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 #ifndef INCLUDED_PMT_INT_H 00023 #define INCLUDED_PMT_INT_H 00024 00025 #include <gruel/pmt.h> 00026 #include <boost/utility.hpp> 00027 #include <boost/detail/atomic_count.hpp> 00028 00029 /* 00030 * EVERYTHING IN THIS FILE IS PRIVATE TO THE IMPLEMENTATION! 00031 * 00032 * See pmt.h for the public interface 00033 */ 00034 00035 #define PMT_LOCAL_ALLOCATOR 0 // define to 0 or 1 00036 namespace pmt { 00037 00038 class GRUEL_API pmt_base : boost::noncopyable { 00039 mutable boost::detail::atomic_count count_; 00040 00041 protected: 00042 pmt_base() : count_(0) {}; 00043 virtual ~pmt_base(); 00044 00045 public: 00046 virtual bool is_bool() const { return false; } 00047 virtual bool is_symbol() const { return false; } 00048 virtual bool is_number() const { return false; } 00049 virtual bool is_integer() const { return false; } 00050 virtual bool is_uint64() const { return false; } 00051 virtual bool is_real() const { return false; } 00052 virtual bool is_complex() const { return false; } 00053 virtual bool is_null() const { return false; } 00054 virtual bool is_pair() const { return false; } 00055 virtual bool is_tuple() const { return false; } 00056 virtual bool is_vector() const { return false; } 00057 virtual bool is_dict() const { return false; } 00058 virtual bool is_any() const { return false; } 00059 00060 virtual bool is_uniform_vector() const { return false; } 00061 virtual bool is_u8vector() const { return false; } 00062 virtual bool is_s8vector() const { return false; } 00063 virtual bool is_u16vector() const { return false; } 00064 virtual bool is_s16vector() const { return false; } 00065 virtual bool is_u32vector() const { return false; } 00066 virtual bool is_s32vector() const { return false; } 00067 virtual bool is_u64vector() const { return false; } 00068 virtual bool is_s64vector() const { return false; } 00069 virtual bool is_f32vector() const { return false; } 00070 virtual bool is_f64vector() const { return false; } 00071 virtual bool is_c32vector() const { return false; } 00072 virtual bool is_c64vector() const { return false; } 00073 00074 friend void intrusive_ptr_add_ref(pmt_base* p); 00075 friend void intrusive_ptr_release(pmt_base* p); 00076 00077 # if (PMT_LOCAL_ALLOCATOR) 00078 void *operator new(size_t); 00079 void operator delete(void *, size_t); 00080 #endif 00081 }; 00082 00083 class pmt_bool : public pmt_base 00084 { 00085 public: 00086 pmt_bool(); 00087 //~pmt_bool(){} 00088 00089 bool is_bool() const { return true; } 00090 }; 00091 00092 00093 class pmt_symbol : public pmt_base 00094 { 00095 std::string d_name; 00096 pmt_t d_next; 00097 00098 public: 00099 pmt_symbol(const std::string &name); 00100 //~pmt_symbol(){} 00101 00102 bool is_symbol() const { return true; } 00103 const std::string name() { return d_name; } 00104 00105 pmt_t next() { return d_next; } // symbol table link 00106 void set_next(pmt_t next) { d_next = next; } 00107 }; 00108 00109 class pmt_integer : public pmt_base 00110 { 00111 public: 00112 long d_value; 00113 00114 pmt_integer(long value); 00115 //~pmt_integer(){} 00116 00117 bool is_number() const { return true; } 00118 bool is_integer() const { return true; } 00119 long value() const { return d_value; } 00120 }; 00121 00122 class pmt_uint64 : public pmt_base 00123 { 00124 public: 00125 uint64_t d_value; 00126 00127 pmt_uint64(uint64_t value); 00128 //~pmt_uint64(){} 00129 00130 bool is_number() const { return true; } 00131 bool is_uint64() const { return true; } 00132 uint64_t value() const { return d_value; } 00133 }; 00134 00135 class pmt_real : public pmt_base 00136 { 00137 public: 00138 double d_value; 00139 00140 pmt_real(double value); 00141 //~pmt_real(){} 00142 00143 bool is_number() const { return true; } 00144 bool is_real() const { return true; } 00145 double value() const { return d_value; } 00146 }; 00147 00148 class pmt_complex : public pmt_base 00149 { 00150 public: 00151 std::complex<double> d_value; 00152 00153 pmt_complex(std::complex<double> value); 00154 //~pmt_complex(){} 00155 00156 bool is_number() const { return true; } 00157 bool is_complex() const { return true; } 00158 std::complex<double> value() const { return d_value; } 00159 }; 00160 00161 class pmt_null : public pmt_base 00162 { 00163 public: 00164 pmt_null(); 00165 //~pmt_null(){} 00166 00167 bool is_null() const { return true; } 00168 }; 00169 00170 class pmt_pair : public pmt_base 00171 { 00172 public: 00173 pmt_t d_car; 00174 pmt_t d_cdr; 00175 00176 pmt_pair(const pmt_t& car, const pmt_t& cdr); 00177 //~pmt_pair(){}; 00178 00179 bool is_pair() const { return true; } 00180 pmt_t car() const { return d_car; } 00181 pmt_t cdr() const { return d_cdr; } 00182 00183 void set_car(pmt_t car) { d_car = car; } 00184 void set_cdr(pmt_t cdr) { d_cdr = cdr; } 00185 }; 00186 00187 class pmt_vector : public pmt_base 00188 { 00189 std::vector<pmt_t> d_v; 00190 00191 public: 00192 pmt_vector(size_t len, pmt_t fill); 00193 //~pmt_vector(); 00194 00195 bool is_vector() const { return true; } 00196 pmt_t ref(size_t k) const; 00197 void set(size_t k, pmt_t obj); 00198 void fill(pmt_t fill); 00199 size_t length() const { return d_v.size(); } 00200 00201 pmt_t _ref(size_t k) const { return d_v[k]; } 00202 }; 00203 00204 class pmt_tuple : public pmt_base 00205 { 00206 std::vector<pmt_t> d_v; 00207 00208 public: 00209 pmt_tuple(size_t len); 00210 //~pmt_tuple(); 00211 00212 bool is_tuple() const { return true; } 00213 pmt_t ref(size_t k) const; 00214 size_t length() const { return d_v.size(); } 00215 00216 pmt_t _ref(size_t k) const { return d_v[k]; } 00217 void _set(size_t k, pmt_t v) { d_v[k] = v; } 00218 }; 00219 00220 class pmt_any : public pmt_base 00221 { 00222 boost::any d_any; 00223 00224 public: 00225 pmt_any(const boost::any &any); 00226 //~pmt_any(); 00227 00228 bool is_any() const { return true; } 00229 const boost::any &ref() const { return d_any; } 00230 void set(const boost::any &any) { d_any = any; } 00231 }; 00232 00233 00234 class pmt_uniform_vector : public pmt_base 00235 { 00236 public: 00237 bool is_uniform_vector() const { return true; } 00238 virtual const void *uniform_elements(size_t &len) = 0; 00239 virtual void *uniform_writable_elements(size_t &len) = 0; 00240 virtual size_t length() const = 0; 00241 }; 00242 00243 #include "pmt_unv_int.h" 00244 00245 } /* namespace pmt */ 00246 00247 #endif /* INCLUDED_PMT_INT_H */