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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 /*-----------------------------------------------------------------------------+
Chris@16 2 Copyright (c) 2007-2009: Joachim Faulhaber
Chris@16 3 +------------------------------------------------------------------------------+
Chris@16 4 Distributed under the Boost Software License, Version 1.0.
Chris@16 5 (See accompanying file LICENCE.txt or copy at
Chris@16 6 http://www.boost.org/LICENSE_1_0.txt)
Chris@16 7 +-----------------------------------------------------------------------------*/
Chris@16 8 #ifndef BOOST_ICL_FUNCTORS_HPP_JOFA_080315
Chris@16 9 #define BOOST_ICL_FUNCTORS_HPP_JOFA_080315
Chris@16 10
Chris@16 11 #include <functional>
Chris@16 12 #include <boost/type_traits.hpp>
Chris@16 13 #include <boost/mpl/if.hpp>
Chris@16 14 #include <boost/icl/type_traits/identity_element.hpp>
Chris@16 15 #include <boost/icl/type_traits/unit_element.hpp>
Chris@16 16 #include <boost/icl/type_traits/is_set.hpp>
Chris@16 17 #include <boost/icl/type_traits/has_set_semantics.hpp>
Chris@16 18
Chris@16 19 namespace boost{namespace icl
Chris@16 20 {
Chris@16 21 // ------------------------------------------------------------------------
Chris@16 22 template <typename Type> struct identity_based_inplace_combine
Chris@16 23 : public std::binary_function<Type&, const Type&, void>
Chris@16 24 {
Chris@16 25 inline static Type identity_element() { return boost::icl::identity_element<Type>::value(); }
Chris@16 26 };
Chris@16 27
Chris@16 28 // ------------------------------------------------------------------------
Chris@16 29 template <typename Type> struct unit_element_based_inplace_combine
Chris@16 30 : public std::binary_function<Type&, const Type&, void>
Chris@16 31 {
Chris@16 32 inline static Type identity_element() { return boost::icl::unit_element<Type>::value(); }
Chris@16 33 };
Chris@16 34
Chris@16 35 // ------------------------------------------------------------------------
Chris@16 36 template <typename Type> struct inplace_identity
Chris@16 37 : public identity_based_inplace_combine<Type>
Chris@16 38 {
Chris@16 39 typedef inplace_identity<Type> type;
Chris@16 40 void operator()(Type&, const Type&)const{}
Chris@16 41 };
Chris@16 42
Chris@16 43 template<>
Chris@16 44 inline std::string unary_template_to_string<inplace_identity>::apply()
Chris@16 45 { return "i="; }
Chris@16 46
Chris@16 47 // ------------------------------------------------------------------------
Chris@16 48 template <typename Type> struct inplace_erasure
Chris@16 49 : public identity_based_inplace_combine<Type>
Chris@16 50 {
Chris@16 51 typedef inplace_erasure<Type> type;
Chris@16 52 typedef identity_based_inplace_combine<Type> base_type;
Chris@16 53
Chris@16 54 void operator()(Type& object, const Type& operand)const
Chris@16 55 {
Chris@16 56 if(object == operand)
Chris@16 57 //identity_element(); //JODO Old gcc-3.4.4 does not compile this
Chris@16 58 object = base_type::identity_element(); //<-- but this.
Chris@16 59 }
Chris@16 60 };
Chris@16 61
Chris@16 62 template<>
Chris@16 63 inline std::string unary_template_to_string<inplace_erasure>::apply()
Chris@16 64 { return "0="; }
Chris@16 65
Chris@16 66 // ------------------------------------------------------------------------
Chris@16 67 template <typename Type> struct inplace_plus
Chris@16 68 : public identity_based_inplace_combine<Type>
Chris@16 69 {
Chris@16 70 typedef inplace_plus<Type> type;
Chris@16 71
Chris@16 72 void operator()(Type& object, const Type& operand)const
Chris@16 73 { object += operand; }
Chris@16 74
Chris@16 75 static void version(Type&){}
Chris@16 76 };
Chris@16 77
Chris@16 78 template<>
Chris@16 79 inline std::string unary_template_to_string<inplace_plus>::apply() { return "+="; }
Chris@16 80
Chris@16 81 // ------------------------------------------------------------------------
Chris@16 82 template <typename Type> struct inplace_minus
Chris@16 83 : public identity_based_inplace_combine<Type>
Chris@16 84 {
Chris@16 85 typedef inplace_minus<Type> type;
Chris@16 86
Chris@16 87 void operator()(Type& object, const Type& operand)const
Chris@16 88 { object -= operand; }
Chris@16 89 };
Chris@16 90
Chris@16 91 template<>
Chris@16 92 inline std::string unary_template_to_string<inplace_minus>::apply() { return "-="; }
Chris@16 93
Chris@16 94 // ------------------------------------------------------------------------
Chris@16 95 template <typename Type> struct inplace_bit_add
Chris@16 96 : public identity_based_inplace_combine<Type>
Chris@16 97 {
Chris@16 98 typedef inplace_bit_add<Type> type;
Chris@16 99
Chris@16 100 void operator()(Type& object, const Type& operand)const
Chris@16 101 { object |= operand; }
Chris@16 102
Chris@16 103 static void version(Type&){}
Chris@16 104 };
Chris@16 105
Chris@16 106 template<>
Chris@16 107 inline std::string unary_template_to_string<inplace_bit_add>::apply() { return "b|="; }
Chris@16 108
Chris@16 109 // ------------------------------------------------------------------------
Chris@16 110 template <typename Type> struct inplace_bit_subtract
Chris@16 111 : public identity_based_inplace_combine<Type>
Chris@16 112 {
Chris@16 113 typedef inplace_bit_subtract<Type> type;
Chris@16 114
Chris@16 115 void operator()(Type& object, const Type& operand)const
Chris@16 116 { object &= ~operand; }
Chris@16 117 };
Chris@16 118
Chris@16 119 template<>
Chris@16 120 inline std::string unary_template_to_string<inplace_bit_subtract>::apply() { return "b-="; }
Chris@16 121
Chris@16 122 // ------------------------------------------------------------------------
Chris@16 123 template <typename Type> struct inplace_bit_and
Chris@16 124 : public identity_based_inplace_combine<Type>
Chris@16 125 {
Chris@16 126 typedef inplace_bit_and<Type> type;
Chris@16 127
Chris@16 128 void operator()(Type& object, const Type& operand)const
Chris@16 129 { object &= operand; }
Chris@16 130 };
Chris@16 131
Chris@16 132 template<>
Chris@16 133 inline std::string unary_template_to_string<inplace_bit_and>::apply() { return "b&="; }
Chris@16 134
Chris@16 135 // ------------------------------------------------------------------------
Chris@16 136 template <typename Type> struct inplace_bit_xor
Chris@16 137 : public identity_based_inplace_combine<Type>
Chris@16 138 {
Chris@16 139 typedef inplace_bit_xor<Type> type;
Chris@16 140
Chris@16 141 void operator()(Type& object, const Type& operand)const
Chris@16 142 { object ^= operand; }
Chris@16 143 };
Chris@16 144
Chris@16 145 // ------------------------------------------------------------------------
Chris@16 146 template <typename Type> struct inplace_et
Chris@16 147 : public identity_based_inplace_combine<Type>
Chris@16 148 {
Chris@16 149 typedef inplace_et<Type> type;
Chris@16 150
Chris@16 151 void operator()(Type& object, const Type& operand)const
Chris@16 152 { object &= operand; }
Chris@16 153 };
Chris@16 154
Chris@16 155 template<>
Chris@16 156 inline std::string unary_template_to_string<inplace_et>::apply() { return "&="; }
Chris@16 157
Chris@16 158 // ------------------------------------------------------------------------
Chris@16 159 template <typename Type> struct inplace_caret
Chris@16 160 : public identity_based_inplace_combine<Type>
Chris@16 161 {
Chris@16 162 typedef inplace_caret<Type> type;
Chris@16 163
Chris@16 164 void operator()(Type& object, const Type& operand)const
Chris@16 165 { object ^= operand; }
Chris@16 166 };
Chris@16 167
Chris@16 168 template<>
Chris@16 169 inline std::string unary_template_to_string<inplace_caret>::apply() { return "^="; }
Chris@16 170
Chris@16 171 // ------------------------------------------------------------------------
Chris@16 172 template <typename Type> struct inplace_insert
Chris@16 173 : public identity_based_inplace_combine<Type>
Chris@16 174 {
Chris@16 175 typedef inplace_insert<Type> type;
Chris@16 176
Chris@16 177 void operator()(Type& object, const Type& operand)const
Chris@16 178 { insert(object,operand); }
Chris@16 179 };
Chris@16 180
Chris@16 181 template<>
Chris@16 182 inline std::string unary_template_to_string<inplace_insert>::apply() { return "ins="; }
Chris@16 183
Chris@16 184 // ------------------------------------------------------------------------
Chris@16 185 template <typename Type> struct inplace_erase
Chris@16 186 : public identity_based_inplace_combine<Type>
Chris@16 187 {
Chris@16 188 typedef inplace_erase<Type> type;
Chris@16 189
Chris@16 190 void operator()(Type& object, const Type& operand)const
Chris@16 191 { erase(object,operand); }
Chris@16 192 };
Chris@16 193
Chris@16 194 template<>
Chris@16 195 inline std::string unary_template_to_string<inplace_erase>::apply() { return "ers="; }
Chris@16 196
Chris@16 197 // ------------------------------------------------------------------------
Chris@16 198 template <typename Type> struct inplace_star
Chris@16 199 : public identity_based_inplace_combine<Type> //JODO unit_element_
Chris@16 200 {
Chris@16 201 typedef inplace_star<Type> type;
Chris@16 202
Chris@16 203 void operator()(Type& object, const Type& operand)const
Chris@16 204 { object *= operand; }
Chris@16 205 };
Chris@16 206
Chris@16 207 template<>
Chris@16 208 inline std::string unary_template_to_string<inplace_star>::apply() { return "*="; }
Chris@16 209
Chris@16 210 // ------------------------------------------------------------------------
Chris@16 211 template <typename Type> struct inplace_slash
Chris@16 212 : public identity_based_inplace_combine<Type> //JODO unit_element_
Chris@16 213 {
Chris@16 214 typedef inplace_slash<Type> type;
Chris@16 215
Chris@16 216 void operator()(Type& object, const Type& operand)const
Chris@16 217 { object /= operand; }
Chris@16 218 };
Chris@16 219
Chris@16 220 template<>
Chris@16 221 inline std::string unary_template_to_string<inplace_slash>::apply() { return "/="; }
Chris@16 222
Chris@16 223 // ------------------------------------------------------------------------
Chris@16 224 template <typename Type> struct inplace_max
Chris@16 225 : public identity_based_inplace_combine<Type>
Chris@16 226 {
Chris@16 227 typedef inplace_max<Type> type;
Chris@16 228
Chris@16 229 void operator()(Type& object, const Type& operand)const
Chris@16 230 {
Chris@16 231 if(object < operand)
Chris@16 232 object = operand;
Chris@16 233 }
Chris@16 234 };
Chris@16 235
Chris@16 236 template<>
Chris@16 237 inline std::string unary_template_to_string<inplace_max>::apply() { return "max="; }
Chris@16 238
Chris@16 239 // ------------------------------------------------------------------------
Chris@16 240 template <typename Type> struct inplace_min
Chris@16 241 : public identity_based_inplace_combine<Type>
Chris@16 242 {
Chris@16 243 typedef inplace_min<Type> type;
Chris@16 244
Chris@16 245 void operator()(Type& object, const Type& operand)const
Chris@16 246 {
Chris@16 247 if(object > operand)
Chris@16 248 object = operand;
Chris@16 249 }
Chris@16 250 };
Chris@16 251
Chris@16 252 template<>
Chris@16 253 inline std::string unary_template_to_string<inplace_min>::apply() { return "min="; }
Chris@16 254
Chris@16 255 //--------------------------------------------------------------------------
Chris@16 256 // Inter_section functor
Chris@16 257 //--------------------------------------------------------------------------
Chris@16 258 template<class Type> struct inter_section
Chris@16 259 : public identity_based_inplace_combine<Type>
Chris@16 260 {
Chris@16 261 typedef typename boost::mpl::
Chris@16 262 if_<has_set_semantics<Type>,
Chris@16 263 icl::inplace_et<Type>,
Chris@16 264 icl::inplace_plus<Type>
Chris@16 265 >::type
Chris@16 266 type;
Chris@16 267
Chris@16 268 void operator()(Type& object, const Type& operand)const
Chris@16 269 {
Chris@16 270 type()(object, operand);
Chris@16 271 }
Chris@16 272 };
Chris@16 273
Chris@16 274 //--------------------------------------------------------------------------
Chris@16 275 // Inverse functor
Chris@16 276 //--------------------------------------------------------------------------
Chris@16 277 template<class Functor> struct inverse;
Chris@16 278
Chris@16 279 template<class Type>
Chris@16 280 struct inverse<icl::inplace_plus<Type> >
Chris@16 281 { typedef icl::inplace_minus<Type> type; };
Chris@16 282
Chris@16 283 template<class Type>
Chris@16 284 struct inverse<icl::inplace_minus<Type> >
Chris@16 285 { typedef icl::inplace_plus<Type> type; };
Chris@16 286
Chris@16 287 template<class Type>
Chris@16 288 struct inverse<icl::inplace_bit_add<Type> >
Chris@16 289 { typedef icl::inplace_bit_subtract<Type> type; };
Chris@16 290
Chris@16 291 template<class Type>
Chris@16 292 struct inverse<icl::inplace_bit_subtract<Type> >
Chris@16 293 { typedef icl::inplace_bit_add<Type> type; };
Chris@16 294
Chris@16 295 template<class Type>
Chris@16 296 struct inverse<icl::inplace_et<Type> >
Chris@16 297 { typedef icl::inplace_caret<Type> type; };
Chris@16 298
Chris@16 299 template<class Type>
Chris@16 300 struct inverse<icl::inplace_caret<Type> >
Chris@16 301 { typedef icl::inplace_et<Type> type; };
Chris@16 302
Chris@16 303 template<class Type>
Chris@16 304 struct inverse<icl::inplace_bit_and<Type> >
Chris@16 305 { typedef icl::inplace_bit_xor<Type> type; };
Chris@16 306
Chris@16 307 template<class Type>
Chris@16 308 struct inverse<icl::inplace_bit_xor<Type> >
Chris@16 309 { typedef icl::inplace_bit_and<Type> type; };
Chris@16 310
Chris@16 311 template<class Type>
Chris@16 312 struct inverse<icl::inplace_star<Type> >
Chris@16 313 { typedef icl::inplace_slash<Type> type; };
Chris@16 314
Chris@16 315 template<class Type>
Chris@16 316 struct inverse<icl::inplace_slash<Type> >
Chris@16 317 { typedef icl::inplace_star<Type> type; };
Chris@16 318
Chris@16 319 template<class Type>
Chris@16 320 struct inverse<icl::inplace_max<Type> >
Chris@16 321 { typedef icl::inplace_min<Type> type; };
Chris@16 322
Chris@16 323 template<class Type>
Chris@16 324 struct inverse<icl::inplace_min<Type> >
Chris@16 325 { typedef icl::inplace_max<Type> type; };
Chris@16 326
Chris@16 327 template<class Type>
Chris@16 328 struct inverse<icl::inplace_identity<Type> >
Chris@16 329 { typedef icl::inplace_erasure<Type> type; };
Chris@16 330
Chris@16 331 // If a Functor
Chris@16 332 template<class Functor>
Chris@16 333 struct inverse
Chris@16 334 {
Chris@16 335 typedef typename
Chris@16 336 remove_reference<typename Functor::first_argument_type>::type argument_type;
Chris@16 337 typedef icl::inplace_erasure<argument_type> type;
Chris@16 338 };
Chris@16 339
Chris@16 340
Chris@16 341 //--------------------------------------------------------------------------
Chris@16 342 // Inverse inter_section functor
Chris@16 343 //--------------------------------------------------------------------------
Chris@16 344 template<class Type>
Chris@16 345 struct inverse<icl::inter_section<Type> >
Chris@16 346 : public identity_based_inplace_combine<Type>
Chris@16 347 {
Chris@16 348 typedef typename boost::mpl::
Chris@16 349 if_<has_set_semantics<Type>,
Chris@16 350 icl::inplace_caret<Type>,
Chris@16 351 icl::inplace_minus<Type>
Chris@16 352 >::type
Chris@16 353 type;
Chris@16 354
Chris@16 355 void operator()(Type& object, const Type& operand)const
Chris@16 356 {
Chris@16 357 type()(object, operand);
Chris@16 358 }
Chris@16 359 };
Chris@16 360
Chris@16 361
Chris@16 362 //--------------------------------------------------------------------------
Chris@16 363 // Positive or negative functor trait
Chris@16 364 //--------------------------------------------------------------------------
Chris@16 365
Chris@16 366 // A binary operation - is negative (or inverting) with respect to the
Chris@16 367 // neutral element iff it yields the inverse element if it is applied to the
Chris@16 368 // identity element:
Chris@16 369 // 0 - x = -x
Chris@16 370 // For a functor that wraps the inplace of op-assign version this is
Chris@16 371 // equivalent to
Chris@16 372 //
Chris@16 373 // T x = ..., y;
Chris@16 374 // y = Functor::identity_element();
Chris@16 375 // Functor()(y, x); // y == inverse_of(x)
Chris@16 376
Chris@16 377 template<class Functor> struct is_negative;
Chris@16 378
Chris@16 379 template<class Functor>
Chris@16 380 struct is_negative
Chris@16 381 {
Chris@16 382 typedef is_negative<Functor> type;
Chris@16 383 BOOST_STATIC_CONSTANT(bool, value = false);
Chris@16 384 };
Chris@16 385
Chris@16 386 template<class Type>
Chris@16 387 struct is_negative<icl::inplace_minus<Type> >
Chris@16 388 {
Chris@16 389 typedef is_negative type;
Chris@16 390 BOOST_STATIC_CONSTANT(bool, value = true);
Chris@16 391 };
Chris@16 392
Chris@16 393 template<class Type>
Chris@16 394 struct is_negative<icl::inplace_bit_subtract<Type> >
Chris@16 395 {
Chris@16 396 typedef is_negative type;
Chris@16 397 BOOST_STATIC_CONSTANT(bool, value = true);
Chris@16 398 };
Chris@16 399
Chris@16 400 //--------------------------------------------------------------------------
Chris@16 401 // Pro- or in-version functor
Chris@16 402 //--------------------------------------------------------------------------
Chris@16 403 template<class Combiner> struct conversion;
Chris@16 404
Chris@16 405 template<class Combiner>
Chris@16 406 struct conversion
Chris@16 407 {
Chris@16 408 typedef conversion<Combiner> type;
Chris@16 409 typedef typename
Chris@16 410 remove_const<
Chris@16 411 typename remove_reference<typename Combiner::first_argument_type
Chris@16 412 >::type
Chris@16 413 >::type
Chris@16 414 argument_type;
Chris@16 415 // The proversion of an op-assign functor o= lets the value unchanged
Chris@16 416 // (0 o= x) == x;
Chris@16 417 // Example += : (0 += x) == x
Chris@16 418 static argument_type proversion(const argument_type& value)
Chris@16 419 {
Chris@16 420 return value;
Chris@16 421 }
Chris@16 422
Chris@16 423 // The inversion of an op-assign functor o= inverts the value x
Chris@16 424 // to it's inverse element -x
Chris@16 425 // (0 o= x) == -x;
Chris@16 426 // Example -= : (0 -= x) == -x
Chris@16 427 static argument_type inversion(const argument_type& value)
Chris@16 428 {
Chris@16 429 argument_type inverse = Combiner::identity_element();
Chris@16 430 Combiner()(inverse, value);
Chris@16 431 return inverse;
Chris@16 432 }
Chris@16 433 };
Chris@16 434
Chris@16 435 template<class Combiner> struct version : public conversion<Combiner>
Chris@16 436 {
Chris@16 437 typedef version<Combiner> type;
Chris@16 438 typedef conversion<Combiner> base_type;
Chris@16 439 typedef typename base_type::argument_type argument_type;
Chris@16 440
Chris@16 441 argument_type operator()(const argument_type& value)
Chris@16 442 { return base_type::proversion(value); }
Chris@16 443 };
Chris@16 444
Chris@16 445 template<>struct version<icl::inplace_minus<short > >{short operator()(short val){return -val;}};
Chris@16 446 template<>struct version<icl::inplace_minus<int > >{int operator()(int val){return -val;}};
Chris@16 447 template<>struct version<icl::inplace_minus<long > >{long operator()(long val){return -val;}};
Chris@16 448 template<>struct version<icl::inplace_minus<long long > >{long long operator()(long long val){return -val;}};
Chris@16 449 template<>struct version<icl::inplace_minus<float > >{float operator()(float val){return -val;}};
Chris@16 450 template<>struct version<icl::inplace_minus<double > >{double operator()(double val){return -val;}};
Chris@16 451 template<>struct version<icl::inplace_minus<long double> >{long double operator()(long double val){return -val;}};
Chris@16 452
Chris@16 453 template<class Type>
Chris@16 454 struct version<icl::inplace_minus<Type> > : public conversion<icl::inplace_minus<Type> >
Chris@16 455 {
Chris@16 456 typedef version<icl::inplace_minus<Type> > type;
Chris@16 457 typedef conversion<icl::inplace_minus<Type> > base_type;
Chris@16 458 typedef typename base_type::argument_type argument_type;
Chris@16 459
Chris@16 460 Type operator()(const Type& value)
Chris@16 461 {
Chris@16 462 return base_type::inversion(value);
Chris@16 463 }
Chris@16 464 };
Chris@16 465
Chris@16 466 }} // namespace icl boost
Chris@16 467
Chris@16 468 #endif
Chris@16 469
Chris@16 470