GNU Radio 3.5.3.2 C++ API
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00001 /* -*- c++ -*- */ 00002 /* 00003 * Copyright 2006,2009,2010 Free Software Foundation, Inc. 00004 * 00005 * This file is part of GNU Radio 00006 * 00007 * GNU Radio is free software; you can redistribute it and/or modify 00008 * it under the terms of the GNU General Public License as published by 00009 * the Free Software Foundation; either version 3, or (at your option) 00010 * any later version. 00011 * 00012 * GNU Radio is distributed in the hope that it will be useful, 00013 * but WITHOUT ANY WARRANTY; without even the implied warranty of 00014 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 00015 * GNU General Public License for more details. 00016 * 00017 * You should have received a copy of the GNU General Public License 00018 * along with GNU Radio; see the file COPYING. If not, write to 00019 * the Free Software Foundation, Inc., 51 Franklin Street, 00020 * Boston, MA 02110-1301, USA. 00021 */ 00022 00023 #ifndef INCLUDED_PMT_H 00024 #define INCLUDED_PMT_H 00025 00026 #include <gruel/api.h> 00027 #include <boost/intrusive_ptr.hpp> 00028 #include <boost/shared_ptr.hpp> 00029 #include <boost/any.hpp> 00030 #include <complex> 00031 #include <string> 00032 #include <stdint.h> 00033 #include <iosfwd> 00034 #include <stdexcept> 00035 00036 namespace gruel { 00037 class msg_accepter; 00038 }; 00039 00040 /*! 00041 * This file defines a polymorphic type and the operations on it. 00042 * 00043 * It draws heavily on the idea of scheme and lisp data types. 00044 * The interface parallels that in Guile 1.8, with the notable 00045 * exception that these objects are transparently reference counted. 00046 */ 00047 00048 namespace pmt { 00049 00050 /*! 00051 * \brief base class of all pmt types 00052 */ 00053 class pmt_base; 00054 00055 /*! 00056 * \brief typedef for shared pointer (transparent reference counting). 00057 * See http://www.boost.org/libs/smart_ptr/smart_ptr.htm 00058 */ 00059 typedef boost::intrusive_ptr<pmt_base> pmt_t; 00060 00061 extern GRUEL_API void intrusive_ptr_add_ref(pmt_base*); 00062 extern GRUEL_API void intrusive_ptr_release(pmt_base*); 00063 00064 class GRUEL_API pmt_exception : public std::logic_error 00065 { 00066 public: 00067 pmt_exception(const std::string &msg, pmt_t obj); 00068 }; 00069 00070 class GRUEL_API pmt_wrong_type : public pmt_exception 00071 { 00072 public: 00073 pmt_wrong_type(const std::string &msg, pmt_t obj); 00074 }; 00075 00076 class GRUEL_API pmt_out_of_range : public pmt_exception 00077 { 00078 public: 00079 pmt_out_of_range(const std::string &msg, pmt_t obj); 00080 }; 00081 00082 class GRUEL_API pmt_notimplemented : public pmt_exception 00083 { 00084 public: 00085 pmt_notimplemented(const std::string &msg, pmt_t obj); 00086 }; 00087 00088 /* 00089 * ------------------------------------------------------------------------ 00090 * Booleans. Two constants, #t and #f. 00091 * 00092 * In predicates, anything that is not #f is considered true. 00093 * I.e., there is a single false value, #f. 00094 * ------------------------------------------------------------------------ 00095 */ 00096 extern GRUEL_API const pmt_t PMT_T; //< \#t : boolean true constant 00097 extern GRUEL_API const pmt_t PMT_F; //< \#f : boolean false constant 00098 00099 //! Return true if obj is \#t or \#f, else return false. 00100 GRUEL_API bool pmt_is_bool(pmt_t obj); 00101 00102 //! Return false if obj is \#f, else return true. 00103 GRUEL_API bool pmt_is_true(pmt_t obj); 00104 00105 //! Return true if obj is \#f, else return true. 00106 GRUEL_API bool pmt_is_false(pmt_t obj); 00107 00108 //! Return \#f is val is false, else return \#t. 00109 GRUEL_API pmt_t pmt_from_bool(bool val); 00110 00111 //! Return true if val is PMT_T, return false when val is PMT_F, 00112 // else raise wrong_type exception. 00113 GRUEL_API bool pmt_to_bool(pmt_t val); 00114 00115 /* 00116 * ------------------------------------------------------------------------ 00117 * Symbols 00118 * ------------------------------------------------------------------------ 00119 */ 00120 00121 //! Return true if obj is a symbol, else false. 00122 GRUEL_API bool pmt_is_symbol(const pmt_t& obj); 00123 00124 //! Return the symbol whose name is \p s. 00125 GRUEL_API pmt_t pmt_string_to_symbol(const std::string &s); 00126 00127 //! Alias for pmt_string_to_symbol 00128 GRUEL_API pmt_t pmt_intern(const std::string &s); 00129 00130 00131 /*! 00132 * If \p is a symbol, return the name of the symbol as a string. 00133 * Otherwise, raise the wrong_type exception. 00134 */ 00135 GRUEL_API const std::string pmt_symbol_to_string(const pmt_t& sym); 00136 00137 /* 00138 * ------------------------------------------------------------------------ 00139 * Numbers: we support integer, real and complex 00140 * ------------------------------------------------------------------------ 00141 */ 00142 00143 //! Return true if obj is any kind of number, else false. 00144 GRUEL_API bool pmt_is_number(pmt_t obj); 00145 00146 /* 00147 * ------------------------------------------------------------------------ 00148 * Integers 00149 * ------------------------------------------------------------------------ 00150 */ 00151 00152 //! Return true if \p x is an integer number, else false 00153 GRUEL_API bool pmt_is_integer(pmt_t x); 00154 00155 //! Return the pmt value that represents the integer \p x. 00156 GRUEL_API pmt_t pmt_from_long(long x); 00157 00158 /*! 00159 * \brief Convert pmt to long if possible. 00160 * 00161 * When \p x represents an exact integer that fits in a long, 00162 * return that integer. Else raise an exception, either wrong_type 00163 * when x is not an exact integer, or out_of_range when it doesn't fit. 00164 */ 00165 GRUEL_API long pmt_to_long(pmt_t x); 00166 00167 /* 00168 * ------------------------------------------------------------------------ 00169 * uint64_t 00170 * ------------------------------------------------------------------------ 00171 */ 00172 00173 //! Return true if \p x is an uint64 number, else false 00174 GRUEL_API bool pmt_is_uint64(pmt_t x); 00175 00176 //! Return the pmt value that represents the uint64 \p x. 00177 GRUEL_API pmt_t pmt_from_uint64(uint64_t x); 00178 00179 /*! 00180 * \brief Convert pmt to uint64 if possible. 00181 * 00182 * When \p x represents an exact integer that fits in a uint64, 00183 * return that uint64. Else raise an exception, either wrong_type 00184 * when x is not an exact uint64, or out_of_range when it doesn't fit. 00185 */ 00186 GRUEL_API uint64_t pmt_to_uint64(pmt_t x); 00187 00188 /* 00189 * ------------------------------------------------------------------------ 00190 * Reals 00191 * ------------------------------------------------------------------------ 00192 */ 00193 00194 /* 00195 * \brief Return true if \p obj is a real number, else false. 00196 */ 00197 GRUEL_API bool pmt_is_real(pmt_t obj); 00198 00199 //! Return the pmt value that represents double \p x. 00200 GRUEL_API pmt_t pmt_from_double(double x); 00201 00202 /*! 00203 * \brief Convert pmt to double if possible. 00204 * 00205 * Returns the number closest to \p val that is representable 00206 * as a double. The argument \p val must be a real or integer, otherwise 00207 * a wrong_type exception is raised. 00208 */ 00209 GRUEL_API double pmt_to_double(pmt_t x); 00210 00211 /* 00212 * ------------------------------------------------------------------------ 00213 * Complex 00214 * ------------------------------------------------------------------------ 00215 */ 00216 00217 /*! 00218 * \brief return true if \p obj is a complex number, false otherwise. 00219 */ 00220 GRUEL_API bool pmt_is_complex(pmt_t obj); 00221 00222 //! Return a complex number constructed of the given real and imaginary parts. 00223 GRUEL_API pmt_t pmt_make_rectangular(double re, double im); 00224 00225 /*! 00226 * If \p z is complex, real or integer, return the closest complex<double>. 00227 * Otherwise, raise the wrong_type exception. 00228 */ 00229 GRUEL_API std::complex<double> pmt_to_complex(pmt_t z); 00230 00231 /* 00232 * ------------------------------------------------------------------------ 00233 * Pairs 00234 * ------------------------------------------------------------------------ 00235 */ 00236 00237 extern GRUEL_API const pmt_t PMT_NIL; //< the empty list 00238 00239 //! Return true if \p x is the empty list, otherwise return false. 00240 GRUEL_API bool pmt_is_null(const pmt_t& x); 00241 00242 //! Return true if \p obj is a pair, else false. 00243 GRUEL_API bool pmt_is_pair(const pmt_t& obj); 00244 00245 //! Return a newly allocated pair whose car is \p x and whose cdr is \p y. 00246 GRUEL_API pmt_t pmt_cons(const pmt_t& x, const pmt_t& y); 00247 00248 //! If \p pair is a pair, return the car of the \p pair, otherwise raise wrong_type. 00249 GRUEL_API pmt_t pmt_car(const pmt_t& pair); 00250 00251 //! If \p pair is a pair, return the cdr of the \p pair, otherwise raise wrong_type. 00252 GRUEL_API pmt_t pmt_cdr(const pmt_t& pair); 00253 00254 //! Stores \p value in the car field of \p pair. 00255 GRUEL_API void pmt_set_car(pmt_t pair, pmt_t value); 00256 00257 //! Stores \p value in the cdr field of \p pair. 00258 GRUEL_API void pmt_set_cdr(pmt_t pair, pmt_t value); 00259 00260 GRUEL_API pmt_t pmt_caar(pmt_t pair); 00261 GRUEL_API pmt_t pmt_cadr(pmt_t pair); 00262 GRUEL_API pmt_t pmt_cdar(pmt_t pair); 00263 GRUEL_API pmt_t pmt_cddr(pmt_t pair); 00264 GRUEL_API pmt_t pmt_caddr(pmt_t pair); 00265 GRUEL_API pmt_t pmt_cadddr(pmt_t pair); 00266 00267 /* 00268 * ------------------------------------------------------------------------ 00269 * Tuples 00270 * 00271 * Store a fixed number of objects. Tuples are not modifiable, and thus 00272 * are excellent for use as messages. Indexing is zero based. 00273 * Access time to an element is O(1). 00274 * ------------------------------------------------------------------------ 00275 */ 00276 00277 //! Return true if \p x is a tuple, othewise false. 00278 GRUEL_API bool pmt_is_tuple(pmt_t x); 00279 00280 GRUEL_API pmt_t pmt_make_tuple(); 00281 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0); 00282 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0, const pmt_t &e1); 00283 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0, const pmt_t &e1, const pmt_t &e2); 00284 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0, const pmt_t &e1, const pmt_t &e2, const pmt_t &e3); 00285 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0, const pmt_t &e1, const pmt_t &e2, const pmt_t &e3, const pmt_t &e4); 00286 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0, const pmt_t &e1, const pmt_t &e2, const pmt_t &e3, const pmt_t &e4, const pmt_t &e5); 00287 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0, const pmt_t &e1, const pmt_t &e2, const pmt_t &e3, const pmt_t &e4, const pmt_t &e5, const pmt_t &e6); 00288 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0, const pmt_t &e1, const pmt_t &e2, const pmt_t &e3, const pmt_t &e4, const pmt_t &e5, const pmt_t &e6, const pmt_t &e7); 00289 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0, const pmt_t &e1, const pmt_t &e2, const pmt_t &e3, const pmt_t &e4, const pmt_t &e5, const pmt_t &e6, const pmt_t &e7, const pmt_t &e8); 00290 GRUEL_API pmt_t pmt_make_tuple(const pmt_t &e0, const pmt_t &e1, const pmt_t &e2, const pmt_t &e3, const pmt_t &e4, const pmt_t &e5, const pmt_t &e6, const pmt_t &e7, const pmt_t &e8, const pmt_t &e9); 00291 00292 /*! 00293 * If \p x is a vector or proper list, return a tuple containing the elements of x 00294 */ 00295 GRUEL_API pmt_t pmt_to_tuple(const pmt_t &x); 00296 00297 /*! 00298 * Return the contents of position \p k of \p tuple. 00299 * \p k must be a valid index of \p tuple. 00300 */ 00301 GRUEL_API pmt_t pmt_tuple_ref(const pmt_t &tuple, size_t k); 00302 00303 /* 00304 * ------------------------------------------------------------------------ 00305 * Vectors 00306 * 00307 * These vectors can hold any kind of objects. Indexing is zero based. 00308 * ------------------------------------------------------------------------ 00309 */ 00310 00311 //! Return true if \p x is a vector, othewise false. 00312 GRUEL_API bool pmt_is_vector(pmt_t x); 00313 00314 //! Make a vector of length \p k, with initial values set to \p fill 00315 GRUEL_API pmt_t pmt_make_vector(size_t k, pmt_t fill); 00316 00317 /*! 00318 * Return the contents of position \p k of \p vector. 00319 * \p k must be a valid index of \p vector. 00320 */ 00321 GRUEL_API pmt_t pmt_vector_ref(pmt_t vector, size_t k); 00322 00323 //! Store \p obj in position \p k. 00324 GRUEL_API void pmt_vector_set(pmt_t vector, size_t k, pmt_t obj); 00325 00326 //! Store \p fill in every position of \p vector 00327 GRUEL_API void pmt_vector_fill(pmt_t vector, pmt_t fill); 00328 00329 /* 00330 * ------------------------------------------------------------------------ 00331 * Binary Large Objects (BLOBs) 00332 * 00333 * Handy for passing around uninterpreted chunks of memory. 00334 * ------------------------------------------------------------------------ 00335 */ 00336 00337 //! Return true if \p x is a blob, othewise false. 00338 GRUEL_API bool pmt_is_blob(pmt_t x); 00339 00340 /*! 00341 * \brief Make a blob given a pointer and length in bytes 00342 * 00343 * \param buf is the pointer to data to use to create blob 00344 * \param len is the size of the data in bytes. 00345 * 00346 * The data is copied into the blob. 00347 */ 00348 GRUEL_API pmt_t pmt_make_blob(const void *buf, size_t len); 00349 00350 //! Return a pointer to the blob's data 00351 GRUEL_API const void *pmt_blob_data(pmt_t blob); 00352 00353 //! Return the blob's length in bytes 00354 GRUEL_API size_t pmt_blob_length(pmt_t blob); 00355 00356 /*! 00357 * <pre> 00358 * ------------------------------------------------------------------------ 00359 * Uniform Numeric Vectors 00360 * 00361 * A uniform numeric vector is a vector whose elements are all of single 00362 * numeric type. pmt offers uniform numeric vectors for signed and 00363 * unsigned 8-bit, 16-bit, 32-bit, and 64-bit integers, two sizes of 00364 * floating point values, and complex floating-point numbers of these 00365 * two sizes. Indexing is zero based. 00366 * 00367 * The names of the functions include these tags in their names: 00368 * 00369 * u8 unsigned 8-bit integers 00370 * s8 signed 8-bit integers 00371 * u16 unsigned 16-bit integers 00372 * s16 signed 16-bit integers 00373 * u32 unsigned 32-bit integers 00374 * s32 signed 32-bit integers 00375 * u64 unsigned 64-bit integers 00376 * s64 signed 64-bit integers 00377 * f32 the C++ type float 00378 * f64 the C++ type double 00379 * c32 the C++ type complex<float> 00380 * c64 the C++ type complex<double> 00381 * ------------------------------------------------------------------------ 00382 * </pre> 00383 */ 00384 00385 //! true if \p x is any kind of uniform numeric vector 00386 GRUEL_API bool pmt_is_uniform_vector(pmt_t x); 00387 00388 GRUEL_API bool pmt_is_u8vector(pmt_t x); 00389 GRUEL_API bool pmt_is_s8vector(pmt_t x); 00390 GRUEL_API bool pmt_is_u16vector(pmt_t x); 00391 GRUEL_API bool pmt_is_s16vector(pmt_t x); 00392 GRUEL_API bool pmt_is_u32vector(pmt_t x); 00393 GRUEL_API bool pmt_is_s32vector(pmt_t x); 00394 GRUEL_API bool pmt_is_u64vector(pmt_t x); 00395 GRUEL_API bool pmt_is_s64vector(pmt_t x); 00396 GRUEL_API bool pmt_is_f32vector(pmt_t x); 00397 GRUEL_API bool pmt_is_f64vector(pmt_t x); 00398 GRUEL_API bool pmt_is_c32vector(pmt_t x); 00399 GRUEL_API bool pmt_is_c64vector(pmt_t x); 00400 00401 GRUEL_API pmt_t pmt_make_u8vector(size_t k, uint8_t fill); 00402 GRUEL_API pmt_t pmt_make_s8vector(size_t k, int8_t fill); 00403 GRUEL_API pmt_t pmt_make_u16vector(size_t k, uint16_t fill); 00404 GRUEL_API pmt_t pmt_make_s16vector(size_t k, int16_t fill); 00405 GRUEL_API pmt_t pmt_make_u32vector(size_t k, uint32_t fill); 00406 GRUEL_API pmt_t pmt_make_s32vector(size_t k, int32_t fill); 00407 GRUEL_API pmt_t pmt_make_u64vector(size_t k, uint64_t fill); 00408 GRUEL_API pmt_t pmt_make_s64vector(size_t k, int64_t fill); 00409 GRUEL_API pmt_t pmt_make_f32vector(size_t k, float fill); 00410 GRUEL_API pmt_t pmt_make_f64vector(size_t k, double fill); 00411 GRUEL_API pmt_t pmt_make_c32vector(size_t k, std::complex<float> fill); 00412 GRUEL_API pmt_t pmt_make_c64vector(size_t k, std::complex<double> fill); 00413 00414 GRUEL_API pmt_t pmt_init_u8vector(size_t k, const uint8_t *data); 00415 GRUEL_API pmt_t pmt_init_s8vector(size_t k, const int8_t *data); 00416 GRUEL_API pmt_t pmt_init_u16vector(size_t k, const uint16_t *data); 00417 GRUEL_API pmt_t pmt_init_s16vector(size_t k, const int16_t *data); 00418 GRUEL_API pmt_t pmt_init_u32vector(size_t k, const uint32_t *data); 00419 GRUEL_API pmt_t pmt_init_s32vector(size_t k, const int32_t *data); 00420 GRUEL_API pmt_t pmt_init_u64vector(size_t k, const uint64_t *data); 00421 GRUEL_API pmt_t pmt_init_s64vector(size_t k, const int64_t *data); 00422 GRUEL_API pmt_t pmt_init_f32vector(size_t k, const float *data); 00423 GRUEL_API pmt_t pmt_init_f64vector(size_t k, const double *data); 00424 GRUEL_API pmt_t pmt_init_c32vector(size_t k, const std::complex<float> *data); 00425 GRUEL_API pmt_t pmt_init_c64vector(size_t k, const std::complex<double> *data); 00426 00427 GRUEL_API uint8_t pmt_u8vector_ref(pmt_t v, size_t k); 00428 GRUEL_API int8_t pmt_s8vector_ref(pmt_t v, size_t k); 00429 GRUEL_API uint16_t pmt_u16vector_ref(pmt_t v, size_t k); 00430 GRUEL_API int16_t pmt_s16vector_ref(pmt_t v, size_t k); 00431 GRUEL_API uint32_t pmt_u32vector_ref(pmt_t v, size_t k); 00432 GRUEL_API int32_t pmt_s32vector_ref(pmt_t v, size_t k); 00433 GRUEL_API uint64_t pmt_u64vector_ref(pmt_t v, size_t k); 00434 GRUEL_API int64_t pmt_s64vector_ref(pmt_t v, size_t k); 00435 GRUEL_API float pmt_f32vector_ref(pmt_t v, size_t k); 00436 GRUEL_API double pmt_f64vector_ref(pmt_t v, size_t k); 00437 GRUEL_API std::complex<float> pmt_c32vector_ref(pmt_t v, size_t k); 00438 GRUEL_API std::complex<double> pmt_c64vector_ref(pmt_t v, size_t k); 00439 00440 GRUEL_API void pmt_u8vector_set(pmt_t v, size_t k, uint8_t x); //< v[k] = x 00441 GRUEL_API void pmt_s8vector_set(pmt_t v, size_t k, int8_t x); 00442 GRUEL_API void pmt_u16vector_set(pmt_t v, size_t k, uint16_t x); 00443 GRUEL_API void pmt_s16vector_set(pmt_t v, size_t k, int16_t x); 00444 GRUEL_API void pmt_u32vector_set(pmt_t v, size_t k, uint32_t x); 00445 GRUEL_API void pmt_s32vector_set(pmt_t v, size_t k, int32_t x); 00446 GRUEL_API void pmt_u64vector_set(pmt_t v, size_t k, uint64_t x); 00447 GRUEL_API void pmt_s64vector_set(pmt_t v, size_t k, int64_t x); 00448 GRUEL_API void pmt_f32vector_set(pmt_t v, size_t k, float x); 00449 GRUEL_API void pmt_f64vector_set(pmt_t v, size_t k, double x); 00450 GRUEL_API void pmt_c32vector_set(pmt_t v, size_t k, std::complex<float> x); 00451 GRUEL_API void pmt_c64vector_set(pmt_t v, size_t k, std::complex<double> x); 00452 00453 // Return const pointers to the elements 00454 00455 GRUEL_API const void *pmt_uniform_vector_elements(pmt_t v, size_t &len); //< works with any; len is in bytes 00456 00457 GRUEL_API const uint8_t *pmt_u8vector_elements(pmt_t v, size_t &len); //< len is in elements 00458 GRUEL_API const int8_t *pmt_s8vector_elements(pmt_t v, size_t &len); //< len is in elements 00459 GRUEL_API const uint16_t *pmt_u16vector_elements(pmt_t v, size_t &len); //< len is in elements 00460 GRUEL_API const int16_t *pmt_s16vector_elements(pmt_t v, size_t &len); //< len is in elements 00461 GRUEL_API const uint32_t *pmt_u32vector_elements(pmt_t v, size_t &len); //< len is in elements 00462 GRUEL_API const int32_t *pmt_s32vector_elements(pmt_t v, size_t &len); //< len is in elements 00463 GRUEL_API const uint64_t *pmt_u64vector_elements(pmt_t v, size_t &len); //< len is in elements 00464 GRUEL_API const int64_t *pmt_s64vector_elements(pmt_t v, size_t &len); //< len is in elements 00465 GRUEL_API const float *pmt_f32vector_elements(pmt_t v, size_t &len); //< len is in elements 00466 GRUEL_API const double *pmt_f64vector_elements(pmt_t v, size_t &len); //< len is in elements 00467 GRUEL_API const std::complex<float> *pmt_c32vector_elements(pmt_t v, size_t &len); //< len is in elements 00468 GRUEL_API const std::complex<double> *pmt_c64vector_elements(pmt_t v, size_t &len); //< len is in elements 00469 00470 // Return non-const pointers to the elements 00471 00472 GRUEL_API void *pmt_uniform_vector_writable_elements(pmt_t v, size_t &len); //< works with any; len is in bytes 00473 00474 GRUEL_API uint8_t *pmt_u8vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00475 GRUEL_API int8_t *pmt_s8vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00476 GRUEL_API uint16_t *pmt_u16vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00477 GRUEL_API int16_t *pmt_s16vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00478 GRUEL_API uint32_t *pmt_u32vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00479 GRUEL_API int32_t *pmt_s32vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00480 GRUEL_API uint64_t *pmt_u64vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00481 GRUEL_API int64_t *pmt_s64vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00482 GRUEL_API float *pmt_f32vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00483 GRUEL_API double *pmt_f64vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00484 GRUEL_API std::complex<float> *pmt_c32vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00485 GRUEL_API std::complex<double> *pmt_c64vector_writable_elements(pmt_t v, size_t &len); //< len is in elements 00486 00487 /* 00488 * ------------------------------------------------------------------------ 00489 * Dictionary (a.k.a associative array, hash, map) 00490 * 00491 * This is a functional data structure that is persistent. Updating a 00492 * functional data structure does not destroy the existing version, but 00493 * rather creates a new version that coexists with the old. 00494 * ------------------------------------------------------------------------ 00495 */ 00496 00497 //! Return true if \p obj is a dictionary 00498 GRUEL_API bool pmt_is_dict(const pmt_t &obj); 00499 00500 //! Make an empty dictionary 00501 GRUEL_API pmt_t pmt_make_dict(); 00502 00503 //! Return a new dictionary with \p key associated with \p value. 00504 GRUEL_API pmt_t pmt_dict_add(const pmt_t &dict, const pmt_t &key, const pmt_t &value); 00505 00506 //! Return a new dictionary with \p key removed. 00507 GRUEL_API pmt_t pmt_dict_delete(const pmt_t &dict, const pmt_t &key); 00508 00509 //! Return true if \p key exists in \p dict 00510 GRUEL_API bool pmt_dict_has_key(const pmt_t &dict, const pmt_t &key); 00511 00512 //! If \p key exists in \p dict, return associated value; otherwise return \p not_found. 00513 GRUEL_API pmt_t pmt_dict_ref(const pmt_t &dict, const pmt_t &key, const pmt_t ¬_found); 00514 00515 //! Return list of (key . value) pairs 00516 GRUEL_API pmt_t pmt_dict_items(pmt_t dict); 00517 00518 //! Return list of keys 00519 GRUEL_API pmt_t pmt_dict_keys(pmt_t dict); 00520 00521 //! Return list of values 00522 GRUEL_API pmt_t pmt_dict_values(pmt_t dict); 00523 00524 /* 00525 * ------------------------------------------------------------------------ 00526 * Any (wraps boost::any -- can be used to wrap pretty much anything) 00527 * 00528 * Cannot be serialized or used across process boundaries. 00529 * See http://www.boost.org/doc/html/any.html 00530 * ------------------------------------------------------------------------ 00531 */ 00532 00533 //! Return true if \p obj is an any 00534 GRUEL_API bool pmt_is_any(pmt_t obj); 00535 00536 //! make an any 00537 GRUEL_API pmt_t pmt_make_any(const boost::any &any); 00538 00539 //! Return underlying boost::any 00540 GRUEL_API boost::any pmt_any_ref(pmt_t obj); 00541 00542 //! Store \p any in \p obj 00543 GRUEL_API void pmt_any_set(pmt_t obj, const boost::any &any); 00544 00545 00546 /* 00547 * ------------------------------------------------------------------------ 00548 * msg_accepter -- pmt representation of gruel::msg_accepter 00549 * ------------------------------------------------------------------------ 00550 */ 00551 //! Return true if \p obj is a msg_accepter 00552 GRUEL_API bool pmt_is_msg_accepter(const pmt_t &obj); 00553 00554 //! make a msg_accepter 00555 GRUEL_API pmt_t pmt_make_msg_accepter(boost::shared_ptr<gruel::msg_accepter> ma); 00556 00557 //! Return underlying msg_accepter 00558 GRUEL_API boost::shared_ptr<gruel::msg_accepter> pmt_msg_accepter_ref(const pmt_t &obj); 00559 00560 /* 00561 * ------------------------------------------------------------------------ 00562 * General functions 00563 * ------------------------------------------------------------------------ 00564 */ 00565 00566 //! Return true if x and y are the same object; otherwise return false. 00567 GRUEL_API bool pmt_eq(const pmt_t& x, const pmt_t& y); 00568 00569 /*! 00570 * \brief Return true if x and y should normally be regarded as the same object, else false. 00571 * 00572 * <pre> 00573 * eqv returns true if: 00574 * x and y are the same object. 00575 * x and y are both \#t or both \#f. 00576 * x and y are both symbols and their names are the same. 00577 * x and y are both numbers, and are numerically equal. 00578 * x and y are both the empty list (nil). 00579 * x and y are pairs or vectors that denote same location in store. 00580 * </pre> 00581 */ 00582 GRUEL_API bool pmt_eqv(const pmt_t& x, const pmt_t& y); 00583 00584 /*! 00585 * pmt_equal recursively compares the contents of pairs and vectors, 00586 * applying pmt_eqv on other objects such as numbers and symbols. 00587 * pmt_equal may fail to terminate if its arguments are circular data 00588 * structures. 00589 */ 00590 GRUEL_API bool pmt_equal(const pmt_t& x, const pmt_t& y); 00591 00592 00593 //! Return the number of elements in v 00594 GRUEL_API size_t pmt_length(const pmt_t& v); 00595 00596 /*! 00597 * \brief Find the first pair in \p alist whose car field is \p obj 00598 * and return that pair. 00599 * 00600 * \p alist (for "association list") must be a list of pairs. If no pair 00601 * in \p alist has \p obj as its car then \#f is returned. 00602 * Uses pmt_eq to compare \p obj with car fields of the pairs in \p alist. 00603 */ 00604 GRUEL_API pmt_t pmt_assq(pmt_t obj, pmt_t alist); 00605 00606 /*! 00607 * \brief Find the first pair in \p alist whose car field is \p obj 00608 * and return that pair. 00609 * 00610 * \p alist (for "association list") must be a list of pairs. If no pair 00611 * in \p alist has \p obj as its car then \#f is returned. 00612 * Uses pmt_eqv to compare \p obj with car fields of the pairs in \p alist. 00613 */ 00614 GRUEL_API pmt_t pmt_assv(pmt_t obj, pmt_t alist); 00615 00616 /*! 00617 * \brief Find the first pair in \p alist whose car field is \p obj 00618 * and return that pair. 00619 * 00620 * \p alist (for "association list") must be a list of pairs. If no pair 00621 * in \p alist has \p obj as its car then \#f is returned. 00622 * Uses pmt_equal to compare \p obj with car fields of the pairs in \p alist. 00623 */ 00624 GRUEL_API pmt_t pmt_assoc(pmt_t obj, pmt_t alist); 00625 00626 /*! 00627 * \brief Apply \p proc element-wise to the elements of list and returns 00628 * a list of the results, in order. 00629 * 00630 * \p list must be a list. The dynamic order in which \p proc is 00631 * applied to the elements of \p list is unspecified. 00632 */ 00633 GRUEL_API pmt_t pmt_map(pmt_t proc(const pmt_t&), pmt_t list); 00634 00635 /*! 00636 * \brief reverse \p list. 00637 * 00638 * \p list must be a proper list. 00639 */ 00640 GRUEL_API pmt_t pmt_reverse(pmt_t list); 00641 00642 /*! 00643 * \brief destructively reverse \p list. 00644 * 00645 * \p list must be a proper list. 00646 */ 00647 GRUEL_API pmt_t pmt_reverse_x(pmt_t list); 00648 00649 /*! 00650 * \brief (acons x y a) == (cons (cons x y) a) 00651 */ 00652 inline static pmt_t 00653 pmt_acons(pmt_t x, pmt_t y, pmt_t a) 00654 { 00655 return pmt_cons(pmt_cons(x, y), a); 00656 } 00657 00658 /*! 00659 * \brief locates \p nth element of \n list where the car is the 'zeroth' element. 00660 */ 00661 GRUEL_API pmt_t pmt_nth(size_t n, pmt_t list); 00662 00663 /*! 00664 * \brief returns the tail of \p list that would be obtained by calling 00665 * cdr \p n times in succession. 00666 */ 00667 GRUEL_API pmt_t pmt_nthcdr(size_t n, pmt_t list); 00668 00669 /*! 00670 * \brief Return the first sublist of \p list whose car is \p obj. 00671 * If \p obj does not occur in \p list, then \#f is returned. 00672 * pmt_memq use pmt_eq to compare \p obj with the elements of \p list. 00673 */ 00674 GRUEL_API pmt_t pmt_memq(pmt_t obj, pmt_t list); 00675 00676 /*! 00677 * \brief Return the first sublist of \p list whose car is \p obj. 00678 * If \p obj does not occur in \p list, then \#f is returned. 00679 * pmt_memv use pmt_eqv to compare \p obj with the elements of \p list. 00680 */ 00681 GRUEL_API pmt_t pmt_memv(pmt_t obj, pmt_t list); 00682 00683 /*! 00684 * \brief Return the first sublist of \p list whose car is \p obj. 00685 * If \p obj does not occur in \p list, then \#f is returned. 00686 * pmt_member use pmt_equal to compare \p obj with the elements of \p list. 00687 */ 00688 GRUEL_API pmt_t pmt_member(pmt_t obj, pmt_t list); 00689 00690 /*! 00691 * \brief Return true if every element of \p list1 appears in \p list2, and false otherwise. 00692 * Comparisons are done with pmt_eqv. 00693 */ 00694 GRUEL_API bool pmt_subsetp(pmt_t list1, pmt_t list2); 00695 00696 /*! 00697 * \brief Return a list of length 1 containing \p x1 00698 */ 00699 GRUEL_API pmt_t pmt_list1(const pmt_t& x1); 00700 00701 /*! 00702 * \brief Return a list of length 2 containing \p x1, \p x2 00703 */ 00704 GRUEL_API pmt_t pmt_list2(const pmt_t& x1, const pmt_t& x2); 00705 00706 /*! 00707 * \brief Return a list of length 3 containing \p x1, \p x2, \p x3 00708 */ 00709 GRUEL_API pmt_t pmt_list3(const pmt_t& x1, const pmt_t& x2, const pmt_t& x3); 00710 00711 /*! 00712 * \brief Return a list of length 4 containing \p x1, \p x2, \p x3, \p x4 00713 */ 00714 GRUEL_API pmt_t pmt_list4(const pmt_t& x1, const pmt_t& x2, const pmt_t& x3, const pmt_t& x4); 00715 00716 /*! 00717 * \brief Return a list of length 5 containing \p x1, \p x2, \p x3, \p x4, \p x5 00718 */ 00719 GRUEL_API pmt_t pmt_list5(const pmt_t& x1, const pmt_t& x2, const pmt_t& x3, const pmt_t& x4, const pmt_t& x5); 00720 00721 /*! 00722 * \brief Return a list of length 6 containing \p x1, \p x2, \p x3, \p x4, \p 00723 * x5, \p x6 00724 */ 00725 GRUEL_API pmt_t pmt_list6(const pmt_t& x1, const pmt_t& x2, const pmt_t& x3, const pmt_t& x4, const pmt_t& x5, const pmt_t& x6); 00726 00727 /*! 00728 * \brief Return \p list with \p item added to it. 00729 */ 00730 GRUEL_API pmt_t pmt_list_add(pmt_t list, const pmt_t& item); 00731 00732 00733 /* 00734 * ------------------------------------------------------------------------ 00735 * read / write 00736 * ------------------------------------------------------------------------ 00737 */ 00738 extern GRUEL_API const pmt_t PMT_EOF; //< The end of file object 00739 00740 //! return true if obj is the EOF object, otherwise return false. 00741 GRUEL_API bool pmt_is_eof_object(pmt_t obj); 00742 00743 /*! 00744 * read converts external representations of pmt objects into the 00745 * objects themselves. Read returns the next object parsable from 00746 * the given input port, updating port to point to the first 00747 * character past the end of the external representation of the 00748 * object. 00749 * 00750 * If an end of file is encountered in the input before any 00751 * characters are found that can begin an object, then an end of file 00752 * object is returned. The port remains open, and further attempts 00753 * to read will also return an end of file object. If an end of file 00754 * is encountered after the beginning of an object's external 00755 * representation, but the external representation is incomplete and 00756 * therefore not parsable, an error is signaled. 00757 */ 00758 GRUEL_API pmt_t pmt_read(std::istream &port); 00759 00760 /*! 00761 * Write a written representation of \p obj to the given \p port. 00762 */ 00763 GRUEL_API void pmt_write(pmt_t obj, std::ostream &port); 00764 00765 /*! 00766 * Return a string representation of \p obj. 00767 * This is the same output as would be generated by pmt_write. 00768 */ 00769 GRUEL_API std::string pmt_write_string(pmt_t obj); 00770 00771 00772 GRUEL_API std::ostream& operator<<(std::ostream &os, pmt_t obj); 00773 00774 /*! 00775 * \brief Write pmt string representation to stdout. 00776 */ 00777 GRUEL_API void pmt_print(pmt_t v); 00778 00779 00780 /* 00781 * ------------------------------------------------------------------------ 00782 * portable byte stream representation 00783 * ------------------------------------------------------------------------ 00784 */ 00785 /*! 00786 * \brief Write portable byte-serial representation of \p obj to \p sink 00787 */ 00788 GRUEL_API bool pmt_serialize(pmt_t obj, std::streambuf &sink); 00789 00790 /*! 00791 * \brief Create obj from portable byte-serial representation 00792 */ 00793 GRUEL_API pmt_t pmt_deserialize(std::streambuf &source); 00794 00795 00796 GRUEL_API void pmt_dump_sizeof(); // debugging 00797 00798 /*! 00799 * \brief Provide a simple string generating interface to pmt's serialize function 00800 */ 00801 GRUEL_API std::string pmt_serialize_str(pmt_t obj); 00802 00803 /*! 00804 * \brief Provide a simple string generating interface to pmt's deserialize function 00805 */ 00806 GRUEL_API pmt_t pmt_deserialize_str(std::string str); 00807 00808 } /* namespace pmt */ 00809 00810 #include <gruel/pmt_sugar.h> 00811 00812 #endif /* INCLUDED_PMT_H */