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annotate DEPENDENCIES/generic/include/boost/iostreams/compose.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 2665513ce2d3
children
rev   line source
Chris@16 1 // (C) Copyright 2008 CodeRage, LLC (turkanis at coderage dot com)
Chris@16 2 // (C) Copyright 2005-2007 Jonathan Turkanis
Chris@16 3 // Distributed under the Boost Software License, Version 1.0. (See accompanying
Chris@16 4 // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt.)
Chris@16 5
Chris@16 6 // See http://www.boost.org/libs/iostreams for documentation.
Chris@16 7
Chris@16 8 // Note: bidirectional streams are not supported.
Chris@16 9
Chris@16 10 #ifndef BOOST_IOSTREAMS_COMPOSE_HPP_INCLUDED
Chris@16 11 #define BOOST_IOSTREAMS_COMPOSE_HPP_INCLUDED
Chris@16 12
Chris@16 13 #if defined(_MSC_VER) && (_MSC_VER >= 1020)
Chris@16 14 # pragma once
Chris@16 15 #endif
Chris@16 16
Chris@16 17 #include <algorithm> // min.
Chris@16 18 #include <utility> // pair.
Chris@16 19 #include <boost/config.hpp> // DEDUCED_TYPENAME.
Chris@16 20 #include <boost/iostreams/categories.hpp>
Chris@16 21 #include <boost/iostreams/detail/adapter/direct_adapter.hpp>
Chris@16 22 #include <boost/iostreams/detail/call_traits.hpp>
Chris@16 23 #include <boost/iostreams/detail/enable_if_stream.hpp>
Chris@16 24 #include <boost/iostreams/detail/execute.hpp>
Chris@16 25 #include <boost/iostreams/detail/functional.hpp>
Chris@16 26 #include <boost/iostreams/operations.hpp>
Chris@16 27 #include <boost/iostreams/traits.hpp> // mode_of, is_direct.
Chris@16 28 #include <boost/mpl/if.hpp>
Chris@16 29 #include <boost/ref.hpp>
Chris@16 30 #include <boost/static_assert.hpp>
Chris@16 31 #include <boost/type_traits/is_convertible.hpp>
Chris@16 32
Chris@16 33 // Must come last.
Chris@16 34 #include <boost/iostreams/detail/config/disable_warnings.hpp> // MSVC.
Chris@16 35
Chris@16 36 namespace boost { namespace iostreams {
Chris@16 37
Chris@16 38 namespace detail {
Chris@16 39
Chris@16 40 template< typename First,
Chris@16 41 typename Second,
Chris@16 42 typename FirstMode =
Chris@16 43 BOOST_DEDUCED_TYPENAME mode_of<First>::type,
Chris@16 44 typename SecondMode =
Chris@16 45 BOOST_DEDUCED_TYPENAME mode_of<Second>::type >
Chris@16 46 struct composite_mode
Chris@16 47 : select<
Chris@16 48 is_convertible<SecondMode, FirstMode>, FirstMode,
Chris@16 49 is_convertible<FirstMode, SecondMode>, SecondMode,
Chris@16 50 is_convertible<SecondMode, input>, input,
Chris@16 51 else_, output
Chris@16 52 >
Chris@16 53 { };
Chris@16 54
Chris@16 55 //
Chris@16 56 // Template name: composite_device.
Chris@16 57 // Description: Provides a Device view of a Filter, Device pair.
Chris@16 58 // Template parameters:
Chris@16 59 // Filter - A model of Filter.
Chris@16 60 // Device - An indirect model of Device.
Chris@16 61 //
Chris@16 62 template< typename Filter,
Chris@16 63 typename Device,
Chris@16 64 typename Mode =
Chris@16 65 BOOST_DEDUCED_TYPENAME composite_mode<Filter, Device>::type >
Chris@16 66 class composite_device {
Chris@16 67 private:
Chris@16 68 typedef typename detail::param_type<Device>::type param_type;
Chris@16 69 typedef typename mode_of<Filter>::type filter_mode;
Chris@16 70 typedef typename mode_of<Device>::type device_mode;
Chris@16 71 typedef typename
Chris@16 72 iostreams::select< // Disambiguation for Tru64.
Chris@16 73 is_direct<Device>, direct_adapter<Device>,
Chris@16 74 is_std_io<Device>, Device&,
Chris@16 75 else_, Device
Chris@16 76 >::type value_type;
Chris@16 77 BOOST_STATIC_ASSERT(is_filter<Filter>::value);
Chris@16 78 BOOST_STATIC_ASSERT(is_device<Device>::value);
Chris@16 79 public:
Chris@16 80 typedef typename char_type_of<Filter>::type char_type;
Chris@16 81 struct category
Chris@16 82 : Mode,
Chris@16 83 device_tag,
Chris@16 84 closable_tag,
Chris@16 85 flushable_tag,
Chris@16 86 localizable_tag,
Chris@16 87 optimally_buffered_tag
Chris@16 88 { };
Chris@16 89 composite_device(const Filter& flt, param_type dev);
Chris@16 90 std::streamsize read(char_type* s, std::streamsize n);
Chris@16 91 std::streamsize write(const char_type* s, std::streamsize n);
Chris@16 92 std::streampos seek( stream_offset off, BOOST_IOS::seekdir way,
Chris@16 93 BOOST_IOS::openmode which =
Chris@16 94 BOOST_IOS::in | BOOST_IOS::out );
Chris@16 95
Chris@16 96 void close();
Chris@16 97 void close(BOOST_IOS::openmode which);
Chris@16 98 bool flush();
Chris@16 99 std::streamsize optimal_buffer_size() const;
Chris@16 100
Chris@16 101 template<typename Locale> // Avoid dependency on <locale>
Chris@16 102 void imbue(const Locale& loc)
Chris@16 103 {
Chris@16 104 iostreams::imbue(filter_, loc);
Chris@16 105 iostreams::imbue(device_, loc);
Chris@16 106 }
Chris@16 107
Chris@16 108 Filter& first() { return filter_; }
Chris@16 109 Device& second() { return device_; }
Chris@16 110 private:
Chris@16 111 Filter filter_;
Chris@16 112 value_type device_;
Chris@16 113 };
Chris@16 114
Chris@16 115 //
Chris@16 116 // Template name: composite_device.
Chris@16 117 // Description: Provides a Device view of a Filter, Device pair.
Chris@16 118 // Template parameters:
Chris@16 119 // Filter - A model of Filter.
Chris@16 120 // Device - An indirect model of Device.
Chris@16 121 //
Chris@16 122 template< typename Filter1,
Chris@16 123 typename Filter2,
Chris@16 124 typename Mode =
Chris@16 125 BOOST_DEDUCED_TYPENAME composite_mode<Filter1, Filter2>::type >
Chris@16 126 class composite_filter {
Chris@16 127 private:
Chris@16 128 typedef reference_wrapper<Filter2> filter_ref;
Chris@16 129 typedef typename mode_of<Filter1>::type first_mode;
Chris@16 130 typedef typename mode_of<Filter2>::type second_mode;
Chris@16 131
Chris@16 132 // A dual-use filter cannot be composed with a read-write filter
Chris@16 133 BOOST_STATIC_ASSERT(
Chris@16 134 !(is_convertible<first_mode, dual_use>::value) ||
Chris@16 135 !(is_convertible<second_mode, input>::value) ||
Chris@16 136 !(is_convertible<second_mode, output>::value) ||
Chris@16 137 (is_convertible<second_mode, dual_use>::value)
Chris@16 138 );
Chris@16 139 BOOST_STATIC_ASSERT(
Chris@16 140 !(is_convertible<second_mode, dual_use>::value) ||
Chris@16 141 !(is_convertible<first_mode, input>::value) ||
Chris@16 142 !(is_convertible<first_mode, output>::value) ||
Chris@16 143 (is_convertible<first_mode, dual_use>::value)
Chris@16 144 );
Chris@16 145 BOOST_STATIC_ASSERT(is_filter<Filter1>::value);
Chris@16 146 BOOST_STATIC_ASSERT(is_filter<Filter2>::value);
Chris@16 147 public:
Chris@16 148 typedef typename char_type_of<Filter1>::type char_type;
Chris@16 149 struct category
Chris@16 150 : Mode,
Chris@16 151 filter_tag,
Chris@16 152 multichar_tag,
Chris@16 153 closable_tag,
Chris@16 154 flushable_tag,
Chris@16 155 localizable_tag,
Chris@16 156 optimally_buffered_tag
Chris@16 157 { };
Chris@16 158 composite_filter(const Filter1& filter1, const Filter2& filter2)
Chris@16 159 : filter1_(filter1), filter2_(filter2)
Chris@16 160 { }
Chris@16 161
Chris@16 162 template<typename Source>
Chris@16 163 std::streamsize read(Source& src, char_type* s, std::streamsize n)
Chris@16 164 {
Chris@16 165 composite_device<filter_ref, Source> cmp(boost::ref(filter2_), src);
Chris@16 166 return iostreams::read(filter1_, cmp, s, n);
Chris@16 167 }
Chris@16 168
Chris@16 169 template<typename Sink>
Chris@16 170 std::streamsize write(Sink& snk, const char_type* s, std::streamsize n)
Chris@16 171 {
Chris@16 172 composite_device<filter_ref, Sink> cmp(boost::ref(filter2_), snk);
Chris@16 173 return iostreams::write(filter1_, cmp, s, n);
Chris@16 174 }
Chris@16 175
Chris@16 176 template<typename Device>
Chris@16 177 std::streampos seek( Device& dev, stream_offset off, BOOST_IOS::seekdir way,
Chris@16 178 BOOST_IOS::openmode which =
Chris@16 179 BOOST_IOS::in | BOOST_IOS::out )
Chris@16 180 {
Chris@16 181 composite_device<filter_ref, Device> cmp(boost::ref(filter2_), dev);
Chris@16 182 return iostreams::seek(filter1_, cmp, off, way, which);
Chris@16 183 }
Chris@16 184
Chris@16 185 template<typename Device>
Chris@16 186 void close(Device& dev)
Chris@16 187 {
Chris@16 188 BOOST_STATIC_ASSERT((!is_convertible<category, two_sequence>::value));
Chris@16 189 BOOST_STATIC_ASSERT((!is_convertible<category, dual_use>::value));
Chris@16 190
Chris@16 191 // Create a new device by composing the second filter2_ with dev.
Chris@16 192 composite_device<filter_ref, Device> cmp(boost::ref(filter2_), dev);
Chris@16 193
Chris@16 194 // Close input sequences in reverse order and output sequences in
Chris@16 195 // forward order
Chris@16 196 if (!is_convertible<first_mode, dual_use>::value) {
Chris@16 197 detail::execute_all(
Chris@16 198 detail::call_close(filter2_, dev, BOOST_IOS::in),
Chris@16 199 detail::call_close(filter1_, cmp, BOOST_IOS::in),
Chris@16 200 detail::call_close(filter1_, cmp, BOOST_IOS::out),
Chris@16 201 detail::call_close(filter2_, dev, BOOST_IOS::out)
Chris@16 202 );
Chris@16 203 } else if (is_convertible<second_mode, input>::value) {
Chris@16 204 detail::execute_all(
Chris@16 205 detail::call_close(filter2_, dev, BOOST_IOS::in),
Chris@16 206 detail::call_close(filter1_, cmp, BOOST_IOS::in)
Chris@16 207 );
Chris@16 208 } else {
Chris@16 209 detail::execute_all(
Chris@16 210 detail::call_close(filter1_, cmp, BOOST_IOS::out),
Chris@16 211 detail::call_close(filter2_, dev, BOOST_IOS::out)
Chris@16 212 );
Chris@16 213 }
Chris@16 214 }
Chris@16 215
Chris@16 216 template<typename Device>
Chris@16 217 void close(Device& dev, BOOST_IOS::openmode which)
Chris@16 218 {
Chris@16 219 BOOST_STATIC_ASSERT(
Chris@16 220 (is_convertible<category, two_sequence>::value) ||
Chris@16 221 (is_convertible<category, dual_use>::value)
Chris@16 222 );
Chris@16 223
Chris@16 224 // Create a new device by composing the second filter2_ with dev.
Chris@16 225 composite_device<filter_ref, Device> cmp(boost::ref(filter2_), dev);
Chris@16 226
Chris@16 227 // Close input sequences in reverse order
Chris@16 228 if ( which == BOOST_IOS::in &&
Chris@16 229 ( !is_convertible<first_mode, dual_use>::value ||
Chris@16 230 is_convertible<second_mode, input>::value ) )
Chris@16 231 {
Chris@16 232 detail::execute_all(
Chris@16 233 detail::call_close(filter2_, dev, BOOST_IOS::in),
Chris@16 234 detail::call_close(filter1_, cmp, BOOST_IOS::in)
Chris@16 235 );
Chris@16 236 }
Chris@16 237
Chris@16 238 // Close output sequences in forward order
Chris@16 239 if ( which == BOOST_IOS::out &&
Chris@16 240 ( !is_convertible<first_mode, dual_use>::value ||
Chris@16 241 is_convertible<second_mode, output>::value ) )
Chris@16 242 {
Chris@16 243 detail::execute_all(
Chris@16 244 detail::call_close(filter1_, cmp, BOOST_IOS::out),
Chris@16 245 detail::call_close(filter2_, dev, BOOST_IOS::out)
Chris@16 246 );
Chris@16 247 }
Chris@16 248 }
Chris@16 249
Chris@16 250 template<typename Device>
Chris@16 251 bool flush(Device& dev)
Chris@16 252 {
Chris@16 253 composite_device<Filter2, Device> cmp(filter2_, dev);
Chris@16 254 return iostreams::flush(filter1_, cmp);
Chris@16 255 }
Chris@16 256
Chris@16 257 std::streamsize optimal_buffer_size() const
Chris@16 258 {
Chris@16 259 std::streamsize first = iostreams::optimal_buffer_size(filter1_);
Chris@16 260 std::streamsize second = iostreams::optimal_buffer_size(filter2_);
Chris@16 261 return first < second ? second : first;
Chris@16 262 }
Chris@16 263
Chris@16 264 template<typename Locale> // Avoid dependency on <locale>
Chris@16 265 void imbue(const Locale& loc)
Chris@16 266 { // To do: consider using RAII.
Chris@16 267 iostreams::imbue(filter1_, loc);
Chris@16 268 iostreams::imbue(filter2_, loc);
Chris@16 269 }
Chris@16 270
Chris@16 271 Filter1& first() { return filter1_; }
Chris@16 272 Filter2& second() { return filter2_; }
Chris@16 273 private:
Chris@16 274 Filter1 filter1_;
Chris@16 275 Filter2 filter2_;
Chris@16 276 };
Chris@16 277
Chris@16 278 template<typename Filter, typename FilterOrDevice>
Chris@16 279 struct composite_traits
Chris@16 280 : mpl::if_<
Chris@16 281 is_device<FilterOrDevice>,
Chris@16 282 composite_device<Filter, FilterOrDevice>,
Chris@16 283 composite_filter<Filter, FilterOrDevice>
Chris@16 284 >
Chris@16 285 { };
Chris@16 286
Chris@16 287 } // End namespace detail.
Chris@16 288
Chris@16 289 template<typename Filter, typename FilterOrDevice>
Chris@16 290 struct composite : detail::composite_traits<Filter, FilterOrDevice>::type {
Chris@16 291 typedef typename detail::param_type<FilterOrDevice>::type param_type;
Chris@16 292 typedef typename detail::composite_traits<Filter, FilterOrDevice>::type base;
Chris@16 293 composite(const Filter& flt, param_type dev)
Chris@16 294 : base(flt, dev)
Chris@16 295 { }
Chris@16 296 };
Chris@16 297
Chris@16 298 //--------------Implementation of compose-------------------------------------//
Chris@16 299
Chris@16 300 // Note: The following workarounds are patterned after resolve.hpp. It has not
Chris@16 301 // yet been confirmed that they are necessary.
Chris@16 302
Chris@16 303 #ifndef BOOST_IOSTREAMS_BROKEN_OVERLOAD_RESOLUTION //-------------------------//
Chris@16 304 # ifndef BOOST_IOSTREAMS_NO_STREAM_TEMPLATES //-------------------------------//
Chris@16 305
Chris@16 306 template<typename Filter, typename FilterOrDevice>
Chris@16 307 composite<Filter, FilterOrDevice>
Chris@16 308 compose( const Filter& filter, const FilterOrDevice& fod
Chris@16 309 BOOST_IOSTREAMS_DISABLE_IF_STREAM(FilterOrDevice) )
Chris@16 310 { return composite<Filter, FilterOrDevice>(filter, fod); }
Chris@16 311
Chris@16 312 template<typename Filter, typename Ch, typename Tr>
Chris@16 313 composite< Filter, std::basic_streambuf<Ch, Tr> >
Chris@16 314 compose(const Filter& filter, std::basic_streambuf<Ch, Tr>& sb)
Chris@16 315 { return composite< Filter, std::basic_streambuf<Ch, Tr> >(filter, sb); }
Chris@16 316
Chris@16 317 template<typename Filter, typename Ch, typename Tr>
Chris@16 318 composite< Filter, std::basic_istream<Ch, Tr> >
Chris@16 319 compose(const Filter& filter, std::basic_istream<Ch, Tr>& is)
Chris@16 320 { return composite< Filter, std::basic_istream<Ch, Tr> >(filter, is); }
Chris@16 321
Chris@16 322 template<typename Filter, typename Ch, typename Tr>
Chris@16 323 composite< Filter, std::basic_ostream<Ch, Tr> >
Chris@16 324 compose(const Filter& filter, std::basic_ostream<Ch, Tr>& os)
Chris@16 325 { return composite< Filter, std::basic_ostream<Ch, Tr> >(filter, os); }
Chris@16 326
Chris@16 327 template<typename Filter, typename Ch, typename Tr>
Chris@16 328 composite< Filter, std::basic_iostream<Ch, Tr> >
Chris@16 329 compose(const Filter& filter, std::basic_iostream<Ch, Tr>& io)
Chris@16 330 { return composite< Filter, std::basic_iostream<Ch, Tr> >(filter, io); }
Chris@16 331
Chris@16 332 # else // # ifndef BOOST_IOSTREAMS_NO_STREAM_TEMPLATES //---------------------//
Chris@16 333
Chris@16 334 template<typename Filter, typename FilterOrDevice>
Chris@16 335 composite<Filter, FilterOrDevice>
Chris@16 336 compose( const Filter& filter, const FilterOrDevice& fod
Chris@16 337 BOOST_IOSTREAMS_DISABLE_IF_STREAM(FilterOrDevice) )
Chris@16 338 { return composite<Filter, FilterOrDevice>(filter, fod); }
Chris@16 339
Chris@16 340 template<typename Filter>
Chris@16 341 composite<Filter, std::streambuf>
Chris@16 342 compose(const Filter& filter, std::streambuf& sb)
Chris@16 343 { return composite<Filter, std::streambuf>(filter, sb); }
Chris@16 344
Chris@16 345 template<typename Filter>
Chris@16 346 composite<Filter, std::istream>
Chris@16 347 compose(const Filter& filter, std::istream& is)
Chris@16 348 { return composite<Filter, std::istream>(filter, is); }
Chris@16 349
Chris@16 350 template<typename Filter>
Chris@16 351 composite<Filter, std::ostream>
Chris@16 352 compose(const Filter& filter, std::ostream& os)
Chris@16 353 { return composite<Filter, std::ostream>(filter, os); }
Chris@16 354
Chris@16 355 template<typename Filter>
Chris@16 356 composite<Filter, std::iostream>
Chris@16 357 compose(const Filter& filter, std::iostream& io)
Chris@16 358 { return composite<Filter, std::iostream>(filter, io); }
Chris@16 359
Chris@16 360 # endif // # ifndef BOOST_IOSTREAMS_NO_STREAM_TEMPLATES //--------------------//
Chris@16 361 #else // #ifndef BOOST_IOSTREAMS_BROKEN_OVERLOAD_RESOLUTION //----------------//
Chris@16 362
Chris@16 363 template<typename Filter, typename Stream>
Chris@16 364 composite<Filter, Stream>
Chris@16 365 compose(const Filter& flt, const Stream& strm, mpl::true_)
Chris@16 366 { // Bad overload resolution.
Chris@16 367 return composite<Filter, Stream>(flt, const_cast<Stream&>(strm));
Chris@16 368 }
Chris@16 369
Chris@16 370 template<typename Filter, typename FilterOrDevice>
Chris@16 371 composite<Filter, FilterOrDevice>
Chris@16 372 compose(const Filter& flt, const FilterOrDevice& fod, mpl::false_)
Chris@16 373 { return composite<Filter, FilterOrDevice>(flt, fod); }
Chris@16 374
Chris@16 375 template<typename Filter, typename FilterOrDevice>
Chris@16 376 composite<Filter, FilterOrDevice>
Chris@16 377 compose( const Filter& flt, const FilterOrDevice& fod
Chris@16 378 BOOST_IOSTREAMS_DISABLE_IF_STREAM(T) )
Chris@16 379 { return compose(flt, fod, is_std_io<FilterOrDevice>()); }
Chris@16 380
Chris@16 381 # if !BOOST_WORKAROUND(__BORLANDC__, < 0x600) && \
Chris@16 382 !BOOST_WORKAROUND(BOOST_MSVC, <= 1300) && \
Chris@16 383 !defined(__GNUC__) // ---------------------------------------------------//
Chris@16 384
Chris@16 385 template<typename Filter, typename FilterOrDevice>
Chris@16 386 composite<Filter, FilterOrDevice>
Chris@16 387 compose (const Filter& filter, FilterOrDevice& fod)
Chris@16 388 { return composite<Filter, FilterOrDevice>(filter, fod); }
Chris@16 389
Chris@16 390 # endif // Borland 5.x, VC6-7.0 or GCC 2.9x //--------------------------------//
Chris@16 391 #endif // #ifndef BOOST_IOSTREAMS_BROKEN_OVERLOAD_RESOLUTION //---------------//
Chris@16 392
Chris@16 393 //----------------------------------------------------------------------------//
Chris@16 394
Chris@16 395 namespace detail {
Chris@16 396
Chris@16 397 //--------------Implementation of composite_device---------------------------//
Chris@16 398
Chris@16 399 template<typename Filter, typename Device, typename Mode>
Chris@16 400 composite_device<Filter, Device, Mode>::composite_device
Chris@16 401 (const Filter& flt, param_type dev)
Chris@16 402 : filter_(flt), device_(dev)
Chris@16 403 { }
Chris@16 404
Chris@16 405 template<typename Filter, typename Device, typename Mode>
Chris@16 406 inline std::streamsize composite_device<Filter, Device, Mode>::read
Chris@16 407 (char_type* s, std::streamsize n)
Chris@16 408 { return iostreams::read(filter_, device_, s, n); }
Chris@16 409
Chris@16 410 template<typename Filter, typename Device, typename Mode>
Chris@16 411 inline std::streamsize composite_device<Filter, Device, Mode>::write
Chris@16 412 (const char_type* s, std::streamsize n)
Chris@16 413 { return iostreams::write(filter_, device_, s, n); }
Chris@16 414
Chris@16 415 template<typename Filter, typename Device, typename Mode>
Chris@16 416 std::streampos composite_device<Filter, Device, Mode>::seek
Chris@16 417 (stream_offset off, BOOST_IOS::seekdir way, BOOST_IOS::openmode which)
Chris@16 418 { return iostreams::seek(filter_, device_, off, way, which); }
Chris@16 419
Chris@16 420 template<typename Filter, typename Device, typename Mode>
Chris@16 421 void composite_device<Filter, Device, Mode>::close()
Chris@16 422 {
Chris@16 423 BOOST_STATIC_ASSERT((!is_convertible<Mode, two_sequence>::value));
Chris@16 424 BOOST_STATIC_ASSERT(
Chris@16 425 !(is_convertible<filter_mode, dual_use>::value) ||
Chris@16 426 !(is_convertible<device_mode, input>::value) ||
Chris@16 427 !(is_convertible<device_mode, output>::value)
Chris@16 428 );
Chris@16 429
Chris@16 430 // Close input sequences in reverse order and output sequences
Chris@16 431 // in forward order
Chris@16 432 if (!is_convertible<filter_mode, dual_use>::value) {
Chris@16 433 detail::execute_all(
Chris@16 434 detail::call_close(device_, BOOST_IOS::in),
Chris@16 435 detail::call_close(filter_, device_, BOOST_IOS::in),
Chris@16 436 detail::call_close(filter_, device_, BOOST_IOS::out),
Chris@16 437 detail::call_close(device_, BOOST_IOS::out)
Chris@16 438 );
Chris@16 439 } else if (is_convertible<device_mode, input>::value) {
Chris@16 440 detail::execute_all(
Chris@16 441 detail::call_close(device_, BOOST_IOS::in),
Chris@16 442 detail::call_close(filter_, device_, BOOST_IOS::in)
Chris@16 443 );
Chris@16 444 } else {
Chris@16 445 detail::execute_all(
Chris@16 446 detail::call_close(filter_, device_, BOOST_IOS::out),
Chris@16 447 detail::call_close(device_, BOOST_IOS::out)
Chris@16 448 );
Chris@16 449 }
Chris@16 450 }
Chris@16 451
Chris@16 452 template<typename Filter, typename Device, typename Mode>
Chris@16 453 void composite_device<Filter, Device, Mode>::close(BOOST_IOS::openmode which)
Chris@16 454 {
Chris@16 455 BOOST_STATIC_ASSERT((is_convertible<Mode, two_sequence>::value));
Chris@16 456 BOOST_STATIC_ASSERT(!(is_convertible<filter_mode, dual_use>::value));
Chris@16 457
Chris@16 458 // Close input sequences in reverse order
Chris@16 459 if (which == BOOST_IOS::in) {
Chris@16 460 detail::execute_all(
Chris@16 461 detail::call_close(device_, BOOST_IOS::in),
Chris@16 462 detail::call_close(filter_, device_, BOOST_IOS::in)
Chris@16 463 );
Chris@16 464 }
Chris@16 465
Chris@16 466 // Close output sequences in forward order
Chris@16 467 if (which == BOOST_IOS::out) {
Chris@16 468 detail::execute_all(
Chris@16 469 detail::call_close(filter_, device_, BOOST_IOS::out),
Chris@16 470 detail::call_close(device_, BOOST_IOS::out)
Chris@16 471 );
Chris@16 472 }
Chris@16 473 }
Chris@16 474
Chris@16 475 template<typename Filter, typename Device, typename Mode>
Chris@16 476 bool composite_device<Filter, Device, Mode>::flush()
Chris@16 477 {
Chris@16 478 bool r1 = iostreams::flush(filter_, device_);
Chris@16 479 bool r2 = iostreams::flush(device_);
Chris@16 480 return r1 && r2;
Chris@16 481 }
Chris@16 482
Chris@16 483 template<typename Filter, typename Device, typename Mode>
Chris@16 484 std::streamsize
Chris@16 485 composite_device<Filter, Device, Mode>::optimal_buffer_size() const
Chris@16 486 { return iostreams::optimal_buffer_size(device_); }
Chris@16 487
Chris@16 488 } // End namespace detail.
Chris@16 489
Chris@16 490 } } // End namespaces iostreams, boost.
Chris@16 491
Chris@16 492 #include <boost/iostreams/detail/config/enable_warnings.hpp>
Chris@16 493
Chris@16 494 #endif // #ifndef BOOST_IOSTREAMS_COMPOSE_HPP_INCLUDED