sc_module.hh revision 13135
1/* 2 * Copyright 2018 Google, Inc. 3 * 4 * Redistribution and use in source and binary forms, with or without 5 * modification, are permitted provided that the following conditions are 6 * met: redistributions of source code must retain the above copyright 7 * notice, this list of conditions and the following disclaimer; 8 * redistributions in binary form must reproduce the above copyright 9 * notice, this list of conditions and the following disclaimer in the 10 * documentation and/or other materials provided with the distribution; 11 * neither the name of the copyright holders nor the names of its 12 * contributors may be used to endorse or promote products derived from 13 * this software without specific prior written permission. 14 * 15 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 16 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 17 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 18 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 19 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 20 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 21 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 22 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 23 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 24 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 25 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26 * 27 * Authors: Gabe Black 28 */ 29 30#ifndef __SYSTEMC_CORE_EXT_SC_MODULE_HH__ 31#define __SYSTEMC_CORE_EXT_SC_MODULE_HH__ 32 33#include <vector> 34 35#include "sc_object.hh" 36#include "sc_process_handle.hh" 37#include "sc_sensitive.hh" 38#include "sc_time.hh" 39 40namespace sc_dt 41{ 42 43class sc_logic; 44 45} // namespace sc_dt 46 47namespace sc_gem5 48{ 49 50class Kernel; 51class Module; 52class Process; 53struct ProcessFuncWrapper; 54 55Process *newMethodProcess(const char *name, ProcessFuncWrapper *func); 56Process *newThreadProcess(const char *name, ProcessFuncWrapper *func); 57Process *newCThreadProcess(const char *name, ProcessFuncWrapper *func); 58 59} // namespace sc_gem5 60 61namespace sc_core 62{ 63 64template <class T> 65class sc_in; 66template <class T> 67class sc_out; 68template <class T> 69class sc_inout; 70template <class T> 71class sc_signal_in_if; 72 73class sc_event; 74class sc_event_and_list; 75class sc_event_or_list; 76class sc_module_name; 77 78class sc_bind_proxy 79{ 80 private: 81 sc_interface *_interface; 82 sc_port_base *_port; 83 84 public: 85 sc_bind_proxy(sc_interface &_interface); 86 sc_bind_proxy(sc_port_base &_port); 87 88 sc_interface *interface() const { return _interface; } 89 sc_port_base *port() const { return _port; } 90}; 91 92extern const sc_bind_proxy SC_BIND_PROXY_NIL; 93 94class sc_module : public sc_object 95{ 96 public: 97 friend class ::sc_gem5::Kernel; 98 99 virtual ~sc_module(); 100 101 virtual const char *kind() const { return "sc_module"; } 102 103 void operator () (const sc_bind_proxy &p001, 104 const sc_bind_proxy &p002 = SC_BIND_PROXY_NIL, 105 const sc_bind_proxy &p003 = SC_BIND_PROXY_NIL, 106 const sc_bind_proxy &p004 = SC_BIND_PROXY_NIL, 107 const sc_bind_proxy &p005 = SC_BIND_PROXY_NIL, 108 const sc_bind_proxy &p006 = SC_BIND_PROXY_NIL, 109 const sc_bind_proxy &p007 = SC_BIND_PROXY_NIL, 110 const sc_bind_proxy &p008 = SC_BIND_PROXY_NIL, 111 const sc_bind_proxy &p009 = SC_BIND_PROXY_NIL, 112 const sc_bind_proxy &p010 = SC_BIND_PROXY_NIL, 113 const sc_bind_proxy &p011 = SC_BIND_PROXY_NIL, 114 const sc_bind_proxy &p012 = SC_BIND_PROXY_NIL, 115 const sc_bind_proxy &p013 = SC_BIND_PROXY_NIL, 116 const sc_bind_proxy &p014 = SC_BIND_PROXY_NIL, 117 const sc_bind_proxy &p015 = SC_BIND_PROXY_NIL, 118 const sc_bind_proxy &p016 = SC_BIND_PROXY_NIL, 119 const sc_bind_proxy &p017 = SC_BIND_PROXY_NIL, 120 const sc_bind_proxy &p018 = SC_BIND_PROXY_NIL, 121 const sc_bind_proxy &p019 = SC_BIND_PROXY_NIL, 122 const sc_bind_proxy &p020 = SC_BIND_PROXY_NIL, 123 const sc_bind_proxy &p021 = SC_BIND_PROXY_NIL, 124 const sc_bind_proxy &p022 = SC_BIND_PROXY_NIL, 125 const sc_bind_proxy &p023 = SC_BIND_PROXY_NIL, 126 const sc_bind_proxy &p024 = SC_BIND_PROXY_NIL, 127 const sc_bind_proxy &p025 = SC_BIND_PROXY_NIL, 128 const sc_bind_proxy &p026 = SC_BIND_PROXY_NIL, 129 const sc_bind_proxy &p027 = SC_BIND_PROXY_NIL, 130 const sc_bind_proxy &p028 = SC_BIND_PROXY_NIL, 131 const sc_bind_proxy &p029 = SC_BIND_PROXY_NIL, 132 const sc_bind_proxy &p030 = SC_BIND_PROXY_NIL, 133 const sc_bind_proxy &p031 = SC_BIND_PROXY_NIL, 134 const sc_bind_proxy &p032 = SC_BIND_PROXY_NIL, 135 const sc_bind_proxy &p033 = SC_BIND_PROXY_NIL, 136 const sc_bind_proxy &p034 = SC_BIND_PROXY_NIL, 137 const sc_bind_proxy &p035 = SC_BIND_PROXY_NIL, 138 const sc_bind_proxy &p036 = SC_BIND_PROXY_NIL, 139 const sc_bind_proxy &p037 = SC_BIND_PROXY_NIL, 140 const sc_bind_proxy &p038 = SC_BIND_PROXY_NIL, 141 const sc_bind_proxy &p039 = SC_BIND_PROXY_NIL, 142 const sc_bind_proxy &p040 = SC_BIND_PROXY_NIL, 143 const sc_bind_proxy &p041 = SC_BIND_PROXY_NIL, 144 const sc_bind_proxy &p042 = SC_BIND_PROXY_NIL, 145 const sc_bind_proxy &p043 = SC_BIND_PROXY_NIL, 146 const sc_bind_proxy &p044 = SC_BIND_PROXY_NIL, 147 const sc_bind_proxy &p045 = SC_BIND_PROXY_NIL, 148 const sc_bind_proxy &p046 = SC_BIND_PROXY_NIL, 149 const sc_bind_proxy &p047 = SC_BIND_PROXY_NIL, 150 const sc_bind_proxy &p048 = SC_BIND_PROXY_NIL, 151 const sc_bind_proxy &p049 = SC_BIND_PROXY_NIL, 152 const sc_bind_proxy &p050 = SC_BIND_PROXY_NIL, 153 const sc_bind_proxy &p051 = SC_BIND_PROXY_NIL, 154 const sc_bind_proxy &p052 = SC_BIND_PROXY_NIL, 155 const sc_bind_proxy &p053 = SC_BIND_PROXY_NIL, 156 const sc_bind_proxy &p054 = SC_BIND_PROXY_NIL, 157 const sc_bind_proxy &p055 = SC_BIND_PROXY_NIL, 158 const sc_bind_proxy &p056 = SC_BIND_PROXY_NIL, 159 const sc_bind_proxy &p057 = SC_BIND_PROXY_NIL, 160 const sc_bind_proxy &p058 = SC_BIND_PROXY_NIL, 161 const sc_bind_proxy &p059 = SC_BIND_PROXY_NIL, 162 const sc_bind_proxy &p060 = SC_BIND_PROXY_NIL, 163 const sc_bind_proxy &p061 = SC_BIND_PROXY_NIL, 164 const sc_bind_proxy &p062 = SC_BIND_PROXY_NIL, 165 const sc_bind_proxy &p063 = SC_BIND_PROXY_NIL, 166 const sc_bind_proxy &p064 = SC_BIND_PROXY_NIL); 167 168 virtual const std::vector<sc_object *> &get_child_objects() const; 169 virtual const std::vector<sc_event *> &get_child_events() const; 170 171 protected: 172 sc_module(const sc_module_name &); 173 sc_module(); 174 175 // Deprecated 176 sc_module(const char *); 177 sc_module(const std::string &); 178 179 /* Deprecated, but used in the regression tests. */ 180 void end_module() {} 181 182 void reset_signal_is(const sc_in<bool> &, bool); 183 void reset_signal_is(const sc_inout<bool> &, bool); 184 void reset_signal_is(const sc_out<bool> &, bool); 185 void reset_signal_is(const sc_signal_in_if<bool> &, bool); 186 187 void async_reset_signal_is(const sc_in<bool> &, bool); 188 void async_reset_signal_is(const sc_inout<bool> &, bool); 189 void async_reset_signal_is(const sc_out<bool> &, bool); 190 void async_reset_signal_is(const sc_signal_in_if<bool> &, bool); 191 192 sc_sensitive sensitive; 193 194 void dont_initialize(); 195 void set_stack_size(size_t); 196 197 void next_trigger(); 198 void next_trigger(const sc_event &); 199 void next_trigger(const sc_event_or_list &); 200 void next_trigger(const sc_event_and_list &); 201 void next_trigger(const sc_time &); 202 void next_trigger(double, sc_time_unit); 203 void next_trigger(const sc_time &, const sc_event &); 204 void next_trigger(double, sc_time_unit, const sc_event &); 205 void next_trigger(const sc_time &, const sc_event_or_list &); 206 void next_trigger(double, sc_time_unit, const sc_event_or_list &); 207 void next_trigger(const sc_time &, const sc_event_and_list &); 208 void next_trigger(double, sc_time_unit, const sc_event_and_list &); 209 210 // Nonstandard 211 bool timed_out(); 212 213 void wait(); 214 void wait(int); 215 void wait(const sc_event &); 216 void wait(const sc_event_or_list &); 217 void wait(const sc_event_and_list &); 218 void wait(const sc_time &); 219 void wait(double, sc_time_unit); 220 void wait(const sc_time &, const sc_event &); 221 void wait(double, sc_time_unit, const sc_event &); 222 void wait(const sc_time &, const sc_event_or_list &); 223 void wait(double, sc_time_unit, const sc_event_or_list &); 224 void wait(const sc_time &, const sc_event_and_list &); 225 void wait(double, sc_time_unit, const sc_event_and_list &); 226 227 // Nonstandard 228 void halt(); 229 void at_posedge(const sc_signal_in_if<bool> &); 230 void at_posedge(const sc_signal_in_if<sc_dt::sc_logic> &); 231 void at_negedge(const sc_signal_in_if<bool> &); 232 void at_negedge(const sc_signal_in_if<sc_dt::sc_logic> &); 233 234 virtual void before_end_of_elaboration() {} 235 virtual void end_of_elaboration() {} 236 virtual void start_of_simulation() {} 237 virtual void end_of_simulation() {} 238 239 private: 240 sc_gem5::Module *_gem5_module; 241 242 // Disabled 243 sc_module(const sc_module &) : sc_object() {}; 244 sc_module &operator = (const sc_module &) { return *this; } 245}; 246 247void next_trigger(); 248void next_trigger(const sc_event &); 249void next_trigger(const sc_event_or_list &); 250void next_trigger(const sc_event_and_list &); 251void next_trigger(const sc_time &); 252void next_trigger(double, sc_time_unit); 253void next_trigger(const sc_time &, const sc_event &); 254void next_trigger(double, sc_time_unit, const sc_event &); 255void next_trigger(const sc_time &, const sc_event_or_list &); 256void next_trigger(double, sc_time_unit, const sc_event_or_list &); 257void next_trigger(const sc_time &, const sc_event_and_list &); 258void next_trigger(double, sc_time_unit, const sc_event_and_list &); 259 260void wait(); 261void wait(int); 262void wait(const sc_event &); 263void wait(const sc_event_or_list &); 264void wait(const sc_event_and_list &); 265void wait(const sc_time &); 266void wait(double, sc_time_unit); 267void wait(const sc_time &, const sc_event &); 268void wait(double, sc_time_unit, const sc_event &); 269void wait(const sc_time &, const sc_event_or_list &); 270void wait(double, sc_time_unit, const sc_event_or_list &); 271void wait(const sc_time &, const sc_event_and_list &); 272void wait(double, sc_time_unit, const sc_event_and_list &); 273 274// Nonstandard 275bool timed_out(); 276 277#define SC_MODULE(name) struct name : ::sc_core::sc_module 278 279#define SC_CTOR(name) \ 280 typedef name SC_CURRENT_USER_MODULE; \ 281 name(::sc_core::sc_module_name) 282 283#define SC_HAS_PROCESS(name) typedef name SC_CURRENT_USER_MODULE 284 285#define SC_METHOD(name) \ 286 { \ 287 ::sc_gem5::Process *p = \ 288 ::sc_gem5::newMethodProcess( \ 289 #name, new ::sc_gem5::ProcessMemberFuncWrapper< \ 290 SC_CURRENT_USER_MODULE>(this, \ 291 &SC_CURRENT_USER_MODULE::name)); \ 292 if (p) \ 293 this->sensitive << p; \ 294 } 295#define SC_THREAD(name) \ 296 { \ 297 ::sc_gem5::Process *p = \ 298 ::sc_gem5::newThreadProcess( \ 299 #name, new ::sc_gem5::ProcessMemberFuncWrapper< \ 300 SC_CURRENT_USER_MODULE>(this, \ 301 &SC_CURRENT_USER_MODULE::name)); \ 302 if (p) \ 303 this->sensitive << p; \ 304 } 305#define SC_CTHREAD(name, clk) \ 306 { \ 307 ::sc_gem5::Process *p = \ 308 ::sc_gem5::newCThreadProcess( \ 309 #name, new ::sc_gem5::ProcessMemberFuncWrapper< \ 310 SC_CURRENT_USER_MODULE>(this, \ 311 &SC_CURRENT_USER_MODULE::name)); \ 312 if (p) { \ 313 this->sensitive << p; \ 314 this->sensitive << clk; \ 315 } \ 316 } 317 318// Nonstandard 319// Documentation for this is very scarce, but it looks like it's supposed to 320// stop the currently executing cthread, or if a cthread isn't running report 321// an error. 322void halt(); 323void at_posedge(const sc_signal_in_if<bool> &); 324void at_posedge(const sc_signal_in_if<sc_dt::sc_logic> &); 325void at_negedge(const sc_signal_in_if<bool> &); 326void at_negedge(const sc_signal_in_if<sc_dt::sc_logic> &); 327 328const char *sc_gen_unique_name(const char *); 329 330// Nonstandard 331bool sc_hierarchical_name_exists(const char *name); 332 333typedef sc_module sc_behavior; 334typedef sc_module sc_channel; 335 336bool sc_start_of_simulation_invoked(); 337bool sc_end_of_simulation_invoked(); 338 339// Nonstandard 340// Allocates a module of type x and records a pointer to it so that it gets 341// destructed automatically at the end of the simulation. 342sc_module *sc_module_sc_new(sc_module *); 343#define SC_NEW(x) ::sc_core::sc_module_sc_new(new x); 344 345// Nonstandard 346#define SC_WAIT() \ 347 ::sc_core::sc_set_location(__FILE__, __LINE__); \ 348 ::sc_core::wait(); \ 349 ::sc_core::sc_set_location(NULL, 0) 350 351// Nonstandard 352#define SC_WAITN(n) \ 353 ::sc_core::sc_set_location(__FILE__, __LINE__); \ 354 ::sc_core::wait(n); \ 355 ::sc_core::sc_set_location(NULL, 0) 356 357// Nonstandard 358#define SC_WAIT_UNTIL(expr) \ 359 do { SC_WAIT(); } while (!(expr)) 360 361} // namespace sc_core 362 363#endif //__SYSTEMC_EXT_CORE_SC_MODULE_HH__ 364