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annotate DEPENDENCIES/generic/include/boost/regex/v4/regex_format.hpp @ 133:4acb5d8d80b6 tip

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Don't fail environmental check if README.md exists (but .txt and no-suffix don't)
author Chris Cannam
date Tue, 30 Jul 2019 12:25:44 +0100
parents c530137014c0
children
rev   line source
Chris@16 1 /*
Chris@16 2 *
Chris@16 3 * Copyright (c) 1998-2009 John Maddock
Chris@16 4 * Copyright 2008 Eric Niebler.
Chris@16 5 *
Chris@16 6 * Use, modification and distribution are subject to the
Chris@16 7 * Boost Software License, Version 1.0. (See accompanying file
Chris@16 8 * LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
Chris@16 9 *
Chris@16 10 */
Chris@16 11
Chris@16 12 /*
Chris@16 13 * LOCATION: see http://www.boost.org for most recent version.
Chris@16 14 * FILE regex_format.hpp
Chris@16 15 * VERSION see <boost/version.hpp>
Chris@16 16 * DESCRIPTION: Provides formatting output routines for search and replace
Chris@16 17 * operations. Note this is an internal header file included
Chris@16 18 * by regex.hpp, do not include on its own.
Chris@16 19 */
Chris@16 20
Chris@16 21 #ifndef BOOST_REGEX_FORMAT_HPP
Chris@16 22 #define BOOST_REGEX_FORMAT_HPP
Chris@16 23
Chris@16 24 #include <boost/type_traits/is_pointer.hpp>
Chris@16 25 #include <boost/type_traits/is_function.hpp>
Chris@16 26 #include <boost/type_traits/is_class.hpp>
Chris@16 27 #include <boost/type_traits/is_same.hpp>
Chris@16 28 #include <boost/type_traits/is_convertible.hpp>
Chris@16 29 #include <boost/type_traits/remove_pointer.hpp>
Chris@16 30 #include <boost/type_traits/remove_cv.hpp>
Chris@16 31 #include <boost/mpl/if.hpp>
Chris@16 32 #include <boost/mpl/and.hpp>
Chris@16 33 #include <boost/mpl/not.hpp>
Chris@16 34 #ifndef BOOST_NO_SFINAE
Chris@16 35 #include <boost/mpl/has_xxx.hpp>
Chris@16 36 #endif
Chris@16 37 #include <boost/ref.hpp>
Chris@16 38
Chris@16 39 namespace boost{
Chris@16 40
Chris@16 41 #ifdef BOOST_MSVC
Chris@16 42 #pragma warning(push)
Chris@16 43 #pragma warning(disable: 4103)
Chris@16 44 #endif
Chris@16 45 #ifdef BOOST_HAS_ABI_HEADERS
Chris@16 46 # include BOOST_ABI_PREFIX
Chris@16 47 #endif
Chris@16 48 #ifdef BOOST_MSVC
Chris@16 49 #pragma warning(pop)
Chris@16 50 #endif
Chris@16 51
Chris@16 52 //
Chris@16 53 // Forward declaration:
Chris@16 54 //
Chris@16 55 template <class BidiIterator, class Allocator = BOOST_DEDUCED_TYPENAME std::vector<sub_match<BidiIterator> >::allocator_type >
Chris@16 56 class match_results;
Chris@16 57
Chris@16 58 namespace re_detail{
Chris@16 59
Chris@16 60 //
Chris@16 61 // struct trivial_format_traits:
Chris@16 62 // defines minimum localisation support for formatting
Chris@16 63 // in the case that the actual regex traits is unavailable.
Chris@16 64 //
Chris@16 65 template <class charT>
Chris@16 66 struct trivial_format_traits
Chris@16 67 {
Chris@16 68 typedef charT char_type;
Chris@16 69
Chris@16 70 static std::ptrdiff_t length(const charT* p)
Chris@16 71 {
Chris@16 72 return global_length(p);
Chris@16 73 }
Chris@16 74 static charT tolower(charT c)
Chris@16 75 {
Chris@16 76 return ::boost::re_detail::global_lower(c);
Chris@16 77 }
Chris@16 78 static charT toupper(charT c)
Chris@16 79 {
Chris@16 80 return ::boost::re_detail::global_upper(c);
Chris@16 81 }
Chris@16 82 static int value(const charT c, int radix)
Chris@16 83 {
Chris@16 84 int result = global_value(c);
Chris@16 85 return result >= radix ? -1 : result;
Chris@16 86 }
Chris@16 87 int toi(const charT*& p1, const charT* p2, int radix)const
Chris@16 88 {
Chris@16 89 return global_toi(p1, p2, radix, *this);
Chris@16 90 }
Chris@16 91 };
Chris@16 92
Chris@16 93 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 94 class basic_regex_formatter
Chris@16 95 {
Chris@16 96 public:
Chris@16 97 typedef typename traits::char_type char_type;
Chris@16 98 basic_regex_formatter(OutputIterator o, const Results& r, const traits& t)
Chris@101 99 : m_traits(t), m_results(r), m_out(o), m_position(), m_end(), m_flags(), m_state(output_copy), m_restore_state(output_copy), m_have_conditional(false) {}
Chris@16 100 OutputIterator format(ForwardIter p1, ForwardIter p2, match_flag_type f);
Chris@16 101 OutputIterator format(ForwardIter p1, match_flag_type f)
Chris@16 102 {
Chris@16 103 return format(p1, p1 + m_traits.length(p1), f);
Chris@16 104 }
Chris@16 105 private:
Chris@16 106 typedef typename Results::value_type sub_match_type;
Chris@16 107 enum output_state
Chris@16 108 {
Chris@16 109 output_copy,
Chris@16 110 output_next_lower,
Chris@16 111 output_next_upper,
Chris@16 112 output_lower,
Chris@16 113 output_upper,
Chris@16 114 output_none
Chris@16 115 };
Chris@16 116
Chris@16 117 void put(char_type c);
Chris@16 118 void put(const sub_match_type& sub);
Chris@16 119 void format_all();
Chris@16 120 void format_perl();
Chris@16 121 void format_escape();
Chris@16 122 void format_conditional();
Chris@16 123 void format_until_scope_end();
Chris@16 124 bool handle_perl_verb(bool have_brace);
Chris@16 125
Chris@16 126 inline typename Results::value_type const& get_named_sub(ForwardIter i, ForwardIter j, const mpl::false_&)
Chris@16 127 {
Chris@16 128 std::vector<char_type> v(i, j);
Chris@16 129 return (i != j) ? this->m_results.named_subexpression(&v[0], &v[0] + v.size())
Chris@16 130 : this->m_results.named_subexpression(static_cast<const char_type*>(0), static_cast<const char_type*>(0));
Chris@16 131 }
Chris@16 132 inline typename Results::value_type const& get_named_sub(ForwardIter i, ForwardIter j, const mpl::true_&)
Chris@16 133 {
Chris@16 134 return this->m_results.named_subexpression(i, j);
Chris@16 135 }
Chris@16 136 inline typename Results::value_type const& get_named_sub(ForwardIter i, ForwardIter j)
Chris@16 137 {
Chris@16 138 typedef typename boost::is_convertible<ForwardIter, const char_type*>::type tag_type;
Chris@16 139 return get_named_sub(i, j, tag_type());
Chris@16 140 }
Chris@16 141 inline int get_named_sub_index(ForwardIter i, ForwardIter j, const mpl::false_&)
Chris@16 142 {
Chris@16 143 std::vector<char_type> v(i, j);
Chris@16 144 return (i != j) ? this->m_results.named_subexpression_index(&v[0], &v[0] + v.size())
Chris@16 145 : this->m_results.named_subexpression_index(static_cast<const char_type*>(0), static_cast<const char_type*>(0));
Chris@16 146 }
Chris@16 147 inline int get_named_sub_index(ForwardIter i, ForwardIter j, const mpl::true_&)
Chris@16 148 {
Chris@16 149 return this->m_results.named_subexpression_index(i, j);
Chris@16 150 }
Chris@16 151 inline int get_named_sub_index(ForwardIter i, ForwardIter j)
Chris@16 152 {
Chris@16 153 typedef typename boost::is_convertible<ForwardIter, const char_type*>::type tag_type;
Chris@16 154 return get_named_sub_index(i, j, tag_type());
Chris@16 155 }
Chris@16 156 #ifdef BOOST_MSVC
Chris@16 157 // msvc-8.0 issues a spurious warning on the call to std::advance here:
Chris@16 158 #pragma warning(push)
Chris@16 159 #pragma warning(disable:4244)
Chris@16 160 #endif
Chris@16 161 inline int toi(ForwardIter& i, ForwardIter j, int base, const boost::mpl::false_&)
Chris@16 162 {
Chris@16 163 if(i != j)
Chris@16 164 {
Chris@16 165 std::vector<char_type> v(i, j);
Chris@16 166 const char_type* start = &v[0];
Chris@16 167 const char_type* pos = start;
Chris@16 168 int r = m_traits.toi(pos, &v[0] + v.size(), base);
Chris@16 169 std::advance(i, pos - start);
Chris@16 170 return r;
Chris@16 171 }
Chris@16 172 return -1;
Chris@16 173 }
Chris@16 174 #ifdef BOOST_MSVC
Chris@16 175 #pragma warning(pop)
Chris@16 176 #endif
Chris@16 177 inline int toi(ForwardIter& i, ForwardIter j, int base, const boost::mpl::true_&)
Chris@16 178 {
Chris@16 179 return m_traits.toi(i, j, base);
Chris@16 180 }
Chris@16 181 inline int toi(ForwardIter& i, ForwardIter j, int base)
Chris@16 182 {
Chris@16 183 #if defined(_MSC_VER) && defined(__INTEL_COMPILER) && ((__INTEL_COMPILER == 9999) || (__INTEL_COMPILER == 1210))
Chris@16 184 // Workaround for Intel support issue #656654.
Chris@16 185 // See also https://svn.boost.org/trac/boost/ticket/6359
Chris@16 186 return toi(i, j, base, mpl::false_());
Chris@16 187 #else
Chris@16 188 typedef typename boost::is_convertible<ForwardIter, const char_type*&>::type tag_type;
Chris@16 189 return toi(i, j, base, tag_type());
Chris@16 190 #endif
Chris@16 191 }
Chris@16 192
Chris@16 193 const traits& m_traits; // the traits class for localised formatting operations
Chris@16 194 const Results& m_results; // the match_results being used.
Chris@16 195 OutputIterator m_out; // where to send output.
Chris@16 196 ForwardIter m_position; // format string, current position
Chris@16 197 ForwardIter m_end; // format string end
Chris@16 198 match_flag_type m_flags; // format flags to use
Chris@16 199 output_state m_state; // what to do with the next character
Chris@16 200 output_state m_restore_state; // what state to restore to.
Chris@16 201 bool m_have_conditional; // we are parsing a conditional
Chris@16 202 private:
Chris@16 203 basic_regex_formatter(const basic_regex_formatter&);
Chris@16 204 basic_regex_formatter& operator=(const basic_regex_formatter&);
Chris@16 205 };
Chris@16 206
Chris@16 207 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 208 OutputIterator basic_regex_formatter<OutputIterator, Results, traits, ForwardIter>::format(ForwardIter p1, ForwardIter p2, match_flag_type f)
Chris@16 209 {
Chris@16 210 m_position = p1;
Chris@16 211 m_end = p2;
Chris@16 212 m_flags = f;
Chris@16 213 format_all();
Chris@16 214 return m_out;
Chris@16 215 }
Chris@16 216
Chris@16 217 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 218 void basic_regex_formatter<OutputIterator, Results, traits, ForwardIter>::format_all()
Chris@16 219 {
Chris@16 220 // over and over:
Chris@16 221 while(m_position != m_end)
Chris@16 222 {
Chris@16 223 switch(*m_position)
Chris@16 224 {
Chris@16 225 case '&':
Chris@16 226 if(m_flags & ::boost::regex_constants::format_sed)
Chris@16 227 {
Chris@16 228 ++m_position;
Chris@16 229 put(m_results[0]);
Chris@16 230 break;
Chris@16 231 }
Chris@16 232 put(*m_position++);
Chris@16 233 break;
Chris@16 234 case '\\':
Chris@16 235 format_escape();
Chris@16 236 break;
Chris@16 237 case '(':
Chris@16 238 if(m_flags & boost::regex_constants::format_all)
Chris@16 239 {
Chris@16 240 ++m_position;
Chris@16 241 bool have_conditional = m_have_conditional;
Chris@16 242 m_have_conditional = false;
Chris@16 243 format_until_scope_end();
Chris@16 244 m_have_conditional = have_conditional;
Chris@16 245 if(m_position == m_end)
Chris@16 246 return;
Chris@16 247 BOOST_ASSERT(*m_position == static_cast<char_type>(')'));
Chris@16 248 ++m_position; // skip the closing ')'
Chris@16 249 break;
Chris@16 250 }
Chris@16 251 put(*m_position);
Chris@16 252 ++m_position;
Chris@16 253 break;
Chris@16 254 case ')':
Chris@16 255 if(m_flags & boost::regex_constants::format_all)
Chris@16 256 {
Chris@16 257 return;
Chris@16 258 }
Chris@16 259 put(*m_position);
Chris@16 260 ++m_position;
Chris@16 261 break;
Chris@16 262 case ':':
Chris@16 263 if((m_flags & boost::regex_constants::format_all) && m_have_conditional)
Chris@16 264 {
Chris@16 265 return;
Chris@16 266 }
Chris@16 267 put(*m_position);
Chris@16 268 ++m_position;
Chris@16 269 break;
Chris@16 270 case '?':
Chris@16 271 if(m_flags & boost::regex_constants::format_all)
Chris@16 272 {
Chris@16 273 ++m_position;
Chris@16 274 format_conditional();
Chris@16 275 break;
Chris@16 276 }
Chris@16 277 put(*m_position);
Chris@16 278 ++m_position;
Chris@16 279 break;
Chris@16 280 case '$':
Chris@16 281 if((m_flags & format_sed) == 0)
Chris@16 282 {
Chris@16 283 format_perl();
Chris@16 284 break;
Chris@16 285 }
Chris@16 286 // not a special character:
Chris@16 287 BOOST_FALLTHROUGH;
Chris@16 288 default:
Chris@16 289 put(*m_position);
Chris@16 290 ++m_position;
Chris@16 291 break;
Chris@16 292 }
Chris@16 293 }
Chris@16 294 }
Chris@16 295
Chris@16 296 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 297 void basic_regex_formatter<OutputIterator, Results, traits, ForwardIter>::format_perl()
Chris@16 298 {
Chris@16 299 //
Chris@16 300 // On entry *m_position points to a '$' character
Chris@16 301 // output the information that goes with it:
Chris@16 302 //
Chris@16 303 BOOST_ASSERT(*m_position == '$');
Chris@16 304 //
Chris@16 305 // see if this is a trailing '$':
Chris@16 306 //
Chris@16 307 if(++m_position == m_end)
Chris@16 308 {
Chris@16 309 --m_position;
Chris@16 310 put(*m_position);
Chris@16 311 ++m_position;
Chris@16 312 return;
Chris@16 313 }
Chris@16 314 //
Chris@16 315 // OK find out what kind it is:
Chris@16 316 //
Chris@16 317 bool have_brace = false;
Chris@16 318 ForwardIter save_position = m_position;
Chris@16 319 switch(*m_position)
Chris@16 320 {
Chris@16 321 case '&':
Chris@16 322 ++m_position;
Chris@16 323 put(this->m_results[0]);
Chris@16 324 break;
Chris@16 325 case '`':
Chris@16 326 ++m_position;
Chris@16 327 put(this->m_results.prefix());
Chris@16 328 break;
Chris@16 329 case '\'':
Chris@16 330 ++m_position;
Chris@16 331 put(this->m_results.suffix());
Chris@16 332 break;
Chris@16 333 case '$':
Chris@16 334 put(*m_position++);
Chris@16 335 break;
Chris@16 336 case '+':
Chris@16 337 if((++m_position != m_end) && (*m_position == '{'))
Chris@16 338 {
Chris@16 339 ForwardIter base = ++m_position;
Chris@16 340 while((m_position != m_end) && (*m_position != '}')) ++m_position;
Chris@16 341 if(m_position != m_end)
Chris@16 342 {
Chris@16 343 // Named sub-expression:
Chris@16 344 put(get_named_sub(base, m_position));
Chris@16 345 ++m_position;
Chris@16 346 break;
Chris@16 347 }
Chris@16 348 else
Chris@16 349 {
Chris@16 350 m_position = --base;
Chris@16 351 }
Chris@16 352 }
Chris@16 353 put((this->m_results)[this->m_results.size() > 1 ? static_cast<int>(this->m_results.size() - 1) : 1]);
Chris@16 354 break;
Chris@16 355 case '{':
Chris@16 356 have_brace = true;
Chris@16 357 ++m_position;
Chris@16 358 BOOST_FALLTHROUGH;
Chris@16 359 default:
Chris@16 360 // see if we have a number:
Chris@16 361 {
Chris@16 362 std::ptrdiff_t len = ::boost::re_detail::distance(m_position, m_end);
Chris@16 363 //len = (std::min)(static_cast<std::ptrdiff_t>(2), len);
Chris@16 364 int v = this->toi(m_position, m_position + len, 10);
Chris@16 365 if((v < 0) || (have_brace && ((m_position == m_end) || (*m_position != '}'))))
Chris@16 366 {
Chris@16 367 // Look for a Perl-5.10 verb:
Chris@16 368 if(!handle_perl_verb(have_brace))
Chris@16 369 {
Chris@16 370 // leave the $ as is, and carry on:
Chris@16 371 m_position = --save_position;
Chris@16 372 put(*m_position);
Chris@16 373 ++m_position;
Chris@16 374 }
Chris@16 375 break;
Chris@16 376 }
Chris@16 377 // otherwise output sub v:
Chris@16 378 put(this->m_results[v]);
Chris@16 379 if(have_brace)
Chris@16 380 ++m_position;
Chris@16 381 }
Chris@16 382 }
Chris@16 383 }
Chris@16 384
Chris@16 385 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 386 bool basic_regex_formatter<OutputIterator, Results, traits, ForwardIter>::handle_perl_verb(bool have_brace)
Chris@16 387 {
Chris@16 388 //
Chris@16 389 // We may have a capitalised string containing a Perl action:
Chris@16 390 //
Chris@16 391 static const char_type MATCH[] = { 'M', 'A', 'T', 'C', 'H' };
Chris@16 392 static const char_type PREMATCH[] = { 'P', 'R', 'E', 'M', 'A', 'T', 'C', 'H' };
Chris@16 393 static const char_type POSTMATCH[] = { 'P', 'O', 'S', 'T', 'M', 'A', 'T', 'C', 'H' };
Chris@16 394 static const char_type LAST_PAREN_MATCH[] = { 'L', 'A', 'S', 'T', '_', 'P', 'A', 'R', 'E', 'N', '_', 'M', 'A', 'T', 'C', 'H' };
Chris@16 395 static const char_type LAST_SUBMATCH_RESULT[] = { 'L', 'A', 'S', 'T', '_', 'S', 'U', 'B', 'M', 'A', 'T', 'C', 'H', '_', 'R', 'E', 'S', 'U', 'L', 'T' };
Chris@16 396 static const char_type LAST_SUBMATCH_RESULT_ALT[] = { '^', 'N' };
Chris@16 397
Chris@16 398 if(m_position == m_end)
Chris@16 399 return false;
Chris@16 400 if(have_brace && (*m_position == '^'))
Chris@16 401 ++m_position;
Chris@16 402
Chris@16 403 std::ptrdiff_t max_len = m_end - m_position;
Chris@16 404
Chris@16 405 if((max_len >= 5) && std::equal(m_position, m_position + 5, MATCH))
Chris@16 406 {
Chris@16 407 m_position += 5;
Chris@16 408 if(have_brace)
Chris@16 409 {
Chris@16 410 if((m_position != m_end) && (*m_position == '}'))
Chris@16 411 ++m_position;
Chris@16 412 else
Chris@16 413 {
Chris@16 414 m_position -= 5;
Chris@16 415 return false;
Chris@16 416 }
Chris@16 417 }
Chris@16 418 put(this->m_results[0]);
Chris@16 419 return true;
Chris@16 420 }
Chris@16 421 if((max_len >= 8) && std::equal(m_position, m_position + 8, PREMATCH))
Chris@16 422 {
Chris@16 423 m_position += 8;
Chris@16 424 if(have_brace)
Chris@16 425 {
Chris@16 426 if((m_position != m_end) && (*m_position == '}'))
Chris@16 427 ++m_position;
Chris@16 428 else
Chris@16 429 {
Chris@16 430 m_position -= 8;
Chris@16 431 return false;
Chris@16 432 }
Chris@16 433 }
Chris@16 434 put(this->m_results.prefix());
Chris@16 435 return true;
Chris@16 436 }
Chris@16 437 if((max_len >= 9) && std::equal(m_position, m_position + 9, POSTMATCH))
Chris@16 438 {
Chris@16 439 m_position += 9;
Chris@16 440 if(have_brace)
Chris@16 441 {
Chris@16 442 if((m_position != m_end) && (*m_position == '}'))
Chris@16 443 ++m_position;
Chris@16 444 else
Chris@16 445 {
Chris@16 446 m_position -= 9;
Chris@16 447 return false;
Chris@16 448 }
Chris@16 449 }
Chris@16 450 put(this->m_results.suffix());
Chris@16 451 return true;
Chris@16 452 }
Chris@16 453 if((max_len >= 16) && std::equal(m_position, m_position + 16, LAST_PAREN_MATCH))
Chris@16 454 {
Chris@16 455 m_position += 16;
Chris@16 456 if(have_brace)
Chris@16 457 {
Chris@16 458 if((m_position != m_end) && (*m_position == '}'))
Chris@16 459 ++m_position;
Chris@16 460 else
Chris@16 461 {
Chris@16 462 m_position -= 16;
Chris@16 463 return false;
Chris@16 464 }
Chris@16 465 }
Chris@16 466 put((this->m_results)[this->m_results.size() > 1 ? static_cast<int>(this->m_results.size() - 1) : 1]);
Chris@16 467 return true;
Chris@16 468 }
Chris@16 469 if((max_len >= 20) && std::equal(m_position, m_position + 20, LAST_SUBMATCH_RESULT))
Chris@16 470 {
Chris@16 471 m_position += 20;
Chris@16 472 if(have_brace)
Chris@16 473 {
Chris@16 474 if((m_position != m_end) && (*m_position == '}'))
Chris@16 475 ++m_position;
Chris@16 476 else
Chris@16 477 {
Chris@16 478 m_position -= 20;
Chris@16 479 return false;
Chris@16 480 }
Chris@16 481 }
Chris@16 482 put(this->m_results.get_last_closed_paren());
Chris@16 483 return true;
Chris@16 484 }
Chris@16 485 if((max_len >= 2) && std::equal(m_position, m_position + 2, LAST_SUBMATCH_RESULT_ALT))
Chris@16 486 {
Chris@16 487 m_position += 2;
Chris@16 488 if(have_brace)
Chris@16 489 {
Chris@16 490 if((m_position != m_end) && (*m_position == '}'))
Chris@16 491 ++m_position;
Chris@16 492 else
Chris@16 493 {
Chris@16 494 m_position -= 2;
Chris@16 495 return false;
Chris@16 496 }
Chris@16 497 }
Chris@16 498 put(this->m_results.get_last_closed_paren());
Chris@16 499 return true;
Chris@16 500 }
Chris@16 501 return false;
Chris@16 502 }
Chris@16 503
Chris@16 504 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 505 void basic_regex_formatter<OutputIterator, Results, traits, ForwardIter>::format_escape()
Chris@16 506 {
Chris@16 507 // skip the escape and check for trailing escape:
Chris@16 508 if(++m_position == m_end)
Chris@16 509 {
Chris@16 510 put(static_cast<char_type>('\\'));
Chris@16 511 return;
Chris@16 512 }
Chris@16 513 // now switch on the escape type:
Chris@16 514 switch(*m_position)
Chris@16 515 {
Chris@16 516 case 'a':
Chris@16 517 put(static_cast<char_type>('\a'));
Chris@16 518 ++m_position;
Chris@16 519 break;
Chris@16 520 case 'f':
Chris@16 521 put(static_cast<char_type>('\f'));
Chris@16 522 ++m_position;
Chris@16 523 break;
Chris@16 524 case 'n':
Chris@16 525 put(static_cast<char_type>('\n'));
Chris@16 526 ++m_position;
Chris@16 527 break;
Chris@16 528 case 'r':
Chris@16 529 put(static_cast<char_type>('\r'));
Chris@16 530 ++m_position;
Chris@16 531 break;
Chris@16 532 case 't':
Chris@16 533 put(static_cast<char_type>('\t'));
Chris@16 534 ++m_position;
Chris@16 535 break;
Chris@16 536 case 'v':
Chris@16 537 put(static_cast<char_type>('\v'));
Chris@16 538 ++m_position;
Chris@16 539 break;
Chris@16 540 case 'x':
Chris@16 541 if(++m_position == m_end)
Chris@16 542 {
Chris@16 543 put(static_cast<char_type>('x'));
Chris@16 544 return;
Chris@16 545 }
Chris@16 546 // maybe have \x{ddd}
Chris@16 547 if(*m_position == static_cast<char_type>('{'))
Chris@16 548 {
Chris@16 549 ++m_position;
Chris@16 550 int val = this->toi(m_position, m_end, 16);
Chris@16 551 if(val < 0)
Chris@16 552 {
Chris@16 553 // invalid value treat everything as literals:
Chris@16 554 put(static_cast<char_type>('x'));
Chris@16 555 put(static_cast<char_type>('{'));
Chris@16 556 return;
Chris@16 557 }
Chris@16 558 if((m_position == m_end) || (*m_position != static_cast<char_type>('}')))
Chris@16 559 {
Chris@16 560 --m_position;
Chris@16 561 while(*m_position != static_cast<char_type>('\\'))
Chris@16 562 --m_position;
Chris@16 563 ++m_position;
Chris@16 564 put(*m_position++);
Chris@16 565 return;
Chris@16 566 }
Chris@16 567 ++m_position;
Chris@16 568 put(static_cast<char_type>(val));
Chris@16 569 return;
Chris@16 570 }
Chris@16 571 else
Chris@16 572 {
Chris@16 573 std::ptrdiff_t len = ::boost::re_detail::distance(m_position, m_end);
Chris@16 574 len = (std::min)(static_cast<std::ptrdiff_t>(2), len);
Chris@16 575 int val = this->toi(m_position, m_position + len, 16);
Chris@16 576 if(val < 0)
Chris@16 577 {
Chris@16 578 --m_position;
Chris@16 579 put(*m_position++);
Chris@16 580 return;
Chris@16 581 }
Chris@16 582 put(static_cast<char_type>(val));
Chris@16 583 }
Chris@16 584 break;
Chris@16 585 case 'c':
Chris@16 586 if(++m_position == m_end)
Chris@16 587 {
Chris@16 588 --m_position;
Chris@16 589 put(*m_position++);
Chris@16 590 return;
Chris@16 591 }
Chris@16 592 put(static_cast<char_type>(*m_position++ % 32));
Chris@16 593 break;
Chris@16 594 case 'e':
Chris@16 595 put(static_cast<char_type>(27));
Chris@16 596 ++m_position;
Chris@16 597 break;
Chris@16 598 default:
Chris@16 599 // see if we have a perl specific escape:
Chris@16 600 if((m_flags & boost::regex_constants::format_sed) == 0)
Chris@16 601 {
Chris@16 602 bool breakout = false;
Chris@16 603 switch(*m_position)
Chris@16 604 {
Chris@16 605 case 'l':
Chris@16 606 ++m_position;
Chris@16 607 m_restore_state = m_state;
Chris@16 608 m_state = output_next_lower;
Chris@16 609 breakout = true;
Chris@16 610 break;
Chris@16 611 case 'L':
Chris@16 612 ++m_position;
Chris@16 613 m_state = output_lower;
Chris@16 614 breakout = true;
Chris@16 615 break;
Chris@16 616 case 'u':
Chris@16 617 ++m_position;
Chris@16 618 m_restore_state = m_state;
Chris@16 619 m_state = output_next_upper;
Chris@16 620 breakout = true;
Chris@16 621 break;
Chris@16 622 case 'U':
Chris@16 623 ++m_position;
Chris@16 624 m_state = output_upper;
Chris@16 625 breakout = true;
Chris@16 626 break;
Chris@16 627 case 'E':
Chris@16 628 ++m_position;
Chris@16 629 m_state = output_copy;
Chris@16 630 breakout = true;
Chris@16 631 break;
Chris@16 632 }
Chris@16 633 if(breakout)
Chris@16 634 break;
Chris@16 635 }
Chris@16 636 // see if we have a \n sed style backreference:
Chris@16 637 std::ptrdiff_t len = ::boost::re_detail::distance(m_position, m_end);
Chris@16 638 len = (std::min)(static_cast<std::ptrdiff_t>(1), len);
Chris@16 639 int v = this->toi(m_position, m_position+len, 10);
Chris@16 640 if((v > 0) || ((v == 0) && (m_flags & ::boost::regex_constants::format_sed)))
Chris@16 641 {
Chris@16 642 put(m_results[v]);
Chris@16 643 break;
Chris@16 644 }
Chris@16 645 else if(v == 0)
Chris@16 646 {
Chris@16 647 // octal ecape sequence:
Chris@16 648 --m_position;
Chris@16 649 len = ::boost::re_detail::distance(m_position, m_end);
Chris@16 650 len = (std::min)(static_cast<std::ptrdiff_t>(4), len);
Chris@16 651 v = this->toi(m_position, m_position + len, 8);
Chris@16 652 BOOST_ASSERT(v >= 0);
Chris@16 653 put(static_cast<char_type>(v));
Chris@16 654 break;
Chris@16 655 }
Chris@16 656 // Otherwise output the character "as is":
Chris@16 657 put(*m_position++);
Chris@16 658 break;
Chris@16 659 }
Chris@16 660 }
Chris@16 661
Chris@16 662 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 663 void basic_regex_formatter<OutputIterator, Results, traits, ForwardIter>::format_conditional()
Chris@16 664 {
Chris@16 665 if(m_position == m_end)
Chris@16 666 {
Chris@16 667 // oops trailing '?':
Chris@16 668 put(static_cast<char_type>('?'));
Chris@16 669 return;
Chris@16 670 }
Chris@16 671 int v;
Chris@16 672 if(*m_position == '{')
Chris@16 673 {
Chris@16 674 ForwardIter base = m_position;
Chris@16 675 ++m_position;
Chris@16 676 v = this->toi(m_position, m_end, 10);
Chris@16 677 if(v < 0)
Chris@16 678 {
Chris@16 679 // Try a named subexpression:
Chris@16 680 while((m_position != m_end) && (*m_position != '}'))
Chris@16 681 ++m_position;
Chris@16 682 v = this->get_named_sub_index(base + 1, m_position);
Chris@16 683 }
Chris@16 684 if((v < 0) || (*m_position != '}'))
Chris@16 685 {
Chris@16 686 m_position = base;
Chris@16 687 // oops trailing '?':
Chris@16 688 put(static_cast<char_type>('?'));
Chris@16 689 return;
Chris@16 690 }
Chris@16 691 // Skip trailing '}':
Chris@16 692 ++m_position;
Chris@16 693 }
Chris@16 694 else
Chris@16 695 {
Chris@16 696 std::ptrdiff_t len = ::boost::re_detail::distance(m_position, m_end);
Chris@16 697 len = (std::min)(static_cast<std::ptrdiff_t>(2), len);
Chris@16 698 v = this->toi(m_position, m_position + len, 10);
Chris@16 699 }
Chris@16 700 if(v < 0)
Chris@16 701 {
Chris@16 702 // oops not a number:
Chris@16 703 put(static_cast<char_type>('?'));
Chris@16 704 return;
Chris@16 705 }
Chris@16 706
Chris@16 707 // output varies depending upon whether sub-expression v matched or not:
Chris@16 708 if(m_results[v].matched)
Chris@16 709 {
Chris@16 710 m_have_conditional = true;
Chris@16 711 format_all();
Chris@16 712 m_have_conditional = false;
Chris@16 713 if((m_position != m_end) && (*m_position == static_cast<char_type>(':')))
Chris@16 714 {
Chris@16 715 // skip the ':':
Chris@16 716 ++m_position;
Chris@16 717 // save output state, then turn it off:
Chris@16 718 output_state saved_state = m_state;
Chris@16 719 m_state = output_none;
Chris@16 720 // format the rest of this scope:
Chris@16 721 format_until_scope_end();
Chris@16 722 // restore output state:
Chris@16 723 m_state = saved_state;
Chris@16 724 }
Chris@16 725 }
Chris@16 726 else
Chris@16 727 {
Chris@16 728 // save output state, then turn it off:
Chris@16 729 output_state saved_state = m_state;
Chris@16 730 m_state = output_none;
Chris@16 731 // format until ':' or ')':
Chris@16 732 m_have_conditional = true;
Chris@16 733 format_all();
Chris@16 734 m_have_conditional = false;
Chris@16 735 // restore state:
Chris@16 736 m_state = saved_state;
Chris@16 737 if((m_position != m_end) && (*m_position == static_cast<char_type>(':')))
Chris@16 738 {
Chris@16 739 // skip the ':':
Chris@16 740 ++m_position;
Chris@16 741 // format the rest of this scope:
Chris@16 742 format_until_scope_end();
Chris@16 743 }
Chris@16 744 }
Chris@16 745 }
Chris@16 746
Chris@16 747 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 748 void basic_regex_formatter<OutputIterator, Results, traits, ForwardIter>::format_until_scope_end()
Chris@16 749 {
Chris@16 750 do
Chris@16 751 {
Chris@16 752 format_all();
Chris@16 753 if((m_position == m_end) || (*m_position == static_cast<char_type>(')')))
Chris@16 754 return;
Chris@16 755 put(*m_position++);
Chris@16 756 }while(m_position != m_end);
Chris@16 757 }
Chris@16 758
Chris@16 759 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 760 void basic_regex_formatter<OutputIterator, Results, traits, ForwardIter>::put(char_type c)
Chris@16 761 {
Chris@16 762 // write a single character to output
Chris@16 763 // according to which case translation mode we are in:
Chris@16 764 switch(this->m_state)
Chris@16 765 {
Chris@16 766 case output_none:
Chris@16 767 return;
Chris@16 768 case output_next_lower:
Chris@16 769 c = m_traits.tolower(c);
Chris@16 770 this->m_state = m_restore_state;
Chris@16 771 break;
Chris@16 772 case output_next_upper:
Chris@16 773 c = m_traits.toupper(c);
Chris@16 774 this->m_state = m_restore_state;
Chris@16 775 break;
Chris@16 776 case output_lower:
Chris@16 777 c = m_traits.tolower(c);
Chris@16 778 break;
Chris@16 779 case output_upper:
Chris@16 780 c = m_traits.toupper(c);
Chris@16 781 break;
Chris@16 782 default:
Chris@16 783 break;
Chris@16 784 }
Chris@16 785 *m_out = c;
Chris@16 786 ++m_out;
Chris@16 787 }
Chris@16 788
Chris@16 789 template <class OutputIterator, class Results, class traits, class ForwardIter>
Chris@16 790 void basic_regex_formatter<OutputIterator, Results, traits, ForwardIter>::put(const sub_match_type& sub)
Chris@16 791 {
Chris@16 792 typedef typename sub_match_type::iterator iterator_type;
Chris@16 793 iterator_type i = sub.first;
Chris@16 794 while(i != sub.second)
Chris@16 795 {
Chris@16 796 put(*i);
Chris@16 797 ++i;
Chris@16 798 }
Chris@16 799 }
Chris@16 800
Chris@16 801 template <class S>
Chris@16 802 class string_out_iterator
Chris@16 803 #ifndef BOOST_NO_STD_ITERATOR
Chris@16 804 : public std::iterator<std::output_iterator_tag, typename S::value_type>
Chris@16 805 #endif
Chris@16 806 {
Chris@16 807 S* out;
Chris@16 808 public:
Chris@16 809 string_out_iterator(S& s) : out(&s) {}
Chris@16 810 string_out_iterator& operator++() { return *this; }
Chris@16 811 string_out_iterator& operator++(int) { return *this; }
Chris@16 812 string_out_iterator& operator*() { return *this; }
Chris@16 813 string_out_iterator& operator=(typename S::value_type v)
Chris@16 814 {
Chris@16 815 out->append(1, v);
Chris@16 816 return *this;
Chris@16 817 }
Chris@16 818
Chris@16 819 #ifdef BOOST_NO_STD_ITERATOR
Chris@16 820 typedef std::ptrdiff_t difference_type;
Chris@16 821 typedef typename S::value_type value_type;
Chris@16 822 typedef value_type* pointer;
Chris@16 823 typedef value_type& reference;
Chris@16 824 typedef std::output_iterator_tag iterator_category;
Chris@16 825 #endif
Chris@16 826 };
Chris@16 827
Chris@16 828 template <class OutputIterator, class Iterator, class Alloc, class ForwardIter, class traits>
Chris@16 829 OutputIterator regex_format_imp(OutputIterator out,
Chris@16 830 const match_results<Iterator, Alloc>& m,
Chris@16 831 ForwardIter p1, ForwardIter p2,
Chris@16 832 match_flag_type flags,
Chris@16 833 const traits& t
Chris@16 834 )
Chris@16 835 {
Chris@16 836 if(flags & regex_constants::format_literal)
Chris@16 837 {
Chris@16 838 return re_detail::copy(p1, p2, out);
Chris@16 839 }
Chris@16 840
Chris@16 841 re_detail::basic_regex_formatter<
Chris@16 842 OutputIterator,
Chris@16 843 match_results<Iterator, Alloc>,
Chris@16 844 traits, ForwardIter> f(out, m, t);
Chris@16 845 return f.format(p1, p2, flags);
Chris@16 846 }
Chris@16 847
Chris@16 848 #ifndef BOOST_NO_SFINAE
Chris@16 849
Chris@16 850 BOOST_MPL_HAS_XXX_TRAIT_DEF(const_iterator)
Chris@16 851
Chris@16 852 struct any_type
Chris@16 853 {
Chris@16 854 template <class T>
Chris@16 855 any_type(const T&);
Chris@16 856 template <class T, class U>
Chris@16 857 any_type(const T&, const U&);
Chris@16 858 template <class T, class U, class V>
Chris@16 859 any_type(const T&, const U&, const V&);
Chris@16 860 };
Chris@16 861 typedef char no_type;
Chris@16 862 typedef char (&unary_type)[2];
Chris@16 863 typedef char (&binary_type)[3];
Chris@16 864 typedef char (&ternary_type)[4];
Chris@16 865
Chris@16 866 no_type check_is_formatter(unary_type, binary_type, ternary_type);
Chris@16 867 template<typename T>
Chris@16 868 unary_type check_is_formatter(T const &, binary_type, ternary_type);
Chris@16 869 template<typename T>
Chris@16 870 binary_type check_is_formatter(unary_type, T const &, ternary_type);
Chris@16 871 template<typename T, typename U>
Chris@16 872 binary_type check_is_formatter(T const &, U const &, ternary_type);
Chris@16 873 template<typename T>
Chris@16 874 ternary_type check_is_formatter(unary_type, binary_type, T const &);
Chris@16 875 template<typename T, typename U>
Chris@16 876 ternary_type check_is_formatter(T const &, binary_type, U const &);
Chris@16 877 template<typename T, typename U>
Chris@16 878 ternary_type check_is_formatter(unary_type, T const &, U const &);
Chris@16 879 template<typename T, typename U, typename V>
Chris@16 880 ternary_type check_is_formatter(T const &, U const &, V const &);
Chris@16 881
Chris@16 882 struct unary_binary_ternary
Chris@16 883 {
Chris@16 884 typedef unary_type (*unary_fun)(any_type);
Chris@16 885 typedef binary_type (*binary_fun)(any_type, any_type);
Chris@16 886 typedef ternary_type (*ternary_fun)(any_type, any_type, any_type);
Chris@16 887 operator unary_fun();
Chris@16 888 operator binary_fun();
Chris@16 889 operator ternary_fun();
Chris@16 890 };
Chris@16 891
Chris@16 892 template<typename Formatter, bool IsFunction = boost::is_function<Formatter>::value>
Chris@16 893 struct formatter_wrapper
Chris@16 894 : Formatter
Chris@16 895 , unary_binary_ternary
Chris@16 896 {
Chris@16 897 formatter_wrapper(){}
Chris@16 898 };
Chris@16 899
Chris@16 900 template<typename Formatter>
Chris@16 901 struct formatter_wrapper<Formatter, true>
Chris@16 902 : unary_binary_ternary
Chris@16 903 {
Chris@16 904 operator Formatter *();
Chris@16 905 };
Chris@16 906
Chris@16 907 template<typename Formatter>
Chris@16 908 struct formatter_wrapper<Formatter *, false>
Chris@16 909 : unary_binary_ternary
Chris@16 910 {
Chris@16 911 operator Formatter *();
Chris@16 912 };
Chris@16 913
Chris@16 914 template <class F, class M, class O>
Chris@16 915 struct format_traits_imp
Chris@16 916 {
Chris@16 917 private:
Chris@16 918 //
Chris@16 919 // F must be a pointer, a function, or a class with a function call operator:
Chris@16 920 //
Chris@16 921 BOOST_STATIC_ASSERT((::boost::is_pointer<F>::value || ::boost::is_function<F>::value || ::boost::is_class<F>::value));
Chris@16 922 static formatter_wrapper<typename unwrap_reference<F>::type> f;
Chris@16 923 static M m;
Chris@16 924 static O out;
Chris@16 925 static boost::regex_constants::match_flag_type flags;
Chris@16 926 public:
Chris@16 927 BOOST_STATIC_CONSTANT(int, value = sizeof(check_is_formatter(f(m), f(m, out), f(m, out, flags))));
Chris@16 928 };
Chris@16 929
Chris@16 930 template <class F, class M, class O>
Chris@16 931 struct format_traits
Chris@16 932 {
Chris@16 933 public:
Chris@16 934 //
Chris@16 935 // Type is mpl::int_<N> where N is one of:
Chris@16 936 //
Chris@16 937 // 0 : F is a pointer to a presumably null-terminated string.
Chris@16 938 // 1 : F is a character-container such as a std::string.
Chris@16 939 // 2 : F is a Unary Functor.
Chris@16 940 // 3 : F is a Binary Functor.
Chris@16 941 // 4 : F is a Ternary Functor.
Chris@16 942 //
Chris@16 943 typedef typename boost::mpl::if_<
Chris@16 944 boost::mpl::and_<boost::is_pointer<F>, boost::mpl::not_<boost::is_function<typename boost::remove_pointer<F>::type> > >,
Chris@16 945 boost::mpl::int_<0>,
Chris@16 946 typename boost::mpl::if_<
Chris@16 947 has_const_iterator<F>,
Chris@16 948 boost::mpl::int_<1>,
Chris@16 949 boost::mpl::int_<format_traits_imp<F, M, O>::value>
Chris@16 950 >::type
Chris@16 951 >::type type;
Chris@16 952 //
Chris@16 953 // This static assertion will fail if the functor passed does not accept
Chris@16 954 // the same type of arguments passed.
Chris@16 955 //
Chris@16 956 BOOST_STATIC_ASSERT( boost::is_class<F>::value && !has_const_iterator<F>::value ? (type::value > 1) : true);
Chris@16 957 };
Chris@16 958
Chris@16 959 #else // BOOST_NO_SFINAE
Chris@16 960
Chris@16 961 template <class F, class M, class O>
Chris@16 962 struct format_traits
Chris@16 963 {
Chris@16 964 public:
Chris@16 965 //
Chris@16 966 // Type is mpl::int_<N> where N is one of:
Chris@16 967 //
Chris@16 968 // 0 : F is a pointer to a presumably null-terminated string.
Chris@16 969 // 1 : F is a character-container such as a std::string.
Chris@16 970 //
Chris@16 971 // Other options such as F being a Functor are not supported without
Chris@16 972 // SFINAE support.
Chris@16 973 //
Chris@16 974 typedef typename boost::mpl::if_<
Chris@16 975 boost::is_pointer<F>,
Chris@16 976 boost::mpl::int_<0>,
Chris@16 977 boost::mpl::int_<1>
Chris@16 978 >::type type;
Chris@16 979 };
Chris@16 980
Chris@16 981 #endif // BOOST_NO_SFINAE
Chris@16 982
Chris@16 983 template <class Base, class Match>
Chris@16 984 struct format_functor3
Chris@16 985 {
Chris@16 986 format_functor3(Base b) : func(b) {}
Chris@16 987 template <class OutputIter>
Chris@16 988 OutputIter operator()(const Match& m, OutputIter i, boost::regex_constants::match_flag_type f)
Chris@16 989 {
Chris@16 990 return boost::unwrap_ref(func)(m, i, f);
Chris@16 991 }
Chris@16 992 template <class OutputIter, class Traits>
Chris@16 993 OutputIter operator()(const Match& m, OutputIter i, boost::regex_constants::match_flag_type f, const Traits&)
Chris@16 994 {
Chris@16 995 return (*this)(m, i, f);
Chris@16 996 }
Chris@16 997 private:
Chris@16 998 Base func;
Chris@16 999 format_functor3(const format_functor3&);
Chris@16 1000 format_functor3& operator=(const format_functor3&);
Chris@16 1001 };
Chris@16 1002
Chris@16 1003 template <class Base, class Match>
Chris@16 1004 struct format_functor2
Chris@16 1005 {
Chris@16 1006 format_functor2(Base b) : func(b) {}
Chris@16 1007 template <class OutputIter>
Chris@16 1008 OutputIter operator()(const Match& m, OutputIter i, boost::regex_constants::match_flag_type /*f*/)
Chris@16 1009 {
Chris@16 1010 return boost::unwrap_ref(func)(m, i);
Chris@16 1011 }
Chris@16 1012 template <class OutputIter, class Traits>
Chris@16 1013 OutputIter operator()(const Match& m, OutputIter i, boost::regex_constants::match_flag_type f, const Traits&)
Chris@16 1014 {
Chris@16 1015 return (*this)(m, i, f);
Chris@16 1016 }
Chris@16 1017 private:
Chris@16 1018 Base func;
Chris@16 1019 format_functor2(const format_functor2&);
Chris@16 1020 format_functor2& operator=(const format_functor2&);
Chris@16 1021 };
Chris@16 1022
Chris@16 1023 template <class Base, class Match>
Chris@16 1024 struct format_functor1
Chris@16 1025 {
Chris@16 1026 format_functor1(Base b) : func(b) {}
Chris@16 1027
Chris@16 1028 template <class S, class OutputIter>
Chris@16 1029 OutputIter do_format_string(const S& s, OutputIter i)
Chris@16 1030 {
Chris@16 1031 return re_detail::copy(s.begin(), s.end(), i);
Chris@16 1032 }
Chris@16 1033 template <class S, class OutputIter>
Chris@16 1034 inline OutputIter do_format_string(const S* s, OutputIter i)
Chris@16 1035 {
Chris@16 1036 while(s && *s)
Chris@16 1037 {
Chris@16 1038 *i = *s;
Chris@16 1039 ++i;
Chris@16 1040 ++s;
Chris@16 1041 }
Chris@16 1042 return i;
Chris@16 1043 }
Chris@16 1044 template <class OutputIter>
Chris@16 1045 OutputIter operator()(const Match& m, OutputIter i, boost::regex_constants::match_flag_type /*f*/)
Chris@16 1046 {
Chris@16 1047 return do_format_string(boost::unwrap_ref(func)(m), i);
Chris@16 1048 }
Chris@16 1049 template <class OutputIter, class Traits>
Chris@16 1050 OutputIter operator()(const Match& m, OutputIter i, boost::regex_constants::match_flag_type f, const Traits&)
Chris@16 1051 {
Chris@16 1052 return (*this)(m, i, f);
Chris@16 1053 }
Chris@16 1054 private:
Chris@16 1055 Base func;
Chris@16 1056 format_functor1(const format_functor1&);
Chris@16 1057 format_functor1& operator=(const format_functor1&);
Chris@16 1058 };
Chris@16 1059
Chris@16 1060 template <class charT, class Match, class Traits>
Chris@16 1061 struct format_functor_c_string
Chris@16 1062 {
Chris@16 1063 format_functor_c_string(const charT* ps) : func(ps) {}
Chris@16 1064
Chris@16 1065 template <class OutputIter>
Chris@16 1066 OutputIter operator()(const Match& m, OutputIter i, boost::regex_constants::match_flag_type f, const Traits& t = Traits())
Chris@16 1067 {
Chris@16 1068 //typedef typename Match::char_type char_type;
Chris@16 1069 const charT* end = func;
Chris@16 1070 while(*end) ++end;
Chris@16 1071 return regex_format_imp(i, m, func, end, f, t);
Chris@16 1072 }
Chris@16 1073 private:
Chris@16 1074 const charT* func;
Chris@16 1075 format_functor_c_string(const format_functor_c_string&);
Chris@16 1076 format_functor_c_string& operator=(const format_functor_c_string&);
Chris@16 1077 };
Chris@16 1078
Chris@16 1079 template <class Container, class Match, class Traits>
Chris@16 1080 struct format_functor_container
Chris@16 1081 {
Chris@16 1082 format_functor_container(const Container& c) : func(c) {}
Chris@16 1083
Chris@16 1084 template <class OutputIter>
Chris@16 1085 OutputIter operator()(const Match& m, OutputIter i, boost::regex_constants::match_flag_type f, const Traits& t = Traits())
Chris@16 1086 {
Chris@16 1087 //typedef typename Match::char_type char_type;
Chris@16 1088 return re_detail::regex_format_imp(i, m, func.begin(), func.end(), f, t);
Chris@16 1089 }
Chris@16 1090 private:
Chris@16 1091 const Container& func;
Chris@16 1092 format_functor_container(const format_functor_container&);
Chris@16 1093 format_functor_container& operator=(const format_functor_container&);
Chris@16 1094 };
Chris@16 1095
Chris@16 1096 template <class Func, class Match, class OutputIterator, class Traits = re_detail::trivial_format_traits<typename Match::char_type> >
Chris@16 1097 struct compute_functor_type
Chris@16 1098 {
Chris@16 1099 typedef typename format_traits<Func, Match, OutputIterator>::type tag;
Chris@16 1100 typedef typename boost::remove_cv< typename boost::remove_pointer<Func>::type>::type maybe_char_type;
Chris@16 1101
Chris@16 1102 typedef typename mpl::if_<
Chris@16 1103 ::boost::is_same<tag, mpl::int_<0> >, format_functor_c_string<maybe_char_type, Match, Traits>,
Chris@16 1104 typename mpl::if_<
Chris@16 1105 ::boost::is_same<tag, mpl::int_<1> >, format_functor_container<Func, Match, Traits>,
Chris@16 1106 typename mpl::if_<
Chris@16 1107 ::boost::is_same<tag, mpl::int_<2> >, format_functor1<Func, Match>,
Chris@16 1108 typename mpl::if_<
Chris@16 1109 ::boost::is_same<tag, mpl::int_<3> >, format_functor2<Func, Match>,
Chris@16 1110 format_functor3<Func, Match>
Chris@16 1111 >::type
Chris@16 1112 >::type
Chris@16 1113 >::type
Chris@16 1114 >::type type;
Chris@16 1115 };
Chris@16 1116
Chris@16 1117 } // namespace re_detail
Chris@16 1118
Chris@16 1119 template <class OutputIterator, class Iterator, class Allocator, class Functor>
Chris@16 1120 inline OutputIterator regex_format(OutputIterator out,
Chris@16 1121 const match_results<Iterator, Allocator>& m,
Chris@16 1122 Functor fmt,
Chris@16 1123 match_flag_type flags = format_all
Chris@16 1124 )
Chris@16 1125 {
Chris@16 1126 return m.format(out, fmt, flags);
Chris@16 1127 }
Chris@16 1128
Chris@16 1129 template <class Iterator, class Allocator, class Functor>
Chris@16 1130 inline std::basic_string<typename match_results<Iterator, Allocator>::char_type> regex_format(const match_results<Iterator, Allocator>& m,
Chris@16 1131 Functor fmt,
Chris@16 1132 match_flag_type flags = format_all)
Chris@16 1133 {
Chris@16 1134 return m.format(fmt, flags);
Chris@16 1135 }
Chris@16 1136
Chris@16 1137 #ifdef BOOST_MSVC
Chris@16 1138 #pragma warning(push)
Chris@16 1139 #pragma warning(disable: 4103)
Chris@16 1140 #endif
Chris@16 1141 #ifdef BOOST_HAS_ABI_HEADERS
Chris@16 1142 # include BOOST_ABI_SUFFIX
Chris@16 1143 #endif
Chris@16 1144 #ifdef BOOST_MSVC
Chris@16 1145 #pragma warning(pop)
Chris@16 1146 #endif
Chris@16 1147
Chris@16 1148 } // namespace boost
Chris@16 1149
Chris@16 1150 #endif // BOOST_REGEX_FORMAT_HPP
Chris@16 1151
Chris@16 1152
Chris@16 1153
Chris@16 1154
Chris@16 1155
Chris@16 1156