Seems to work now. Either asking for family emoji, or :lang=und-zsye returns
the preferred color emoji font available, or just any color emoji font if none
of the preferred ones was found.
As written at:
https://lists.freedesktop.org/archives/fontconfig/2017-June/005929.html
I think FcCharSetFreezeOrig() and FcCharSetFindFrozen() should use the %
operator instead of & when computing the bucket index for
freezer->orig_hash_table, otherwise at most 8 buckets among the 67
available (FC_CHAR_SET_HASH_SIZE) are used.
Another way would be to change FC_CHAR_SET_HASH_SIZE to be of the form
2**n -1 (i.e., a power of two minus one). In such a case, the & and %
operators would be equivalent.
In fcLangCountrySets, it may happen that two charsets for the same
language but different territories are found in different FcChar32
"buckets" (different "columns" on the same line). This is currently the
case for the following pairs:
mn-cn and mn-mn
pap-an and pap-aw
The FcLangSetCompare() code so far used to return FcLangDifferentLang
instead of FcLangDifferentTerritory when comparing:
an FcLangSet containing only mn-cn with one containing only mn-mn
or
an FcLangSet containing only pap-an with one containing only pap-aw
This commit fixes this problem.
FcLangSetIndex() indicates "not found" with a non-negative return value.
Return value 0 doesn't imply "not found", it rather means "language
found at index 0 in fcLangCharSets".
This commit fixes a bug that can be reproduced like this:
- remove all languages starting with 'a' in fc-lang/Makefile.am (in
ORTH's definition);
- rebuild fontconfig with this change (-> new fc-lang/fclang.h);
- create an FcLangSet 'ls1' that contains at least the first language
from fcLangCharSets (i.e., the first *remaining* in lexicographic
order); let's assume it is "ba" for the sake of this description;
- create an FcLangSet 'ls2' that only contains the language "aa" (any
language starting with 'a' should work as well);
- check the return value of FcLangSetContains(ls1, ls2);
The expected return value is FcFalse, however it is FcTrue if you use
the code before this commit.
What happens is that FcLangSetIndex() returns 0, because this is the
index of the first slot after the not-found language "aa" in
fcLangCharSets (since we removed all languages starting with 'a').
However, this index happens to be non-negative, therefore
FcLangSetContainsLang() mistakenly infers that the language "aa" was
found in fcLangCharSets, and thus calls FcLangSetBitGet(ls1, 0), which
returns FcTrue since we've put the first remaining language "ba" in the
'ls1' language set.
The "return -low;" statement previously in FcLangSetIndex() was
inconsistent with the final return statement. "return -(low+1);" fixes
this inconsistency as well as the incorrect behavior described above.
FcLangSetIndex() contains code like this:
low = fcLangCharSetRanges[firstChar - 'a'].begin;
high = fcLangCharSetRanges[firstChar - 'a'].end;
/* no matches */
if (low > high)
The assumption behind this test didn't hold before this commit, unless
there is at least one language name that starts with 'z' (which is
thankfully the case in our world :-). If the last language name in
lexicographic order starts for instance with 'x', this change ensures
that fcLangCharSetRanges['y' - 'a'].begin and
fcLangCharSetRanges['z' - 'a'].begin
are equal to NUM_LANG_CHAR_SET, in order to make the above assumption
correct in all cases.
Before this commit, FcCharSetHash() repeatedly used the address of the
'numbers' array of an FcCharSet to compute the FcCharSet hash, instead
of the value of each array element. This is not good for even spreading
of the FcCharSet objects among the various buckets of the hash table
(and should thus reduce performance). This bug appears to have been
mistakenly introduced in commit
cd2ec1a940 (June 2005).