X-Git-Url: http://demsky.eecs.uci.edu/git/?a=blobdiff_plain;f=lib%2FMC%2FMCAtom.cpp;h=2626b39db4c744498c0f5ad51063e22bdf86d3f4;hb=ef99356dfebb96f6f90efb912c2877214bad060e;hp=d71444324f3d8bff6181bba72a06e8c3e10e2209;hpb=2c94d0faa0e1c268893d5e04dc77e8a35889db00;p=oota-llvm.git diff --git a/lib/MC/MCAtom.cpp b/lib/MC/MCAtom.cpp index d71444324f3..2626b39db4c 100644 --- a/lib/MC/MCAtom.cpp +++ b/lib/MC/MCAtom.cpp @@ -10,88 +10,101 @@ #include "llvm/MC/MCAtom.h" #include "llvm/MC/MCModule.h" #include "llvm/Support/ErrorHandling.h" +#include using namespace llvm; -void MCAtom::addInst(const MCInst &I, uint64_t Address, unsigned Size) { - assert(Type == TextAtom && "Trying to add MCInst to a non-text atom!"); - - assert(Address < End+Size && - "Instruction not contiguous with end of atom!"); - if (Address > End) - Parent->remap(this, Begin, End+Size); - - Text.push_back(std::make_pair(Address, I)); +void MCAtom::remap(uint64_t NewBegin, uint64_t NewEnd) { + Parent->remap(this, NewBegin, NewEnd); } -void MCAtom::addData(const MCData &D) { - assert(Type == DataAtom && "Trying to add MCData to a non-data atom!"); - Parent->remap(this, Begin, End+1); - - Data.push_back(D); +void MCAtom::remapForTruncate(uint64_t TruncPt) { + assert((TruncPt >= Begin && TruncPt < End) && + "Truncation point not contained in atom!"); + remap(Begin, TruncPt); } -MCAtom *MCAtom::split(uint64_t SplitPt) { +void MCAtom::remapForSplit(uint64_t SplitPt, + uint64_t &LBegin, uint64_t &LEnd, + uint64_t &RBegin, uint64_t &REnd) { assert((SplitPt > Begin && SplitPt <= End) && "Splitting at point not contained in atom!"); // Compute the new begin/end points. - uint64_t LeftBegin = Begin; - uint64_t LeftEnd = SplitPt - 1; - uint64_t RightBegin = SplitPt; - uint64_t RightEnd = End; + LBegin = Begin; + LEnd = SplitPt - 1; + RBegin = SplitPt; + REnd = End; // Remap this atom to become the lower of the two new ones. - Parent->remap(this, LeftBegin, LeftEnd); + remap(LBegin, LEnd); +} - // Create a new atom for the higher atom. - MCAtom *RightAtom = Parent->createAtom(Type, RightBegin, RightEnd); +// MCDataAtom - // Split the contents of the original atom between it and the new one. The - // precise method depends on whether this is a data or a text atom. - if (isDataAtom()) { - std::vector::iterator I = Data.begin() + (RightBegin - LeftBegin); +void MCDataAtom::addData(const MCData &D) { + Data.push_back(D); + if (Data.size() > Begin - End) + remap(Begin, End + 1); +} - assert(I != Data.end() && "Split point not found in range!"); +void MCDataAtom::truncate(uint64_t TruncPt) { + remapForTruncate(TruncPt); - std::copy(I, Data.end(), RightAtom->Data.end()); - Data.erase(I, Data.end()); - } else if (isTextAtom()) { - std::vector >::iterator I = Text.begin(); + Data.resize(TruncPt - Begin + 1); +} - while (I != Text.end() && I->first < SplitPt) ++I; +MCDataAtom *MCDataAtom::split(uint64_t SplitPt) { + uint64_t LBegin, LEnd, RBegin, REnd; + remapForSplit(SplitPt, LBegin, LEnd, RBegin, REnd); - assert(I != Text.end() && "Split point not found in disassembly!"); - assert(I->first == SplitPt && - "Split point does not fall on instruction boundary!"); + MCDataAtom *RightAtom = Parent->createDataAtom(RBegin, REnd); + RightAtom->setName(getName()); - std::copy(I, Text.end(), RightAtom->Text.end()); - Text.erase(I, Text.end()); - } else - llvm_unreachable("Unknown atom type!"); + std::vector::iterator I = Data.begin() + (RBegin - LBegin); + assert(I != Data.end() && "Split point not found in range!"); + std::copy(I, Data.end(), std::back_inserter(RightAtom->Data)); + Data.erase(I, Data.end()); return RightAtom; } -void MCAtom::truncate(uint64_t TruncPt) { - assert((TruncPt >= Begin && TruncPt < End) && - "Truncation point not contained in atom!"); +// MCTextAtom - Parent->remap(this, Begin, TruncPt); +void MCTextAtom::addInst(const MCInst &I, uint64_t Size) { + if (NextInstAddress > End) + remap(Begin, NextInstAddress); + Insts.push_back(MCDecodedInst(I, NextInstAddress, Size)); + NextInstAddress += Size; +} - if (isDataAtom()) { - Data.resize(TruncPt - Begin + 1); - } else if (isTextAtom()) { - std::vector >::iterator I = Text.begin(); +void MCTextAtom::truncate(uint64_t TruncPt) { + remapForTruncate(TruncPt); - while (I != Text.end() && I->first <= TruncPt) ++I; + InstListTy::iterator I = Insts.begin(); + while (I != Insts.end() && I->Address <= TruncPt) ++I; - assert(I != Text.end() && "Truncation point not found in disassembly!"); - assert(I->first == TruncPt+1 && - "Truncation point does not fall on instruction boundary"); + assert(I != Insts.end() && "Truncation point not found in disassembly!"); + assert(I->Address == TruncPt + 1 && + "Truncation point does not fall on instruction boundary"); - Text.erase(I, Text.end()); - } else - llvm_unreachable("Unknown atom type!"); + Insts.erase(I, Insts.end()); } +MCTextAtom *MCTextAtom::split(uint64_t SplitPt) { + uint64_t LBegin, LEnd, RBegin, REnd; + remapForSplit(SplitPt, LBegin, LEnd, RBegin, REnd); + + MCTextAtom *RightAtom = Parent->createTextAtom(RBegin, REnd); + RightAtom->setName(getName()); + + InstListTy::iterator I = Insts.begin(); + while (I != Insts.end() && I->Address < SplitPt) ++I; + assert(I != Insts.end() && "Split point not found in disassembly!"); + assert(I->Address == SplitPt && + "Split point does not fall on instruction boundary!"); + + std::copy(I, Insts.end(), std::back_inserter(RightAtom->Insts)); + Insts.erase(I, Insts.end()); + return RightAtom; +}