CODE'), "change #17928");
	my $code = qq{ my \$\xe3\x83\x95\xe3\x83\xbc = 5; };
    {
	use utf8;
	eval $code;
	print $@ if $@;
    }
CODE
}

{
    use utf8;
    $a = <<'END';
0 ....... 1 ....... 2 ....... 3 ....... 4 ....... 5 ....... 6 ....... 7 ....... 
END
    my (@i, $s);

    @i = ();
    push @i, $s = index($a, '6');     # 60
    push @i, $s = index($a, '.', $s); # next . after 60 is 62
    push @i, $s = index($a, '5');     # 50
    push @i, $s = index($a, '.', $s); # next . after 52 is 52
    push @i, $s = index($a, '7');     # 70 
    push @i, $s = index($a, '.', $s); # next . after 70 is 72
    push @i, $s = index($a, '4');     # 40
    push @i, $s = index($a, '.', $s); # next . after 40 is 42
    is("@i", "60 62 50 52 70 72 40 42", "utf8 heredoc index");

    @i = ();
    push @i, $s = rindex($a, '6');     # 60
    push @i, $s = rindex($a, '.', $s); # previous . before 60 is 58
    push @i, $s = rindex($a, '5');     # 50
    push @i, $s = rindex($a, '.', $s); # previous . before 52 is 48
    push @i, $s = rindex($a, '7');     # 70 
    push @i, $s = rindex($a, '.', $s); # previous . before 70 is 68
    push @i, $s = rindex($a, '4');     # 40
    push @i, $s = rindex($a, '.', $s); # previous . before 40 is 38
    is("@i", "60 58 50 48 70 68 40 38", "utf8 heredoc rindex");

    @i = ();
    push @i, $s =  index($a, '6');     # 60
    push @i,  index($a, '.', $s);      # next     . after  60 is 62
    push @i, rindex($a, '.', $s);      # previous . before 60 is 58
    push @i, $s = rindex($a, '5');     # 60
    push @i,  index($a, '.', $s);      # next     . after  50 is 52
    push @i, rindex($a, '.', $s);      # previous . before 50 is 48
    push @i, $s =  index($a, '7', $s); # 70
    push @i,  index($a, '.', $s);      # next     . after  70 is 72
    push @i, rindex($a, '.', $s);      # previous . before 70 is 68
    is("@i", "60 62 58 50 52 48 70 72 68", "utf8 heredoc index and rindex");
}

SKIP: {
    skip("Embedded UTF-8 does not work in EBCDIC", 1) if ord("A") == 193;
    use utf8;
    is eval qq{q \xc3\xbc test \xc3\xbc . qq\xc2\xb7 test \xc2\xb7},
      ' test  test ',
      "utf8 quote delimiters [perl #16823]";
}

# Test the "internals".

{
    my $a = "A";
    my $b = chr(0x0FF);
    my $c = chr(0x100);

    ok( utf8::valid($a), "utf8::valid basic");
    ok( utf8::valid($b), "utf8::valid beyond");
    ok( utf8::valid($c), "utf8::valid unicode");

    ok(!utf8::is_utf8($a), "!utf8::is_utf8 basic");
    ok(!utf8::is_utf8($b), "!utf8::is_utf8 beyond");
    ok( utf8::is_utf8($c), "utf8::is_utf8 unicode");

    is(utf8::upgrade($a), 1, "utf8::upgrade basic");
    if (ord('A') == 193) { # EBCDIC.
	is(utf8::upgrade($b), 1, "utf8::upgrade beyond");
    } else {
	is(utf8::upgrade($b), 2, "utf8::upgrade beyond");
    }
    is(utf8::upgrade($c), 2, "utf8::upgrade unicode");

    is($a, "A",       "basic");
    is($b, "\xFF",    "beyond");
    is($c, "\x{100}", "unicode");

    ok( utf8::valid($a), "utf8::valid basic");
    ok( utf8::valid($b), "utf8::valid beyond");
    ok( utf8::valid($c), "utf8::valid unicode");

    ok( utf8::is_utf8($a), "utf8::is_utf8 basic");
    ok( utf8::is_utf8($b), "utf8::is_utf8 beyond");
    ok( utf8::is_utf8($c), "utf8::is_utf8 unicode");

    is(utf8::downgrade($a), 1, "utf8::downgrade basic");
    is(utf8::downgrade($b), 1, "utf8::downgrade beyond");

    is($a, "A",       "basic");
    is($b, "\xFF",    "beyond");

    ok( utf8::valid($a), "utf8::valid basic");
    ok( utf8::valid($b), "utf8::valid beyond");

    ok(!utf8::is_utf8($a), "!utf8::is_utf8 basic");
    ok(!utf8::is_utf8($b), "!utf8::is_utf8 beyond");

    utf8::encode($a);
    utf8::encode($b);
    utf8::encode($c);

    is($a, "A",       "basic");
    if (ord('A') == 193) { # EBCDIC.
	is(length($b), 1, "beyond length");
    } else {
	is(length($b), 2, "beyond length");
    }
    is(length($c), 2, "unicode length");

    ok(utf8::valid($a), "utf8::valid basic");
    ok(utf8::valid($b), "utf8::valid beyond");
    ok(utf8::valid($c), "utf8::valid unicode");

    # encode() clears the UTF-8 flag (unlike upgrade()).
    ok(!utf8::is_utf8($a), "!utf8::is_utf8 basic");
    ok(!utf8::is_utf8($b), "!utf8::is_utf8 beyond");
    ok(!utf8::is_utf8($c), "!utf8::is_utf8 unicode");

    utf8::decode($a);
    utf8::decode($b);
    utf8::decode($c);

    is($a, "A",       "basic");
    is($b, "\xFF",    "beyond");
    is($c, "\x{100}", "unicode");

    ok(utf8::valid($a), "!utf8::valid basic");
    ok(utf8::valid($b), "!utf8::valid beyond");
    ok(utf8::valid($c), " utf8::valid unicode");

    ok(!utf8::is_utf8($a), "!utf8::is_utf8 basic");
    if (ord('A') == 193) { # EBCDIC.
	ok( utf8::is_utf8(pack('U',0x0ff)), " utf8::is_utf8 beyond");
    } else {
	ok( utf8::is_utf8($b), " utf8::is_utf8 beyond"); # $b stays in UTF-8.
    }
    ok( utf8::is_utf8($c), " utf8::is_utf8 unicode");
}

{
    eval {utf8::encode("£")};
    like($@, qr/^Modification of a read-only value attempted/,
	 "utf8::encode should refuse to touch read-only values");
}

{
    # Make sure utf8::decode respects copy-on-write [perl #91834].
    # Hash keys are the easiest way to test this.
    my $name = "\x{c3}\x{b3}";
    my ($k1) = keys %{ { $name=>undef } };
    my $k2 = $name;
    utf8::decode($k1);
    utf8::decode($k2);
    my $h = { $k1 => 1, $k2 => 2 };
    is join('', keys $h), $k2, 'utf8::decode respects copy-on-write';
}

{
    # Make sure utf8::decode does not modify read-only scalars
    # [perl #91850].
    
    my $name = "\x{c3}\x{b3}";
    Internals::SvREADONLY($name, 1);
    eval { utf8::decode($name) };
    like $@, qr/^Modification of a read-only/,
	'utf8::decode respects readonliness';
}

{
    # utf8::decode should stringify refs [perl #91850].

    package eieifg { use overload '""'      => sub { "\x{c3}\x{b3}" },
                                   fallback => 1 }

    my $name = bless[], eieifg::;
    utf8::decode($name);
    is $name, "\xf3", 'utf8::decode flattens references';
}

{
    my $a = "456\xb6";
    utf8::upgrade($a);

    my $b = "123456\xb6";
    $b =~ s/^...//;
    utf8::upgrade($b);
    is($b, $a, "utf8::upgrade OffsetOK");
}

{
    fresh_perl_like ('use utf8; utf8::moo()',
		     qr/Undefined subroutine utf8::moo/, {stderr=>1},
		    "Check Carp is loaded for AUTOLOADing errors")
}

{
    # failure of is_utf8_char() without NATIVE_TO_UTF on EBCDIC (0260..027F)
    ok(utf8::valid(chr(0x250)), "0x250");
    ok(utf8::valid(chr(0x260)), "0x260");
    ok(utf8::valid(chr(0x270)), "0x270");
    ok(utf8::valid(chr(0x280)), "0x280");
}

{
   use utf8;
   ok( !utf8::is_utf8( "asd"         ), "Wasteful format - qq{}" );
   ok( !utf8::is_utf8( 'asd'         ), "Wasteful format - q{}" );
   ok( !utf8::is_utf8( qw(asd)       ), "Wasteful format - qw{}" );
   ok( !utf8::is_utf8( (asd => 1)[0] ), "Wasteful format - =>" );
   ok( !utf8::is_utf8( -asd          ), "Wasteful format - -word" );
   no warnings 'bareword';
   ok( !utf8::is_utf8( asd::         ), "Wasteful format - word::" );
   no warnings 'reserved';
   no strict 'subs';
   ok( !utf8::is_utf8( asd           ), "Wasteful format - bareword" );
}

{
    my @highest =
	(undef, 0x7F, 0x7FF, 0xFFFF, 0x1FFFFF, 0x3FFFFFF, 0x7FFFFFFF);
    my @step =
	(undef, undef, 0x40, 0x1000, 0x40000, 0x1000000, 0x40000000);

    foreach my $length (6, 5, 4, 3, 2) {
	my $high = $highest[$length];
	while ($high > $highest[$length - 1]) {
	    my $low = $high - $step[$length] + 1;
	    $low = $highest[$length - 1] + 1 if $low <= $highest[$length - 1];
	    ok(utf8::valid(do {no warnings 'utf8'; chr $low}),
	       sprintf "chr %x, length $length is valid", $low);
	    ok(utf8::valid(do {no warnings 'utf8'; chr $high}),
	       sprintf "chr %x, length $length is valid", $high);
	    $high -= $step[$length];
	}
    }
}

# #80190 update pos, and cached length/position-mapping after
# utf8 upgrade/downgrade, encode/decode

for my $pos (0..5) {

    my $pos1 = ($pos >= 3)  ? 2 : ($pos >= 1) ? 1 : 0;
    my $pos2 = ($pos1 == 2) ? 3 : $pos1;

    my $p;
    my $s = "A\xc8\x81\xe8\xab\x86\x{100}";
    chop($s);

    pos($s) = $pos;
    # also sets cache
    is(length($s), 6,		   "(pos $pos) len before    utf8::downgrade");
    is(pos($s),    $pos,	   "(pos $pos) pos before    utf8::downgrade");
    utf8::downgrade($s);
    is(length($s), 6,		   "(pos $pos) len after     utf8::downgrade");
    is(pos($s),    $pos,	   "(pos $pos) pos after     utf8::downgrade");
    is($s, "A\xc8\x81\xe8\xab\x86","(pos $pos) str after     utf8::downgrade");
    utf8::decode($s);
    is(length($s), 3,		   "(pos $pos) len after  D; utf8::decode");
    is(pos($s),    $pos1,	   "(pos $pos) pos after  D; utf8::decode");
    is($s, "A\x{201}\x{8ac6}",	   "(pos $pos) str after  D; utf8::decode");
    utf8::encode($s);
    is(length($s), 6,		   "(pos $pos) len after  D; utf8::encode");
    is(pos($s),    $pos2,	   "(pos $pos) pos after  D; utf8::encode");
    is($s, "A\xc8\x81\xe8\xab\x86","(pos $pos) str after  D; utf8::encode");

    $s = "A\xc8\x81\xe8\xab\x86";

    pos($s) = $pos;
    is(length($s), 6,		   "(pos $pos) len before    utf8::upgrade");
    is(pos($s),    $pos,	   "(pos $pos) pos before    utf8::upgrade");
    utf8::upgrade($s);
    is(length($s), 6,		   "(pos $pos) len after     utf8::upgrade");
    is(pos($s),    $pos,	   "(pos $pos) pos after     utf8::upgrade");
    is($s, "A\xc8\x81\xe8\xab\x86","(pos $pos) str after     utf8::upgrade");
    utf8::decode($s);
    is(length($s), 3,		   "(pos $pos) len after  U; utf8::decode");
    is(pos($s),    $pos1,	   "(pos $pos) pos after  U; utf8::decode");
    is($s, "A\x{201}\x{8ac6}",	   "(pos $pos) str after  U; utf8::decode");
    utf8::encode($s);
    is(length($s), 6,		   "(pos $pos) len after  U; utf8::encode");
    is(pos($s),    $pos2,	   "(pos $pos) pos after  U; utf8::encode");
    is($s, "A\xc8\x81\xe8\xab\x86","(pos $pos) str after  U; utf8::encode");
}

done_testing();