StateMachine.py revision 9745:884ad4638236
1# Copyright (c) 1999-2008 Mark D. Hill and David A. Wood 2# Copyright (c) 2009 The Hewlett-Packard Development Company 3# All rights reserved. 4# 5# Redistribution and use in source and binary forms, with or without 6# modification, are permitted provided that the following conditions are 7# met: redistributions of source code must retain the above copyright 8# notice, this list of conditions and the following disclaimer; 9# redistributions in binary form must reproduce the above copyright 10# notice, this list of conditions and the following disclaimer in the 11# documentation and/or other materials provided with the distribution; 12# neither the name of the copyright holders nor the names of its 13# contributors may be used to endorse or promote products derived from 14# this software without specific prior written permission. 15# 16# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 17# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT 18# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR 19# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT 20# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, 21# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT 22# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 23# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 24# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 25# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 26# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 27 28from m5.util import orderdict 29 30from slicc.symbols.Symbol import Symbol 31from slicc.symbols.Var import Var 32import slicc.generate.html as html 33import re 34 35python_class_map = { 36 "int": "Int", 37 "uint32_t" : "UInt32", 38 "std::string": "String", 39 "bool": "Bool", 40 "CacheMemory": "RubyCache", 41 "WireBuffer": "RubyWireBuffer", 42 "Sequencer": "RubySequencer", 43 "DirectoryMemory": "RubyDirectoryMemory", 44 "MemoryControl": "MemoryControl", 45 "DMASequencer": "DMASequencer", 46 "Prefetcher":"Prefetcher", 47 "Cycles":"Cycles", 48 } 49 50class StateMachine(Symbol): 51 def __init__(self, symtab, ident, location, pairs, config_parameters): 52 super(StateMachine, self).__init__(symtab, ident, location, pairs) 53 self.table = None 54 self.config_parameters = config_parameters 55 self.prefetchers = [] 56 57 for param in config_parameters: 58 if param.pointer: 59 var = Var(symtab, param.name, location, param.type_ast.type, 60 "(*m_%s_ptr)" % param.name, {}, self) 61 else: 62 var = Var(symtab, param.name, location, param.type_ast.type, 63 "m_%s" % param.name, {}, self) 64 self.symtab.registerSym(param.name, var) 65 if str(param.type_ast.type) == "Prefetcher": 66 self.prefetchers.append(var) 67 68 self.states = orderdict() 69 self.events = orderdict() 70 self.actions = orderdict() 71 self.request_types = orderdict() 72 self.transitions = [] 73 self.in_ports = [] 74 self.functions = [] 75 self.objects = [] 76 self.TBEType = None 77 self.EntryType = None 78 79 def __repr__(self): 80 return "[StateMachine: %s]" % self.ident 81 82 def addState(self, state): 83 assert self.table is None 84 self.states[state.ident] = state 85 86 def addEvent(self, event): 87 assert self.table is None 88 self.events[event.ident] = event 89 90 def addAction(self, action): 91 assert self.table is None 92 93 # Check for duplicate action 94 for other in self.actions.itervalues(): 95 if action.ident == other.ident: 96 action.warning("Duplicate action definition: %s" % action.ident) 97 action.error("Duplicate action definition: %s" % action.ident) 98 if action.short == other.short: 99 other.warning("Duplicate action shorthand: %s" % other.ident) 100 other.warning(" shorthand = %s" % other.short) 101 action.warning("Duplicate action shorthand: %s" % action.ident) 102 action.error(" shorthand = %s" % action.short) 103 104 self.actions[action.ident] = action 105 106 def addRequestType(self, request_type): 107 assert self.table is None 108 self.request_types[request_type.ident] = request_type 109 110 def addTransition(self, trans): 111 assert self.table is None 112 self.transitions.append(trans) 113 114 def addInPort(self, var): 115 self.in_ports.append(var) 116 117 def addFunc(self, func): 118 # register func in the symbol table 119 self.symtab.registerSym(str(func), func) 120 self.functions.append(func) 121 122 def addObject(self, obj): 123 self.objects.append(obj) 124 125 def addType(self, type): 126 type_ident = '%s' % type.c_ident 127 128 if type_ident == "%s_TBE" %self.ident: 129 if self.TBEType != None: 130 self.error("Multiple Transaction Buffer types in a " \ 131 "single machine."); 132 self.TBEType = type 133 134 elif "interface" in type and "AbstractCacheEntry" == type["interface"]: 135 if self.EntryType != None: 136 self.error("Multiple AbstractCacheEntry types in a " \ 137 "single machine."); 138 self.EntryType = type 139 140 # Needs to be called before accessing the table 141 def buildTable(self): 142 assert self.table is None 143 144 table = {} 145 146 for trans in self.transitions: 147 # Track which actions we touch so we know if we use them 148 # all -- really this should be done for all symbols as 149 # part of the symbol table, then only trigger it for 150 # Actions, States, Events, etc. 151 152 for action in trans.actions: 153 action.used = True 154 155 index = (trans.state, trans.event) 156 if index in table: 157 table[index].warning("Duplicate transition: %s" % table[index]) 158 trans.error("Duplicate transition: %s" % trans) 159 table[index] = trans 160 161 # Look at all actions to make sure we used them all 162 for action in self.actions.itervalues(): 163 if not action.used: 164 error_msg = "Unused action: %s" % action.ident 165 if "desc" in action: 166 error_msg += ", " + action.desc 167 action.warning(error_msg) 168 self.table = table 169 170 def writeCodeFiles(self, path, includes): 171 self.printControllerPython(path) 172 self.printControllerHH(path) 173 self.printControllerCC(path, includes) 174 self.printCSwitch(path) 175 self.printCWakeup(path, includes) 176 177 def printControllerPython(self, path): 178 code = self.symtab.codeFormatter() 179 ident = self.ident 180 py_ident = "%s_Controller" % ident 181 c_ident = "%s_Controller" % self.ident 182 code(''' 183from m5.params import * 184from m5.SimObject import SimObject 185from Controller import RubyController 186 187class $py_ident(RubyController): 188 type = '$py_ident' 189 cxx_header = 'mem/protocol/${c_ident}.hh' 190''') 191 code.indent() 192 for param in self.config_parameters: 193 dflt_str = '' 194 if param.default is not None: 195 dflt_str = str(param.default) + ', ' 196 if python_class_map.has_key(param.type_ast.type.c_ident): 197 python_type = python_class_map[param.type_ast.type.c_ident] 198 code('${{param.name}} = Param.${{python_type}}(${dflt_str}"")') 199 else: 200 self.error("Unknown c++ to python class conversion for c++ " \ 201 "type: '%s'. Please update the python_class_map " \ 202 "in StateMachine.py", param.type_ast.type.c_ident) 203 code.dedent() 204 code.write(path, '%s.py' % py_ident) 205 206 207 def printControllerHH(self, path): 208 '''Output the method declarations for the class declaration''' 209 code = self.symtab.codeFormatter() 210 ident = self.ident 211 c_ident = "%s_Controller" % self.ident 212 213 code(''' 214/** \\file $c_ident.hh 215 * 216 * Auto generated C++ code started by $__file__:$__line__ 217 * Created by slicc definition of Module "${{self.short}}" 218 */ 219 220#ifndef __${ident}_CONTROLLER_HH__ 221#define __${ident}_CONTROLLER_HH__ 222 223#include <iostream> 224#include <sstream> 225#include <string> 226 227#include "mem/protocol/TransitionResult.hh" 228#include "mem/protocol/Types.hh" 229#include "mem/ruby/common/Consumer.hh" 230#include "mem/ruby/common/Global.hh" 231#include "mem/ruby/slicc_interface/AbstractController.hh" 232#include "params/$c_ident.hh" 233''') 234 235 seen_types = set() 236 has_peer = False 237 for var in self.objects: 238 if var.type.ident not in seen_types and not var.type.isPrimitive: 239 code('#include "mem/protocol/${{var.type.c_ident}}.hh"') 240 if "network" in var and "physical_network" in var: 241 has_peer = True 242 seen_types.add(var.type.ident) 243 244 # for adding information to the protocol debug trace 245 code(''' 246extern std::stringstream ${ident}_transitionComment; 247 248class $c_ident : public AbstractController 249{ 250 public: 251 typedef ${c_ident}Params Params; 252 $c_ident(const Params *p); 253 static int getNumControllers(); 254 void init(); 255 MessageBuffer* getMandatoryQueue() const; 256 const int & getVersion() const; 257 const std::string toString() const; 258 const std::string getName() const; 259 void initNetworkPtr(Network* net_ptr) { m_net_ptr = net_ptr; } 260 261 void print(std::ostream& out) const; 262 void wakeup(); 263 void printStats(std::ostream& out) const; 264 void clearStats(); 265 void regStats(); 266 void collateStats(); 267 268 void blockOnQueue(Address addr, MessageBuffer* port); 269 void unblock(Address addr); 270 void recordCacheTrace(int cntrl, CacheRecorder* tr); 271 Sequencer* getSequencer() const; 272 273 bool functionalReadBuffers(PacketPtr&); 274 uint32_t functionalWriteBuffers(PacketPtr&); 275 276 void countTransition(${ident}_State state, ${ident}_Event event); 277 void possibleTransition(${ident}_State state, ${ident}_Event event); 278 uint64 getEventCount(${ident}_Event event); 279 bool isPossible(${ident}_State state, ${ident}_Event event); 280 uint64 getTransitionCount(${ident}_State state, ${ident}_Event event); 281 282private: 283''') 284 285 code.indent() 286 # added by SS 287 for param in self.config_parameters: 288 if param.pointer: 289 code('${{param.type_ast.type}}* m_${{param.ident}}_ptr;') 290 else: 291 code('${{param.type_ast.type}} m_${{param.ident}};') 292 293 code(''' 294TransitionResult doTransition(${ident}_Event event, 295''') 296 297 if self.EntryType != None: 298 code(''' 299 ${{self.EntryType.c_ident}}* m_cache_entry_ptr, 300''') 301 if self.TBEType != None: 302 code(''' 303 ${{self.TBEType.c_ident}}* m_tbe_ptr, 304''') 305 306 code(''' 307 const Address& addr); 308 309TransitionResult doTransitionWorker(${ident}_Event event, 310 ${ident}_State state, 311 ${ident}_State& next_state, 312''') 313 314 if self.TBEType != None: 315 code(''' 316 ${{self.TBEType.c_ident}}*& m_tbe_ptr, 317''') 318 if self.EntryType != None: 319 code(''' 320 ${{self.EntryType.c_ident}}*& m_cache_entry_ptr, 321''') 322 323 code(''' 324 const Address& addr); 325 326int m_counters[${ident}_State_NUM][${ident}_Event_NUM]; 327int m_event_counters[${ident}_Event_NUM]; 328bool m_possible[${ident}_State_NUM][${ident}_Event_NUM]; 329 330static std::vector<Stats::Vector *> eventVec; 331static std::vector<std::vector<Stats::Vector *> > transVec; 332static int m_num_controllers; 333 334// Internal functions 335''') 336 337 for func in self.functions: 338 proto = func.prototype 339 if proto: 340 code('$proto') 341 342 if has_peer: 343 code('void getQueuesFromPeer(AbstractController *);') 344 if self.EntryType != None: 345 code(''' 346 347// Set and Reset for cache_entry variable 348void set_cache_entry(${{self.EntryType.c_ident}}*& m_cache_entry_ptr, AbstractCacheEntry* m_new_cache_entry); 349void unset_cache_entry(${{self.EntryType.c_ident}}*& m_cache_entry_ptr); 350''') 351 352 if self.TBEType != None: 353 code(''' 354 355// Set and Reset for tbe variable 356void set_tbe(${{self.TBEType.c_ident}}*& m_tbe_ptr, ${ident}_TBE* m_new_tbe); 357void unset_tbe(${{self.TBEType.c_ident}}*& m_tbe_ptr); 358''') 359 360 code(''' 361 362// Actions 363''') 364 if self.TBEType != None and self.EntryType != None: 365 for action in self.actions.itervalues(): 366 code('/** \\brief ${{action.desc}} */') 367 code('void ${{action.ident}}(${{self.TBEType.c_ident}}*& m_tbe_ptr, ${{self.EntryType.c_ident}}*& m_cache_entry_ptr, const Address& addr);') 368 elif self.TBEType != None: 369 for action in self.actions.itervalues(): 370 code('/** \\brief ${{action.desc}} */') 371 code('void ${{action.ident}}(${{self.TBEType.c_ident}}*& m_tbe_ptr, const Address& addr);') 372 elif self.EntryType != None: 373 for action in self.actions.itervalues(): 374 code('/** \\brief ${{action.desc}} */') 375 code('void ${{action.ident}}(${{self.EntryType.c_ident}}*& m_cache_entry_ptr, const Address& addr);') 376 else: 377 for action in self.actions.itervalues(): 378 code('/** \\brief ${{action.desc}} */') 379 code('void ${{action.ident}}(const Address& addr);') 380 381 # the controller internal variables 382 code(''' 383 384// Objects 385''') 386 for var in self.objects: 387 th = var.get("template", "") 388 code('${{var.type.c_ident}}$th* m_${{var.c_ident}}_ptr;') 389 390 code.dedent() 391 code('};') 392 code('#endif // __${ident}_CONTROLLER_H__') 393 code.write(path, '%s.hh' % c_ident) 394 395 def printControllerCC(self, path, includes): 396 '''Output the actions for performing the actions''' 397 398 code = self.symtab.codeFormatter() 399 ident = self.ident 400 c_ident = "%s_Controller" % self.ident 401 has_peer = False 402 403 code(''' 404/** \\file $c_ident.cc 405 * 406 * Auto generated C++ code started by $__file__:$__line__ 407 * Created by slicc definition of Module "${{self.short}}" 408 */ 409 410#include <sys/types.h> 411#include <unistd.h> 412 413#include <cassert> 414#include <sstream> 415#include <string> 416 417#include "base/compiler.hh" 418#include "base/cprintf.hh" 419#include "debug/RubyGenerated.hh" 420#include "debug/RubySlicc.hh" 421#include "mem/protocol/${ident}_Controller.hh" 422#include "mem/protocol/${ident}_Event.hh" 423#include "mem/protocol/${ident}_State.hh" 424#include "mem/protocol/Types.hh" 425#include "mem/ruby/common/Global.hh" 426#include "mem/ruby/system/System.hh" 427''') 428 for include_path in includes: 429 code('#include "${{include_path}}"') 430 431 code(''' 432 433using namespace std; 434''') 435 436 # include object classes 437 seen_types = set() 438 for var in self.objects: 439 if var.type.ident not in seen_types and not var.type.isPrimitive: 440 code('#include "mem/protocol/${{var.type.c_ident}}.hh"') 441 seen_types.add(var.type.ident) 442 443 code(''' 444$c_ident * 445${c_ident}Params::create() 446{ 447 return new $c_ident(this); 448} 449 450int $c_ident::m_num_controllers = 0; 451std::vector<Stats::Vector *> $c_ident::eventVec; 452std::vector<std::vector<Stats::Vector *> > $c_ident::transVec; 453 454// for adding information to the protocol debug trace 455stringstream ${ident}_transitionComment; 456#define APPEND_TRANSITION_COMMENT(str) (${ident}_transitionComment << str) 457 458/** \\brief constructor */ 459$c_ident::$c_ident(const Params *p) 460 : AbstractController(p) 461{ 462 m_name = "${ident}"; 463''') 464 # 465 # max_port_rank is used to size vectors and thus should be one plus the 466 # largest port rank 467 # 468 max_port_rank = self.in_ports[0].pairs["max_port_rank"] + 1 469 code(' m_max_in_port_rank = $max_port_rank;') 470 code.indent() 471 472 # 473 # After initializing the universal machine parameters, initialize the 474 # this machines config parameters. Also detemine if these configuration 475 # params include a sequencer. This information will be used later for 476 # contecting the sequencer back to the L1 cache controller. 477 # 478 contains_dma_sequencer = False 479 sequencers = [] 480 for param in self.config_parameters: 481 if param.name == "dma_sequencer": 482 contains_dma_sequencer = True 483 elif re.compile("sequencer").search(param.name): 484 sequencers.append(param.name) 485 if param.pointer: 486 code('m_${{param.name}}_ptr = p->${{param.name}};') 487 else: 488 code('m_${{param.name}} = p->${{param.name}};') 489 490 # 491 # For the l1 cache controller, add the special atomic support which 492 # includes passing the sequencer a pointer to the controller. 493 # 494 for seq in sequencers: 495 code(''' 496m_${{seq}}_ptr->setController(this); 497 ''') 498 499 # 500 # For the DMA controller, pass the sequencer a pointer to the 501 # controller. 502 # 503 if self.ident == "DMA": 504 if not contains_dma_sequencer: 505 self.error("The DMA controller must include the sequencer " \ 506 "configuration parameter") 507 508 code(''' 509m_dma_sequencer_ptr->setController(this); 510''') 511 512 code('m_num_controllers++;') 513 for var in self.objects: 514 if var.ident.find("mandatoryQueue") >= 0: 515 code(''' 516m_${{var.c_ident}}_ptr = new ${{var.type.c_ident}}(); 517m_${{var.c_ident}}_ptr->setReceiver(this); 518''') 519 else: 520 if "network" in var and "physical_network" in var and \ 521 var["network"] == "To": 522 has_peer = True 523 code(''' 524m_${{var.c_ident}}_ptr = new ${{var.type.c_ident}}(); 525peerQueueMap[${{var["physical_network"]}}] = m_${{var.c_ident}}_ptr; 526m_${{var.c_ident}}_ptr->setSender(this); 527''') 528 529 code(''' 530if (p->peer != NULL) 531 connectWithPeer(p->peer); 532 533for (int state = 0; state < ${ident}_State_NUM; state++) { 534 for (int event = 0; event < ${ident}_Event_NUM; event++) { 535 m_possible[state][event] = false; 536 m_counters[state][event] = 0; 537 } 538} 539for (int event = 0; event < ${ident}_Event_NUM; event++) { 540 m_event_counters[event] = 0; 541} 542''') 543 code.dedent() 544 code(''' 545} 546 547void 548$c_ident::init() 549{ 550 MachineType machine_type = string_to_MachineType("${{var.machine.ident}}"); 551 int base = MachineType_base_number(machine_type); 552 553 m_machineID.type = MachineType_${ident}; 554 m_machineID.num = m_version; 555 556 // initialize objects 557 558''') 559 560 code.indent() 561 for var in self.objects: 562 vtype = var.type 563 vid = "m_%s_ptr" % var.c_ident 564 if "network" not in var: 565 # Not a network port object 566 if "primitive" in vtype: 567 code('$vid = new ${{vtype.c_ident}};') 568 if "default" in var: 569 code('(*$vid) = ${{var["default"]}};') 570 else: 571 # Normal Object 572 if var.ident.find("mandatoryQueue") < 0: 573 th = var.get("template", "") 574 expr = "%s = new %s%s" % (vid, vtype.c_ident, th) 575 args = "" 576 if "non_obj" not in vtype and not vtype.isEnumeration: 577 args = var.get("constructor", "") 578 code('$expr($args);') 579 580 code('assert($vid != NULL);') 581 582 if "default" in var: 583 code('*$vid = ${{var["default"]}}; // Object default') 584 elif "default" in vtype: 585 comment = "Type %s default" % vtype.ident 586 code('*$vid = ${{vtype["default"]}}; // $comment') 587 588 # Set ordering 589 if "ordered" in var: 590 # A buffer 591 code('$vid->setOrdering(${{var["ordered"]}});') 592 593 # Set randomization 594 if "random" in var: 595 # A buffer 596 code('$vid->setRandomization(${{var["random"]}});') 597 598 # Set Priority 599 if vtype.isBuffer and "rank" in var: 600 code('$vid->setPriority(${{var["rank"]}});') 601 602 # Set sender and receiver for trigger queue 603 if var.ident.find("triggerQueue") >= 0: 604 code('$vid->setSender(this);') 605 code('$vid->setReceiver(this);') 606 elif vtype.c_ident == "TimerTable": 607 code('$vid->setClockObj(this);') 608 elif var.ident.find("optionalQueue") >= 0: 609 code('$vid->setSender(this);') 610 code('$vid->setReceiver(this);') 611 612 else: 613 # Network port object 614 network = var["network"] 615 ordered = var["ordered"] 616 617 if "virtual_network" in var: 618 vnet = var["virtual_network"] 619 vnet_type = var["vnet_type"] 620 621 assert var.machine is not None 622 code(''' 623$vid = m_net_ptr->get${network}NetQueue(m_version + base, $ordered, $vnet, "$vnet_type"); 624assert($vid != NULL); 625''') 626 627 # Set the end 628 if network == "To": 629 code('$vid->setSender(this);') 630 else: 631 code('$vid->setReceiver(this);') 632 633 # Set ordering 634 if "ordered" in var: 635 # A buffer 636 code('$vid->setOrdering(${{var["ordered"]}});') 637 638 # Set randomization 639 if "random" in var: 640 # A buffer 641 code('$vid->setRandomization(${{var["random"]}});') 642 643 # Set Priority 644 if "rank" in var: 645 code('$vid->setPriority(${{var["rank"]}})') 646 647 # Set buffer size 648 if vtype.isBuffer: 649 code(''' 650if (m_buffer_size > 0) { 651 $vid->resize(m_buffer_size); 652} 653''') 654 655 # set description (may be overriden later by port def) 656 code(''' 657$vid->setDescription("[Version " + to_string(m_version) + ", ${ident}, name=${{var.c_ident}}]"); 658 659''') 660 661 if vtype.isBuffer: 662 if "recycle_latency" in var: 663 code('$vid->setRecycleLatency( ' \ 664 'Cycles(${{var["recycle_latency"]}}));') 665 else: 666 code('$vid->setRecycleLatency(m_recycle_latency);') 667 668 # Set the prefetchers 669 code() 670 for prefetcher in self.prefetchers: 671 code('${{prefetcher.code}}.setController(this);') 672 673 code() 674 for port in self.in_ports: 675 # Set the queue consumers 676 code('${{port.code}}.setConsumer(this);') 677 # Set the queue descriptions 678 code('${{port.code}}.setDescription("[Version " + to_string(m_version) + ", $ident, $port]");') 679 680 # Initialize the transition profiling 681 code() 682 for trans in self.transitions: 683 # Figure out if we stall 684 stall = False 685 for action in trans.actions: 686 if action.ident == "z_stall": 687 stall = True 688 689 # Only possible if it is not a 'z' case 690 if not stall: 691 state = "%s_State_%s" % (self.ident, trans.state.ident) 692 event = "%s_Event_%s" % (self.ident, trans.event.ident) 693 code('possibleTransition($state, $event);') 694 695 code.dedent() 696 code(''' 697 AbstractController::init(); 698 clearStats(); 699} 700''') 701 702 has_mandatory_q = False 703 for port in self.in_ports: 704 if port.code.find("mandatoryQueue_ptr") >= 0: 705 has_mandatory_q = True 706 707 if has_mandatory_q: 708 mq_ident = "m_%s_mandatoryQueue_ptr" % self.ident 709 else: 710 mq_ident = "NULL" 711 712 seq_ident = "NULL" 713 for param in self.config_parameters: 714 if param.name == "sequencer": 715 assert(param.pointer) 716 seq_ident = "m_%s_ptr" % param.name 717 718 code(''' 719 720void 721$c_ident::regStats() 722{ 723 if (m_version == 0) { 724 for (${ident}_Event event = ${ident}_Event_FIRST; 725 event < ${ident}_Event_NUM; ++event) { 726 Stats::Vector *t = new Stats::Vector(); 727 t->init(m_num_controllers); 728 t->name(name() + "." + ${ident}_Event_to_string(event)); 729 t->flags(Stats::pdf | Stats::total | Stats::oneline | 730 Stats::nozero); 731 732 eventVec.push_back(t); 733 } 734 735 for (${ident}_State state = ${ident}_State_FIRST; 736 state < ${ident}_State_NUM; ++state) { 737 738 transVec.push_back(std::vector<Stats::Vector *>()); 739 740 for (${ident}_Event event = ${ident}_Event_FIRST; 741 event < ${ident}_Event_NUM; ++event) { 742 743 Stats::Vector *t = new Stats::Vector(); 744 t->init(m_num_controllers); 745 t->name(name() + "." + ${ident}_State_to_string(state) + 746 "." + ${ident}_Event_to_string(event)); 747 748 t->flags(Stats::pdf | Stats::total | Stats::oneline | 749 Stats::nozero); 750 transVec[state].push_back(t); 751 } 752 } 753 } 754} 755 756void 757$c_ident::collateStats() 758{ 759 for (${ident}_Event event = ${ident}_Event_FIRST; 760 event < ${ident}_Event_NUM; ++event) { 761 for (unsigned int i = 0; i < m_num_controllers; ++i) { 762 std::map<uint32_t, AbstractController *>::iterator it = 763 g_abs_controls[MachineType_${ident}].find(i); 764 assert(it != g_abs_controls[MachineType_${ident}].end()); 765 (*eventVec[event])[i] = 766 (($c_ident *)(*it).second)->getEventCount(event); 767 } 768 } 769 770 for (${ident}_State state = ${ident}_State_FIRST; 771 state < ${ident}_State_NUM; ++state) { 772 773 for (${ident}_Event event = ${ident}_Event_FIRST; 774 event < ${ident}_Event_NUM; ++event) { 775 776 for (unsigned int i = 0; i < m_num_controllers; ++i) { 777 std::map<uint32_t, AbstractController *>::iterator it = 778 g_abs_controls[MachineType_${ident}].find(i); 779 assert(it != g_abs_controls[MachineType_${ident}].end()); 780 (*transVec[state][event])[i] = 781 (($c_ident *)(*it).second)->getTransitionCount(state, event); 782 } 783 } 784 } 785} 786 787void 788$c_ident::countTransition(${ident}_State state, ${ident}_Event event) 789{ 790 assert(m_possible[state][event]); 791 m_counters[state][event]++; 792 m_event_counters[event]++; 793} 794void 795$c_ident::possibleTransition(${ident}_State state, 796 ${ident}_Event event) 797{ 798 m_possible[state][event] = true; 799} 800 801uint64 802$c_ident::getEventCount(${ident}_Event event) 803{ 804 return m_event_counters[event]; 805} 806 807bool 808$c_ident::isPossible(${ident}_State state, ${ident}_Event event) 809{ 810 return m_possible[state][event]; 811} 812 813uint64 814$c_ident::getTransitionCount(${ident}_State state, 815 ${ident}_Event event) 816{ 817 return m_counters[state][event]; 818} 819 820int 821$c_ident::getNumControllers() 822{ 823 return m_num_controllers; 824} 825 826MessageBuffer* 827$c_ident::getMandatoryQueue() const 828{ 829 return $mq_ident; 830} 831 832Sequencer* 833$c_ident::getSequencer() const 834{ 835 return $seq_ident; 836} 837 838const int & 839$c_ident::getVersion() const 840{ 841 return m_version; 842} 843 844const string 845$c_ident::toString() const 846{ 847 return "$c_ident"; 848} 849 850const string 851$c_ident::getName() const 852{ 853 return m_name; 854} 855 856void 857$c_ident::blockOnQueue(Address addr, MessageBuffer* port) 858{ 859 m_is_blocking = true; 860 m_block_map[addr] = port; 861} 862 863void 864$c_ident::unblock(Address addr) 865{ 866 m_block_map.erase(addr); 867 if (m_block_map.size() == 0) { 868 m_is_blocking = false; 869 } 870} 871 872void 873$c_ident::print(ostream& out) const 874{ 875 out << "[$c_ident " << m_version << "]"; 876} 877 878void 879$c_ident::printStats(ostream& out) const 880{ 881''') 882 # 883 # Cache and Memory Controllers have specific profilers associated with 884 # them. Print out these stats before dumping state transition stats. 885 # 886 for param in self.config_parameters: 887 if param.type_ast.type.ident == "DirectoryMemory": 888 assert(param.pointer) 889 code(' m_${{param.ident}}_ptr->printStats(out);') 890 891 code(''' 892} 893 894void $c_ident::clearStats() 895{ 896 for (int state = 0; state < ${ident}_State_NUM; state++) { 897 for (int event = 0; event < ${ident}_Event_NUM; event++) { 898 m_counters[state][event] = 0; 899 } 900 } 901 902 for (int event = 0; event < ${ident}_Event_NUM; event++) { 903 m_event_counters[event] = 0; 904 } 905 906 AbstractController::clearStats(); 907} 908''') 909 910 if self.EntryType != None: 911 code(''' 912 913// Set and Reset for cache_entry variable 914void 915$c_ident::set_cache_entry(${{self.EntryType.c_ident}}*& m_cache_entry_ptr, AbstractCacheEntry* m_new_cache_entry) 916{ 917 m_cache_entry_ptr = (${{self.EntryType.c_ident}}*)m_new_cache_entry; 918} 919 920void 921$c_ident::unset_cache_entry(${{self.EntryType.c_ident}}*& m_cache_entry_ptr) 922{ 923 m_cache_entry_ptr = 0; 924} 925''') 926 927 if self.TBEType != None: 928 code(''' 929 930// Set and Reset for tbe variable 931void 932$c_ident::set_tbe(${{self.TBEType.c_ident}}*& m_tbe_ptr, ${{self.TBEType.c_ident}}* m_new_tbe) 933{ 934 m_tbe_ptr = m_new_tbe; 935} 936 937void 938$c_ident::unset_tbe(${{self.TBEType.c_ident}}*& m_tbe_ptr) 939{ 940 m_tbe_ptr = NULL; 941} 942''') 943 944 code(''' 945 946void 947$c_ident::recordCacheTrace(int cntrl, CacheRecorder* tr) 948{ 949''') 950 # 951 # Record cache contents for all associated caches. 952 # 953 code.indent() 954 for param in self.config_parameters: 955 if param.type_ast.type.ident == "CacheMemory": 956 assert(param.pointer) 957 code('m_${{param.ident}}_ptr->recordCacheContents(cntrl, tr);') 958 959 code.dedent() 960 code(''' 961} 962 963// Actions 964''') 965 if self.TBEType != None and self.EntryType != None: 966 for action in self.actions.itervalues(): 967 if "c_code" not in action: 968 continue 969 970 code(''' 971/** \\brief ${{action.desc}} */ 972void 973$c_ident::${{action.ident}}(${{self.TBEType.c_ident}}*& m_tbe_ptr, ${{self.EntryType.c_ident}}*& m_cache_entry_ptr, const Address& addr) 974{ 975 DPRINTF(RubyGenerated, "executing ${{action.ident}}\\n"); 976 ${{action["c_code"]}} 977} 978 979''') 980 elif self.TBEType != None: 981 for action in self.actions.itervalues(): 982 if "c_code" not in action: 983 continue 984 985 code(''' 986/** \\brief ${{action.desc}} */ 987void 988$c_ident::${{action.ident}}(${{self.TBEType.c_ident}}*& m_tbe_ptr, const Address& addr) 989{ 990 DPRINTF(RubyGenerated, "executing ${{action.ident}}\\n"); 991 ${{action["c_code"]}} 992} 993 994''') 995 elif self.EntryType != None: 996 for action in self.actions.itervalues(): 997 if "c_code" not in action: 998 continue 999 1000 code(''' 1001/** \\brief ${{action.desc}} */ 1002void 1003$c_ident::${{action.ident}}(${{self.EntryType.c_ident}}*& m_cache_entry_ptr, const Address& addr) 1004{ 1005 DPRINTF(RubyGenerated, "executing ${{action.ident}}\\n"); 1006 ${{action["c_code"]}} 1007} 1008 1009''') 1010 else: 1011 for action in self.actions.itervalues(): 1012 if "c_code" not in action: 1013 continue 1014 1015 code(''' 1016/** \\brief ${{action.desc}} */ 1017void 1018$c_ident::${{action.ident}}(const Address& addr) 1019{ 1020 DPRINTF(RubyGenerated, "executing ${{action.ident}}\\n"); 1021 ${{action["c_code"]}} 1022} 1023 1024''') 1025 for func in self.functions: 1026 code(func.generateCode()) 1027 1028 # Function for functional reads from messages buffered in the controller 1029 code(''' 1030bool 1031$c_ident::functionalReadBuffers(PacketPtr& pkt) 1032{ 1033''') 1034 for var in self.objects: 1035 vtype = var.type 1036 if vtype.isBuffer: 1037 vid = "m_%s_ptr" % var.c_ident 1038 code('if ($vid->functionalRead(pkt)) { return true; }') 1039 code(''' 1040 return false; 1041} 1042''') 1043 1044 # Function for functional writes to messages buffered in the controller 1045 code(''' 1046uint32_t 1047$c_ident::functionalWriteBuffers(PacketPtr& pkt) 1048{ 1049 uint32_t num_functional_writes = 0; 1050''') 1051 for var in self.objects: 1052 vtype = var.type 1053 if vtype.isBuffer: 1054 vid = "m_%s_ptr" % var.c_ident 1055 code('num_functional_writes += $vid->functionalWrite(pkt);') 1056 code(''' 1057 return num_functional_writes; 1058} 1059''') 1060 1061 # Check if this controller has a peer, if yes then write the 1062 # function for connecting to the peer. 1063 if has_peer: 1064 code(''' 1065 1066void 1067$c_ident::getQueuesFromPeer(AbstractController *peer) 1068{ 1069''') 1070 for var in self.objects: 1071 if "network" in var and "physical_network" in var and \ 1072 var["network"] == "From": 1073 code(''' 1074m_${{var.c_ident}}_ptr = peer->getPeerQueue(${{var["physical_network"]}}); 1075assert(m_${{var.c_ident}}_ptr != NULL); 1076m_${{var.c_ident}}_ptr->setReceiver(this); 1077 1078''') 1079 code('}') 1080 1081 code.write(path, "%s.cc" % c_ident) 1082 1083 def printCWakeup(self, path, includes): 1084 '''Output the wakeup loop for the events''' 1085 1086 code = self.symtab.codeFormatter() 1087 ident = self.ident 1088 1089 outputRequest_types = True 1090 if len(self.request_types) == 0: 1091 outputRequest_types = False 1092 1093 code(''' 1094// Auto generated C++ code started by $__file__:$__line__ 1095// ${ident}: ${{self.short}} 1096 1097#include <sys/types.h> 1098#include <unistd.h> 1099 1100#include <cassert> 1101 1102#include "base/misc.hh" 1103#include "debug/RubySlicc.hh" 1104#include "mem/protocol/${ident}_Controller.hh" 1105#include "mem/protocol/${ident}_Event.hh" 1106#include "mem/protocol/${ident}_State.hh" 1107''') 1108 1109 if outputRequest_types: 1110 code('''#include "mem/protocol/${ident}_RequestType.hh"''') 1111 1112 code(''' 1113#include "mem/protocol/Types.hh" 1114#include "mem/ruby/common/Global.hh" 1115#include "mem/ruby/system/System.hh" 1116''') 1117 1118 1119 for include_path in includes: 1120 code('#include "${{include_path}}"') 1121 1122 code(''' 1123 1124using namespace std; 1125 1126void 1127${ident}_Controller::wakeup() 1128{ 1129 int counter = 0; 1130 while (true) { 1131 // Some cases will put us into an infinite loop without this limit 1132 assert(counter <= m_transitions_per_cycle); 1133 if (counter == m_transitions_per_cycle) { 1134 // Count how often we are fully utilized 1135 m_fully_busy_cycles++; 1136 1137 // Wakeup in another cycle and try again 1138 scheduleEvent(Cycles(1)); 1139 break; 1140 } 1141''') 1142 1143 code.indent() 1144 code.indent() 1145 1146 # InPorts 1147 # 1148 for port in self.in_ports: 1149 code.indent() 1150 code('// ${ident}InPort $port') 1151 if port.pairs.has_key("rank"): 1152 code('m_cur_in_port_rank = ${{port.pairs["rank"]}};') 1153 else: 1154 code('m_cur_in_port_rank = 0;') 1155 code('${{port["c_code_in_port"]}}') 1156 code.dedent() 1157 1158 code('') 1159 1160 code.dedent() 1161 code.dedent() 1162 code(''' 1163 break; // If we got this far, we have nothing left todo 1164 } 1165} 1166''') 1167 1168 code.write(path, "%s_Wakeup.cc" % self.ident) 1169 1170 def printCSwitch(self, path): 1171 '''Output switch statement for transition table''' 1172 1173 code = self.symtab.codeFormatter() 1174 ident = self.ident 1175 1176 code(''' 1177// Auto generated C++ code started by $__file__:$__line__ 1178// ${ident}: ${{self.short}} 1179 1180#include <cassert> 1181 1182#include "base/misc.hh" 1183#include "base/trace.hh" 1184#include "debug/ProtocolTrace.hh" 1185#include "debug/RubyGenerated.hh" 1186#include "mem/protocol/${ident}_Controller.hh" 1187#include "mem/protocol/${ident}_Event.hh" 1188#include "mem/protocol/${ident}_State.hh" 1189#include "mem/protocol/Types.hh" 1190#include "mem/ruby/common/Global.hh" 1191#include "mem/ruby/system/System.hh" 1192 1193#define HASH_FUN(state, event) ((int(state)*${ident}_Event_NUM)+int(event)) 1194 1195#define GET_TRANSITION_COMMENT() (${ident}_transitionComment.str()) 1196#define CLEAR_TRANSITION_COMMENT() (${ident}_transitionComment.str("")) 1197 1198TransitionResult 1199${ident}_Controller::doTransition(${ident}_Event event, 1200''') 1201 if self.EntryType != None: 1202 code(''' 1203 ${{self.EntryType.c_ident}}* m_cache_entry_ptr, 1204''') 1205 if self.TBEType != None: 1206 code(''' 1207 ${{self.TBEType.c_ident}}* m_tbe_ptr, 1208''') 1209 code(''' 1210 const Address &addr) 1211{ 1212''') 1213 if self.TBEType != None and self.EntryType != None: 1214 code('${ident}_State state = getState(m_tbe_ptr, m_cache_entry_ptr, addr);') 1215 elif self.TBEType != None: 1216 code('${ident}_State state = getState(m_tbe_ptr, addr);') 1217 elif self.EntryType != None: 1218 code('${ident}_State state = getState(m_cache_entry_ptr, addr);') 1219 else: 1220 code('${ident}_State state = getState(addr);') 1221 1222 code(''' 1223 ${ident}_State next_state = state; 1224 1225 DPRINTF(RubyGenerated, "%s, Time: %lld, state: %s, event: %s, addr: %s\\n", 1226 *this, curCycle(), ${ident}_State_to_string(state), 1227 ${ident}_Event_to_string(event), addr); 1228 1229 TransitionResult result = 1230''') 1231 if self.TBEType != None and self.EntryType != None: 1232 code('doTransitionWorker(event, state, next_state, m_tbe_ptr, m_cache_entry_ptr, addr);') 1233 elif self.TBEType != None: 1234 code('doTransitionWorker(event, state, next_state, m_tbe_ptr, addr);') 1235 elif self.EntryType != None: 1236 code('doTransitionWorker(event, state, next_state, m_cache_entry_ptr, addr);') 1237 else: 1238 code('doTransitionWorker(event, state, next_state, addr);') 1239 1240 code(''' 1241 if (result == TransitionResult_Valid) { 1242 DPRINTF(RubyGenerated, "next_state: %s\\n", 1243 ${ident}_State_to_string(next_state)); 1244 countTransition(state, event); 1245 DPRINTFR(ProtocolTrace, "%15d %3s %10s%20s %6s>%-6s %s %s\\n", 1246 curTick(), m_version, "${ident}", 1247 ${ident}_Event_to_string(event), 1248 ${ident}_State_to_string(state), 1249 ${ident}_State_to_string(next_state), 1250 addr, GET_TRANSITION_COMMENT()); 1251 1252 CLEAR_TRANSITION_COMMENT(); 1253''') 1254 if self.TBEType != None and self.EntryType != None: 1255 code('setState(m_tbe_ptr, m_cache_entry_ptr, addr, next_state);') 1256 code('setAccessPermission(m_cache_entry_ptr, addr, next_state);') 1257 elif self.TBEType != None: 1258 code('setState(m_tbe_ptr, addr, next_state);') 1259 code('setAccessPermission(addr, next_state);') 1260 elif self.EntryType != None: 1261 code('setState(m_cache_entry_ptr, addr, next_state);') 1262 code('setAccessPermission(m_cache_entry_ptr, addr, next_state);') 1263 else: 1264 code('setState(addr, next_state);') 1265 code('setAccessPermission(addr, next_state);') 1266 1267 code(''' 1268 } else if (result == TransitionResult_ResourceStall) { 1269 DPRINTFR(ProtocolTrace, "%15s %3s %10s%20s %6s>%-6s %s %s\\n", 1270 curTick(), m_version, "${ident}", 1271 ${ident}_Event_to_string(event), 1272 ${ident}_State_to_string(state), 1273 ${ident}_State_to_string(next_state), 1274 addr, "Resource Stall"); 1275 } else if (result == TransitionResult_ProtocolStall) { 1276 DPRINTF(RubyGenerated, "stalling\\n"); 1277 DPRINTFR(ProtocolTrace, "%15s %3s %10s%20s %6s>%-6s %s %s\\n", 1278 curTick(), m_version, "${ident}", 1279 ${ident}_Event_to_string(event), 1280 ${ident}_State_to_string(state), 1281 ${ident}_State_to_string(next_state), 1282 addr, "Protocol Stall"); 1283 } 1284 1285 return result; 1286} 1287 1288TransitionResult 1289${ident}_Controller::doTransitionWorker(${ident}_Event event, 1290 ${ident}_State state, 1291 ${ident}_State& next_state, 1292''') 1293 1294 if self.TBEType != None: 1295 code(''' 1296 ${{self.TBEType.c_ident}}*& m_tbe_ptr, 1297''') 1298 if self.EntryType != None: 1299 code(''' 1300 ${{self.EntryType.c_ident}}*& m_cache_entry_ptr, 1301''') 1302 code(''' 1303 const Address& addr) 1304{ 1305 switch(HASH_FUN(state, event)) { 1306''') 1307 1308 # This map will allow suppress generating duplicate code 1309 cases = orderdict() 1310 1311 for trans in self.transitions: 1312 case_string = "%s_State_%s, %s_Event_%s" % \ 1313 (self.ident, trans.state.ident, self.ident, trans.event.ident) 1314 1315 case = self.symtab.codeFormatter() 1316 # Only set next_state if it changes 1317 if trans.state != trans.nextState: 1318 ns_ident = trans.nextState.ident 1319 case('next_state = ${ident}_State_${ns_ident};') 1320 1321 actions = trans.actions 1322 request_types = trans.request_types 1323 1324 # Check for resources 1325 case_sorter = [] 1326 res = trans.resources 1327 for key,val in res.iteritems(): 1328 if key.type.ident != "DNUCAStopTable": 1329 val = ''' 1330if (!%s.areNSlotsAvailable(%s)) 1331 return TransitionResult_ResourceStall; 1332''' % (key.code, val) 1333 case_sorter.append(val) 1334 1335 # Check all of the request_types for resource constraints 1336 for request_type in request_types: 1337 val = ''' 1338if (!checkResourceAvailable(%s_RequestType_%s, addr)) { 1339 return TransitionResult_ResourceStall; 1340} 1341''' % (self.ident, request_type.ident) 1342 case_sorter.append(val) 1343 1344 # Emit the code sequences in a sorted order. This makes the 1345 # output deterministic (without this the output order can vary 1346 # since Map's keys() on a vector of pointers is not deterministic 1347 for c in sorted(case_sorter): 1348 case("$c") 1349 1350 # Record access types for this transition 1351 for request_type in request_types: 1352 case('recordRequestType(${ident}_RequestType_${{request_type.ident}}, addr);') 1353 1354 # Figure out if we stall 1355 stall = False 1356 for action in actions: 1357 if action.ident == "z_stall": 1358 stall = True 1359 break 1360 1361 if stall: 1362 case('return TransitionResult_ProtocolStall;') 1363 else: 1364 if self.TBEType != None and self.EntryType != None: 1365 for action in actions: 1366 case('${{action.ident}}(m_tbe_ptr, m_cache_entry_ptr, addr);') 1367 elif self.TBEType != None: 1368 for action in actions: 1369 case('${{action.ident}}(m_tbe_ptr, addr);') 1370 elif self.EntryType != None: 1371 for action in actions: 1372 case('${{action.ident}}(m_cache_entry_ptr, addr);') 1373 else: 1374 for action in actions: 1375 case('${{action.ident}}(addr);') 1376 case('return TransitionResult_Valid;') 1377 1378 case = str(case) 1379 1380 # Look to see if this transition code is unique. 1381 if case not in cases: 1382 cases[case] = [] 1383 1384 cases[case].append(case_string) 1385 1386 # Walk through all of the unique code blocks and spit out the 1387 # corresponding case statement elements 1388 for case,transitions in cases.iteritems(): 1389 # Iterative over all the multiple transitions that share 1390 # the same code 1391 for trans in transitions: 1392 code(' case HASH_FUN($trans):') 1393 code(' $case') 1394 1395 code(''' 1396 default: 1397 fatal("Invalid transition\\n" 1398 "%s time: %d addr: %s event: %s state: %s\\n", 1399 name(), curCycle(), addr, event, state); 1400 } 1401 return TransitionResult_Valid; 1402} 1403''') 1404 code.write(path, "%s_Transitions.cc" % self.ident) 1405 1406 1407 # ************************** 1408 # ******* HTML Files ******* 1409 # ************************** 1410 def frameRef(self, click_href, click_target, over_href, over_num, text): 1411 code = self.symtab.codeFormatter(fix_newlines=False) 1412 code("""<A href=\"$click_href\" target=\"$click_target\" onmouseover=\" 1413 if (parent.frames[$over_num].location != parent.location + '$over_href') { 1414 parent.frames[$over_num].location='$over_href' 1415 }\"> 1416 ${{html.formatShorthand(text)}} 1417 </A>""") 1418 return str(code) 1419 1420 def writeHTMLFiles(self, path): 1421 # Create table with no row hilighted 1422 self.printHTMLTransitions(path, None) 1423 1424 # Generate transition tables 1425 for state in self.states.itervalues(): 1426 self.printHTMLTransitions(path, state) 1427 1428 # Generate action descriptions 1429 for action in self.actions.itervalues(): 1430 name = "%s_action_%s.html" % (self.ident, action.ident) 1431 code = html.createSymbol(action, "Action") 1432 code.write(path, name) 1433 1434 # Generate state descriptions 1435 for state in self.states.itervalues(): 1436 name = "%s_State_%s.html" % (self.ident, state.ident) 1437 code = html.createSymbol(state, "State") 1438 code.write(path, name) 1439 1440 # Generate event descriptions 1441 for event in self.events.itervalues(): 1442 name = "%s_Event_%s.html" % (self.ident, event.ident) 1443 code = html.createSymbol(event, "Event") 1444 code.write(path, name) 1445 1446 def printHTMLTransitions(self, path, active_state): 1447 code = self.symtab.codeFormatter() 1448 1449 code(''' 1450<HTML> 1451<BODY link="blue" vlink="blue"> 1452 1453<H1 align="center">${{html.formatShorthand(self.short)}}: 1454''') 1455 code.indent() 1456 for i,machine in enumerate(self.symtab.getAllType(StateMachine)): 1457 mid = machine.ident 1458 if i != 0: 1459 extra = " - " 1460 else: 1461 extra = "" 1462 if machine == self: 1463 code('$extra$mid') 1464 else: 1465 code('$extra<A target="Table" href="${mid}_table.html">$mid</A>') 1466 code.dedent() 1467 1468 code(""" 1469</H1> 1470 1471<TABLE border=1> 1472<TR> 1473 <TH> </TH> 1474""") 1475 1476 for event in self.events.itervalues(): 1477 href = "%s_Event_%s.html" % (self.ident, event.ident) 1478 ref = self.frameRef(href, "Status", href, "1", event.short) 1479 code('<TH bgcolor=white>$ref</TH>') 1480 1481 code('</TR>') 1482 # -- Body of table 1483 for state in self.states.itervalues(): 1484 # -- Each row 1485 if state == active_state: 1486 color = "yellow" 1487 else: 1488 color = "white" 1489 1490 click = "%s_table_%s.html" % (self.ident, state.ident) 1491 over = "%s_State_%s.html" % (self.ident, state.ident) 1492 text = html.formatShorthand(state.short) 1493 ref = self.frameRef(click, "Table", over, "1", state.short) 1494 code(''' 1495<TR> 1496 <TH bgcolor=$color>$ref</TH> 1497''') 1498 1499 # -- One column for each event 1500 for event in self.events.itervalues(): 1501 trans = self.table.get((state,event), None) 1502 if trans is None: 1503 # This is the no transition case 1504 if state == active_state: 1505 color = "#C0C000" 1506 else: 1507 color = "lightgrey" 1508 1509 code('<TD bgcolor=$color> </TD>') 1510 continue 1511 1512 next = trans.nextState 1513 stall_action = False 1514 1515 # -- Get the actions 1516 for action in trans.actions: 1517 if action.ident == "z_stall" or \ 1518 action.ident == "zz_recycleMandatoryQueue": 1519 stall_action = True 1520 1521 # -- Print out "actions/next-state" 1522 if stall_action: 1523 if state == active_state: 1524 color = "#C0C000" 1525 else: 1526 color = "lightgrey" 1527 1528 elif active_state and next.ident == active_state.ident: 1529 color = "aqua" 1530 elif state == active_state: 1531 color = "yellow" 1532 else: 1533 color = "white" 1534 1535 code('<TD bgcolor=$color>') 1536 for action in trans.actions: 1537 href = "%s_action_%s.html" % (self.ident, action.ident) 1538 ref = self.frameRef(href, "Status", href, "1", 1539 action.short) 1540 code(' $ref') 1541 if next != state: 1542 if trans.actions: 1543 code('/') 1544 click = "%s_table_%s.html" % (self.ident, next.ident) 1545 over = "%s_State_%s.html" % (self.ident, next.ident) 1546 ref = self.frameRef(click, "Table", over, "1", next.short) 1547 code("$ref") 1548 code("</TD>") 1549 1550 # -- Each row 1551 if state == active_state: 1552 color = "yellow" 1553 else: 1554 color = "white" 1555 1556 click = "%s_table_%s.html" % (self.ident, state.ident) 1557 over = "%s_State_%s.html" % (self.ident, state.ident) 1558 ref = self.frameRef(click, "Table", over, "1", state.short) 1559 code(''' 1560 <TH bgcolor=$color>$ref</TH> 1561</TR> 1562''') 1563 code(''' 1564<!- Column footer-> 1565<TR> 1566 <TH> </TH> 1567''') 1568 1569 for event in self.events.itervalues(): 1570 href = "%s_Event_%s.html" % (self.ident, event.ident) 1571 ref = self.frameRef(href, "Status", href, "1", event.short) 1572 code('<TH bgcolor=white>$ref</TH>') 1573 code(''' 1574</TR> 1575</TABLE> 1576</BODY></HTML> 1577''') 1578 1579 1580 if active_state: 1581 name = "%s_table_%s.html" % (self.ident, active_state.ident) 1582 else: 1583 name = "%s_table.html" % self.ident 1584 code.write(path, name) 1585 1586__all__ = [ "StateMachine" ] 1587