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CPU cycle ticks. This allows the user to have CPUs of different frequencies, and also allows frequencies and latencies that are not evenly divisible by the CPU frequency. For now, the CPU frequency is still set to the global frequency, but soon, we'll hopefully make the global frequency fixed at something like 1THz and set all other frequencies independently. arch/alpha/ev5.cc: The cycles counter is based on the current cpu cycle. cpu/base_cpu.cc: frequency isn't the cpu parameter anymore, cycleTime is. cpu/base_cpu.hh: frequency isn't the cpu parameter anymore, cycleTime is. create several public functions for getting the cpu frequency and the numbers of ticks for a given number of cycles, etc. cpu/memtest/memtest.cc: cpu/simple_cpu/simple_cpu.cc: cpu/simple_cpu/simple_cpu.hh: cpu/trace/trace_cpu.cc: Now that ticks aren't cpu cycles, fixup code to advance by the proper number of ticks. cpu/memtest/memtest.hh: cpu/trace/trace_cpu.hh: Provide a function to get the number of ticks for a given number of cycles. dev/alpha_console.cc: Update for changes in the way that frequencies and latencies are accessed. Move some stuff to init() dev/alpha_console.hh: Need a pointer to the system and the cpu to get the frequency so we can pass the info to the console code. dev/etherbus.cc: dev/etherbus.hh: dev/etherlink.cc: dev/etherlink.hh: dev/ethertap.cc: dev/ide_disk.hh: dev/ns_gige.cc: dev/ns_gige.hh: update for changes in the way bandwidths are passed from python to C++ to accomidate the new way that ticks works. dev/ide_disk.cc: update for changes in the way bandwidths are passed from python to C++ to accomidate the new way that ticks works. Add some extra debugging printfs dev/platform.cc: dev/sinic.cc: dev/sinic.hh: outline the constructor and destructor dev/platform.hh: outline the constructor and destructor. don't keep track of the interrupt frequency. Only provide the accessor function. dev/tsunami.cc: dev/tsunami.hh: outline the constructor and destructor Don't set the interrupt frequency here. Get it from the actual device that does the interrupting. dev/tsunami_io.cc: dev/tsunami_io.hh: Make the interrupt interval a configuration parameter. (And convert the interval to the new latency/frequency stuff in the python) kern/linux/linux_system.cc: update for changes in the way bandwidths are passed from python to C++ to accomidate the new way that ticks works. For now, we must get the boot cpu's frequency as a parameter since allowing the system to have a pointer to the boot cpu would cause a cycle. kern/tru64/tru64_system.cc: For now, we must get the boot cpu's frequency as a parameter since allowing the system to have a pointer to the boot cpu would cause a cycle. python/m5/config.py: Fix support for cycle_time relative latencies and frequencies. Add support for getting a NetworkBandwidth or a MemoryBandwidth. python/m5/objects/BaseCPU.mpy: All CPUs now have a cycle_time. The default is the global frequency, but it is now possible to set the global frequency to some large value (like 1THz) and set each CPU frequency independently. python/m5/objects/BaseCache.mpy: python/m5/objects/Ide.mpy: Make this a Latency parameter python/m5/objects/BaseSystem.mpy: We need to pass the boot CPU's frequency to the system python/m5/objects/Ethernet.mpy: Update parameter types to use latency and bandwidth types python/m5/objects/Platform.mpy: this frequency isn't needed. We get it from the clock interrupt. python/m5/objects/Tsunami.mpy: The clock generator should hold the frequency sim/eventq.hh: Need to remove this assertion because the writeback event queue is different from the CPU's event queue which can cause this assertion to fail. sim/process.cc: Fix comment. sim/system.hh: Struct member to hold the boot CPU's frequency. sim/universe.cc: remove unneeded variable. --HG-- extra : convert_revision : 51efe4041095234bf458d9b3b0d417f4cae16fdc
407 lines
11 KiB
C++
407 lines
11 KiB
C++
/*
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* Copyright (c) 2000-2004 The Regents of The University of Michigan
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* All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions are
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* met: redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer;
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* redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution;
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* neither the name of the copyright holders nor the names of its
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* contributors may be used to endorse or promote products derived from
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* this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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/* @file
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* EventQueue interfaces
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*/
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#ifndef __SIM_EVENTQ_HH__
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#define __SIM_EVENTQ_HH__
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#include <assert.h>
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#include <algorithm>
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#include <map>
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#include <string>
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#include <vector>
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#include "sim/host.hh" // for Tick
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#include "base/fast_alloc.hh"
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#include "base/trace.hh"
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#include "sim/serialize.hh"
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class EventQueue; // forward declaration
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//////////////////////
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//
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// Main Event Queue
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//
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// Events on this queue are processed at the *beginning* of each
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// cycle, before the pipeline simulation is performed.
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//
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// defined in eventq.cc
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//
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//////////////////////
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extern EventQueue mainEventQueue;
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/*
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* An item on an event queue. The action caused by a given
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* event is specified by deriving a subclass and overriding the
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* process() member function.
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*/
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class Event : public Serializable, public FastAlloc
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{
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friend class EventQueue;
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private:
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/// queue to which this event belongs (though it may or may not be
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/// scheduled on this queue yet)
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EventQueue *queue;
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Event *next;
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Tick _when; //!< timestamp when event should be processed
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int _priority; //!< event priority
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char _flags;
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protected:
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enum Flags {
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None = 0x0,
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Squashed = 0x1,
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Scheduled = 0x2,
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AutoDelete = 0x4,
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AutoSerialize = 0x8
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};
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bool getFlags(Flags f) const { return (_flags & f) == f; }
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void setFlags(Flags f) { _flags |= f; }
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void clearFlags(Flags f) { _flags &= ~f; }
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protected:
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EventQueue *theQueue() const { return queue; }
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#if TRACING_ON
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Tick when_created; //!< Keep track of creation time For debugging
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Tick when_scheduled; //!< Keep track of creation time For debugging
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virtual void trace(const char *action); //!< trace event activity
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#else
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void trace(const char *) {}
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#endif
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unsigned annotated_value;
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public:
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/// Event priorities, to provide tie-breakers for events scheduled
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/// at the same cycle. Most events are scheduled at the default
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/// priority; these values are used to control events that need to
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/// be ordered within a cycle.
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enum Priority {
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/// Breakpoints should happen before anything else, so we
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/// don't miss any action when debugging.
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Debug_Break_Pri = -100,
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/// For some reason "delayed" inter-cluster writebacks are
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/// scheduled before regular writebacks (which have default
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/// priority). Steve?
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Delayed_Writeback_Pri = -1,
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/// Default is zero for historical reasons.
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Default_Pri = 0,
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/// CPU switches schedule the new CPU's tick event for the
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/// same cycle (after unscheduling the old CPU's tick event).
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/// The switch needs to come before any tick events to make
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/// sure we don't tick both CPUs in the same cycle.
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CPU_Switch_Pri = 31,
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/// Serailization needs to occur before tick events also, so
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/// that a serialize/unserialize is identical to an on-line
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/// CPU switch.
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Serialize_Pri = 32,
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/// CPU ticks must come after other associated CPU events
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/// (such as writebacks).
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CPU_Tick_Pri = 50,
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/// Statistics events (dump, reset, etc.) come after
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/// everything else, but before exit.
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Stat_Event_Pri = 90,
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/// If we want to exit on this cycle, it's the very last thing
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/// we do.
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Sim_Exit_Pri = 100
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};
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/*
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* Event constructor
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* @param queue that the event gets scheduled on
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*/
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Event(EventQueue *q, Priority p = Default_Pri)
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: queue(q), next(NULL), _priority(p), _flags(None),
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#if TRACING_ON
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when_created(curTick), when_scheduled(0),
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#endif
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annotated_value(0)
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{
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}
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~Event() {}
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virtual const std::string name() const {
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return csprintf("Event_%x", (uintptr_t)this);
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}
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/// Determine if the current event is scheduled
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bool scheduled() const { return getFlags(Scheduled); }
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/// Schedule the event with the current priority or default priority
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void schedule(Tick t);
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/// Reschedule the event with the current priority
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void reschedule(Tick t);
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/// Remove the event from the current schedule
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void deschedule();
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/// Return a C string describing the event. This string should
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/// *not* be dynamically allocated; just a const char array
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/// describing the event class.
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virtual const char *description();
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/// Dump the current event data
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void dump();
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/*
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* This member function is invoked when the event is processed
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* (occurs). There is no default implementation; each subclass
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* must provide its own implementation. The event is not
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* automatically deleted after it is processed (to allow for
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* statically allocated event objects).
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*
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* If the AutoDestroy flag is set, the object is deleted once it
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* is processed.
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*/
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virtual void process() = 0;
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void annotate(unsigned value) { annotated_value = value; };
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unsigned annotation() { return annotated_value; }
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/// Squash the current event
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void squash() { setFlags(Squashed); }
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/// Check whether the event is squashed
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bool squashed() { return getFlags(Squashed); }
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/// Get the time that the event is scheduled
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Tick when() const { return _when; }
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/// Get the event priority
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int priority() const { return _priority; }
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struct priority_compare :
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public std::binary_function<Event *, Event *, bool>
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{
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bool operator()(const Event *l, const Event *r) const {
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return l->when() >= r->when() || l->priority() >= r->priority();
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}
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};
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virtual void serialize(std::ostream &os);
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virtual void unserialize(Checkpoint *cp, const std::string §ion);
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};
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template <class T, void (T::* F)()>
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void
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DelayFunction(Tick when, T *object)
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{
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class DelayEvent : public Event
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{
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private:
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T *object;
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public:
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DelayEvent(Tick when, T *o)
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: Event(&mainEventQueue), object(o)
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{ setFlags(this->AutoDestroy); schedule(when); }
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void process() { (object->*F)(); }
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const char *description() { return "delay"; }
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};
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new DelayEvent(when, object);
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}
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template <class T, void (T::* F)()>
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class EventWrapper : public Event
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{
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private:
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T *object;
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public:
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EventWrapper(T *obj, bool del = false, EventQueue *q = &mainEventQueue,
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Priority p = Default_Pri)
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: Event(q, p), object(obj)
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{
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if (del)
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setFlags(AutoDelete);
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}
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void process() { (object->*F)(); }
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};
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/*
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* Queue of events sorted in time order
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*/
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class EventQueue : public Serializable
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{
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protected:
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std::string objName;
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private:
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Event *head;
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void insert(Event *event);
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void remove(Event *event);
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public:
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// constructor
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EventQueue(const std::string &n)
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: objName(n), head(NULL)
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{}
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virtual const std::string name() const { return objName; }
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// schedule the given event on this queue
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void schedule(Event *ev);
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void deschedule(Event *ev);
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void reschedule(Event *ev);
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Tick nextTick() { return head->when(); }
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void serviceOne();
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// process all events up to the given timestamp. we inline a
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// quick test to see if there are any events to process; if so,
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// call the internal out-of-line version to process them all.
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void serviceEvents(Tick when) {
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while (!empty()) {
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if (nextTick() > when)
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break;
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/**
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* @todo this assert is a good bug catcher. I need to
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* make it true again.
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*/
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//assert(head->when() >= when && "event scheduled in the past");
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serviceOne();
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}
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}
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// default: process all events up to 'now' (curTick)
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void serviceEvents() { serviceEvents(curTick); }
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// return true if no events are queued
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bool empty() { return head == NULL; }
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void dump();
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Tick nextEventTime() { return empty() ? curTick : head->when(); }
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virtual void serialize(std::ostream &os);
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virtual void unserialize(Checkpoint *cp, const std::string §ion);
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};
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//////////////////////
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//
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// inline functions
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//
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// can't put these inside declaration due to circular dependence
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// between Event and EventQueue classes.
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//
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//////////////////////
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// schedule at specified time (place on event queue specified via
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// constructor)
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inline void
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Event::schedule(Tick t)
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{
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assert(!scheduled());
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assert(t >= curTick);
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setFlags(Scheduled);
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#if TRACING_ON
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when_scheduled = curTick;
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#endif
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_when = t;
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queue->schedule(this);
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}
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inline void
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Event::deschedule()
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{
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assert(scheduled());
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clearFlags(Squashed);
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clearFlags(Scheduled);
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queue->deschedule(this);
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}
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inline void
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Event::reschedule(Tick t)
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{
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assert(scheduled());
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clearFlags(Squashed);
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#if TRACING_ON
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when_scheduled = curTick;
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#endif
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_when = t;
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queue->reschedule(this);
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}
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inline void
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EventQueue::schedule(Event *event)
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{
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insert(event);
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if (DTRACE(Event))
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event->trace("scheduled");
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}
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inline void
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EventQueue::deschedule(Event *event)
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{
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remove(event);
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if (DTRACE(Event))
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event->trace("descheduled");
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}
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inline void
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EventQueue::reschedule(Event *event)
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{
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remove(event);
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insert(event);
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if (DTRACE(Event))
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event->trace("rescheduled");
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}
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#endif // __SIM_EVENTQ_HH__
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