8a9416ef8d
cpu/o3/alpha_dyn_inst.hh: Set the instResult using a function on the base dyn inst. cpu/o3/bpred_unit_impl.hh: Don't need to reset the state. cpu/o3/commit_impl.hh: Mark instructions as completed. Wait until all stores are written back to handle a fault. cpu/o3/cpu.cc: Clear instruction lists when switching out. cpu/o3/lsq_unit.hh: Allow wbEvent to be set externally. cpu/o3/lsq_unit_impl.hh: Mark instructions as completed properly. Also use events for writing back stores even if there is a hit in the dcache. --HG-- extra : convert_revision : 172ad088b75ac31e848a5040633152b5c051444c
270 lines
9.1 KiB
C++
270 lines
9.1 KiB
C++
/*
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* Copyright (c) 2004-2005 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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#ifndef __CPU_O3_ALPHA_DYN_INST_HH__
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#define __CPU_O3_ALPHA_DYN_INST_HH__
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#include "cpu/base_dyn_inst.hh"
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#include "cpu/inst_seq.hh"
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#include "cpu/o3/alpha_cpu.hh"
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#include "cpu/o3/alpha_impl.hh"
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/**
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* Mostly implementation & ISA specific AlphaDynInst. As with most other classes
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* in the new CPU model, it is templated on the Impl to allow for passing in of
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* all types, such as the CPU type and the ISA type. The AlphaDynInst serves
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* as the primary interface to the CPU; it plays the role that the ExecContext
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* does for the old CPU and the SimpleCPU. The goal is to abstract ExecContext
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* purely into an interface, and have it forward calls to the appropriate
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* CPU interface, which in the new CPU model's case would be this AlphaDynInst,
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* or any other high level implementation specific DynInst.
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*/
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template <class Impl>
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class AlphaDynInst : public BaseDynInst<Impl>
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{
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public:
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/** Typedef for the CPU. */
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typedef typename Impl::FullCPU FullCPU;
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/** Binary machine instruction type. */
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typedef TheISA::MachInst MachInst;
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/** Extended machine instruction type. */
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typedef TheISA::ExtMachInst ExtMachInst;
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/** Logical register index type. */
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typedef TheISA::RegIndex RegIndex;
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/** Integer register index type. */
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typedef TheISA::IntReg IntReg;
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/** Misc register index type. */
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typedef TheISA::MiscReg MiscReg;
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enum {
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MaxInstSrcRegs = TheISA::MaxInstSrcRegs, //< Max source regs
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MaxInstDestRegs = TheISA::MaxInstDestRegs, //< Max dest regs
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};
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public:
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/** BaseDynInst constructor given a binary instruction. */
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AlphaDynInst(ExtMachInst inst, Addr PC, Addr Pred_PC, InstSeqNum seq_num,
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FullCPU *cpu);
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/** BaseDynInst constructor given a static inst pointer. */
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AlphaDynInst(StaticInstPtr &_staticInst);
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/** Executes the instruction.*/
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Fault execute();
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Fault initiateAcc();
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Fault completeAcc();
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private:
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/** Initializes variables. */
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void initVars();
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public:
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MiscReg readMiscReg(int misc_reg)
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{
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return this->cpu->readMiscReg(misc_reg, this->threadNumber);
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}
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MiscReg readMiscRegWithEffect(int misc_reg, Fault &fault)
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{
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return this->cpu->readMiscRegWithEffect(misc_reg, fault,
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this->threadNumber);
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}
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Fault setMiscReg(int misc_reg, const MiscReg &val)
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{
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return this->cpu->setMiscReg(misc_reg, val, this->threadNumber);
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}
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Fault setMiscRegWithEffect(int misc_reg, const MiscReg &val)
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{
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return this->cpu->setMiscRegWithEffect(misc_reg, val,
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this->threadNumber);
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}
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#if FULL_SYSTEM
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/** Calls hardware return from error interrupt. */
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Fault hwrei();
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/** Reads interrupt flag. */
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int readIntrFlag();
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/** Sets interrupt flag. */
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void setIntrFlag(int val);
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/** Checks if system is in PAL mode. */
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bool inPalMode();
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/** Traps to handle specified fault. */
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void trap(Fault fault);
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bool simPalCheck(int palFunc);
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#else
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/** Calls a syscall. */
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void syscall();
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#endif
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private:
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/** Physical register index of the destination registers of this
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* instruction.
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*/
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PhysRegIndex _destRegIdx[MaxInstDestRegs];
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/** Physical register index of the source registers of this
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* instruction.
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*/
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PhysRegIndex _srcRegIdx[MaxInstSrcRegs];
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/** Physical register index of the previous producers of the
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* architected destinations.
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*/
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PhysRegIndex _prevDestRegIdx[MaxInstDestRegs];
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public:
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// The register accessor methods provide the index of the
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// instruction's operand (e.g., 0 or 1), not the architectural
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// register index, to simplify the implementation of register
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// renaming. We find the architectural register index by indexing
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// into the instruction's own operand index table. Note that a
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// raw pointer to the StaticInst is provided instead of a
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// ref-counted StaticInstPtr to redice overhead. This is fine as
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// long as these methods don't copy the pointer into any long-term
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// storage (which is pretty hard to imagine they would have reason
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// to do).
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uint64_t readIntReg(const StaticInst *si, int idx)
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{
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return this->cpu->readIntReg(_srcRegIdx[idx]);
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}
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float readFloatRegSingle(const StaticInst *si, int idx)
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{
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return this->cpu->readFloatRegSingle(_srcRegIdx[idx]);
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}
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double readFloatRegDouble(const StaticInst *si, int idx)
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{
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return this->cpu->readFloatRegDouble(_srcRegIdx[idx]);
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}
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uint64_t readFloatRegInt(const StaticInst *si, int idx)
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{
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return this->cpu->readFloatRegInt(_srcRegIdx[idx]);
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}
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/** @todo: Make results into arrays so they can handle multiple dest
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* registers.
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*/
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void setIntReg(const StaticInst *si, int idx, uint64_t val)
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{
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this->cpu->setIntReg(_destRegIdx[idx], val);
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BaseDynInst<Impl>::setIntReg(si, idx, val);
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}
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void setFloatRegSingle(const StaticInst *si, int idx, float val)
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{
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this->cpu->setFloatRegSingle(_destRegIdx[idx], val);
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BaseDynInst<Impl>::setFloatRegSingle(si, idx, val);
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}
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void setFloatRegDouble(const StaticInst *si, int idx, double val)
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{
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this->cpu->setFloatRegDouble(_destRegIdx[idx], val);
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BaseDynInst<Impl>::setFloatRegDouble(si, idx, val);
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}
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void setFloatRegInt(const StaticInst *si, int idx, uint64_t val)
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{
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this->cpu->setFloatRegInt(_destRegIdx[idx], val);
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BaseDynInst<Impl>::setFloatRegInt(si, idx, val);
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}
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/** Returns the physical register index of the i'th destination
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* register.
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*/
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PhysRegIndex renamedDestRegIdx(int idx) const
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{
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return _destRegIdx[idx];
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}
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/** Returns the physical register index of the i'th source register. */
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PhysRegIndex renamedSrcRegIdx(int idx) const
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{
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return _srcRegIdx[idx];
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}
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/** Returns the physical register index of the previous physical register
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* that remapped to the same logical register index.
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*/
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PhysRegIndex prevDestRegIdx(int idx) const
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{
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return _prevDestRegIdx[idx];
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}
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/** Renames a destination register to a physical register. Also records
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* the previous physical register that the logical register mapped to.
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*/
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void renameDestReg(int idx,
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PhysRegIndex renamed_dest,
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PhysRegIndex previous_rename)
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{
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_destRegIdx[idx] = renamed_dest;
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_prevDestRegIdx[idx] = previous_rename;
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}
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/** Renames a source logical register to the physical register which
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* has/will produce that logical register's result.
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* @todo: add in whether or not the source register is ready.
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*/
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void renameSrcReg(int idx, PhysRegIndex renamed_src)
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{
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_srcRegIdx[idx] = renamed_src;
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}
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public:
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/** Calculates EA part of a memory instruction. Currently unused, though
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* it may be useful in the future when memory instructions aren't
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* executed with the EA calculation and the memory access being atomic.
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*/
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Fault calcEA()
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{
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return this->staticInst->eaCompInst()->execute(this, this->traceData);
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}
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/** Does the memory access part of a memory instruction. Currently unused,
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* though it may be useful in the future when memory instructions aren't
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* executed with the EA calculation and the memory access being atomic.
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*/
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Fault memAccess()
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{
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return this->staticInst->memAccInst()->execute(this, this->traceData);
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}
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};
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#endif // __CPU_O3_ALPHA_DYN_INST_HH__
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