}
}
+my @warnings;
+local $SIG{__WARN__} = sub { push @warnings, @_ };
+
use strict;
use Unicode::UCD;
use Test::More;
# If this fails, then maybe one should look at the Unicode changes to see
# what else might need to be updated.
-is(Unicode::UCD::UnicodeVersion, '6.3.0', 'UnicodeVersion');
+is(Unicode::UCD::UnicodeVersion, '7.0.0', 'UnicodeVersion');
use Unicode::UCD qw(compexcl);
my $r1 = charscript('Latin');
if (ok(defined $r1, "Found Latin script")) {
my $n1 = @$r1;
- is($n1, 30, "number of ranges in Latin script (Unicode 6.1.0)");
+ is($n1, 33, "number of ranges in Latin script (Unicode 7.0.0)");
shift @$r1 while @$r1;
my $r2 = charscript('Latin');
is(@$r2, $n1, "modifying results should not mess up internal caches");
"prop_aliases('isgc') returns <undef> since is not covered Perl extension");
is(prop_aliases("Is_Is_Any"), undef,
"prop_aliases('Is_Is_Any') returns <undef> since two is's");
+is(prop_aliases("ccc=vr"), undef,
+ "prop_aliases('ccc=vr') doesn't generate a warning");
require 'utf8_heavy.pl';
require "unicore/Heavy.pl";
}
else { # Single-form.
- # Like above, use looose if required, and insert underscores
+ # Like above, use loose if required, and insert underscores
# between digits if strict.
if ($set_of_tables == \%utf8::loose_to_file_of) {
$mod_table = "$extra_chars$table";
}
$tested_invlist{$file} = dclone \@tested;
- # A leading '!' in the file name means that it is to be inverted.
- my $invert = $file =~ s/^!//;
- my $official = do "unicore/lib/$file.pl";
+ # A '!' in the file name means that it is to be inverted.
+ my $invert = $file =~ s/!//;
+ my $official;
+
+ # If the file's directory is '#', it is a special case where the
+ # contents are in-lined with semi-colons meaning new-lines, instead of
+ # it being an actual file to read. The file is an index in to the
+ # array of the definitions
+ if ($file =~ s!^#/!!) {
+ $official = $utf8::inline_definitions[$file];
+ }
+ else {
+ $official = do "unicore/lib/$file.pl";
+ }
# Get rid of any trailing space and comments in the file.
$official =~ s/\s*(#.*)?$//mg;
# If we are to test against an inverted file, it is easier to invert
# our array than the file.
- # The file only is valid for Unicode code points, while the inversion
- # list is valid for all possible code points. Therefore, we must test
- # just the Unicode part against the file. Later we will test for
- # the non-Unicode part.
-
- my $before_invert; # Saves the pre-inverted table.
if ($invert) {
- $before_invert = dclone \@tested;
if (@tested && $tested[0] == 0) {
shift @tested;
} else {
unshift @tested, 0;
}
- if (@tested && $tested[-1] == 0x110000) {
- pop @tested;
- }
- else {
- push @tested, 0x110000;
- }
}
# Now construct a string from the list that should match the file.
- # The file gives ranges of code points with starting and ending values
- # in hex, like this:
- # 0041\t005A
- # 0061\t007A
- # 00AA
- # Our list has even numbered elements start ranges that are in the
- # list, and odd ones that aren't in the list. Therefore the odd
- # numbered ones are one beyond the end of the previous range, but
- # otherwise don't get reflected in the file.
- my $tested = "";
- my $i = 0;
- for (; $i < @tested - 1; $i += 2) {
- my $start = $tested[$i];
- my $end = $tested[$i+1] - 1;
- if ($start == $end) {
- $tested .= sprintf("%04X\n", $start);
- }
- else {
- $tested .= sprintf "%04X\t%04X\n", $start, $end;
- }
- }
-
- # As mentioned earlier, the disk files only go up through Unicode,
- # whereas the prop_invlist() ones go as high as necessary. The
- # comparison is only valid through max Unicode.
- if ($i == @tested - 1 && $tested[$i] <= 0x10FFFF) {
- $tested .= sprintf("%04X\t10FFFF\n", $tested[$i]);
- }
+ # The file is inversion list format code points, like this:
+ # V1216
+ # 65 # [26]
+ # 91
+ # 192 # [23]
+ # ...
+ # The V indicates it's an inversion list, and is followed immediately
+ # by the number of elements (lines) that follow giving its contents.
+ # The list has even numbered elements (0th, 2nd, ...) start ranges
+ # that are in the list, and odd ones that aren't in the list.
+ # Therefore the odd numbered ones are one beyond the end of the
+ # previous range, but otherwise don't get reflected in the file.
+ my $tested = join "\n", ("V" . scalar @tested), @tested;
local $/ = "\n";
chomp $tested;
$/ = $input_record_separator;
next;
}
- # Here, it matched the table. Now need to check for if it is correct
- # for beyond Unicode. First, calculate if is the default table or
- # not. This is the same algorithm as used internally in
- # prop_invlist(), so if it is wrong there, this test won't catch it.
- my $prop = lc $table;
- ($prop_only, $table) = split /\s*[:=]\s*/, $prop;
- if (defined $table) {
-
- # May have optional prefixed 'is'
- $prop = &utf8::_loose_name($prop_only) =~ s/^is//r;
- $prop = $utf8::loose_property_name_of{$prop};
- $prop .= "=" . &utf8::_loose_name($table);
- }
- else {
- $prop = &utf8::_loose_name($prop);
- }
- my $is_default = exists $Unicode::UCD::loose_defaults{$prop};
-
- @tested = @$before_invert if $invert; # Use the original
- if (@tested % 2 == 0) {
-
- # If there are an even number of elements, the final one starts a
- # range (going to infinity) of code points that are not in the
- # list.
- if ($is_default) {
- fail("prop_invlist('$mod_table')");
- diag("default table doesn't goto infinity");
- use Data::Dumper;
- diag Dumper \@tested;
- next;
- }
- }
- else {
- # An odd number of elements means the final one starts a range
- # (going to infinity of code points that are in the list.
- if (! $is_default) {
- fail("prop_invlist('$mod_table')");
- diag("non-default table needs to stop in the Unicode range");
- use Data::Dumper;
- diag Dumper \@tested;
- next;
- }
- }
-
pass("prop_invlist('$mod_table')");
}
}
@list = prop_invmap("Is_Is_Any");
is(@list, 0, "prop_invmap('Is_Is_Any') returns <undef> since two is's");
+# The files for these properties are not used by Perl, but are retained for
+# backwards compatibility with applications that read them directly, with
+# comments in them that their use is deprecated. Until such time as we remove
+# them completely, we test that they exist, are correct, and that their
+# formats haven't changed. This hash contains the info needed to test them as
+# if they were regular properties. 'replaced_by' gives the equivalent
+# property now used by Perl.
+my %legacy_props = (
+ Legacy_Case_Folding => { replaced_by => 'cf',
+ file => 'To/Fold',
+ swash_name => 'ToFold'
+ },
+ Legacy_Lowercase_Mapping => { replaced_by => 'lc',
+ file => 'To/Lower',
+ swash_name => 'ToLower'
+ },
+ Legacy_Titlecase_Mapping => { replaced_by => 'tc',
+ file => 'To/Title',
+ swash_name => 'ToTitle'
+ },
+ Legacy_Uppercase_Mapping => { replaced_by => 'uc',
+ file => 'To/Upper',
+ swash_name => 'ToUpper'
+ },
+ Legacy_Perl_Decimal_Digit => { replaced_by => 'Perl_Decimal_Digit',
+ file => 'To/Digit',
+ swash_name => 'ToDigit'
+ },
+ );
+
+foreach my $legacy_prop (keys %legacy_props) {
+ @list = prop_invmap($legacy_prop);
+ is(@list, 0, "'$legacy_prop' is unknown to prop_invmap");
+}
+
+# The files for these properties shouldn't have their formats changed in case
+# applications use them (though such use is deprecated).
+my @legacy_file_format = (keys %legacy_props,
+ qw( Bidi_Mirroring_Glyph
+ NFKC_Casefold
+ )
+ );
+
# The set of properties to test on has already been compiled into %props by
# the prop_aliases() tests.
# lists returned by prop_invlist(), which has already been tested.
PROPERTY:
-foreach my $prop (sort keys %props) {
+foreach my $prop (sort(keys %props), sort keys %legacy_props) {
+ my $is_legacy = 0;
my $loose_prop = &utf8::_loose_name(lc $prop);
my $suppressed = grep { $_ eq $loose_prop }
@Unicode::UCD::suppressed_properties;
+ my $actual_lookup_prop;
+ my $display_prop; # The property name that is displayed, as opposed
+ # to the one that is actually used.
+
# Find the short and full names that this property goes by
my ($name, $full_name) = prop_aliases($prop);
if (! $name) {
- if (! $suppressed) {
- fail("prop_invmap('$prop')");
- diag("is unknown to prop_aliases(), and we need it in order to test prop_invmap");
+
+ # Here, Perl doesn't know about this property. It could be a
+ # suppressed one, or a legacy one.
+ if (grep { $prop eq $_ } keys %legacy_props) {
+
+ # For legacy properties, we look up the modern equivalent
+ # property instead; later massaging the results to look like the
+ # known format of the legacy property. We add info about the
+ # legacy property to the data structures for the rest of the
+ # properties; this is to avoid more special cases for the legacies
+ # in the code below
+ $full_name = $name = $prop;
+ $actual_lookup_prop = $legacy_props{$prop}->{'replaced_by'};
+ my $base_file = $legacy_props{$prop}->{'file'};
+
+ # This legacy property is otherwise unknown to Perl; so shouldn't
+ # have any information about it already.
+ ok(! exists $utf8::loose_property_to_file_of{$loose_prop},
+ "There isn't a hash entry for file lookup of $prop");
+ $utf8::loose_property_to_file_of{$loose_prop} = $base_file;
+
+ ok(! exists $utf8::file_to_swash_name{$loose_prop},
+ "There isn't a hash entry for swash lookup of $prop");
+ $utf8::file_to_swash_name{$base_file}
+ = $legacy_props{$prop}->{'swash_name'};
+ $display_prop = $prop;
+ $is_legacy = 1;
}
+ else {
+ if (! $suppressed) {
+ fail("prop_invmap('$prop')");
+ diag("is unknown to prop_aliases(), and we need it in order to test prop_invmap");
+ }
next PROPERTY;
+ }
}
# Normalize the short name, as it is stored in the hashes under the
# Add in the characters that are supposed to be ignored to test loose
# matching, which the tested function applies to all properties
- my $mod_prop = "$extra_chars$prop";
+ $display_prop = "$extra_chars$prop" unless $display_prop;
+ $actual_lookup_prop = $display_prop unless $actual_lookup_prop;
- my ($invlist_ref, $invmap_ref, $format, $missing) = prop_invmap($mod_prop);
+ my ($invlist_ref, $invmap_ref, $format, $missing) = prop_invmap($actual_lookup_prop);
my $return_ref = [ $invlist_ref, $invmap_ref, $format, $missing ];
+
+ # The legacy property files all are expanded out so that each range is 1
+ # element long. That isn't true of the modern equivalent we use to check
+ # those files for correctness against. So take the output of the proxy
+ # and expand it to match the legacy file.
+ if ($is_legacy) {
+ my @expanded_list;
+ my @expanded_map;
+ for my $i (0 .. @$invlist_ref - 1 - 1) {
+ if (ref $invmap_ref->[$i] || $invmap_ref->[$i] eq $missing) {
+
+ # No adjustments should be done for the default mapping and
+ # the multi-char ones.
+ push @expanded_list, $invlist_ref->[$i];
+ push @expanded_map, $invmap_ref->[$i];
+ }
+ else {
+
+ # Expand the range into separate elements for each item.
+ my $offset = 0;
+ for my $j ($invlist_ref->[$i] .. $invlist_ref->[$i+1] -1) {
+ push @expanded_list, $j;
+ push @expanded_map, $invmap_ref->[$i] + $offset;
+
+ # The 'ae' format is for Legacy_Perl_Decimal_Digit; the
+ # other 4 are kept with leading zeros in the file, so
+ # convert to that.
+ $expanded_map[-1] = sprintf("%04X", $expanded_map[-1])
+ if $format ne 'ae';
+ $offset++;
+ }
+ }
+ }
+
+ # Final element is taken as is. The map should always be to the
+ # default value, so don't do a sprintf like we did above.
+ push @expanded_list, $invlist_ref->[-1];
+ push @expanded_map, $invmap_ref->[-1];
+
+ $invlist_ref = \@expanded_list;
+ $invmap_ref = \@expanded_map;
+ }
+
# If have already tested this property under a different name, merely
# compare the return from now with the saved one from before.
if (exists $tested_invmaps{$name}) {
- is_deeply($return_ref, $tested_invmaps{$name}, "prop_invmap('$mod_prop') gave same results as its synonym, '$name'");
+ is_deeply($return_ref, $tested_invmaps{$name}, "prop_invmap('$display_prop') gave same results as its synonym, '$name'");
next PROPERTY;
}
$tested_invmaps{$name} = dclone $return_ref;
# not generated.
if ($suppressed) {
if (defined $format) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("did not return undef for suppressed property $prop");
}
next PROPERTY;
}
elsif (!defined $format) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("'$prop' is unknown to prop_invmap()");
next PROPERTY;
}
# The two parallel arrays must have the same number of elements.
if (@$invlist_ref != @$invmap_ref) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("invlist has "
. scalar @$invlist_ref
. " while invmap has "
# The last element must be for the above-Unicode code points, and must be
# for the default value.
if ($invlist_ref->[-1] != 0x110000) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("The last inversion list element is not 0x110000");
next PROPERTY;
}
- if ($invmap_ref->[-1] ne $missing) {
- fail("prop_invmap('$mod_prop')");
+
+ my $upper_limit_subtract;
+
+ # prop_invmap() adds an extra element not present in the disk files for
+ # the above-Unicode code points. For almost all properties, that will be
+ # to $missing. In that case we don't look further at it when comparing
+ # with the disk files.
+ if ($invmap_ref->[-1] eq $missing) {
+ $upper_limit_subtract = 1;
+ }
+ elsif ($invmap_ref->[-1] eq 'Y' && ! grep { $_ !~ /[YN]/ } @$invmap_ref) {
+
+ # But that's not true for a few binary properties like 'Unassigned'
+ # that are Perl extensions (in this case for Gc=Unassigned) which
+ # match above-Unicode code points (hence the 'Y' in the test above).
+ # For properties where it isn't $missing, we're going to want to look
+ # at the whole thing when comparing with the disk file.
+ $upper_limit_subtract = 0;
+
+ # In those properties like 'Unassigned, the final element should be
+ # just a repetition of the next-to-last element, and won't be in the
+ # disk file, so remove it for the comparison. Otherwise, we will
+ # compare the whole of the array with the whole of the disk file.
+ if ($invlist_ref->[-2] <= 0x10FFFF && $invmap_ref->[-2] eq 'Y') {
+ pop @$invlist_ref;
+ pop @$invmap_ref;
+ }
+ }
+ else {
+ fail("prop_invmap('$display_prop')");
diag("The last inversion list element is '$invmap_ref->[-1]', and should be '$missing'");
next PROPERTY;
}
if ($name eq 'bmg') { # This one has an atypical $missing
if ($missing ne "") {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("The missings should be \"\"; got '$missing'");
next PROPERTY;
}
elsif ($format =~ /^ a (?!r) /x) {
if ($full_name eq 'Perl_Decimal_Digit') {
if ($missing ne "") {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("The missings should be \"\"; got '$missing'");
next PROPERTY;
}
}
- elsif ($missing ne "0") {
- fail("prop_invmap('$mod_prop')");
+ elsif ($missing ne "0" && ! grep { $prop eq $_ } keys %legacy_props) {
+ fail("prop_invmap('$display_prop')");
diag("The missings should be '0'; got '$missing'");
next PROPERTY;
}
}
elsif ($missing =~ /[<>]/) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("The missings should NOT be something with <...>'");
next PROPERTY;
$proxy_prop = lc $1 . "c";
}
if ($format ne "a") {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("The format should be 'a'; got '$format'");
next PROPERTY;
}
}
if ($format !~ / ^ (?: a [der]? | ale? | n | sl? ) $ /x) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("Unknown format '$format'");
next PROPERTY;
}
{
# Translate the charblocks() data structure to what the file
# would like.
- $official .= sprintf"%04X\t%04X\t%s\n",
+ $official .= sprintf"%X\t%X\t%s\n",
$range->[0][0],
$range->[0][1],
$range->[0][2];
# property comes along without these characteristics
if (!defined $base_file) {
$base_file = $utf8::loose_to_file_of{$proxy_prop};
- $is_binary = ($base_file =~ s/^!//) ? -1 : 1;
- $base_file = "lib/$base_file";
+ $is_binary = ($base_file =~ s/!//) ? -1 : 1;
+ $base_file = "lib/$base_file" unless $base_file =~ m!^#/!;
}
- # Read in the file
- $file = "unicore/$base_file.pl";
- $official = do $file;
+ # Read in the file. If the file's directory is '#', it is a
+ # special case where the contents are in-lined with semi-colons
+ # meaning new-lines, instead of it being an actual file to read.
+ if ($base_file =~ s!^#/!!) {
+ $official = $utf8::inline_definitions[$base_file];
+ }
+ else {
+ $official = do "unicore/$base_file.pl";
+ }
# Get rid of any trailing space and comments in the file.
$official =~ s/\s*(#.*)?$//mg;
# easier below.
if ($end ne "") {
for my $i (hex($start) + 1 .. hex $end) {
- $official .= sprintf "%04X\t\t%s\n", $i, $value;
+ $official .= sprintf "%X\t\t%s\n", $i, $value;
}
}
}
# get a reference to them.
my $swash_name = $utf8::file_to_swash_name{$base_file};
my $specials_ref;
- my $file_format;
+ my $file_format; # The 'format' given inside the file
if ($swash_name) {
$specials_ref = $utf8::SwashInfo{$swash_name}{'specials_name'};
if ($specials_ref) {
$file_format = $utf8::SwashInfo{$swash_name}{'format'};
}
+ # Leading zeros used to be used with the values in the files that give,
+ # ranges, but these have been mostly stripped off, except for some
+ # files whose formats should not change in any way.
+ my $file_range_format = (grep { $full_name eq $_ } @legacy_file_format)
+ ? "%04X"
+ : "%X";
+ # Currently this property still has leading zeroes in the mapped-to
+ # values, but otherwise, those values follow the same rules as the
+ # ranges.
+ my $file_map_format = ($full_name eq 'Decomposition_Mapping')
+ ? "%04X"
+ : $file_range_format;
+
# Certain of the proxy properties have to be adjusted to match the
# real ones.
- if ($full_name =~ /^(Case_Folding|(Lower|Title|Upper)case_Mapping)/) {
+ if ($full_name
+ =~ /^(Legacy_)?(Case_Folding|(Lower|Title|Upper)case_Mapping)/)
+ {
# Here we have either
# 1) Case_Folding; or
# element of the range...
if ($cp == $list[$i][0]) {
- # ... and there are other elements in the range, just shorten
- # the range to exclude this code point.
+ # ... and there are other elements in the range, just
+ # shorten the range to exclude this code point.
if ($list[$i][1] > $list[$i][0]) {
$list[$i][0]++;
}
for my $element (@list) {
$official .= "\n" if $official;
if ($element->[1] == $element->[0]) {
- $official .= sprintf "%04X\t\t%X", $element->[0], $element->[2];
+ $official
+ .= sprintf "$file_range_format\t\t$file_map_format",
+ $element->[0], $element->[2];
}
else {
- $official .= sprintf "%04X\t%04X\t%X", $element->[0], $element->[1], $element->[2];
+ $official .= sprintf "$file_range_format\t$file_range_format\t$file_map_format",
+ $element->[0],
+ $element->[1],
+ $element->[2];
}
}
}
- elsif ($full_name =~ /Simple_(Case_Folding|(Lower|Title|Upper)case_Mapping)/)
+ elsif ($full_name
+ =~ / ^ Simple_(Case_Folding|(Lower|Title|Upper)case_Mapping) $ /x)
{
# These properties have everything in the regular array, and the
# appends the next line to the running string.
my $tested_map = "";
+ # For use with files for binary properties only, which are stored in
+ # inversion list format. This counts the number of data lines in the
+ # file.
+ my $binary_count = 0;
+
# Create a copy of the file's specials hash. (It has been undef'd if
# we know it isn't relevant to this property, so if it exists, it's an
# error or is relevant). As we go along, we delete from that copy.
# it's an error
my %specials = %$specials_ref if $specials_ref;
- # The extra -1 is because the final element has been tested above to
- # be for anything above Unicode. The file doesn't go that high.
- for (my $i = 0; $i < @$invlist_ref - 1; $i++) {
+ # The extra -$upper_limit_subtract is because the final element may
+ # have been tested above to be for anything above Unicode, in which
+ # case the file may not go that high.
+ for (my $i = 0; $i < @$invlist_ref - $upper_limit_subtract; $i++) {
# If the map element is a reference, have to stringify it (but
# don't do so if the format doesn't allow references, so that an
if ($format eq 'sl') {
# At the time of this writing, there are two types of 'sl'
- # format One, in Name_Alias, has multiple separate entries
- # for each code point; the other, in Script_Extension, is space
- # separated. Assume the latter for non-Name_Alias.
+ # format One, in Name_Alias, has multiple separate
+ # entries for each code point; the other, in
+ # Script_Extension, is space separated. Assume the latter
+ # for non-Name_Alias.
if ($full_name ne 'Name_Alias') {
$invmap_ref->[$i] = join " ", @{$invmap_ref->[$i]};
}
# other property; thus the special handling of the
# first line.
if (ref $invmap_ref->[$i]) {
- my $hex_cp = sprintf("%04X", $invlist_ref->[$i]);
+ my $hex_cp = sprintf("%X", $invlist_ref->[$i]);
my $concatenated = $invmap_ref->[$i][0];
for (my $j = 1; $j < @{$invmap_ref->[$i]}; $j++) {
- $concatenated .= "\n$hex_cp\t\t" . $invmap_ref->[$i][$j];
+ $concatenated .= "\n$hex_cp\t\t"
+ . $invmap_ref->[$i][$j];
}
$invmap_ref->[$i] = $concatenated;
}
}
elsif ($format =~ / ^ al e? $/x) {
- # For a al property, the stringified result should be in
+ # For an al property, the stringified result should be in
# the specials hash. The key is the packed code point,
# and the value is the packed map.
my $value;
- if (! defined ($value = delete $specials{pack("C0U", $invlist_ref->[$i]) })) {
- fail("prop_invmap('$mod_prop')");
+ if (! defined ($value = delete $specials{pack("C0U",
+ $invlist_ref->[$i]) }))
+ {
+ fail("prop_invmap('$display_prop')");
diag(sprintf "There was no specials element for %04X", $invlist_ref->[$i]);
next PROPERTY;
}
my $packed = pack "U*", @{$invmap_ref->[$i]};
if ($value ne $packed) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf "For %04X, expected the mapping to be '$packed', but got '$value'");
next PROPERTY;
}
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
# The decomposition mapping file has the code points as
# a string of space-separated hex constants.
- $invmap_ref->[$i] = join " ", map { sprintf "%04X", $_ } @{$invmap_ref->[$i]};
+ $invmap_ref->[$i] = join " ", map { sprintf "%04X", $_ }
+ @{$invmap_ref->[$i]};
}
else {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("Can't handle format '$format'");
next PROPERTY;
}
- }
- elsif ($full_name =~ # These maps are in hex
- /(Simple_)?(Case_Folding|(Lower|Title|Upper)case_Mapping)/)
- {
+ } # Otherwise, the map is to a simple scalar
+ elsif (defined $file_format && $file_format eq 'ax') {
+ # These maps are in hex
$invmap_ref->[$i] = sprintf("%X", $invmap_ref->[$i]);
}
elsif ($format eq 'ad' || $format eq 'ale') {
&& $invmap_ref->[$i] != 0)
{
my $next = $invmap_ref->[$i] + 1;
- $invmap_ref->[$i] = sprintf("%04X", $invmap_ref->[$i]);
+ $invmap_ref->[$i] = sprintf($file_map_format,
+ $invmap_ref->[$i]);
# If there are other elements in this range they need to
# be adjusted; they must individually be re-mapped. Do
# should be in the specials hash, with the key the packed
# code point, and the map just empty.
my $value;
- if (! defined ($value = delete $specials{pack("C0U", $invlist_ref->[$i]) })) {
- fail("prop_invmap('$mod_prop')");
+ if (! defined ($value = delete $specials{pack("C0U",
+ $invlist_ref->[$i]) }))
+ {
+ fail("prop_invmap('$display_prop')");
diag(sprintf "There was no specials element for %04X", $invlist_ref->[$i]);
next PROPERTY;
}
if ($value ne "") {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf "For %04X, expected the mapping to be \"\", but got '$value'", $invlist_ref->[$i]);
next PROPERTY;
}
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
# Finally have figured out what the map column in the file should
# be. Append the line to the running string.
my $start = $invlist_ref->[$i];
- my $end = $invlist_ref->[$i+1] - 1;
- $end = ($start == $end) ? "" : sprintf("%04X", $end);
- if ($invmap_ref->[$i] ne "") {
- $tested_map .= sprintf "%04X\t%s\t%s\n", $start, $end, $invmap_ref->[$i];
- }
- elsif ($end ne "") {
- $tested_map .= sprintf "%04X\t%s\n", $start, $end;
+ my $end = (defined $invlist_ref->[$i+1])
+ ? $invlist_ref->[$i+1] - 1
+ : $Unicode::UCD::MAX_CP;
+ if ($is_binary) {
+
+ # Files for binary properties are in inversion list format,
+ # without ranges.
+ $tested_map .= "$start\n";
+ $binary_count++;
+
+ # If the final value is infinity, no line for it exists.
+ if ($end < $Unicode::UCD::MAX_CP) {
+ $tested_map .= ($end + 1) . "\n";
+ $binary_count++;
+ }
}
else {
- $tested_map .= sprintf "%04X\n", $start;
+ $end = ($start == $end) ? "" : sprintf($file_range_format, $end);
+ if ($invmap_ref->[$i] ne "") {
+ $tested_map .= sprintf "$file_range_format\t%s\t%s\n",
+ $start, $end, $invmap_ref->[$i];
+ }
+ elsif ($end ne "") {
+ $tested_map .= sprintf "$file_range_format\t%s\n",
+ $start, $end;
+ }
+ else {
+ $tested_map .= sprintf "$file_range_format\n", $start;
+ }
}
} # End of looping over all elements.
+ # Binary property files begin with a line count line.
+ $tested_map = "V$binary_count\n$tested_map" if $binary_count;
+
# Here are done with generating what the file should look like
local $/ = "\n";
# And compare.
if ($tested_map ne $official) {
- fail_with_diff($mod_prop, $official, $tested_map, "prop_invmap");
+ fail_with_diff($display_prop, $official, $tested_map, "prop_invmap");
next PROPERTY;
}
# There shouldn't be any specials unaccounted for.
if (keys %specials) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("Unexpected specials: " . join ", ", keys %specials);
next PROPERTY;
}
# but the Name in order to do the comparison.
if ($missing ne "") {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("The missings should be \"\"; got \"missing\"");
next PROPERTY;
}
my @code_point_in_names =
@Unicode::UCD::code_points_ending_in_code_point;
- for my $i (0 .. @$invlist_ref - 1 - 1) {
+ for my $i (0 .. @$invlist_ref - 1 - $upper_limit_subtract) {
my $start = $invlist_ref->[$i];
my $end = $invlist_ref->[$i+1] - 1;
if ($invmap_ref->[$i] eq $missing) {
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
if (($i > 0 && $invlist_ref->[$i] <= $invlist_ref->[$i-1])
|| $invlist_ref->[$i] >= $invlist_ref->[$i+1])
{
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
if ($type eq "<hangul syllable>") {
if ($name ne "") {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("Unexpected text in $invmap_ref->[$i]");
next PROPERTY;
}
if ($start != 0xAC00) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf("<hangul syllables> should begin at 0xAC00, got %04X", $start));
next PROPERTY;
}
if ($end != $start + 11172 - 1) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf("<hangul syllables> should end at %04X, got %04X", $start + 11172 -1, $end));
next PROPERTY;
}
}
elsif ($type ne "<code point>") {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("Unexpected text '$type' in $invmap_ref->[$i]");
next PROPERTY;
}
last;
}
else {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("Unexpected code-point-in-name line '$invmap_ref->[$i]'");
next PROPERTY;
}
chomp $tested_map;
$/ = $input_record_separator;
if ($tested_map ne $official) {
- fail_with_diff($mod_prop, $official, $tested_map, "prop_invmap");
+ fail_with_diff($display_prop, $official, $tested_map, "prop_invmap");
next PROPERTY;
}
if (@code_point_in_names) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
use Data::Dumper;
diag("Missing code-point-in-name line(s)" . Dumper \@code_point_in_names);
next PROPERTY;
my %maps;
my $previous_map;
- # (The extra -1 is to not look at the final element in the loop, which
- # we know is the one that starts just beyond Unicode and goes to
- # infinity.)
- for my $i (0 .. @$invlist_ref - 1 - 1) {
+ for my $i (0 .. @$invlist_ref - 1 - $upper_limit_subtract) {
my $range_start = $invlist_ref->[$i];
# Because we are sorting into buckets, things could be
if (($i > 0 && $range_start <= $invlist_ref->[$i-1])
|| $range_start >= $invlist_ref->[$i+1])
{
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag(sprintf "Range beginning at %04X is out-of-order.", $invlist_ref->[$i]);
next PROPERTY;
}
: @{$maps{$map}};
for my $i (0 .. $min- 1) {
if ($i > @off_invlist - 1) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("There is no element [$i] for $prop=$map from prop_invlist(), while [$i] in the implicit one constructed from prop_invmap() is '$maps{$map}[$i]'");
next PROPERTY;
}
elsif ($i > @{$maps{$map}} - 1) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("There is no element [$i] from the implicit $prop=$map constructed from prop_invmap(), while [$i] in the one from prop_invlist() is '$off_invlist[$i]'");
next PROPERTY;
}
elsif ($maps{$map}[$i] ne $off_invlist[$i]) {
- fail("prop_invmap('$mod_prop')");
+ fail("prop_invmap('$display_prop')");
diag("Element [$i] of the implicit $prop=$map constructed from prop_invmap() is '$maps{$map}[$i]', and the one from prop_invlist() is '$off_invlist[$i]'");
next PROPERTY;
}
}
else { # Don't know this property nor format.
- fail("prop_invmap('$mod_prop')");
- diag("Unknown format '$format'");
+ fail("prop_invmap('$display_prop')");
+ diag("Unknown property '$display_prop' or format '$format'");
+ next PROPERTY;
}
- pass("prop_invmap('$mod_prop')");
+ pass("prop_invmap('$display_prop')");
}
# A few tests of search_invlist
is(search_invlist(\@alpha_invlist, ord("\t")), undef, "search_invlist returns undef for code points before first one on the list");
ok($/ eq $input_record_separator, "The record separator didn't get overridden");
+
+if (! ok(@warnings == 0, "No warnings were generated")) {
+ diag(join "\n", "The warnings are:", @warnings);
+}
+
done_testing();