use warnings; use strict; BEGIN { chdir 't' if -d 't'; @INC = '../lib'; require './test.pl'; } plan(20736); # Determined by experimentation # In this section, test the upper/lower/title case mappings for all characters # 0-255. # First compute the case mappings without resorting to the functions we're # testing. # Initialize the arrays so each $i maps to itself. my @posix_to_upper; for my $i (0 .. 255) { $posix_to_upper[$i] = chr($i); } my @posix_to_lower = my @posix_to_title = my @latin1_to_upper = my @latin1_to_lower = my @latin1_to_title = @posix_to_upper; # Override the elements in the to_lower arrays that have different standard # lower case mappings. (standard meaning they are 32 numbers apart) for my $i (0x41 .. 0x5A, 0xC0 .. 0xD6, 0xD8 .. 0xDE) { my $upper_ord = ord_latin1_to_native $i; my $lower_ord = ord_latin1_to_native($i + 32); $latin1_to_lower[$upper_ord] = chr($lower_ord); next if $i > 127; $posix_to_lower[$upper_ord] = chr($lower_ord); } # Same for upper and title for my $i (0x61 .. 0x7A, 0xE0 .. 0xF6, 0xF8 .. 0xFE) { my $lower_ord = ord_latin1_to_native $i; my $upper_ord = ord_latin1_to_native($i - 32); $latin1_to_upper[$lower_ord] = chr($upper_ord); $latin1_to_title[$lower_ord] = chr($upper_ord); next if $i > 127; $posix_to_upper[$lower_ord] = chr($upper_ord); $posix_to_title[$lower_ord] = chr($upper_ord); } # Override the abnormal cases. $latin1_to_upper[ord_latin1_to_native 0xB5] = chr(0x39C); $latin1_to_title[ord_latin1_to_native 0xB5] = chr(0x39C); $latin1_to_upper[ord_latin1_to_native 0xDF] = 'SS'; $latin1_to_title[ord_latin1_to_native 0xDF] = 'Ss'; $latin1_to_upper[ord_latin1_to_native 0xFF] = chr(0x178); $latin1_to_title[ord_latin1_to_native 0xFF] = chr(0x178); my $repeat = 25; # Length to make strings. # Create hashes of strings in several ranges, both for uc and lc. my %posix; $posix{'uc'} = 'A' x $repeat; $posix{'lc'} = 'a' x $repeat ; my %cyrillic; $cyrillic{'uc'} = chr(0x42F) x $repeat; $cyrillic{'lc'} = chr(0x44F) x $repeat; my %latin1; $latin1{'uc'} = chr(ord_latin1_to_native 0xD8) x $repeat; $latin1{'lc'} = chr(ord_latin1_to_native 0xF8) x $repeat; my %empty; $empty{'lc'} = $empty{'uc'} = ""; # Loop so prefix each character being tested with nothing, and the various # strings; then loop for suffixes of those strings as well. for my $prefix (\%empty, \%posix, \%cyrillic, \%latin1) { for my $suffix (\%empty, \%posix, \%cyrillic, \%latin1) { for my $i (0 .. 255) { # For each possible posix or latin1 character my $cp = sprintf "U+%04X", $i; # First try using latin1 (Unicode) semantics. use feature "unicode_strings"; my $phrase = 'in uni8bit'; my $char = chr($i); my $pre_lc = $prefix->{'lc'}; my $pre_uc = $prefix->{'uc'}; my $post_lc = $suffix->{'lc'}; my $post_uc = $suffix->{'uc'}; my $to_upper = $pre_lc . $char . $post_lc; my $expected_upper = $pre_uc . $latin1_to_upper[$i] . $post_uc; my $to_lower = $pre_uc . $char . $post_uc; my $expected_lower = $pre_lc . $latin1_to_lower[$i] . $post_lc; is (uc($to_upper), $expected_upper, display("$cp: $phrase: Verify uc($to_upper) eq $expected_upper")); is (lc($to_lower), $expected_lower, display("$cp: $phrase: Verify lc($to_lower) eq $expected_lower")); if ($pre_uc eq "") { # Title case if null prefix. my $expected_title = $latin1_to_title[$i] . $post_lc; is (ucfirst($to_upper), $expected_title, display("$cp: $phrase: Verify ucfirst($to_upper) eq $expected_title")); my $expected_lcfirst = $latin1_to_lower[$i] . $post_uc; is (lcfirst($to_lower), $expected_lcfirst, display("$cp: $phrase: Verify lcfirst($to_lower) eq $expected_lcfirst")); } # Then try with posix semantics. no feature "unicode_strings"; $phrase = 'no uni8bit'; # These don't contribute anything in this case. next if $suffix == \%cyrillic; next if $suffix == \%latin1; next if $prefix == \%cyrillic; next if $prefix == \%latin1; $expected_upper = $pre_uc . $posix_to_upper[$i] . $post_uc; $expected_lower = $pre_lc . $posix_to_lower[$i] . $post_lc; is (uc($to_upper), $expected_upper, display("$cp: $phrase: Verify uc($to_upper) eq $expected_upper")); is (lc($to_lower), $expected_lower, display("$cp: $phrase: Verify lc($to_lower) eq $expected_lower")); if ($pre_uc eq "") { my $expected_title = $posix_to_title[$i] . $post_lc; is (ucfirst($to_upper), $expected_title, display("$cp: $phrase: Verify ucfirst($to_upper) eq $expected_title")); my $expected_lcfirst = $posix_to_lower[$i] . $post_uc; is (lcfirst($to_lower), $expected_lcfirst, display("$cp: $phrase: Verify lcfirst($to_lower) eq $expected_lcfirst")); } } } } # In this section test that \w, \s, and \b (and complements) work correctly. # These are the only character classes affected by this pragma. Above ASCII # range Latin-1 characters are in \w and \s iff the pragma is on. # Construct the expected full Latin1 values without using anything we're # testing. All these were determined manually by looking in the manual. # Boolean: is w[$i] a \w character? my @w = (0) x 256; for my $i ( 0x30 .. 0x39, # 0-9 0x41 .. 0x5a, # A-Z 0x61 .. 0x7a, # a-z 0x5F, # _ 0xAA, # FEMININE ORDINAL INDICATOR 0xB5, # MICRO SIGN 0xBA, # MASCULINE ORDINAL INDICATOR 0xC0 .. 0xD6, # various 0xD8 .. 0xF6, # various 0xF8 .. 0xFF, # various ) { $w[ord_latin1_to_native $i] = 1; } # Boolean: is s[$i] a \s character? my @s = (0) x 256; $s[ord_latin1_to_native 0x09] = 1; # Tab $s[ord_latin1_to_native 0x0A] = 1; # LF $s[ord_latin1_to_native 0x0B] = 1; # VT $s[ord_latin1_to_native 0x0C] = 1; # FF $s[ord_latin1_to_native 0x0D] = 1; # CR $s[ord_latin1_to_native 0x20] = 1; # SPACE $s[ord_latin1_to_native 0x85] = 1; # NEL $s[ord_latin1_to_native 0xA0] = 1; # NO BREAK SPACE for my $i (0 .. 255) { my $char = chr($i); my $hex_i = sprintf "%02X", $i; foreach my $which (\@s, \@w) { my $basic_name; if ($which == \@s) { $basic_name = 's'; } else { $basic_name = 'w' } # Test \w \W \s \S foreach my $complement (0, 1) { my $name = '\\' . (($complement) ? uc($basic_name) : $basic_name); # in and out of [...] foreach my $charclass (0, 1) { # And like [^...] or just plain [...] foreach my $complement_class (0, 1) { next if ! $charclass && $complement_class; # Start with the boolean as to if the character is in the # class, and then complement as needed. my $expect_success = $which->[$i]; $expect_success = ! $expect_success if $complement; $expect_success = ! $expect_success if $complement_class; my $test = $name; $test = "^$test" if $complement_class; $test = "[$test]" if $charclass; $test = "^$test\$"; use feature 'unicode_strings'; my $prefix = "in uni8bit; Verify chr(0x$hex_i)"; if ($expect_success) { like($char, qr/$test/, display("$prefix =~ qr/$test/")); } else { unlike($char, qr/$test/, display("$prefix !~ qr/$test/")); } no feature 'unicode_strings'; $prefix = "no uni8bit; Verify chr(0x$hex_i)"; # With the legacy, nothing above 128 should be in the # class if ($i >= 128) { $expect_success = 0; $expect_success = ! $expect_success if $complement; $expect_success = ! $expect_success if $complement_class; } if ($expect_success) { like($char, qr/$test/, display("$prefix =~ qr/$test/")); } else { unlike($char, qr/$test/, display("$prefix !~ qr/$test/")); } } } } } # Similarly for \b and \B. foreach my $complement (0, 1) { my $name = '\\' . (($complement) ? 'B' : 'b'); my $expect_success = ! $w[$i]; # \b is complement of \w $expect_success = ! $expect_success if $complement; my $string = "a$char"; my $test = "(^a$name\\x{$hex_i}\$)"; use feature 'unicode_strings'; my $prefix = "in uni8bit; Verify $string"; if ($expect_success) { like($string, qr/$test/, display("$prefix =~ qr/$test/")); } else { unlike($string, qr/$test/, display("$prefix !~ qr/$test/")); } no feature 'unicode_strings'; $prefix = "no uni8bit; Verify $string"; if ($i >= 128) { $expect_success = 1; $expect_success = ! $expect_success if $complement; } if ($expect_success) { like($string, qr/$test/, display("$prefix =~ qr/$test/")); like($string, qr/$test/, display("$prefix =~ qr/$test/")); } else { unlike($string, qr/$test/, display("$prefix !~ qr/$test/")); } } }