//===----------------------------------------------------------------------===// // // The LLVM Compiler Infrastructure // // This file is dual licensed under the MIT and the University of Illinois Open // Source Licenses. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // template <> class codecvt // template <> class codecvt // template <> class codecvt // extension // sanity check #include #include #include #include int main() { typedef std::codecvt F32_8; typedef std::codecvt F16_8; typedef std::codecvt_utf16 F32_16; std::locale l = std::locale(std::locale::classic(), new F32_16); const F32_8& f32_8 = std::use_facet(std::locale::classic()); const F32_16& f32_16 = std::use_facet(l); const F16_8& f16_8 = std::use_facet(std::locale::classic()); std::mbstate_t mbs = {0}; F32_8::intern_type* c32p; F16_8::intern_type* c16p; F32_8::extern_type* c8p; const F32_8::intern_type* c_c32p; const F16_8::intern_type* c_c16p; const F32_8::extern_type* c_c8p; F32_8::intern_type c32; F16_8::intern_type c16[2]; char c16c[4]; char* c16cp; F32_8::extern_type c8[4]; for (F32_8::intern_type c32x = 0; c32x < 0x110003; ++c32x) { if ((0xD800 <= c32x && c32x < 0xE000) || c32x >= 0x110000) { assert(f32_16.out(mbs, &c32x, &c32x+1, c_c32p, c16c+0, c16c+4, c16cp) == F32_8::error); assert(f32_8.out(mbs, &c32x, &c32x+1, c_c32p, c8, c8+4, c8p) == F32_8::error); } else { assert(f32_16.out(mbs, &c32x, &c32x+1, c_c32p, c16c, c16c+4, c16cp) == F32_8::ok); assert(c_c32p-&c32x == 1); if (c32x < 0x10000) assert(c16cp-c16c == 2); else assert(c16cp-c16c == 4); for (int i = 0; i < (c16cp - c16c) / 2; ++i) c16[i] = (unsigned char)c16c[2*i] << 8 | (unsigned char)c16c[2*i+1]; c_c16p = c16 + (c16cp - c16c) / 2; assert(f16_8.out(mbs, c16, c_c16p, c_c16p, c8, c8+4, c8p) == F32_8::ok); if (c32x < 0x10000) assert(c_c16p-c16 == 1); else assert(c_c16p-c16 == 2); if (c32x < 0x80) assert(c8p-c8 == 1); else if (c32x < 0x800) assert(c8p-c8 == 2); else if (c32x < 0x10000) assert(c8p-c8 == 3); else assert(c8p-c8 == 4); c_c8p = c8p; assert(f32_8.in(mbs, c8, c_c8p, c_c8p, &c32, &c32+1, c32p) == F32_8::ok); if (c32x < 0x80) assert(c_c8p-c8 == 1); else if (c32x < 0x800) assert(c_c8p-c8 == 2); else if (c32x < 0x10000) assert(c_c8p-c8 == 3); else assert(c_c8p-c8 == 4); assert(c32p-&c32 == 1); assert(c32 == c32x); assert(f32_8.out(mbs, &c32x, &c32x+1, c_c32p, c8, c8+4, c8p) == F32_8::ok); assert(c_c32p-&c32x == 1); if (c32x < 0x80) assert(c8p-c8 == 1); else if (c32x < 0x800) assert(c8p-c8 == 2); else if (c32x < 0x10000) assert(c8p-c8 == 3); else assert(c8p-c8 == 4); c_c8p = c8p; assert(f16_8.in(mbs, c8, c_c8p, c_c8p, c16, c16+2, c16p) == F32_8::ok); if (c32x < 0x80) assert(c_c8p-c8 == 1); else if (c32x < 0x800) assert(c_c8p-c8 == 2); else if (c32x < 0x10000) assert(c_c8p-c8 == 3); else assert(c_c8p-c8 == 4); if (c32x < 0x10000) assert(c16p-c16 == 1); else assert(c16p-c16 == 2); for (int i = 0; i < c16p-c16; ++i) { c16c[2*i] = static_cast(c16[i] >> 8); c16c[2*i+1] = static_cast(c16[i]); } const char* c_c16cp = c16c + (c16p-c16)*2; assert(f32_16.in(mbs, c16c, c_c16cp, c_c16cp, &c32, &c32+1, c32p) == F32_8::ok); if (c32x < 0x10000) assert(c_c16cp-c16c == 2); else assert(c_c16cp-c16c == 4); assert(c32p-&c32 == 1); assert(c32 == c32x); } } }