mirror of
https://github.com/RPCS3/llvm-mirror.git
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b27d60ccf1
llvm-svn: 5272
194 lines
7.2 KiB
C++
194 lines
7.2 KiB
C++
//===-- Sparc.cpp - General implementation file for the Sparc Target ------===//
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//
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// This file contains the code for the Sparc Target that does not fit in any of
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// the other files in this directory.
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//
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//===----------------------------------------------------------------------===//
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#include "SparcInternals.h"
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#include "llvm/Target/TargetMachineImpls.h"
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#include "llvm/Function.h"
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#include "llvm/PassManager.h"
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#include "llvm/Transforms/Scalar.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/CodeGen/MachineFunctionInfo.h"
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#include "llvm/CodeGen/PreSelection.h"
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#include "llvm/CodeGen/StackSlots.h"
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#include "llvm/CodeGen/PeepholeOpts.h"
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#include "llvm/CodeGen/InstrSelection.h"
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#include "llvm/CodeGen/InstrScheduling.h"
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#include "llvm/CodeGen/RegisterAllocation.h"
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#include "llvm/CodeGen/MachineCodeForInstruction.h"
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#include "llvm/Reoptimizer/Mapping/MappingInfo.h"
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#include "llvm/Reoptimizer/Mapping/FInfo.h"
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#include "Support/CommandLine.h"
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using std::cerr;
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static const unsigned ImplicitRegUseList[] = { 0 }; /* not used yet */
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// Build the MachineInstruction Description Array...
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const TargetInstrDescriptor SparcMachineInstrDesc[] = {
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#define I(ENUM, OPCODESTRING, NUMOPERANDS, RESULTPOS, MAXIMM, IMMSE, \
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NUMDELAYSLOTS, LATENCY, SCHEDCLASS, INSTFLAGS) \
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{ OPCODESTRING, NUMOPERANDS, RESULTPOS, MAXIMM, IMMSE, \
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NUMDELAYSLOTS, LATENCY, SCHEDCLASS, INSTFLAGS, 0, \
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ImplicitRegUseList, ImplicitRegUseList },
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#include "SparcInstr.def"
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};
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//---------------------------------------------------------------------------
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// Command line options to control choice of code generation passes.
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//---------------------------------------------------------------------------
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static cl::opt<bool> DisablePreSelect("nopreselect",
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cl::desc("Disable preselection pass"));
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static cl::opt<bool> DisableSched("nosched",
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cl::desc("Disable local scheduling pass"));
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static cl::opt<bool> DisablePeephole("nopeephole",
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cl::desc("Disable peephole optimization pass"));
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//----------------------------------------------------------------------------
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// allocateSparcTargetMachine - Allocate and return a subclass of TargetMachine
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// that implements the Sparc backend. (the llvm/CodeGen/Sparc.h interface)
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//----------------------------------------------------------------------------
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TargetMachine *allocateSparcTargetMachine() { return new UltraSparc(); }
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//---------------------------------------------------------------------------
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// class UltraSparcFrameInfo
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//
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// Interface to stack frame layout info for the UltraSPARC.
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// Starting offsets for each area of the stack frame are aligned at
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// a multiple of getStackFrameSizeAlignment().
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//---------------------------------------------------------------------------
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int
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UltraSparcFrameInfo::getFirstAutomaticVarOffset(MachineFunction& ,
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bool& pos) const
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{
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pos = false; // static stack area grows downwards
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return StaticAreaOffsetFromFP;
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}
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int
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UltraSparcFrameInfo::getRegSpillAreaOffset(MachineFunction& mcInfo,
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bool& pos) const
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{
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// ensure no more auto vars are added
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mcInfo.getInfo()->freezeAutomaticVarsArea();
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pos = false; // static stack area grows downwards
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unsigned autoVarsSize = mcInfo.getInfo()->getAutomaticVarsSize();
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return StaticAreaOffsetFromFP - autoVarsSize;
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}
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int
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UltraSparcFrameInfo::getTmpAreaOffset(MachineFunction& mcInfo,
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bool& pos) const
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{
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MachineFunctionInfo *MFI = mcInfo.getInfo();
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MFI->freezeAutomaticVarsArea(); // ensure no more auto vars are added
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MFI->freezeSpillsArea(); // ensure no more spill slots are added
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pos = false; // static stack area grows downwards
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unsigned autoVarsSize = MFI->getAutomaticVarsSize();
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unsigned spillAreaSize = MFI->getRegSpillsSize();
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int offset = autoVarsSize + spillAreaSize;
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return StaticAreaOffsetFromFP - offset;
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}
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int
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UltraSparcFrameInfo::getDynamicAreaOffset(MachineFunction& mcInfo,
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bool& pos) const
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{
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// Dynamic stack area grows downwards starting at top of opt-args area.
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// The opt-args, required-args, and register-save areas are empty except
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// during calls and traps, so they are shifted downwards on each
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// dynamic-size alloca.
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pos = false;
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unsigned optArgsSize = mcInfo.getInfo()->getMaxOptionalArgsSize();
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if (int extra = optArgsSize % getStackFrameSizeAlignment())
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optArgsSize += (getStackFrameSizeAlignment() - extra);
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int offset = optArgsSize + FirstOptionalOutgoingArgOffsetFromSP;
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assert((offset - OFFSET) % getStackFrameSizeAlignment() == 0);
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return offset;
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}
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//---------------------------------------------------------------------------
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// class UltraSparcMachine
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//
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// Purpose:
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// Primary interface to machine description for the UltraSPARC.
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// Primarily just initializes machine-dependent parameters in
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// class TargetMachine, and creates machine-dependent subclasses
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// for classes such as TargetInstrInfo.
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//
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//---------------------------------------------------------------------------
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UltraSparc::UltraSparc()
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: TargetMachine("UltraSparc-Native", false, 4),
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schedInfo(*this),
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regInfo(*this),
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frameInfo(*this),
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cacheInfo(*this),
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optInfo(*this) {
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}
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// addPassesToEmitAssembly - This method controls the entire code generation
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// process for the ultra sparc.
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//
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bool UltraSparc::addPassesToEmitAssembly(PassManager &PM, std::ostream &Out)
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{
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// Construct and initialize the MachineFunction object for this fn.
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PM.add(createMachineCodeConstructionPass(*this));
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//Insert empty stackslots in the stack frame of each function
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//so %fp+offset-8 and %fp+offset-16 are empty slots now!
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PM.add(createStackSlotsPass(*this));
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// Specialize LLVM code for this target machine and then
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// run basic dataflow optimizations on LLVM code.
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if (!DisablePreSelect)
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{
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PM.add(createPreSelectionPass(*this));
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PM.add(createReassociatePass());
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PM.add(createLICMPass());
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PM.add(createGCSEPass());
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}
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PM.add(createInstructionSelectionPass(*this));
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if (!DisableSched)
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PM.add(createInstructionSchedulingWithSSAPass(*this));
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PM.add(getRegisterAllocator(*this));
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PM.add(getPrologEpilogInsertionPass());
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if (!DisablePeephole)
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PM.add(createPeepholeOptsPass(*this));
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PM.add(MappingInfoForFunction(Out));
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// Output assembly language to the .s file. Assembly emission is split into
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// two parts: Function output and Global value output. This is because
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// function output is pipelined with all of the rest of code generation stuff,
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// allowing machine code representations for functions to be free'd after the
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// function has been emitted.
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//
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PM.add(getFunctionAsmPrinterPass(Out));
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PM.add(createMachineCodeDestructionPass()); // Free stuff no longer needed
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// Emit Module level assembly after all of the functions have been processed.
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PM.add(getModuleAsmPrinterPass(Out));
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// Emit bytecode to the assembly file into its special section next
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PM.add(getEmitBytecodeToAsmPass(Out));
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PM.add(getFunctionInfo(Out));
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return false;
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}
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