| //===----------------------------------------------------------------------===// |
| // |
| // 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. |
| // |
| //===----------------------------------------------------------------------===// |
| |
| // <codecvt> |
| |
| // template <class Elem, unsigned long Maxcode = 0x10ffff, |
| // codecvt_mode Mode = (codecvt_mode)0> |
| // class codecvt_utf16 |
| // : public codecvt<Elem, char, mbstate_t> |
| // { |
| // // unspecified |
| // }; |
| |
| // result |
| // out(stateT& state, |
| // const internT* from, const internT* from_end, const internT*& from_next, |
| // externT* to, externT* to_end, externT*& to_next) const; |
| |
| #include <codecvt> |
| #include <cassert> |
| |
| template <class CharT, size_t = sizeof(CharT)> |
| struct TestHelper; |
| template <class CharT> |
| struct TestHelper<CharT, 2> { |
| static void test(); |
| }; |
| template <class CharT> |
| struct TestHelper<CharT, 4> { |
| static void test(); |
| }; |
| |
| template <class CharT> |
| void TestHelper<CharT, 2>::test() { |
| // Nothing to do, the conversion in unsupported |
| } |
| |
| template <class CharT> |
| void TestHelper<CharT, 4>::test() { |
| { |
| typedef std::codecvt_utf16<CharT> C; |
| C c; |
| CharT w = 0x40003; |
| char n[4] = {0}; |
| const CharT* wp = nullptr; |
| std::mbstate_t m; |
| char* np = nullptr; |
| std::codecvt_base::result r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 4); |
| assert(n[0] == char(0xD8)); |
| assert(n[1] == char(0xC0)); |
| assert(n[2] == char(0xDC)); |
| assert(n[3] == char(0x03)); |
| |
| w = 0x1005; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[0] == char(0x10)); |
| assert(n[1] == char(0x05)); |
| assert(n[2] == char(0xDC)); |
| assert(n[3] == char(0x03)); |
| |
| w = 0x453; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[0] == char(0x04)); |
| assert(n[1] == char(0x53)); |
| assert(n[2] == char(0xDC)); |
| assert(n[3] == char(0x03)); |
| |
| w = 0x56; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[0] == char(0x00)); |
| assert(n[1] == char(0x56)); |
| assert(n[2] == char(0xDC)); |
| assert(n[3] == char(0x03)); |
| } |
| { |
| typedef std::codecvt_utf16<CharT, 0x1000> C; |
| C c; |
| CharT w = 0x40003; |
| char n[4] = {0}; |
| const CharT* wp = nullptr; |
| std::mbstate_t m; |
| char* np = nullptr; |
| std::codecvt_base::result r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::error); |
| assert(wp == &w); |
| assert(np == n); |
| assert(n[0] == char(0)); |
| assert(n[1] == char(0)); |
| assert(n[2] == char(0)); |
| assert(n[3] == char(0)); |
| |
| w = 0x1005; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::error); |
| assert(wp == &w); |
| assert(np == n); |
| assert(n[0] == char(0)); |
| assert(n[1] == char(0)); |
| assert(n[2] == char(0)); |
| assert(n[3] == char(0)); |
| |
| w = 0x453; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[0] == char(0x04)); |
| assert(n[1] == char(0x53)); |
| assert(n[2] == char(0)); |
| assert(n[3] == char(0)); |
| |
| w = 0x56; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[0] == char(0x00)); |
| assert(n[1] == char(0x56)); |
| assert(n[2] == char(0)); |
| assert(n[3] == char(0)); |
| } |
| { |
| typedef std::codecvt_utf16<CharT, 0x10ffff, std::generate_header> C; |
| C c; |
| CharT w = 0x40003; |
| char n[6] = {0}; |
| const CharT* wp = nullptr; |
| std::mbstate_t m; |
| char* np = nullptr; |
| std::codecvt_base::result r = c.out(m, &w, &w + 1, wp, n, n + 6, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 6); |
| assert(n[0] == char(0xFE)); |
| assert(n[1] == char(0xFF)); |
| assert(n[2] == char(0xD8)); |
| assert(n[3] == char(0xC0)); |
| assert(n[4] == char(0xDC)); |
| assert(n[5] == char(0x03)); |
| |
| w = 0x1005; |
| r = c.out(m, &w, &w + 1, wp, n, n + 6, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 4); |
| assert(n[0] == char(0xFE)); |
| assert(n[1] == char(0xFF)); |
| assert(n[2] == char(0x10)); |
| assert(n[3] == char(0x05)); |
| assert(n[4] == char(0xDC)); |
| assert(n[5] == char(0x03)); |
| |
| w = 0x453; |
| r = c.out(m, &w, &w + 1, wp, n, n + 6, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 4); |
| assert(n[0] == char(0xFE)); |
| assert(n[1] == char(0xFF)); |
| assert(n[2] == char(0x04)); |
| assert(n[3] == char(0x53)); |
| assert(n[4] == char(0xDC)); |
| assert(n[5] == char(0x03)); |
| |
| w = 0x56; |
| r = c.out(m, &w, &w + 1, wp, n, n + 6, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 4); |
| assert(n[0] == char(0xFE)); |
| assert(n[1] == char(0xFF)); |
| assert(n[2] == char(0x00)); |
| assert(n[3] == char(0x56)); |
| assert(n[4] == char(0xDC)); |
| assert(n[5] == char(0x03)); |
| } |
| |
| { |
| typedef std::codecvt_utf16<CharT, 0x10FFFF, std::little_endian> C; |
| C c; |
| CharT w = 0x40003; |
| char n[4] = {0}; |
| const CharT* wp = nullptr; |
| std::mbstate_t m; |
| char* np = nullptr; |
| std::codecvt_base::result r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 4); |
| assert(n[1] == char(0xD8)); |
| assert(n[0] == char(0xC0)); |
| assert(n[3] == char(0xDC)); |
| assert(n[2] == char(0x03)); |
| |
| w = 0x1005; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[1] == char(0x10)); |
| assert(n[0] == char(0x05)); |
| assert(n[3] == char(0xDC)); |
| assert(n[2] == char(0x03)); |
| |
| w = 0x453; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[1] == char(0x04)); |
| assert(n[0] == char(0x53)); |
| assert(n[3] == char(0xDC)); |
| assert(n[2] == char(0x03)); |
| |
| w = 0x56; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[1] == char(0x00)); |
| assert(n[0] == char(0x56)); |
| assert(n[3] == char(0xDC)); |
| assert(n[2] == char(0x03)); |
| } |
| { |
| typedef std::codecvt_utf16<CharT, 0x1000, std::little_endian> C; |
| C c; |
| CharT w = 0x40003; |
| char n[4] = {0}; |
| const CharT* wp = nullptr; |
| std::mbstate_t m; |
| char* np = nullptr; |
| std::codecvt_base::result r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::error); |
| assert(wp == &w); |
| assert(np == n); |
| assert(n[1] == char(0)); |
| assert(n[0] == char(0)); |
| assert(n[3] == char(0)); |
| assert(n[2] == char(0)); |
| |
| w = 0x1005; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::error); |
| assert(wp == &w); |
| assert(np == n); |
| assert(n[1] == char(0)); |
| assert(n[0] == char(0)); |
| assert(n[3] == char(0)); |
| assert(n[2] == char(0)); |
| |
| w = 0x453; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[1] == char(0x04)); |
| assert(n[0] == char(0x53)); |
| assert(n[3] == char(0)); |
| assert(n[2] == char(0)); |
| |
| w = 0x56; |
| r = c.out(m, &w, &w + 1, wp, n, n + 4, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 2); |
| assert(n[1] == char(0x00)); |
| assert(n[0] == char(0x56)); |
| assert(n[3] == char(0)); |
| assert(n[2] == char(0)); |
| } |
| { |
| typedef std::codecvt_utf16<CharT, 0x10ffff, |
| std::codecvt_mode(std::generate_header | |
| std::little_endian)> |
| C; |
| C c; |
| CharT w = 0x40003; |
| char n[6] = {0}; |
| const CharT* wp = nullptr; |
| std::mbstate_t m; |
| char* np = nullptr; |
| std::codecvt_base::result r = c.out(m, &w, &w + 1, wp, n, n + 6, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 6); |
| assert(n[1] == char(0xFE)); |
| assert(n[0] == char(0xFF)); |
| assert(n[3] == char(0xD8)); |
| assert(n[2] == char(0xC0)); |
| assert(n[5] == char(0xDC)); |
| assert(n[4] == char(0x03)); |
| |
| w = 0x1005; |
| r = c.out(m, &w, &w + 1, wp, n, n + 6, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 4); |
| assert(n[1] == char(0xFE)); |
| assert(n[0] == char(0xFF)); |
| assert(n[3] == char(0x10)); |
| assert(n[2] == char(0x05)); |
| assert(n[5] == char(0xDC)); |
| assert(n[4] == char(0x03)); |
| |
| w = 0x453; |
| r = c.out(m, &w, &w + 1, wp, n, n + 6, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 4); |
| assert(n[1] == char(0xFE)); |
| assert(n[0] == char(0xFF)); |
| assert(n[3] == char(0x04)); |
| assert(n[2] == char(0x53)); |
| assert(n[5] == char(0xDC)); |
| assert(n[4] == char(0x03)); |
| |
| w = 0x56; |
| r = c.out(m, &w, &w + 1, wp, n, n + 6, np); |
| assert(r == std::codecvt_base::ok); |
| assert(wp == &w + 1); |
| assert(np == n + 4); |
| assert(n[1] == char(0xFE)); |
| assert(n[0] == char(0xFF)); |
| assert(n[3] == char(0x00)); |
| assert(n[2] == char(0x56)); |
| assert(n[5] == char(0xDC)); |
| assert(n[4] == char(0x03)); |
| } |
| } |
| |
| int main() { |
| TestHelper<char32_t>::test(); |
| TestHelper<wchar_t>::test(); |
| } |