cpu: Add flag name printing to StaticInst
This patch adds a the member function StaticInst::printFlags to allow all of an instruction's flags to be printed without using the individual is... member functions or resorting to exposing the 'flags' vector It also replaces the enum definition StaticInst::Flags with a Python-generated enumeration and adds to the enum generation mechanism in src/python/m5/params.py to allow Enums to be placed in namespaces other than Enums or, alternatively, in wrapper structs allowing them to be inherited by other classes (so populating that class's name-space with the enumeration element names).
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6 changed files with 189 additions and 106 deletions
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@ -107,7 +107,7 @@ namespace X86ISA
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// sized chunks, feed it those one at a time while oring them in.
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for (int i = 0; i < Chunks; i++) {
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unsigned shift = i * ChunkSize * 8;
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flags |= (std::bitset<NumFlags>(setFlags >> shift) << shift);
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flags |= (std::bitset<Num_Flags>(setFlags >> shift) << shift);
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}
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}
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@ -129,6 +129,7 @@ if env['TARGET_ISA'] == 'sparc':
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Source('legiontrace.cc')
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SimObject('DummyChecker.py')
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SimObject('StaticInstFlags.py')
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Source('checker/cpu.cc')
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Source('dummy_checker.cc')
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DebugFlag('Checker')
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112
src/cpu/StaticInstFlags.py
Normal file
112
src/cpu/StaticInstFlags.py
Normal file
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@ -0,0 +1,112 @@
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# Copyright (c) 2003-2005 The Regents of The University of Michigan
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# Copyright (c) 2013 Advanced Micro Devices, Inc.
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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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# Authors: Steve Reinhardt
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from m5.params import *
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# Set of boolean static instruction properties.
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#
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# Notes:
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# - The IsInteger and IsFloating flags are based on the class of registers
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# accessed by the instruction. Although most instructions will have exactly
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# one of these two flags set, it is possible for an instruction to have
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# neither (e.g., direct unconditional branches, memory barriers) or both
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# (e.g., an FP/int conversion).
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# - If IsMemRef is set, then exactly one of IsLoad or IsStore will be set.
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# - If IsControl is set, then exactly one of IsDirectControl or IsIndirect
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# Control will be set, and exactly one of IsCondControl or IsUncondControl
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# will be set.
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# - IsSerializing, IsMemBarrier, and IsWriteBarrier are implemented as flags
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# since in the current model there's no other way for instructions to inject
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# behavior into the pipeline outside of fetch. Once we go to an exec-in-exec
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# CPU model we should be able to get rid of these flags and implement this
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# behavior via the execute() methods.
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class StaticInstFlags(Enum):
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wrapper_name = 'StaticInstFlags'
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wrapper_is_struct = True
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enum_name = 'Flags'
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vals = [
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'IsNop', # Is a no-op (no effect at all).
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'IsInteger', # References integer regs.
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'IsFloating', # References FP regs.
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'IsCC', # References CC regs.
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'IsMemRef', # References memory (load, store, or prefetch)
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'IsLoad', # Reads from memory (load or prefetch).
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'IsStore', # Writes to memory.
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'IsStoreConditional', # Store conditional instruction.
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'IsIndexed', # Accesses memory with an indexed address
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# computation
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'IsInstPrefetch', # Instruction-cache prefetch.
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'IsDataPrefetch', # Data-cache prefetch.
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'IsControl', # Control transfer instruction.
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'IsDirectControl', # PC relative control transfer.
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'IsIndirectControl',# Register indirect control transfer.
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'IsCondControl', # Conditional control transfer.
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'IsUncondControl', # Unconditional control transfer.
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'IsCall', # Subroutine call.
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'IsReturn', # Subroutine return.
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'IsCondDelaySlot', # Conditional Delay-Slot Instruction
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'IsThreadSync', # Thread synchronization operation.
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'IsSerializing', # Serializes pipeline: won't execute until all
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# older instructions have committed.
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'IsSerializeBefore',
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'IsSerializeAfter',
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'IsMemBarrier', # Is a memory barrier
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'IsWriteBarrier', # Is a write barrier
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'IsReadBarrier', # Is a read barrier
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'IsERET', # <- Causes the IFU to stall (MIPS ISA)
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'IsNonSpeculative', # Should not be executed speculatively
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'IsQuiesce', # Is a quiesce instruction
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'IsIprAccess', # Accesses IPRs
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'IsUnverifiable', # Can't be verified by a checker
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'IsSyscall', # Causes a system call to be emulated in syscall
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# emulation mode.
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# Flags for microcode
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'IsMacroop', # Is a macroop containing microops
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'IsMicroop', # Is a microop
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'IsDelayedCommit', # This microop doesn't commit right away
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'IsLastMicroop', # This microop ends a microop sequence
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'IsFirstMicroop', # This microop begins a microop sequence
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# This flag doesn't do anything yet
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'IsMicroBranch', # This microop branches within the microcode for
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# a macroop
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'IsDspOp',
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'IsSquashAfter' # Squash all uncommitted state after executed
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]
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@ -92,3 +92,20 @@ StaticInst::disassemble(Addr pc, const SymbolTable *symtab) const
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return *cachedDisassembly;
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}
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void
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StaticInst::printFlags(std::ostream &outs,
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const std::string &separator) const
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{
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bool printed_a_flag = false;
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for (unsigned int flag = IsNop; flag < Num_Flags; flag++) {
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if (flags[flag]) {
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if (printed_a_flag)
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outs << separator;
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outs << FlagsStrings[flag];
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printed_a_flag = true;
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}
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}
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}
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@ -44,6 +44,7 @@
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#include "cpu/op_class.hh"
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#include "cpu/static_inst_fwd.hh"
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#include "cpu/thread_context.hh"
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#include "enums/StaticInstFlags.hh"
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#include "sim/fault_fwd.hh"
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// forward declarations
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@ -72,7 +73,7 @@ namespace Trace {
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* solely on these flags can process instructions without being
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* recompiled for multiple ISAs.
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*/
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class StaticInst : public RefCounted
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class StaticInst : public RefCounted, public StaticInstFlags
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{
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public:
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/// Binary extended machine instruction type.
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@ -85,89 +86,10 @@ class StaticInst : public RefCounted
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MaxInstDestRegs = TheISA::MaxInstDestRegs //< Max dest regs
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};
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/// Set of boolean static instruction properties.
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///
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/// Notes:
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/// - The IsInteger and IsFloating flags are based on the class of
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/// registers accessed by the instruction. Although most
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/// instructions will have exactly one of these two flags set, it
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/// is possible for an instruction to have neither (e.g., direct
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/// unconditional branches, memory barriers) or both (e.g., an
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/// FP/int conversion).
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/// - If IsMemRef is set, then exactly one of IsLoad or IsStore
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/// will be set.
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/// - If IsControl is set, then exactly one of IsDirectControl or
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/// IsIndirect Control will be set, and exactly one of
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/// IsCondControl or IsUncondControl will be set.
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/// - IsSerializing, IsMemBarrier, and IsWriteBarrier are
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/// implemented as flags since in the current model there's no
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/// other way for instructions to inject behavior into the
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/// pipeline outside of fetch. Once we go to an exec-in-exec CPU
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/// model we should be able to get rid of these flags and
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/// implement this behavior via the execute() methods.
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///
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enum Flags {
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IsNop, ///< Is a no-op (no effect at all).
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IsInteger, ///< References integer regs.
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IsFloating, ///< References FP regs.
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IsCC, ///< References CC regs.
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IsMemRef, ///< References memory (load, store, or prefetch).
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IsLoad, ///< Reads from memory (load or prefetch).
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IsStore, ///< Writes to memory.
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IsStoreConditional, ///< Store conditional instruction.
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IsIndexed, ///< Accesses memory with an indexed address computation
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IsInstPrefetch, ///< Instruction-cache prefetch.
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IsDataPrefetch, ///< Data-cache prefetch.
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IsControl, ///< Control transfer instruction.
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IsDirectControl, ///< PC relative control transfer.
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IsIndirectControl, ///< Register indirect control transfer.
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IsCondControl, ///< Conditional control transfer.
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IsUncondControl, ///< Unconditional control transfer.
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IsCall, ///< Subroutine call.
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IsReturn, ///< Subroutine return.
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IsCondDelaySlot,///< Conditional Delay-Slot Instruction
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IsThreadSync, ///< Thread synchronization operation.
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IsSerializing, ///< Serializes pipeline: won't execute until all
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/// older instructions have committed.
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IsSerializeBefore,
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IsSerializeAfter,
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IsMemBarrier, ///< Is a memory barrier
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IsWriteBarrier, ///< Is a write barrier
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IsReadBarrier, ///< Is a read barrier
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IsERET, /// <- Causes the IFU to stall (MIPS ISA)
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IsNonSpeculative, ///< Should not be executed speculatively
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IsQuiesce, ///< Is a quiesce instruction
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IsIprAccess, ///< Accesses IPRs
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IsUnverifiable, ///< Can't be verified by a checker
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IsSyscall, ///< Causes a system call to be emulated in syscall
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/// emulation mode.
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//Flags for microcode
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IsMacroop, ///< Is a macroop containing microops
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IsMicroop, ///< Is a microop
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IsDelayedCommit, ///< This microop doesn't commit right away
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IsLastMicroop, ///< This microop ends a microop sequence
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IsFirstMicroop, ///< This microop begins a microop sequence
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//This flag doesn't do anything yet
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IsMicroBranch, ///< This microop branches within the microcode for a macroop
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IsDspOp,
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IsSquashAfter, ///< Squash all uncommitted state after executed
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NumFlags
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};
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protected:
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/// Flag values for this instruction.
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std::bitset<NumFlags> flags;
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std::bitset<Num_Flags> flags;
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/// See opClass().
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OpClass _opClass;
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@ -387,6 +309,12 @@ class StaticInst : public RefCounted
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virtual const std::string &disassemble(Addr pc,
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const SymbolTable *symtab = 0) const;
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/**
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* Print a separator separated list of this instruction's set flag
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* names on the given stream.
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*/
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void printFlags(std::ostream &outs, const std::string &separator) const;
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/// Return name of machine instruction
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std::string getName() { return mnemonic; }
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};
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@ -1040,12 +1040,16 @@ class MetaEnum(MetaParamValue):
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# Note that we wrap the enum in a class/struct to act as a namespace,
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# so that the enum strings can be brief w/o worrying about collisions.
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def cxx_decl(cls, code):
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name = cls.__name__
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code('''\
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#ifndef __ENUM__${name}__
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#define __ENUM__${name}__
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wrapper_name = cls.wrapper_name
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wrapper = 'struct' if cls.wrapper_is_struct else 'namespace'
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name = cls.__name__ if cls.enum_name is None else cls.enum_name
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idem_macro = '__ENUM__%s__%s__' % (wrapper_name, name)
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namespace Enums {
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code('''\
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#ifndef $idem_macro
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#define $idem_macro
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$wrapper $wrapper_name {
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enum $name {
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''')
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code.indent(2)
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code('$val = ${{cls.map[val]}},')
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code('Num_$name = ${{len(cls.vals)}}')
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code.dedent(2)
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code('''\
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};
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extern const char *${name}Strings[Num_${name}];
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}
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code(' };')
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#endif // __ENUM__${name}__
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''')
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if cls.wrapper_is_struct:
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code(' static const char *${name}Strings[Num_${name}];')
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code('};')
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else:
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code('extern const char *${name}Strings[Num_${name}];')
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code('}')
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code()
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code('#endif // $idem_macro')
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def cxx_def(cls, code):
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name = cls.__name__
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code('''\
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#include "enums/$name.hh"
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namespace Enums {
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const char *${name}Strings[Num_${name}] =
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{
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''')
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code.indent(2)
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wrapper_name = cls.wrapper_name
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file_name = cls.__name__
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name = cls.__name__ if cls.enum_name is None else cls.enum_name
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code('#include "enums/$file_name.hh"')
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if cls.wrapper_is_struct:
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code('const char *${wrapper_name}::${name}Strings'
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'[Num_${name}] =')
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else:
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code('namespace Enums {')
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code.indent(1)
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code(' const char *${name}Strings[Num_${name}] =')
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code('{')
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code.indent(1)
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for val in cls.vals:
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code('"$val",')
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code.dedent(2)
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code('''
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};
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} // namespace Enums
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''')
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code.dedent(1)
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code('};')
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if not cls.wrapper_is_struct:
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code('} // namespace $wrapper_name')
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code.dedent(1)
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def swig_decl(cls, code):
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name = cls.__name__
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__metaclass__ = MetaEnum
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vals = []
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# The name of the wrapping namespace or struct
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wrapper_name = 'Enums'
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# If true, the enum is wrapped in a struct rather than a namespace
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wrapper_is_struct = False
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# If not None, use this as the enum name rather than this class name
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enum_name = None
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def __init__(self, value):
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if value not in self.map:
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raise TypeError, "Enum param got bad value '%s' (not in %s)" \
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