gem5/arch/alpha/isa/mem.isa

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// -*- mode:c++ -*-
// Copyright (c) 2003-2005 The Regents of The University of Michigan
// 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.
output header {{
/**
* Base class for general Alpha memory-format instructions.
*/
class Memory : public AlphaStaticInst
{
protected:
/// Memory request flags. See mem_req_base.hh.
unsigned memAccessFlags;
/// Pointer to EAComp object.
const StaticInstPtr<AlphaISA> eaCompPtr;
/// Pointer to MemAcc object.
const StaticInstPtr<AlphaISA> memAccPtr;
/// Constructor
Memory(const char *mnem, MachInst _machInst, OpClass __opClass,
StaticInstPtr<AlphaISA> _eaCompPtr = nullStaticInstPtr,
StaticInstPtr<AlphaISA> _memAccPtr = nullStaticInstPtr)
: AlphaStaticInst(mnem, _machInst, __opClass),
memAccessFlags(0), eaCompPtr(_eaCompPtr), memAccPtr(_memAccPtr)
{
}
std::string
generateDisassembly(Addr pc, const SymbolTable *symtab) const;
public:
const StaticInstPtr<AlphaISA> &eaCompInst() const { return eaCompPtr; }
const StaticInstPtr<AlphaISA> &memAccInst() const { return memAccPtr; }
};
/**
* Base class for memory-format instructions using a 32-bit
* displacement (i.e. most of them).
*/
class MemoryDisp32 : public Memory
{
protected:
/// Displacement for EA calculation (signed).
int32_t disp;
/// Constructor.
MemoryDisp32(const char *mnem, MachInst _machInst, OpClass __opClass,
StaticInstPtr<AlphaISA> _eaCompPtr = nullStaticInstPtr,
StaticInstPtr<AlphaISA> _memAccPtr = nullStaticInstPtr)
: Memory(mnem, _machInst, __opClass, _eaCompPtr, _memAccPtr),
disp(MEMDISP)
{
}
};
/**
* Base class for a few miscellaneous memory-format insts
* that don't interpret the disp field: wh64, fetch, fetch_m, ecb.
* None of these instructions has a destination register either.
*/
class MemoryNoDisp : public Memory
{
protected:
/// Constructor
MemoryNoDisp(const char *mnem, MachInst _machInst, OpClass __opClass,
StaticInstPtr<AlphaISA> _eaCompPtr = nullStaticInstPtr,
StaticInstPtr<AlphaISA> _memAccPtr = nullStaticInstPtr)
: Memory(mnem, _machInst, __opClass, _eaCompPtr, _memAccPtr)
{
}
std::string
generateDisassembly(Addr pc, const SymbolTable *symtab) const;
};
}};
output decoder {{
std::string
Memory::generateDisassembly(Addr pc, const SymbolTable *symtab) const
{
return csprintf("%-10s %c%d,%d(r%d)", mnemonic,
flags[IsFloating] ? 'f' : 'r', RA, MEMDISP, RB);
}
std::string
MemoryNoDisp::generateDisassembly(Addr pc, const SymbolTable *symtab) const
{
return csprintf("%-10s (r%d)", mnemonic, RB);
}
}};
def format LoadAddress(code) {{
iop = InstObjParams(name, Name, 'MemoryDisp32', CodeBlock(code))
header_output = BasicDeclare.subst(iop)
decoder_output = BasicConstructor.subst(iop)
decode_block = BasicDecode.subst(iop)
exec_output = BasicExecute.subst(iop)
}};
def template LoadStoreDeclare {{
/**
* Static instruction class for "%(mnemonic)s".
*/
class %(class_name)s : public %(base_class)s
{
protected:
/**
* "Fake" effective address computation class for "%(mnemonic)s".
*/
class EAComp : public %(base_class)s
{
public:
/// Constructor
EAComp(MachInst machInst);
%(BasicExecDeclare)s
};
/**
* "Fake" memory access instruction class for "%(mnemonic)s".
*/
class MemAcc : public %(base_class)s
{
public:
/// Constructor
MemAcc(MachInst machInst);
%(BasicExecDeclare)s
};
public:
/// Constructor.
%(class_name)s(MachInst machInst);
%(BasicExecDeclare)s
};
}};
def template LoadStoreConstructor {{
/** TODO: change op_class to AddrGenOp or something (requires
* creating new member of OpClass enum in op_class.hh, updating
* config files, etc.). */
inline %(class_name)s::EAComp::EAComp(MachInst machInst)
: %(base_class)s("%(mnemonic)s (EAComp)", machInst, IntAluOp)
{
%(ea_constructor)s;
}
inline %(class_name)s::MemAcc::MemAcc(MachInst machInst)
: %(base_class)s("%(mnemonic)s (MemAcc)", machInst, %(op_class)s)
{
%(memacc_constructor)s;
}
inline %(class_name)s::%(class_name)s(MachInst machInst)
: %(base_class)s("%(mnemonic)s", machInst, %(op_class)s,
new EAComp(machInst), new MemAcc(machInst))
{
%(constructor)s;
}
}};
def template EACompExecute {{
Fault
%(class_name)s::EAComp::execute(%(CPU_exec_context)s *xc,
Trace::InstRecord *traceData) const
{
Addr EA;
Fault fault = No_Fault;
%(fp_enable_check)s;
%(op_decl)s;
%(op_rd)s;
%(code)s;
if (fault == No_Fault) {
%(op_wb)s;
xc->setEA(EA);
}
return fault;
}
}};
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
def template LoadMemAccExecute {{
Fault
%(class_name)s::MemAcc::execute(%(CPU_exec_context)s *xc,
Trace::InstRecord *traceData) const
{
Addr EA;
Fault fault = No_Fault;
%(fp_enable_check)s;
%(op_decl)s;
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
%(op_rd)s;
EA = xc->getEA();
if (fault == No_Fault) {
fault = xc->read(EA, (uint%(mem_acc_size)d_t&)Mem, memAccessFlags);
%(code)s;
}
if (fault == No_Fault) {
%(op_wb)s;
}
return fault;
}
}};
def template LoadExecute {{
Fault %(class_name)s::execute(%(CPU_exec_context)s *xc,
Trace::InstRecord *traceData) const
{
Addr EA;
Fault fault = No_Fault;
%(fp_enable_check)s;
%(op_decl)s;
%(op_rd)s;
%(ea_code)s;
if (fault == No_Fault) {
fault = xc->read(EA, (uint%(mem_acc_size)d_t&)Mem, memAccessFlags);
%(memacc_code)s;
}
if (fault == No_Fault) {
%(op_wb)s;
}
return fault;
}
}};
def template StoreMemAccExecute {{
Fault
%(class_name)s::MemAcc::execute(%(CPU_exec_context)s *xc,
Trace::InstRecord *traceData) const
{
Addr EA;
Fault fault = No_Fault;
uint64_t write_result = 0;
%(fp_enable_check)s;
%(op_decl)s;
%(op_rd)s;
EA = xc->getEA();
if (fault == No_Fault) {
%(code)s;
}
if (fault == No_Fault) {
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
fault = xc->write((uint%(mem_acc_size)d_t&)Mem, EA,
memAccessFlags, &write_result);
if (traceData) { traceData->setData(Mem); }
}
if (fault == No_Fault) {
%(postacc_code)s;
}
if (fault == No_Fault) {
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
%(op_wb)s;
}
return fault;
}
}};
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
def template StoreExecute {{
Fault %(class_name)s::execute(%(CPU_exec_context)s *xc,
Trace::InstRecord *traceData) const
{
Addr EA;
Fault fault = No_Fault;
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
uint64_t write_result = 0;
%(fp_enable_check)s;
%(op_decl)s;
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
%(op_rd)s;
%(ea_code)s;
if (fault == No_Fault) {
%(memacc_code)s;
}
if (fault == No_Fault) {
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
fault = xc->write((uint%(mem_acc_size)d_t&)Mem, EA,
memAccessFlags, &write_result);
if (traceData) { traceData->setData(Mem); }
}
if (fault == No_Fault) {
%(postacc_code)s;
}
if (fault == No_Fault) {
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
%(op_wb)s;
}
return fault;
}
}};
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
2006-02-10 15:12:55 +01:00
def template MiscMemAccExecute {{
Fault %(class_name)s::MemAcc::execute(%(CPU_exec_context)s *xc,
Trace::InstRecord *traceData) const
{
Addr EA;
Fault fault = No_Fault;
%(fp_enable_check)s;
%(op_decl)s;
%(op_rd)s;
EA = xc->getEA();
if (fault == No_Fault) {
%(code)s;
}
return No_Fault;
}
}};
def template MiscExecute {{
Fault %(class_name)s::execute(%(CPU_exec_context)s *xc,
Trace::InstRecord *traceData) const
{
Addr EA;
Fault fault = No_Fault;
%(fp_enable_check)s;
%(op_decl)s;
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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%(op_rd)s;
%(ea_code)s;
if (fault == No_Fault) {
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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%(memacc_code)s;
}
return No_Fault;
}
}};
// load instructions use Ra as dest, so check for
// Ra == 31 to detect nops
def template LoadNopCheckDecode {{
{
AlphaStaticInst *i = new %(class_name)s(machInst);
if (RA == 31) {
i = makeNop(i);
}
return i;
}
}};
// for some load instructions, Ra == 31 indicates a prefetch (not a nop)
def template LoadPrefetchCheckDecode {{
{
if (RA != 31) {
return new %(class_name)s(machInst);
}
else {
return new %(class_name)sPrefetch(machInst);
}
}
}};
let {{
def LoadStoreBase(name, Name, ea_code, memacc_code, mem_flags, inst_flags,
postacc_code = '', base_class = 'MemoryDisp32',
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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decode_template = BasicDecode, exec_template_base = ''):
# Make sure flags are in lists (convert to lists if not).
mem_flags = makeList(mem_flags)
inst_flags = makeList(inst_flags)
# add hook to get effective addresses into execution trace output.
ea_code += '\nif (traceData) { traceData->setAddr(EA); }\n'
# generate code block objects
ea_cblk = CodeBlock(ea_code)
memacc_cblk = CodeBlock(memacc_code)
postacc_cblk = CodeBlock(postacc_code)
# Some CPU models execute the memory operation as an atomic unit,
# while others want to separate them into an effective address
# computation and a memory access operation. As a result, we need
# to generate three StaticInst objects. Note that the latter two
# are nested inside the larger "atomic" one.
# generate InstObjParams for EAComp object
ea_iop = InstObjParams(name, Name, base_class, ea_cblk, inst_flags)
# generate InstObjParams for MemAcc object
memacc_iop = InstObjParams(name, Name, base_class, memacc_cblk, inst_flags)
# in the split execution model, the MemAcc portion is responsible
# for the post-access code.
memacc_iop.postacc_code = postacc_cblk.code
# generate InstObjParams for unified execution
cblk = CodeBlock(ea_code + memacc_code + postacc_code)
iop = InstObjParams(name, Name, base_class, cblk, inst_flags)
iop.ea_constructor = ea_cblk.constructor
iop.ea_code = ea_cblk.code
iop.memacc_constructor = memacc_cblk.constructor
iop.memacc_code = memacc_cblk.code
iop.postacc_code = postacc_cblk.code
if mem_flags:
s = '\n\tmemAccessFlags = ' + string.join(mem_flags, '|') + ';'
iop.constructor += s
memacc_iop.constructor += s
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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# select templates
memAccExecTemplate = eval(exec_template_base + 'MemAccExecute')
fullExecTemplate = eval(exec_template_base + 'Execute')
# (header_output, decoder_output, decode_block, exec_output)
return (LoadStoreDeclare.subst(iop), LoadStoreConstructor.subst(iop),
decode_template.subst(iop),
EACompExecute.subst(ea_iop)
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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+ memAccExecTemplate.subst(memacc_iop)
+ fullExecTemplate.subst(iop))
}};
def format LoadOrNop(memacc_code, ea_code = {{ EA = Rb + disp; }},
mem_flags = [], inst_flags = []) {{
(header_output, decoder_output, decode_block, exec_output) = \
LoadStoreBase(name, Name, ea_code, memacc_code, mem_flags, inst_flags,
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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decode_template = LoadNopCheckDecode,
exec_template_base = 'Load')
}};
// Note that the flags passed in apply only to the prefetch version
def format LoadOrPrefetch(memacc_code, ea_code = {{ EA = Rb + disp; }},
mem_flags = [], pf_flags = [], inst_flags = []) {{
# declare the load instruction object and generate the decode block
(header_output, decoder_output, decode_block, exec_output) = \
LoadStoreBase(name, Name, ea_code, memacc_code, mem_flags, inst_flags,
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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decode_template = LoadPrefetchCheckDecode,
exec_template_base = 'Load')
# Declare the prefetch instruction object.
# Make sure flag args are lists so we can mess with them.
mem_flags = makeList(mem_flags)
pf_flags = makeList(pf_flags)
inst_flags = makeList(inst_flags)
pf_mem_flags = mem_flags + pf_flags + ['NO_FAULT']
pf_inst_flags = inst_flags + ['IsMemRef', 'IsLoad',
'IsDataPrefetch', 'MemReadOp']
(pf_header_output, pf_decoder_output, _, pf_exec_output) = \
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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LoadStoreBase(name, Name + 'Prefetch', ea_code,
'xc->prefetch(EA, memAccessFlags);',
pf_mem_flags, pf_inst_flags, exec_template_base = 'Misc')
header_output += pf_header_output
decoder_output += pf_decoder_output
exec_output += pf_exec_output
}};
def format Store(memacc_code, ea_code = {{ EA = Rb + disp; }},
mem_flags = [], inst_flags = []) {{
(header_output, decoder_output, decode_block, exec_output) = \
LoadStoreBase(name, Name, ea_code, memacc_code, mem_flags, inst_flags,
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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exec_template_base = 'Store')
}};
def format StoreCond(memacc_code, postacc_code,
ea_code = {{ EA = Rb + disp; }},
mem_flags = [], inst_flags = []) {{
(header_output, decoder_output, decode_block, exec_output) = \
LoadStoreBase(name, Name, ea_code, memacc_code, mem_flags, inst_flags,
postacc_code, exec_template_base = 'Store')
}};
// Use 'MemoryNoDisp' as base: for wh64, fetch, ecb
def format MiscPrefetch(ea_code, memacc_code,
mem_flags = [], inst_flags = []) {{
(header_output, decoder_output, decode_block, exec_output) = \
LoadStoreBase(name, Name, ea_code, memacc_code, mem_flags, inst_flags,
Change how memory operands are handled in ISA descriptions. Should enable implementation of split-phase timing loads with new memory model. May create slight timing differences under FullCPU, as I believe we were not handling software prefetches correctly before when the split MemAcc/Exec model was used. I haven't looked into this in any detail though. arch/alpha/isa/decoder.isa: HwLoadStore format split into separate HwLoad and HwStore formats. Copy instructions now fall under MiscPrefetch format. Mem_write_result is now just write_result in store conditionals. arch/alpha/isa/mem.isa: Split MemAccExecute and LoadStoreExecute templates into separate templates for loads and stores; now that memory operands are handled differently from registers, it's impossible to have a single template serve both. Also unified the handling of "regular" prefetches (loads to r31) and "misc" prefetches (e.g., wh64) under the new scheme. It looks like SW prefetches were not handled correctly in FullCPU up til now, since we generated an execute() method for the outer instruction but didn't generate a proper method for MemAcc::execute() (instead getting a default no-op method for that). arch/alpha/isa/pal.isa: Split HwLoadStore into separate HwLoad and HwStore formats to select proper template (see change to mem.isa in this changeset). arch/isa_parser.py: Stop trying to treat memory operands like register operands, since we never used them in a uniform way anyway, and it made it impossible to do split-phase loads as needed for the new CPU model. Now there's no more 'op_mem_rd', 'op_nonmem_rd', etc.: 'op_rd' just does register operands, and the template code is responsible for formulating the call to the memory system. Right now the only thing exported by InstObjParams is a new attribute 'mem_acc_size' which gives the memory access size in bits, though more attributes can be added if needed. Also moved code in findOperands() method to OperandDescriptorList.__init__(), which is where it belongs. --HG-- extra : convert_revision : 6d53d07e0c5e828455834ded4395fa40f9146a34
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base_class = 'MemoryNoDisp', exec_template_base = 'Misc')
}};