Mercurial > projects > ldc
view lphobos/typeinfo2/ti_Ag.d @ 1064:f0b6549055ab
Make LDC work with LLVM trunk (s/LinkOnceLinkage/LinkOnceOdrLinkage/)
Also moved the #defines for linkage types into a separate header instead of
mars.h so we can #include revisions.h without having to rebuild the entire
frontend every time we update.
(I'm using revisions.h to get the LLVM revision for use in preprocessor
conditionals. It should work with LLVM release 2.5, old trunk and new trunk)
| author | Frits van Bommel <fvbommel wxs.nl> |
|---|---|
| date | Sun, 08 Mar 2009 16:13:10 +0100 |
| parents | 362825278842 |
| children |
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module typeinfo2.ti_Ag; private int string_cmp(char[] s1, char[] s2) { auto len = s1.length; if (s2.length < len) len = s2.length; int result = memcmp(s1.ptr, s2.ptr, len); if (result == 0) result = cast(int)(cast(ptrdiff_t)s1.length - cast(ptrdiff_t)s2.length); return result; } extern(C) int memcmp(void*,void*,size_t); // byte[] class TypeInfo_Ag : TypeInfo { char[] toString() { return "byte[]"; } hash_t getHash(void *p) { byte[] s = *cast(byte[]*)p; size_t len = s.length; byte *str = s.ptr; hash_t hash = 0; while (1) { switch (len) { case 0: return hash; case 1: hash *= 9; hash += *cast(ubyte *)str; return hash; case 2: hash *= 9; hash += *cast(ushort *)str; return hash; case 3: hash *= 9; hash += (*cast(ushort *)str << 8) + (cast(ubyte *)str)[2]; return hash; default: hash *= 9; hash += *cast(uint *)str; str += 4; len -= 4; break; } } return hash; } int equals(void *p1, void *p2) { byte[] s1 = *cast(byte[]*)p1; byte[] s2 = *cast(byte[]*)p2; return s1.length == s2.length && memcmp(cast(byte *)s1, cast(byte *)s2, s1.length) == 0; } int compare(void *p1, void *p2) { byte[] s1 = *cast(byte[]*)p1; byte[] s2 = *cast(byte[]*)p2; size_t len = s1.length; if (s2.length < len) len = s2.length; for (size_t u = 0; u < len; u++) { int result = s1[u] - s2[u]; if (result) return result; } return cast(int)s1.length - cast(int)s2.length; } size_t tsize() { return (byte[]).sizeof; } uint flags() { return 1; } TypeInfo next() { return typeid(byte); } } // ubyte[] class TypeInfo_Ah : TypeInfo_Ag { char[] toString() { return "ubyte[]"; } int compare(void *p1, void *p2) { char[] s1 = *cast(char[]*)p1; char[] s2 = *cast(char[]*)p2; return string_cmp(s1, s2); } TypeInfo next() { return typeid(ubyte); } } // void[] class TypeInfo_Av : TypeInfo_Ah { char[] toString() { return "void[]"; } TypeInfo next() { return typeid(void); } } // bool[] class TypeInfo_Ab : TypeInfo_Ah { char[] toString() { return "bool[]"; } TypeInfo next() { return typeid(bool); } } // char[] class TypeInfo_Aa : TypeInfo_Ag { char[] toString() { return "char[]"; } hash_t getHash(void *p) { char[] s = *cast(char[]*)p; hash_t hash = 0; version (all) { foreach (char c; s) hash = hash * 11 + c; } else { size_t len = s.length; char *str = s; while (1) { switch (len) { case 0: return hash; case 1: hash *= 9; hash += *cast(ubyte *)str; return hash; case 2: hash *= 9; hash += *cast(ushort *)str; return hash; case 3: hash *= 9; hash += (*cast(ushort *)str << 8) + (cast(ubyte *)str)[2]; return hash; default: hash *= 9; hash += *cast(uint *)str; str += 4; len -= 4; break; } } } return hash; } TypeInfo next() { return typeid(char); } }