//===-- Mangler.cpp - Self-contained c/asm llvm name mangler --------------===// // // The LLVM Compiler Infrastructure // // This file was developed by the LLVM research group and is distributed under // the University of Illinois Open Source License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Unified name mangler for CWriter and assembly backends. // //===----------------------------------------------------------------------===// #include "llvm/Support/Mangler.h" #include "llvm/Module.h" #include "llvm/Type.h" #include "Support/StringExtras.h" using namespace llvm; static char HexDigit(int V) { return V < 10 ? V+'0' : V+'A'-10; } static std::string MangleLetter(unsigned char C) { return std::string("_")+HexDigit(C >> 4) + HexDigit(C & 15) + "_"; } /// makeNameProper - We don't want identifier names non-C-identifier characters /// in them, so mangle them as appropriate. /// std::string Mangler::makeNameProper(const std::string &X) { std::string Result; // Mangle the first letter specially, don't allow numbers... if ((X[0] < 'a' || X[0] > 'z') && (X[0] < 'A' || X[0] > 'Z') && X[0] != '_') Result += MangleLetter(X[0]); else Result += X[0]; for (std::string::const_iterator I = X.begin()+1, E = X.end(); I != E; ++I) if ((*I < 'a' || *I > 'z') && (*I < 'A' || *I > 'Z') && (*I < '0' || *I > '9') && *I != '_') Result += MangleLetter(*I); else Result += *I; return Result; } /// getTypeID - Return a unique ID for the specified LLVM type. /// unsigned Mangler::getTypeID(const Type *Ty) { unsigned &E = TypeMap[Ty]; if (E == 0) E = ++TypeCounter; return E; } std::string Mangler::getValueName(const Value *V) { // Check to see whether we've already named V. ValueMap::iterator VI = Memo.find(V); if (VI != Memo.end()) { return VI->second; // Return the old name for V. } std::string name; if (V->hasName()) { // Print out the label if it exists... // Name mangling occurs as follows: // - If V is an intrinsic function, do not change name at all // - If V is not a global, mangling always occurs. // - Otherwise, mangling occurs when any of the following are true: // 1) V has internal linkage // 2) V's name would collide if it is not mangled. // const GlobalValue* gv = dyn_cast(V); if (gv && isa(gv) && cast(gv)->getIntrinsicID()) { name = gv->getName(); // Is an intrinsic function } else if (gv && !gv->hasInternalLinkage() && !MangledGlobals.count(gv)) { name = Prefix + makeNameProper(gv->getName()); } else { // Non-global, or global with internal linkage / colliding name // -> mangle. unsigned TypeUniqueID = getTypeID(V->getType()); name = "l" + utostr(TypeUniqueID) + "_" + makeNameProper(V->getName()); } } else { name = "ltmp_" + utostr(Count++) + "_" + utostr(getTypeID(V->getType())); } Memo[V] = name; return name; } void Mangler::InsertName(GlobalValue *GV, std::map &Names) { if (!GV->hasName()) { // We must mangle unnamed globals. MangledGlobals.insert(GV); return; } // Figure out if this is already used. GlobalValue *&ExistingValue = Names[GV->getName()]; if (!ExistingValue) { ExistingValue = GV; } else { // If GV is external but the existing one is static, mangle the existing one if (GV->hasExternalLinkage() && !ExistingValue->hasExternalLinkage()) { MangledGlobals.insert(ExistingValue); ExistingValue = GV; } else { // Otherwise, mangle GV MangledGlobals.insert(GV); } } } Mangler::Mangler(Module &m, const char *prefix) : M(m), Prefix(prefix), TypeCounter(0), Count(0) { // Calculate which global values have names that will collide when we throw // away type information. std::map Names; for (Module::iterator I = M.begin(), E = M.end(); I != E; ++I) InsertName(I, Names); for (Module::giterator I = M.gbegin(), E = M.gend(); I != E; ++I) InsertName(I, Names); }