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annotate DEPENDENCIES/generic/include/boost/detail/utf8_codecvt_facet.ipp @ 125:34e428693f5d vext

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Vext -> Repoint
author Chris Cannam
date Thu, 14 Jun 2018 11:15:39 +0100
parents c530137014c0
children
rev   line source
Chris@16 1 /////////1/////////2/////////3/////////4/////////5/////////6/////////7/////////8
Chris@16 2 // utf8_codecvt_facet.ipp
Chris@16 3
Chris@16 4 // Copyright (c) 2001 Ronald Garcia, Indiana University (garcia@osl.iu.edu)
Chris@16 5 // Andrew Lumsdaine, Indiana University (lums@osl.iu.edu).
Chris@16 6 // Use, modification and distribution is subject to the Boost Software
Chris@16 7 // License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at
Chris@16 8 // http://www.boost.org/LICENSE_1_0.txt)
Chris@16 9
Chris@16 10 // Please see the comments in <boost/detail/utf8_codecvt_facet.hpp> to
Chris@16 11 // learn how this file should be used.
Chris@16 12
Chris@16 13 #include <boost/detail/utf8_codecvt_facet.hpp>
Chris@16 14
Chris@16 15 #include <cstdlib> // for multi-byte converson routines
Chris@16 16 #include <cassert>
Chris@16 17
Chris@16 18 #include <boost/limits.hpp>
Chris@16 19 #include <boost/config.hpp>
Chris@16 20
Chris@16 21 // If we don't have wstring, then Unicode support
Chris@16 22 // is not available anyway, so we don't need to even
Chris@16 23 // compiler this file. This also fixes the problem
Chris@16 24 // with mingw, which can compile this file, but will
Chris@16 25 // generate link error when building DLL.
Chris@16 26 #ifndef BOOST_NO_STD_WSTRING
Chris@16 27
Chris@16 28 BOOST_UTF8_BEGIN_NAMESPACE
Chris@16 29
Chris@16 30 /////////1/////////2/////////3/////////4/////////5/////////6/////////7/////////8
Chris@16 31 // implementation for wchar_t
Chris@16 32
Chris@16 33 // Translate incoming UTF-8 into UCS-4
Chris@16 34 std::codecvt_base::result utf8_codecvt_facet::do_in(
Chris@16 35 std::mbstate_t& /*state*/,
Chris@16 36 const char * from,
Chris@16 37 const char * from_end,
Chris@16 38 const char * & from_next,
Chris@16 39 wchar_t * to,
Chris@16 40 wchar_t * to_end,
Chris@16 41 wchar_t * & to_next
Chris@16 42 ) const {
Chris@16 43 // Basic algorithm: The first octet determines how many
Chris@16 44 // octets total make up the UCS-4 character. The remaining
Chris@16 45 // "continuing octets" all begin with "10". To convert, subtract
Chris@16 46 // the amount that specifies the number of octets from the first
Chris@16 47 // octet. Subtract 0x80 (1000 0000) from each continuing octet,
Chris@16 48 // then mash the whole lot together. Note that each continuing
Chris@16 49 // octet only uses 6 bits as unique values, so only shift by
Chris@16 50 // multiples of 6 to combine.
Chris@16 51 while (from != from_end && to != to_end) {
Chris@16 52
Chris@16 53 // Error checking on the first octet
Chris@16 54 if (invalid_leading_octet(*from)){
Chris@16 55 from_next = from;
Chris@16 56 to_next = to;
Chris@16 57 return std::codecvt_base::error;
Chris@16 58 }
Chris@16 59
Chris@16 60 // The first octet is adjusted by a value dependent upon
Chris@16 61 // the number of "continuing octets" encoding the character
Chris@16 62 const int cont_octet_count = get_cont_octet_count(*from);
Chris@16 63 const wchar_t octet1_modifier_table[] = {
Chris@16 64 0x00, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc
Chris@16 65 };
Chris@16 66
Chris@16 67 // The unsigned char conversion is necessary in case char is
Chris@16 68 // signed (I learned this the hard way)
Chris@16 69 wchar_t ucs_result =
Chris@16 70 (unsigned char)(*from++) - octet1_modifier_table[cont_octet_count];
Chris@16 71
Chris@16 72 // Invariants :
Chris@16 73 // 1) At the start of the loop, 'i' continuing characters have been
Chris@16 74 // processed
Chris@16 75 // 2) *from points to the next continuing character to be processed.
Chris@16 76 int i = 0;
Chris@16 77 while(i != cont_octet_count && from != from_end) {
Chris@16 78
Chris@16 79 // Error checking on continuing characters
Chris@16 80 if (invalid_continuing_octet(*from)) {
Chris@16 81 from_next = from;
Chris@16 82 to_next = to;
Chris@16 83 return std::codecvt_base::error;
Chris@16 84 }
Chris@16 85
Chris@16 86 ucs_result *= (1 << 6);
Chris@16 87
Chris@16 88 // each continuing character has an extra (10xxxxxx)b attached to
Chris@16 89 // it that must be removed.
Chris@16 90 ucs_result += (unsigned char)(*from++) - 0x80;
Chris@16 91 ++i;
Chris@16 92 }
Chris@16 93
Chris@16 94 // If the buffer ends with an incomplete unicode character...
Chris@16 95 if (from == from_end && i != cont_octet_count) {
Chris@16 96 // rewind "from" to before the current character translation
Chris@16 97 from_next = from - (i+1);
Chris@16 98 to_next = to;
Chris@16 99 return std::codecvt_base::partial;
Chris@16 100 }
Chris@16 101 *to++ = ucs_result;
Chris@16 102 }
Chris@16 103 from_next = from;
Chris@16 104 to_next = to;
Chris@16 105
Chris@16 106 // Were we done converting or did we run out of destination space?
Chris@16 107 if(from == from_end) return std::codecvt_base::ok;
Chris@16 108 else return std::codecvt_base::partial;
Chris@16 109 }
Chris@16 110
Chris@16 111 std::codecvt_base::result utf8_codecvt_facet::do_out(
Chris@16 112 std::mbstate_t& /*state*/,
Chris@16 113 const wchar_t * from,
Chris@16 114 const wchar_t * from_end,
Chris@16 115 const wchar_t * & from_next,
Chris@16 116 char * to,
Chris@16 117 char * to_end,
Chris@16 118 char * & to_next
Chris@16 119 ) const
Chris@16 120 {
Chris@16 121 // RG - consider merging this table with the other one
Chris@16 122 const wchar_t octet1_modifier_table[] = {
Chris@16 123 0x00, 0xc0, 0xe0, 0xf0, 0xf8, 0xfc
Chris@16 124 };
Chris@16 125
Chris@16 126 wchar_t max_wchar = (std::numeric_limits<wchar_t>::max)();
Chris@16 127 while (from != from_end && to != to_end) {
Chris@16 128
Chris@16 129 // Check for invalid UCS-4 character
Chris@16 130 if (*from > max_wchar) {
Chris@16 131 from_next = from;
Chris@16 132 to_next = to;
Chris@16 133 return std::codecvt_base::error;
Chris@16 134 }
Chris@16 135
Chris@16 136 int cont_octet_count = get_cont_octet_out_count(*from);
Chris@16 137
Chris@16 138 // RG - comment this formula better
Chris@16 139 int shift_exponent = (cont_octet_count) * 6;
Chris@16 140
Chris@16 141 // Process the first character
Chris@16 142 *to++ = static_cast<char>(octet1_modifier_table[cont_octet_count] +
Chris@16 143 (unsigned char)(*from / (1 << shift_exponent)));
Chris@16 144
Chris@16 145 // Process the continuation characters
Chris@16 146 // Invariants: At the start of the loop:
Chris@16 147 // 1) 'i' continuing octets have been generated
Chris@16 148 // 2) '*to' points to the next location to place an octet
Chris@16 149 // 3) shift_exponent is 6 more than needed for the next octet
Chris@16 150 int i = 0;
Chris@16 151 while (i != cont_octet_count && to != to_end) {
Chris@16 152 shift_exponent -= 6;
Chris@16 153 *to++ = static_cast<char>(0x80 + ((*from / (1 << shift_exponent)) % (1 << 6)));
Chris@16 154 ++i;
Chris@16 155 }
Chris@16 156 // If we filled up the out buffer before encoding the character
Chris@16 157 if(to == to_end && i != cont_octet_count) {
Chris@16 158 from_next = from;
Chris@16 159 to_next = to - (i+1);
Chris@16 160 return std::codecvt_base::partial;
Chris@16 161 }
Chris@16 162 ++from;
Chris@16 163 }
Chris@16 164 from_next = from;
Chris@16 165 to_next = to;
Chris@16 166 // Were we done or did we run out of destination space
Chris@16 167 if(from == from_end) return std::codecvt_base::ok;
Chris@16 168 else return std::codecvt_base::partial;
Chris@16 169 }
Chris@16 170
Chris@16 171 // How many char objects can I process to get <= max_limit
Chris@16 172 // wchar_t objects?
Chris@16 173 int utf8_codecvt_facet::do_length(
Chris@101 174 const std::mbstate_t &,
Chris@16 175 const char * from,
Chris@16 176 const char * from_end,
Chris@16 177 std::size_t max_limit
Chris@101 178 ) const
Chris@16 179 #if BOOST_WORKAROUND(__IBMCPP__, BOOST_TESTED_AT(600))
Chris@101 180 throw()
Chris@16 181 #endif
Chris@16 182 {
Chris@16 183 // RG - this code is confusing! I need a better way to express it.
Chris@16 184 // and test cases.
Chris@16 185
Chris@16 186 // Invariants:
Chris@16 187 // 1) last_octet_count has the size of the last measured character
Chris@16 188 // 2) char_count holds the number of characters shown to fit
Chris@16 189 // within the bounds so far (no greater than max_limit)
Chris@16 190 // 3) from_next points to the octet 'last_octet_count' before the
Chris@16 191 // last measured character.
Chris@16 192 int last_octet_count=0;
Chris@16 193 std::size_t char_count = 0;
Chris@16 194 const char* from_next = from;
Chris@16 195 // Use "<" because the buffer may represent incomplete characters
Chris@16 196 while (from_next+last_octet_count <= from_end && char_count <= max_limit) {
Chris@16 197 from_next += last_octet_count;
Chris@16 198 last_octet_count = (get_octet_count(*from_next));
Chris@16 199 ++char_count;
Chris@16 200 }
Chris@16 201 return static_cast<int>(from_next-from_end);
Chris@16 202 }
Chris@16 203
Chris@16 204 unsigned int utf8_codecvt_facet::get_octet_count(
Chris@16 205 unsigned char lead_octet
Chris@16 206 ){
Chris@16 207 // if the 0-bit (MSB) is 0, then 1 character
Chris@16 208 if (lead_octet <= 0x7f) return 1;
Chris@16 209
Chris@16 210 // Otherwise the count number of consecutive 1 bits starting at MSB
Chris@16 211 // assert(0xc0 <= lead_octet && lead_octet <= 0xfd);
Chris@16 212
Chris@16 213 if (0xc0 <= lead_octet && lead_octet <= 0xdf) return 2;
Chris@16 214 else if (0xe0 <= lead_octet && lead_octet <= 0xef) return 3;
Chris@16 215 else if (0xf0 <= lead_octet && lead_octet <= 0xf7) return 4;
Chris@16 216 else if (0xf8 <= lead_octet && lead_octet <= 0xfb) return 5;
Chris@16 217 else return 6;
Chris@16 218 }
Chris@16 219
Chris@101 220 namespace detail {
Chris@101 221
Chris@16 222 template<std::size_t s>
Chris@16 223 int get_cont_octet_out_count_impl(wchar_t word){
Chris@16 224 if (word < 0x80) {
Chris@16 225 return 0;
Chris@16 226 }
Chris@16 227 if (word < 0x800) {
Chris@16 228 return 1;
Chris@16 229 }
Chris@16 230 return 2;
Chris@16 231 }
Chris@16 232
Chris@16 233 template<>
Chris@16 234 int get_cont_octet_out_count_impl<4>(wchar_t word){
Chris@16 235 if (word < 0x80) {
Chris@16 236 return 0;
Chris@16 237 }
Chris@16 238 if (word < 0x800) {
Chris@16 239 return 1;
Chris@16 240 }
Chris@16 241
Chris@16 242 // Note that the following code will generate warnings on some platforms
Chris@16 243 // where wchar_t is defined as UCS2. The warnings are superfluous as the
Chris@16 244 // specialization is never instantitiated with such compilers, but this
Chris@16 245 // can cause problems if warnings are being treated as errors, so we guard
Chris@16 246 // against that. Including <boost/detail/utf8_codecvt_facet.hpp> as we do
Chris@16 247 // should be enough to get WCHAR_MAX defined.
Chris@16 248 #if !defined(WCHAR_MAX)
Chris@16 249 # error WCHAR_MAX not defined!
Chris@16 250 #endif
Chris@16 251 // cope with VC++ 7.1 or earlier having invalid WCHAR_MAX
Chris@16 252 #if defined(_MSC_VER) && _MSC_VER <= 1310 // 7.1 or earlier
Chris@16 253 return 2;
Chris@16 254 #elif WCHAR_MAX > 0x10000
Chris@16 255
Chris@16 256 if (word < 0x10000) {
Chris@16 257 return 2;
Chris@16 258 }
Chris@16 259 if (word < 0x200000) {
Chris@16 260 return 3;
Chris@16 261 }
Chris@16 262 if (word < 0x4000000) {
Chris@16 263 return 4;
Chris@16 264 }
Chris@16 265 return 5;
Chris@16 266
Chris@16 267 #else
Chris@16 268 return 2;
Chris@16 269 #endif
Chris@16 270 }
Chris@16 271
Chris@101 272 } // namespace detail
Chris@16 273
Chris@16 274 // How many "continuing octets" will be needed for this word
Chris@16 275 // == total octets - 1.
Chris@16 276 int utf8_codecvt_facet::get_cont_octet_out_count(
Chris@16 277 wchar_t word
Chris@16 278 ) const {
Chris@101 279 return detail::get_cont_octet_out_count_impl<sizeof(wchar_t)>(word);
Chris@16 280 }
Chris@16 281 BOOST_UTF8_END_NAMESPACE
Chris@16 282
Chris@16 283 #endif