//===----------------------------------------------------------------------===// // // 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_utf8 // : public codecvt // { // // unspecified // }; // int length(stateT& state, const externT* from, const externT* from_end, // size_t max) const; #include #include int main() { { typedef std::codecvt_utf8 C; C c; char n[4] = {char(0xF1), char(0x80), char(0x80), char(0x83)}; std::mbstate_t m; int r = c.length(m, n, n+4, 1); assert(r == 4); n[0] = char(0xE1); n[1] = char(0x80); n[2] = char(0x85); r = c.length(m, n, n+3, 2); assert(r == 3); n[0] = char(0xD1); n[1] = char(0x93); r = c.length(m, n, n+2, 3); assert(r == 2); n[0] = char(0x56); r = c.length(m, n, n+1, 3); assert(r == 1); } { typedef std::codecvt_utf8 C; C c; char n[4] = {char(0xF1), char(0x80), char(0x80), char(0x83)}; std::mbstate_t m; int r = c.length(m, n, n+4, 1); assert(r == 0); n[0] = char(0xE1); n[1] = char(0x80); n[2] = char(0x85); r = c.length(m, n, n+3, 2); assert(r == 0); n[0] = char(0xD1); n[1] = char(0x93); r = c.length(m, n, n+2, 3); assert(r == 2); n[0] = char(0x56); r = c.length(m, n, n+1, 3); assert(r == 1); } { typedef std::codecvt_utf8 C; C c; char n[7] = {char(0xEF), char(0xBB), char(0xBF), char(0xF1), char(0x80), char(0x80), char(0x83)}; std::mbstate_t m; int r = c.length(m, n, n+7, 1); assert(r == 7); n[0] = char(0xE1); n[1] = char(0x80); n[2] = char(0x85); r = c.length(m, n, n+3, 2); assert(r == 3); n[0] = char(0xEF); n[1] = char(0xBB); n[2] = char(0xBF); n[3] = char(0xD1); n[4] = char(0x93); r = c.length(m, n, n+5, 3); assert(r == 5); n[0] = char(0x56); r = c.length(m, n, n+1, 3); assert(r == 1); } { typedef std::codecvt_utf8 C; C c; char n[4] = {char(0xF1), char(0x80), char(0x80), char(0x83)}; std::mbstate_t m; int r = c.length(m, n, n+4, 1); assert(r == 4); n[0] = char(0xE1); n[1] = char(0x80); n[2] = char(0x85); r = c.length(m, n, n+3, 2); assert(r == 3); n[0] = char(0xD1); n[1] = char(0x93); r = c.length(m, n, n+2, 3); assert(r == 2); n[0] = char(0x56); r = c.length(m, n, n+1, 3); assert(r == 1); } { typedef std::codecvt_utf8 C; C c; char n[4] = {char(0xF1), char(0x80), char(0x80), char(0x83)}; std::mbstate_t m; int r = c.length(m, n, n+4, 1); assert(r == 0); n[0] = char(0xE1); n[1] = char(0x80); n[2] = char(0x85); r = c.length(m, n, n+3, 2); assert(r == 0); n[0] = char(0xD1); n[1] = char(0x93); r = c.length(m, n, n+2, 3); assert(r == 2); n[0] = char(0x56); r = c.length(m, n, n+1, 3); assert(r == 1); } { typedef std::codecvt_utf8 C; C c; char n[7] = {char(0xEF), char(0xBB), char(0xBF), char(0xF1), char(0x80), char(0x80), char(0x83)}; std::mbstate_t m; int r = c.length(m, n, n+7, 1); assert(r == 7); n[0] = char(0xE1); n[1] = char(0x80); n[2] = char(0x85); r = c.length(m, n, n+3, 2); assert(r == 3); n[0] = char(0xEF); n[1] = char(0xBB); n[2] = char(0xBF); n[3] = char(0xD1); n[4] = char(0x93); r = c.length(m, n, n+5, 3); assert(r == 5); n[0] = char(0x56); r = c.length(m, n, n+1, 3); assert(r == 1); } { typedef std::codecvt_utf8 C; C c; char n[4] = {char(0xF1), char(0x80), char(0x80), char(0x83)}; std::mbstate_t m; int r = c.length(m, n, n+4, 1); assert(r == 0); n[0] = char(0xE1); n[1] = char(0x80); n[2] = char(0x85); r = c.length(m, n, n+3, 2); assert(r == 3); n[0] = char(0xD1); n[1] = char(0x93); r = c.length(m, n, n+2, 3); assert(r == 2); n[0] = char(0x56); r = c.length(m, n, n+1, 3); assert(r == 1); } { typedef std::codecvt_utf8 C; C c; char n[4] = {char(0xF1), char(0x80), char(0x80), char(0x83)}; std::mbstate_t m; int r = c.length(m, n, n+4, 1); assert(r == 0); n[0] = char(0xE1); n[1] = char(0x80); n[2] = char(0x85); r = c.length(m, n, n+3, 2); assert(r == 0); n[0] = char(0xD1); n[1] = char(0x93); r = c.length(m, n, n+2, 3); assert(r == 2); n[0] = char(0x56); r = c.length(m, n, n+1, 3); assert(r == 1); } { typedef std::codecvt_utf8 C; C c; char n[7] = {char(0xEF), char(0xBB), char(0xBF), char(0xF1), char(0x80), char(0x80), char(0x83)}; std::mbstate_t m; int r = c.length(m, n, n+7, 1); assert(r == 3); n[0] = char(0xE1); n[1] = char(0x80); n[2] = char(0x85); r = c.length(m, n, n+3, 2); assert(r == 3); n[0] = char(0xEF); n[1] = char(0xBB); n[2] = char(0xBF); n[3] = char(0xD1); n[4] = char(0x93); r = c.length(m, n, n+5, 3); assert(r == 5); n[0] = char(0x56); r = c.length(m, n, n+1, 3); assert(r == 1); } }