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/*
* Copyright (c) 2016 ARM Limited
* All rights reserved
*
* The license below extends only to copyright in the software and shall
* not be construed as granting a license to any other intellectual
* property including but not limited to intellectual property relating
* to a hardware implementation of the functionality of the software
* licensed hereunder. You may use the software subject to the license
* terms below provided that you ensure that this notice is replicated
* unmodified and in its entirety in all distributions of the software,
* modified or unmodified, in source code or in binary form.
*
* Copyright (c) 2004-2005 The Regents of The University of Michigan
* Copyright (c) 2013 Advanced Micro Devices, Inc.
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Authors: Kevin Lim
* Gabe Black
*/
#ifndef __CPU_O3_REGFILE_HH__
#define __CPU_O3_REGFILE_HH__
#include <vector>
#include "arch/isa_traits.hh"
#include "arch/kernel_stats.hh"
#include "arch/types.hh"
#include "base/trace.hh"
#include "config/the_isa.hh"
#include "cpu/o3/comm.hh"
#include "debug/IEW.hh"
#include "enums/VecRegRenameMode.hh"
class UnifiedFreeList;
/**
* Simple physical register file class.
*/
class PhysRegFile
{
private:
typedef TheISA::IntReg IntReg;
typedef TheISA::FloatReg FloatReg;
typedef TheISA::FloatRegBits FloatRegBits;
typedef TheISA::CCReg CCReg;
using VecElem = TheISA::VecElem;
using VecRegContainer = TheISA::VecRegContainer;
using PhysIds = std::vector<PhysRegId>;
using VecMode = Enums::VecRegRenameMode;
public:
using IdRange = std::pair<PhysIds::const_iterator,
PhysIds::const_iterator>;
private:
static constexpr auto NumVecElemPerVecReg = TheISA::NumVecElemPerVecReg;
typedef union {
FloatReg d;
FloatRegBits q;
} PhysFloatReg;
/** Integer register file. */
std::vector<IntReg> intRegFile;
std::vector<PhysRegId> intRegIds;
std::vector<bool> intTaintMap;
/** Floating point register file. */
std::vector<PhysFloatReg> floatRegFile;
std::vector<PhysRegId> floatRegIds;
std::vector<bool> floatTaintMap;
/** Vector register file. */
std::vector<VecRegContainer> vectorRegFile;
std::vector<PhysRegId> vecRegIds;
std::vector<PhysRegId> vecElemIds;
std::vector<bool> vecTaintMap;
/** Condition-code register file. */
std::vector<CCReg> ccRegFile;
std::vector<PhysRegId> ccRegIds;
std::vector<bool> ccTaintMap;
/** Misc Reg Ids */
std::vector<PhysRegId> miscRegIds;
std::vector<bool> miscTaintMap;
/**
* Number of physical general purpose registers
*/
unsigned numPhysicalIntRegs;
/**
* Number of physical floating point registers
*/
unsigned numPhysicalFloatRegs;
/**
* Number of physical vector registers
*/
unsigned numPhysicalVecRegs;
/**
* Number of physical vector element registers
*/
unsigned numPhysicalVecElemRegs;
/**
* Number of physical CC registers
*/
unsigned numPhysicalCCRegs;
/** Total number of physical registers. */
unsigned totalNumRegs;
/** Mode in which vector registers are addressed. */
VecMode vecMode;
public:
/**
* Constructs a physical register file with the specified amount of
* integer and floating point registers.
*/
PhysRegFile(unsigned _numPhysicalIntRegs,
unsigned _numPhysicalFloatRegs,
unsigned _numPhysicalVecRegs,
unsigned _numPhysicalCCRegs,
VecMode vmode
);
/**
* Destructor to free resources
*/
~PhysRegFile() {}
/** Initialize the free list */
void initFreeList(UnifiedFreeList *freeList);
/** @return the number of integer physical registers. */
unsigned numIntPhysRegs() const { return numPhysicalIntRegs; }
/** @return the number of floating-point physical registers. */
unsigned numFloatPhysRegs() const { return numPhysicalFloatRegs; }
/** @return the number of vector physical registers. */
unsigned numVecPhysRegs() const { return numPhysicalVecRegs; }
/** @return the number of vector physical registers. */
unsigned numVecElemPhysRegs() const { return numPhysicalVecElemRegs; }
/** @return the number of condition-code physical registers. */
unsigned numCCPhysRegs() const { return numPhysicalCCRegs; }
/** @return the total number of physical registers. */
unsigned totalNumPhysRegs() const { return totalNumRegs; }
/** Gets a misc register PhysRegIdPtr. */
PhysRegIdPtr getMiscRegId(RegIndex reg_idx) {
return &miscRegIds[reg_idx];
}
/** Set a physical register as tainted */
void setTaint(PhysRegIdPtr phys_reg) {
RegIndex idx = phys_reg->index();
switch (phys_reg->classValue()) {
case IntRegClass:
intTaintMap[idx] = true;
break;
case FloatRegClass:
floatTaintMap[idx] = true;
break;
case CCRegClass:
ccTaintMap[idx] = true;
break;
case MiscRegClass:
miscTaintMap[idx] = true;
break;
default:
break;
}
}
/** Reads an integer register. */
uint64_t readIntReg(PhysRegIdPtr phys_reg) const
{
assert(phys_reg->isIntPhysReg());
DPRINTF(IEW, "RegFile: Access to int register %i, has data "
"%#x\n", phys_reg->index(), intRegFile[phys_reg->index()]);
return intRegFile[phys_reg->index()];
}
/** Reads a floating point register (double precision). */
FloatReg readFloatReg(PhysRegIdPtr phys_reg) const
{
assert(phys_reg->isFloatPhysReg());
DPRINTF(IEW, "RegFile: Access to float register %i, has "
"data %#x\n", phys_reg->index(),
floatRegFile[phys_reg->index()].q);
return floatRegFile[phys_reg->index()].d;
}
FloatRegBits readFloatRegBits(PhysRegIdPtr phys_reg) const
{
assert(phys_reg->isFloatPhysReg());
FloatRegBits floatRegBits = floatRegFile[phys_reg->index()].q;
DPRINTF(IEW, "RegFile: Access to float register %i as int, "
"has data %#x\n", phys_reg->index(),
(uint64_t)floatRegBits);
return floatRegBits;
}
/** Reads a vector register. */
const VecRegContainer& readVecReg(PhysRegIdPtr phys_reg) const
{
assert(phys_reg->isVectorPhysReg());
DPRINTF(IEW, "RegFile: Access to vector register %i, has "
"data %s\n", int(phys_reg->index()),
vectorRegFile[phys_reg->index()].as<VecElem>().print());
return vectorRegFile[phys_reg->index()];
}
/** Reads a vector register for modification. */
VecRegContainer& getWritableVecReg(PhysRegIdPtr phys_reg)
{
/* const_cast for not duplicating code above. */
return const_cast<VecRegContainer&>(readVecReg(phys_reg));
}
/** Reads a vector register lane. */
template <typename VecElem, int LaneIdx>
VecLaneT<VecElem, true>
readVecLane(PhysRegIdPtr phys_reg) const
{
return readVecReg(phys_reg).laneView<VecElem, LaneIdx>();
}
/** Reads a vector register lane. */
template <typename VecElem>
VecLaneT<VecElem, true>
readVecLane(PhysRegIdPtr phys_reg) const
{
return readVecReg(phys_reg).laneView<VecElem>(phys_reg->elemIndex());
}
/** Get a vector register lane for modification. */
template <typename LD>
void
setVecLane(PhysRegIdPtr phys_reg, const LD& val)
{
assert(phys_reg->isVectorPhysReg());
DPRINTF(IEW, "RegFile: Setting vector register %i[%d] to %lx\n",
int(phys_reg->index()), phys_reg->elemIndex(), val);
vectorRegFile[phys_reg->index()].laneView<typename LD::UnderlyingType>(
phys_reg->elemIndex()) = val;
}
/** Reads a vector element. */
const VecElem& readVecElem(PhysRegIdPtr phys_reg) const
{
assert(phys_reg->isVectorPhysElem());
auto ret = vectorRegFile[phys_reg->index()].as<VecElem>();
const VecElem& val = ret[phys_reg->elemIndex()];
DPRINTF(IEW, "RegFile: Access to element %d of vector register %i,"
" has data %#x\n", phys_reg->elemIndex(),
int(phys_reg->index()), val);
return val;
}
/** Reads a condition-code register. */
CCReg readCCReg(PhysRegIdPtr phys_reg)
{
assert(phys_reg->isCCPhysReg());
DPRINTF(IEW, "RegFile: Access to cc register %i, has "
"data %#x\n", phys_reg->index(),
ccRegFile[phys_reg->index()]);
return ccRegFile[phys_reg->index()];
}
/** Sets an integer register to the given value. */
void setIntReg(PhysRegIdPtr phys_reg, uint64_t val)
{
assert(phys_reg->isIntPhysReg());
DPRINTF(IEW, "RegFile: Setting int register %i to %#x\n",
phys_reg->index(), val);
if (!phys_reg->isZeroReg())
intRegFile[phys_reg->index()] = val;
}
/** Sets a double precision floating point register to the given value. */
void setFloatReg(PhysRegIdPtr phys_reg, FloatReg val)
{
assert(phys_reg->isFloatPhysReg());
DPRINTF(IEW, "RegFile: Setting float register %i to %#x\n",
phys_reg->index(), (uint64_t)val);
if (!phys_reg->isZeroReg())
floatRegFile[phys_reg->index()].d = val;
}
void setFloatRegBits(PhysRegIdPtr phys_reg, FloatRegBits val)
{
assert(phys_reg->isFloatPhysReg());
DPRINTF(IEW, "RegFile: Setting float register %i to %#x\n",
phys_reg->index(), (uint64_t)val);
if (!phys_reg->isZeroReg())
floatRegFile[phys_reg->index()].q = val;
}
/** Sets a vector register to the given value. */
void setVecReg(PhysRegIdPtr phys_reg, const VecRegContainer& val)
{
assert(phys_reg->isVectorPhysReg());
DPRINTF(IEW, "RegFile: Setting vector register %i to %s\n",
int(phys_reg->index()), val.print());
vectorRegFile[phys_reg->index()] = val;
}
/** Sets a vector register to the given value. */
void setVecElem(PhysRegIdPtr phys_reg, const VecElem val)
{
assert(phys_reg->isVectorPhysElem());
DPRINTF(IEW, "RegFile: Setting element %d of vector register %i to"
" %#x\n", phys_reg->elemIndex(), int(phys_reg->index()), val);
vectorRegFile[phys_reg->index()].as<VecElem>()[phys_reg->elemIndex()] =
val;
}
/** Sets a condition-code register to the given value. */
void setCCReg(PhysRegIdPtr phys_reg, CCReg val)
{
assert(phys_reg->isCCPhysReg());
DPRINTF(IEW, "RegFile: Setting cc register %i to %#x\n",
phys_reg->index(), (uint64_t)val);
ccRegFile[phys_reg->index()] = val;
}
/** Get the PhysRegIds of the elems of a vector register.
* Auxiliary function to transition from Full vector mode to Elem mode.
*/
IdRange getRegElemIds(PhysRegIdPtr reg);
/**
* Get the PhysRegIds of the elems of all vector registers.
* Auxiliary function to transition from Full vector mode to Elem mode
* and to initialise the rename map.
*/
IdRange getRegIds(RegClass cls);
/**
* Get the true physical register id.
* As many parts work with PhysRegIdPtr, we need to be able to produce
* the pointer out of just class and register idx.
*/
PhysRegIdPtr getTrueId(PhysRegIdPtr reg);
};
#endif //__CPU_O3_REGFILE_HH__
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