//===--- RewriteTest.cpp - Playground for the code rewriter ---------------===// // // The LLVM Compiler Infrastructure // // This file was developed by Chris Lattner and is distributed under the // University of Illinois Open Source License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // Hacks and fun related to the code rewriter. // //===----------------------------------------------------------------------===// #include "ASTConsumers.h" #include "clang/Rewrite/Rewriter.h" #include "clang/AST/AST.h" #include "clang/AST/ASTConsumer.h" #include "clang/Basic/SourceManager.h" #include "clang/Basic/IdentifierTable.h" #include "llvm/ADT/StringExtras.h" #include "llvm/ADT/SmallPtrSet.h" #include "clang/Lex/Lexer.h" using namespace clang; using llvm::utostr; namespace { class RewriteTest : public ASTConsumer { Rewriter Rewrite; ASTContext *Context; SourceManager *SM; unsigned MainFileID; SourceLocation LastIncLoc; llvm::SmallVector ClassImplementation; llvm::SmallVector CategoryImplementation; llvm::SmallPtrSet ObjcSynthesizedStructs; llvm::SmallPtrSet ObjcForwardDecls; FunctionDecl *MsgSendFunctionDecl; FunctionDecl *GetClassFunctionDecl; FunctionDecl *SelGetUidFunctionDecl; // ObjC string constant support. FileVarDecl *ConstantStringClassReference; RecordDecl *NSStringRecord; static const int OBJC_ABI_VERSION =7 ; public: void Initialize(ASTContext &context, unsigned mainFileID) { Context = &context; SM = &Context->SourceMgr; MainFileID = mainFileID; MsgSendFunctionDecl = 0; GetClassFunctionDecl = 0; SelGetUidFunctionDecl = 0; ConstantStringClassReference = 0; NSStringRecord = 0; Rewrite.setSourceMgr(Context->SourceMgr); // declaring objc_selector outside the parameter list removes a silly // scope related warning... const char *s = "struct objc_selector;\n" "extern struct objc_object *objc_msgSend" "(struct objc_object *, struct objc_selector *, ...);\n" "extern struct objc_object *objc_getClass" "(const char *);\n"; Rewrite.InsertText(SourceLocation::getFileLoc(mainFileID, 0), s, strlen(s)); } // Top Level Driver code. virtual void HandleTopLevelDecl(Decl *D); void HandleDeclInMainFile(Decl *D); ~RewriteTest(); // Syntactic Rewriting. void RewritePrologue(SourceLocation Loc); void RewriteInclude(SourceLocation Loc); void RewriteTabs(); void RewriteForwardClassDecl(ObjcClassDecl *Dcl); void RewriteInterfaceDecl(ObjcInterfaceDecl *Dcl); void RewriteCategoryDecl(ObjcCategoryDecl *Dcl); void RewriteProtocolDecl(ObjcProtocolDecl *Dcl); void RewriteMethods(int nMethods, ObjcMethodDecl **Methods); void RewriteFunctionDecl(FunctionDecl *FD); void RewriteObjcQualifiedInterfaceTypes( const FunctionTypeProto *proto, FunctionDecl *FD); bool needToScanForQualifiers(QualType T); // Expression Rewriting. Stmt *RewriteFunctionBody(Stmt *S); Stmt *RewriteAtEncode(ObjCEncodeExpr *Exp); Stmt *RewriteAtSelector(ObjCSelectorExpr *Exp); Stmt *RewriteMessageExpr(ObjCMessageExpr *Exp); Stmt *RewriteObjCStringLiteral(ObjCStringLiteral *Exp); CallExpr *SynthesizeCallToFunctionDecl(FunctionDecl *FD, Expr **args, unsigned nargs); void SynthMsgSendFunctionDecl(); void SynthGetClassFunctionDecl(); // Metadata emission. void RewriteObjcClassMetaData(ObjcImplementationDecl *IDecl, std::string &Result); void RewriteObjcCategoryImplDecl(ObjcCategoryImplDecl *CDecl, std::string &Result); void RewriteObjcMethodsMetaData(ObjcMethodDecl **Methods, int NumMethods, bool IsInstanceMethod, const char *prefix, const char *ClassName, std::string &Result); void RewriteObjcProtocolsMetaData(ObjcProtocolDecl **Protocols, int NumProtocols, const char *prefix, const char *ClassName, std::string &Result); void SynthesizeObjcInternalStruct(ObjcInterfaceDecl *CDecl, std::string &Result); void SynthesizeIvarOffsetComputation(ObjcImplementationDecl *IDecl, ObjcIvarDecl *ivar, std::string &Result); void WriteObjcMetaData(std::string &Result); }; } ASTConsumer *clang::CreateCodeRewriterTest() { return new RewriteTest(); } //===----------------------------------------------------------------------===// // Top Level Driver Code //===----------------------------------------------------------------------===// void RewriteTest::HandleTopLevelDecl(Decl *D) { // Two cases: either the decl could be in the main file, or it could be in a // #included file. If the former, rewrite it now. If the later, check to see // if we rewrote the #include/#import. SourceLocation Loc = D->getLocation(); Loc = SM->getLogicalLoc(Loc); // If this is for a builtin, ignore it. if (Loc.isInvalid()) return; // Look for built-in declarations that we need to refer during the rewrite. if (FunctionDecl *FD = dyn_cast(D)) { RewriteFunctionDecl(FD); } else if (FileVarDecl *FVD = dyn_cast(D)) { // declared in if (strcmp(FVD->getName(), "_NSConstantStringClassReference") == 0) { ConstantStringClassReference = FVD; return; } } else if (ObjcInterfaceDecl *MD = dyn_cast(D)) { RewriteInterfaceDecl(MD); } else if (ObjcCategoryDecl *CD = dyn_cast(D)) { RewriteCategoryDecl(CD); } else if (ObjcProtocolDecl *PD = dyn_cast(D)) { RewriteProtocolDecl(PD); } // If we have a decl in the main file, see if we should rewrite it. if (SM->getDecomposedFileLoc(Loc).first == MainFileID) return HandleDeclInMainFile(D); // Otherwise, see if there is a #import in the main file that should be // rewritten. RewriteInclude(Loc); } /// HandleDeclInMainFile - This is called for each top-level decl defined in the /// main file of the input. void RewriteTest::HandleDeclInMainFile(Decl *D) { if (FunctionDecl *FD = dyn_cast(D)) if (Stmt *Body = FD->getBody()) FD->setBody(RewriteFunctionBody(Body)); if (ObjcImplementationDecl *CI = dyn_cast(D)) ClassImplementation.push_back(CI); else if (ObjcCategoryImplDecl *CI = dyn_cast(D)) CategoryImplementation.push_back(CI); else if (ObjcClassDecl *CD = dyn_cast(D)) RewriteForwardClassDecl(CD); // Nothing yet. } RewriteTest::~RewriteTest() { // Get the top-level buffer that this corresponds to. RewriteTabs(); // Get the buffer corresponding to MainFileID. If we haven't changed it, then // we are done. if (const RewriteBuffer *RewriteBuf = Rewrite.getRewriteBufferFor(MainFileID)) { //printf("Changed:\n"); std::string S(RewriteBuf->begin(), RewriteBuf->end()); printf("%s\n", S.c_str()); } else { printf("No changes\n"); } } //===----------------------------------------------------------------------===// // Syntactic (non-AST) Rewriting Code //===----------------------------------------------------------------------===// void RewriteTest::RewriteInclude(SourceLocation Loc) { // Rip up the #include stack to the main file. SourceLocation IncLoc = Loc, NextLoc = Loc; do { IncLoc = Loc; Loc = SM->getLogicalLoc(NextLoc); NextLoc = SM->getIncludeLoc(Loc); } while (!NextLoc.isInvalid()); // Loc is now the location of the #include filename "foo" or . // IncLoc indicates the header that was included if it is useful. IncLoc = SM->getLogicalLoc(IncLoc); if (SM->getDecomposedFileLoc(Loc).first != MainFileID || Loc == LastIncLoc) return; LastIncLoc = Loc; unsigned IncCol = SM->getColumnNumber(Loc); SourceLocation LineStartLoc = Loc.getFileLocWithOffset(-IncCol+1); // Replace the #import with #include. Rewrite.ReplaceText(LineStartLoc, IncCol-1, "#include ", strlen("#include ")); } void RewriteTest::RewriteTabs() { std::pair MainBuf = SM->getBufferData(MainFileID); const char *MainBufStart = MainBuf.first; const char *MainBufEnd = MainBuf.second; // Loop over the whole file, looking for tabs. for (const char *BufPtr = MainBufStart; BufPtr != MainBufEnd; ++BufPtr) { if (*BufPtr != '\t') continue; // Okay, we found a tab. This tab will turn into at least one character, // but it depends on which 'virtual column' it is in. Compute that now. unsigned VCol = 0; while (BufPtr-VCol != MainBufStart && BufPtr[-VCol-1] != '\t' && BufPtr[-VCol-1] != '\n' && BufPtr[-VCol-1] != '\r') ++VCol; // Okay, now that we know the virtual column, we know how many spaces to // insert. We assume 8-character tab-stops. unsigned Spaces = 8-(VCol & 7); // Get the location of the tab. SourceLocation TabLoc = SourceLocation::getFileLoc(MainFileID, BufPtr-MainBufStart); // Rewrite the single tab character into a sequence of spaces. Rewrite.ReplaceText(TabLoc, 1, " ", Spaces); } } void RewriteTest::RewriteForwardClassDecl(ObjcClassDecl *ClassDecl) { int numDecls = ClassDecl->getNumForwardDecls(); ObjcInterfaceDecl **ForwardDecls = ClassDecl->getForwardDecls(); // Get the start location and compute the semi location. SourceLocation startLoc = ClassDecl->getLocation(); const char *startBuf = SM->getCharacterData(startLoc); const char *semiPtr = strchr(startBuf, ';'); // Translate to typedef's that forward reference structs with the same name // as the class. As a convenience, we include the original declaration // as a comment. std::string typedefString; typedefString += "// "; typedefString.append(startBuf, semiPtr-startBuf+1); typedefString += "\n"; for (int i = 0; i < numDecls; i++) { ObjcInterfaceDecl *ForwardDecl = ForwardDecls[i]; if (ObjcForwardDecls.count(ForwardDecl)) continue; typedefString += "typedef struct objc_object "; typedefString += ForwardDecl->getName(); typedefString += ";\n"; // Mark this typedef as having been generated. if (!ObjcForwardDecls.insert(ForwardDecl)) assert(false && "typedef already output"); } // Replace the @class with typedefs corresponding to the classes. Rewrite.ReplaceText(startLoc, semiPtr-startBuf+1, typedefString.c_str(), typedefString.size()); } void RewriteTest::RewriteMethods(int nMethods, ObjcMethodDecl **Methods) { for (int i = 0; i < nMethods; i++) { ObjcMethodDecl *Method = Methods[i]; SourceLocation Loc = Method->getLocStart(); Rewrite.ReplaceText(Loc, 0, "// ", 3); // FIXME: handle methods that are declared across multiple lines. } } void RewriteTest::RewriteCategoryDecl(ObjcCategoryDecl *CatDecl) { SourceLocation LocStart = CatDecl->getLocStart(); // FIXME: handle category headers that are declared across multiple lines. Rewrite.ReplaceText(LocStart, 0, "// ", 3); RewriteMethods(CatDecl->getNumInstanceMethods(), CatDecl->getInstanceMethods()); RewriteMethods(CatDecl->getNumClassMethods(), CatDecl->getClassMethods()); // Lastly, comment out the @end. Rewrite.ReplaceText(CatDecl->getAtEndLoc(), 0, "// ", 3); } void RewriteTest::RewriteProtocolDecl(ObjcProtocolDecl *PDecl) { SourceLocation LocStart = PDecl->getLocStart(); // FIXME: handle protocol headers that are declared across multiple lines. Rewrite.ReplaceText(LocStart, 0, "// ", 3); RewriteMethods(PDecl->getNumInstanceMethods(), PDecl->getInstanceMethods()); RewriteMethods(PDecl->getNumClassMethods(), PDecl->getClassMethods()); // Lastly, comment out the @end. Rewrite.ReplaceText(PDecl->getAtEndLoc(), 0, "// ", 3); } void RewriteTest::RewriteInterfaceDecl(ObjcInterfaceDecl *ClassDecl) { SourceLocation LocStart = ClassDecl->getLocStart(); SourceLocation LocEnd = ClassDecl->getLocEnd(); const char *startBuf = SM->getCharacterData(LocStart); const char *endBuf = SM->getCharacterData(LocEnd); endBuf += Lexer::MeasureTokenLength(LocEnd, *SM); std::string ResultStr; if (!ObjcForwardDecls.count(ClassDecl)) { // we haven't seen a forward decl - generate a typedef. ResultStr += "typedef struct objc_object "; ResultStr += ClassDecl->getName(); ResultStr += ";"; // Mark this typedef as having been generated. ObjcForwardDecls.insert(ClassDecl); } SynthesizeObjcInternalStruct(ClassDecl, ResultStr); Rewrite.ReplaceText(LocStart, endBuf-startBuf, ResultStr.c_str(), ResultStr.size()); RewriteMethods(ClassDecl->getNumInstanceMethods(), ClassDecl->getInstanceMethods()); RewriteMethods(ClassDecl->getNumClassMethods(), ClassDecl->getClassMethods()); // Lastly, comment out the @end. Rewrite.ReplaceText(ClassDecl->getAtEndLoc(), 0, "// ", 3); } //===----------------------------------------------------------------------===// // Function Body / Expression rewriting //===----------------------------------------------------------------------===// Stmt *RewriteTest::RewriteFunctionBody(Stmt *S) { // Otherwise, just rewrite all children. for (Stmt::child_iterator CI = S->child_begin(), E = S->child_end(); CI != E; ++CI) if (*CI) *CI = RewriteFunctionBody(*CI); // Handle specific things. if (ObjCEncodeExpr *AtEncode = dyn_cast(S)) return RewriteAtEncode(AtEncode); if (ObjCSelectorExpr *AtSelector = dyn_cast(S)) return RewriteAtSelector(AtSelector); if (ObjCStringLiteral *AtString = dyn_cast(S)) return RewriteObjCStringLiteral(AtString); if (ObjCMessageExpr *MessExpr = dyn_cast(S)) { // Before we rewrite it, put the original message expression in a comment. SourceLocation startLoc = MessExpr->getLocStart(); SourceLocation endLoc = MessExpr->getLocEnd(); const char *startBuf = SM->getCharacterData(startLoc); const char *endBuf = SM->getCharacterData(endLoc); std::string messString; messString += "// "; messString.append(startBuf, endBuf-startBuf+1); messString += "\n"; // FIXME: Missing definition of Rewrite.InsertText(clang::SourceLocation, char const*, unsigned int). // Rewrite.InsertText(startLoc, messString.c_str(), messString.size()); // Tried this, but it didn't work either... // Rewrite.ReplaceText(startLoc, 0, messString.c_str(), messString.size()); return RewriteMessageExpr(MessExpr); } // Return this stmt unmodified. return S; } Stmt *RewriteTest::RewriteAtEncode(ObjCEncodeExpr *Exp) { // Create a new string expression. QualType StrType = Context->getPointerType(Context->CharTy); std::string StrEncoding; Context->getObjcEncodingForType(Exp->getEncodedType(), StrEncoding); Expr *Replacement = new StringLiteral(StrEncoding.c_str(), StrEncoding.length(), false, StrType, SourceLocation(), SourceLocation()); Rewrite.ReplaceStmt(Exp, Replacement); delete Exp; return Replacement; } Stmt *RewriteTest::RewriteAtSelector(ObjCSelectorExpr *Exp) { assert(SelGetUidFunctionDecl && "Can't find sel_registerName() decl"); // Create a call to sel_registerName("selName"). llvm::SmallVector SelExprs; QualType argType = Context->getPointerType(Context->CharTy); SelExprs.push_back(new StringLiteral(Exp->getSelector().getName().c_str(), Exp->getSelector().getName().size(), false, argType, SourceLocation(), SourceLocation())); CallExpr *SelExp = SynthesizeCallToFunctionDecl(SelGetUidFunctionDecl, &SelExprs[0], SelExprs.size()); Rewrite.ReplaceStmt(Exp, SelExp); delete Exp; return SelExp; } CallExpr *RewriteTest::SynthesizeCallToFunctionDecl( FunctionDecl *FD, Expr **args, unsigned nargs) { // Get the type, we will need to reference it in a couple spots. QualType msgSendType = FD->getType(); // Create a reference to the objc_msgSend() declaration. DeclRefExpr *DRE = new DeclRefExpr(FD, msgSendType, SourceLocation()); // Now, we cast the reference to a pointer to the objc_msgSend type. QualType pToFunc = Context->getPointerType(msgSendType); ImplicitCastExpr *ICE = new ImplicitCastExpr(pToFunc, DRE); const FunctionType *FT = msgSendType->getAsFunctionType(); return new CallExpr(ICE, args, nargs, FT->getResultType(), SourceLocation()); } static bool scanForProtocolRefs(const char *startBuf, const char *endBuf, const char *&startRef, const char *&endRef) { while (startBuf < endBuf) { if (*startBuf == '<') startRef = startBuf; // mark the start. if (*startBuf == '>') { assert((startRef && *startRef == '<') && "rewrite scanning error"); endRef = startBuf; // mark the end. return true; } startBuf++; } return false; } bool RewriteTest::needToScanForQualifiers(QualType T) { // FIXME: we don't currently represent "id " in the type system. if (T == Context->getObjcIdType()) return true; if (const PointerType *pType = T->getAsPointerType()) { Type *pointeeType = pType->getPointeeType().getTypePtr(); if (isa(pointeeType)) return true; // we have "Class *". } return false; } void RewriteTest::RewriteObjcQualifiedInterfaceTypes( const FunctionTypeProto *proto, FunctionDecl *FD) { if (needToScanForQualifiers(proto->getResultType())) { // Since types are unique, we need to scan the buffer. SourceLocation Loc = FD->getLocation(); const char *endBuf = SM->getCharacterData(Loc); const char *startBuf = endBuf; while (*startBuf != ';') startBuf--; // scan backward (from the decl location) for return type. const char *startRef = 0, *endRef = 0; if (scanForProtocolRefs(startBuf, endBuf, startRef, endRef)) { // Get the locations of the startRef, endRef. SourceLocation LessLoc = Loc.getFileLocWithOffset(startRef-endBuf); SourceLocation GreaterLoc = Loc.getFileLocWithOffset(endRef-endBuf+1); // Comment out the protocol references. Rewrite.ReplaceText(LessLoc, 0, "/*", 2); Rewrite.ReplaceText(GreaterLoc, 0, "*/", 2); } } // Now check arguments. for (unsigned i = 0; i < proto->getNumArgs(); i++) { if (needToScanForQualifiers(proto->getArgType(i))) { // Since types are unique, we need to scan the buffer. SourceLocation Loc = FD->getLocation(); const char *startBuf = SM->getCharacterData(Loc); const char *endBuf = startBuf; while (*endBuf != ';') endBuf++; // scan forward (from the decl location) for argument types. const char *startRef = 0, *endRef = 0; if (scanForProtocolRefs(startBuf, endBuf, startRef, endRef)) { // Get the locations of the startRef, endRef. SourceLocation LessLoc = Loc.getFileLocWithOffset(startRef-startBuf); SourceLocation GreaterLoc = Loc.getFileLocWithOffset(endRef-startBuf+1); // Comment out the protocol references. Rewrite.ReplaceText(LessLoc, 0, "/*", 2); Rewrite.ReplaceText(GreaterLoc, 0, "*/", 2); } } } } void RewriteTest::RewriteFunctionDecl(FunctionDecl *FD) { // declared in if (strcmp(FD->getName(), "sel_registerName") == 0) { SelGetUidFunctionDecl = FD; return; } // Check for ObjC 'id' and class types that have been adorned with protocol // information (id

, C

*). The protocol references need to be rewritten! const FunctionType *funcType = FD->getType()->getAsFunctionType(); assert(funcType && "missing function type"); if (const FunctionTypeProto *proto = dyn_cast(funcType)) RewriteObjcQualifiedInterfaceTypes(proto, FD); } // SynthMsgSendFunctionDecl - id objc_msgSend(id self, SEL op, ...); void RewriteTest::SynthMsgSendFunctionDecl() { IdentifierInfo *msgSendIdent = &Context->Idents.get("objc_msgSend"); llvm::SmallVector ArgTys; QualType argT = Context->getObjcIdType(); assert(!argT.isNull() && "Can't find 'id' type"); ArgTys.push_back(argT); argT = Context->getObjcSelType(); assert(!argT.isNull() && "Can't find 'SEL' type"); ArgTys.push_back(argT); QualType msgSendType = Context->getFunctionType(Context->getObjcIdType(), &ArgTys[0], ArgTys.size(), true /*isVariadic*/); MsgSendFunctionDecl = new FunctionDecl(SourceLocation(), msgSendIdent, msgSendType, FunctionDecl::Extern, false, 0); } // SynthGetClassFunctionDecl - id objc_getClass(const char *name); void RewriteTest::SynthGetClassFunctionDecl() { IdentifierInfo *getClassIdent = &Context->Idents.get("objc_getClass"); llvm::SmallVector ArgTys; ArgTys.push_back(Context->getPointerType( Context->CharTy.getQualifiedType(QualType::Const))); QualType getClassType = Context->getFunctionType(Context->getObjcIdType(), &ArgTys[0], ArgTys.size(), false /*isVariadic*/); GetClassFunctionDecl = new FunctionDecl(SourceLocation(), getClassIdent, getClassType, FunctionDecl::Extern, false, 0); } Stmt *RewriteTest::RewriteObjCStringLiteral(ObjCStringLiteral *Exp) { assert(ConstantStringClassReference && "Can't find constant string reference"); llvm::SmallVector InitExprs; // Synthesize "(Class)&_NSConstantStringClassReference" DeclRefExpr *ClsRef = new DeclRefExpr(ConstantStringClassReference, ConstantStringClassReference->getType(), SourceLocation()); QualType expType = Context->getPointerType(ClsRef->getType()); UnaryOperator *Unop = new UnaryOperator(ClsRef, UnaryOperator::AddrOf, expType, SourceLocation()); CastExpr *cast = new CastExpr(Context->getObjcClassType(), Unop, SourceLocation()); InitExprs.push_back(cast); // set the 'isa'. InitExprs.push_back(Exp->getString()); // set "char *bytes". unsigned IntSize = static_cast( Context->getTypeSize(Context->IntTy, Exp->getLocStart())); llvm::APInt IntVal(IntSize, Exp->getString()->getByteLength()); IntegerLiteral *len = new IntegerLiteral(IntVal, Context->IntTy, Exp->getLocStart()); InitExprs.push_back(len); // set "int numBytes". // struct NSConstantString QualType CFConstantStrType = Context->getCFConstantStringType(); // (struct NSConstantString) { } InitListExpr *ILE = new InitListExpr(SourceLocation(), &InitExprs[0], InitExprs.size(), SourceLocation()); CompoundLiteralExpr *StrRep = new CompoundLiteralExpr(CFConstantStrType, ILE); // struct NSConstantString * expType = Context->getPointerType(StrRep->getType()); Unop = new UnaryOperator(StrRep, UnaryOperator::AddrOf, expType, SourceLocation()); // cast to NSConstantString * cast = new CastExpr(Exp->getType(), Unop, SourceLocation()); Rewrite.ReplaceStmt(Exp, cast); delete Exp; return cast; } Stmt *RewriteTest::RewriteMessageExpr(ObjCMessageExpr *Exp) { assert(SelGetUidFunctionDecl && "Can't find sel_registerName() decl"); if (!MsgSendFunctionDecl) SynthMsgSendFunctionDecl(); if (!GetClassFunctionDecl) SynthGetClassFunctionDecl(); // Synthesize a call to objc_msgSend(). llvm::SmallVector MsgExprs; IdentifierInfo *clsName = Exp->getClassName(); // Derive/push the receiver/selector, 2 implicit arguments to objc_msgSend(). if (clsName) { // class message. llvm::SmallVector ClsExprs; QualType argType = Context->getPointerType(Context->CharTy); ClsExprs.push_back(new StringLiteral(clsName->getName(), clsName->getLength(), false, argType, SourceLocation(), SourceLocation())); CallExpr *Cls = SynthesizeCallToFunctionDecl(GetClassFunctionDecl, &ClsExprs[0], ClsExprs.size()); MsgExprs.push_back(Cls); } else // instance message. MsgExprs.push_back(Exp->getReceiver()); // Create a call to sel_registerName("selName"), it will be the 2nd argument. llvm::SmallVector SelExprs; QualType argType = Context->getPointerType(Context->CharTy); SelExprs.push_back(new StringLiteral(Exp->getSelector().getName().c_str(), Exp->getSelector().getName().size(), false, argType, SourceLocation(), SourceLocation())); CallExpr *SelExp = SynthesizeCallToFunctionDecl(SelGetUidFunctionDecl, &SelExprs[0], SelExprs.size()); MsgExprs.push_back(SelExp); // Now push any user supplied arguments. for (unsigned i = 0; i < Exp->getNumArgs(); i++) { MsgExprs.push_back(Exp->getArg(i)); // We've transferred the ownership to MsgExprs. Null out the argument in // the original expression, since we will delete it below. Exp->setArg(i, 0); } // Generate the funky cast. CastExpr *cast; llvm::SmallVector ArgTypes; QualType returnType; // Push 'id' and 'SEL', the 2 implicit arguments. ArgTypes.push_back(Context->getObjcIdType()); ArgTypes.push_back(Context->getObjcSelType()); if (ObjcMethodDecl *mDecl = Exp->getMethodDecl()) { // Push any user argument types. for (int i = 0; i < mDecl->getNumParams(); i++) { QualType t = mDecl->getParamDecl(i)->getType(); if (t == Context->getObjcClassType()) t = Context->getObjcIdType(); // Convert "Class"->"id" ArgTypes.push_back(t); } returnType = mDecl->getResultType(); } else { returnType = Context->getObjcIdType(); } // Get the type, we will need to reference it in a couple spots. QualType msgSendType = MsgSendFunctionDecl->getType(); // Create a reference to the objc_msgSend() declaration. DeclRefExpr *DRE = new DeclRefExpr(MsgSendFunctionDecl, msgSendType, SourceLocation()); // Need to cast objc_msgSend to "void *" (to workaround a GCC bandaid). // If we don't do this cast, we get the following bizarre warning/note: // xx.m:13: warning: function called through a non-compatible type // xx.m:13: note: if this code is reached, the program will abort cast = new CastExpr(Context->getPointerType(Context->VoidTy), DRE, SourceLocation()); // Now do the "normal" pointer to function cast. QualType castType = Context->getFunctionType(returnType, &ArgTypes[0], ArgTypes.size(), false/*FIXME:variadic*/); castType = Context->getPointerType(castType); cast = new CastExpr(castType, cast, SourceLocation()); // Don't forget the parens to enforce the proper binding. ParenExpr *PE = new ParenExpr(SourceLocation(), SourceLocation(), cast); const FunctionType *FT = msgSendType->getAsFunctionType(); CallExpr *CE = new CallExpr(PE, &MsgExprs[0], MsgExprs.size(), FT->getResultType(), SourceLocation()); // Now do the actual rewrite. Rewrite.ReplaceStmt(Exp, CE); delete Exp; return CE; } /// SynthesizeObjcInternalStruct - Rewrite one internal struct corresponding to /// an objective-c class with ivars. void RewriteTest::SynthesizeObjcInternalStruct(ObjcInterfaceDecl *CDecl, std::string &Result) { assert(CDecl && "Class missing in SynthesizeObjcInternalStruct"); assert(CDecl->getName() && "Name missing in SynthesizeObjcInternalStruct"); // Do not synthesize more than once. if (ObjcSynthesizedStructs.count(CDecl)) return; ObjcInterfaceDecl *RCDecl = CDecl->getSuperClass(); if (RCDecl && !ObjcSynthesizedStructs.count(RCDecl)) { // Do it for the root SynthesizeObjcInternalStruct(RCDecl, Result); } int NumIvars = CDecl->getIntfDeclNumIvars(); // If no ivars and no root or if its root, directly or indirectly, // have no ivars (thus not synthesized) then no need to synthesize this class. if (NumIvars <= 0 && (!RCDecl || !ObjcSynthesizedStructs.count(RCDecl))) return; Result += "\nstruct "; Result += CDecl->getName(); if (RCDecl && ObjcSynthesizedStructs.count(RCDecl)) { Result += " {\n struct "; Result += RCDecl->getName(); Result += " _"; Result += RCDecl->getName(); Result += ";\n"; } else Result += " {"; if (NumIvars > 0) { SourceLocation LocStart = CDecl->getLocStart(); SourceLocation LocEnd = CDecl->getLocEnd(); const char *startBuf = SM->getCharacterData(LocStart); const char *endBuf = SM->getCharacterData(LocEnd); startBuf = strchr(startBuf, '{'); assert((startBuf && endBuf) && "SynthesizeObjcInternalStruct - malformed @interface"); startBuf++; // past '{' while (startBuf < endBuf) { if (*startBuf == '@') { startBuf = strchr(startBuf, 'p'); // FIXME: presence of @public, etc. inside comment results in // this transformation as well, which is still correct c-code. if (!strncmp(startBuf, "public", strlen("public"))) { startBuf += strlen("public"); Result += "/* @public */"; } else if (!strncmp(startBuf, "private", strlen("private"))) { startBuf += strlen("private"); Result += "/* @private */"; } else if (!strncmp(startBuf, "protected", strlen("protected"))) { startBuf += strlen("protected"); Result += "/* @protected */"; } } Result += *startBuf++; } } Result += "};\n"; // Mark this struct as having been generated. if (!ObjcSynthesizedStructs.insert(CDecl)) assert(false && "struct already synthesize- SynthesizeObjcInternalStruct"); } // RewriteObjcMethodsMetaData - Rewrite methods metadata for instance or /// class methods. void RewriteTest::RewriteObjcMethodsMetaData(ObjcMethodDecl **Methods, int NumMethods, bool IsInstanceMethod, const char *prefix, const char *ClassName, std::string &Result) { static bool objc_impl_method = false; if (NumMethods > 0 && !objc_impl_method) { /* struct _objc_method { SEL _cmd; char *method_types; void *_imp; } */ Result += "\nstruct _objc_method {\n"; Result += "\tSEL _cmd;\n"; Result += "\tchar *method_types;\n"; Result += "\tvoid *_imp;\n"; Result += "};\n"; /* struct _objc_method_list { struct _objc_method_list *next_method; int method_count; struct _objc_method method_list[]; } */ Result += "\nstruct _objc_method_list {\n"; Result += "\tstruct _objc_method_list *next_method;\n"; Result += "\tint method_count;\n"; Result += "\tstruct _objc_method method_list[];\n};\n"; objc_impl_method = true; } // Build _objc_method_list for class's methods if needed if (NumMethods > 0) { Result += "\nstatic struct _objc_method_list _OBJC_"; Result += prefix; Result += IsInstanceMethod ? "INSTANCE" : "CLASS"; Result += "_METHODS_"; Result += ClassName; Result += " __attribute__ ((section (\"__OBJC, __"; Result += IsInstanceMethod ? "inst" : "cls"; Result += "_meth\")))= "; Result += "{\n\t0, " + utostr(NumMethods) + "\n"; Result += "\t,{{(SEL)\""; Result += Methods[0]->getSelector().getName().c_str(); std::string MethodTypeString; Context->getObjcEncodingForMethodDecl(Methods[0], MethodTypeString); Result += "\", \""; Result += MethodTypeString; Result += "\", 0}\n"; for (int i = 1; i < NumMethods; i++) { // TODO: Need method address as 3rd initializer. Result += "\t ,{(SEL)\""; Result += Methods[i]->getSelector().getName().c_str(); std::string MethodTypeString; Context->getObjcEncodingForMethodDecl(Methods[i], MethodTypeString); Result += "\", \""; Result += MethodTypeString; Result += "\", 0}\n"; } Result += "\t }\n};\n"; } } /// RewriteObjcProtocolsMetaData - Rewrite protocols meta-data. void RewriteTest::RewriteObjcProtocolsMetaData(ObjcProtocolDecl **Protocols, int NumProtocols, const char *prefix, const char *ClassName, std::string &Result) { static bool objc_protocol_methods = false; if (NumProtocols > 0) { for (int i = 0; i < NumProtocols; i++) { ObjcProtocolDecl *PDecl = Protocols[i]; // Output struct protocol_methods holder of method selector and type. if (!objc_protocol_methods && (PDecl->getNumInstanceMethods() > 0 || PDecl->getNumClassMethods() > 0)) { /* struct protocol_methods { SEL _cmd; char *method_types; } */ Result += "\nstruct protocol_methods {\n"; Result += "\tSEL _cmd;\n"; Result += "\tchar *method_types;\n"; Result += "};\n"; /* struct _objc_protocol_method_list { int protocol_method_count; struct protocol_methods protocols[]; } */ Result += "\nstruct _objc_protocol_method_list {\n"; Result += "\tint protocol_method_count;\n"; Result += "\tstruct protocol_methods protocols[];\n};\n"; objc_protocol_methods = true; } // Output instance methods declared in this protocol. int NumMethods = PDecl->getNumInstanceMethods(); if (NumMethods > 0) { Result += "\nstatic struct _objc_protocol_method_list " "_OBJC_PROTOCOL_INSTANCE_METHODS_"; Result += PDecl->getName(); Result += " __attribute__ ((section (\"__OBJC, __cat_inst_meth\")))= " "{\n\t" + utostr(NumMethods) + "\n"; ObjcMethodDecl **Methods = PDecl->getInstanceMethods(); Result += "\t,{{(SEL)\""; Result += Methods[0]->getSelector().getName().c_str(); Result += "\", \"\"}\n"; for (int i = 1; i < NumMethods; i++) { Result += "\t ,{(SEL)\""; Result += Methods[i]->getSelector().getName().c_str(); std::string MethodTypeString; Context->getObjcEncodingForMethodDecl(Methods[i], MethodTypeString); Result += "\", \""; Result += MethodTypeString; Result += "\"}\n"; } Result += "\t }\n};\n"; } // Output class methods declared in this protocol. NumMethods = PDecl->getNumClassMethods(); if (NumMethods > 0) { Result += "\nstatic struct _objc_protocol_method_list " "_OBJC_PROTOCOL_CLASS_METHODS_"; Result += PDecl->getName(); Result += " __attribute__ ((section (\"__OBJC, __cat_cls_meth\")))= " "{\n\t"; Result += utostr(NumMethods); Result += "\n"; ObjcMethodDecl **Methods = PDecl->getClassMethods(); Result += "\t,{{(SEL)\""; Result += Methods[0]->getSelector().getName().c_str(); Result += "\", \"\"}\n"; for (int i = 1; i < NumMethods; i++) { Result += "\t ,{(SEL)\""; Result += Methods[i]->getSelector().getName().c_str(); std::string MethodTypeString; Context->getObjcEncodingForMethodDecl(Methods[i], MethodTypeString); Result += "\", \""; Result += MethodTypeString; Result += "\"}\n"; } Result += "\t }\n};\n"; } // Output: /* struct _objc_protocol { // Objective-C 1.0 extensions struct _objc_protocol_extension *isa; char *protocol_name; struct _objc_protocol **protocol_list; struct _objc_protocol_method_list *instance_methods; struct _objc_protocol_method_list *class_methods; }; */ static bool objc_protocol = false; if (!objc_protocol) { Result += "\nstruct _objc_protocol {\n"; Result += "\tstruct _objc_protocol_extension *isa;\n"; Result += "\tchar *protocol_name;\n"; Result += "\tstruct _objc_protocol **protocol_list;\n"; Result += "\tstruct _objc_protocol_method_list *instance_methods;\n"; Result += "\tstruct _objc_protocol_method_list *class_methods;\n"; Result += "};\n"; /* struct _objc_protocol_list { struct _objc_protocol_list *next; int protocol_count; struct _objc_protocol *class_protocols[]; } */ Result += "\nstruct _objc_protocol_list {\n"; Result += "\tstruct _objc_protocol_list *next;\n"; Result += "\tint protocol_count;\n"; Result += "\tstruct _objc_protocol *class_protocols[];\n"; Result += "};\n"; objc_protocol = true; } Result += "\nstatic struct _objc_protocol _OBJC_PROTOCOL_"; Result += PDecl->getName(); Result += " __attribute__ ((section (\"__OBJC, __protocol\")))= " "{\n\t0, \""; Result += PDecl->getName(); Result += "\", 0, "; if (PDecl->getInstanceMethods() > 0) { Result += "&_OBJC_PROTOCOL_INSTANCE_METHODS_"; Result += PDecl->getName(); Result += ", "; } else Result += "0, "; if (PDecl->getClassMethods() > 0) { Result += "&_OBJC_PROTOCOL_CLASS_METHODS_"; Result += PDecl->getName(); Result += "\n"; } else Result += "0\n"; Result += "};\n"; } // Output the top lovel protocol meta-data for the class. Result += "\nstatic struct _objc_protocol_list _OBJC_"; Result += prefix; Result += "_PROTOCOLS_"; Result += ClassName; Result += " __attribute__ ((section (\"__OBJC, __cat_cls_meth\")))= " "{\n\t0, "; Result += utostr(NumProtocols); Result += "\n"; Result += "\t,{&_OBJC_PROTOCOL_"; Result += Protocols[0]->getName(); Result += " \n"; for (int i = 1; i < NumProtocols; i++) { ObjcProtocolDecl *PDecl = Protocols[i]; Result += "\t ,&_OBJC_PROTOCOL_"; Result += PDecl->getName(); Result += "\n"; } Result += "\t }\n};\n"; } } /// RewriteObjcCategoryImplDecl - Rewrite metadata for each category /// implementation. void RewriteTest::RewriteObjcCategoryImplDecl(ObjcCategoryImplDecl *IDecl, std::string &Result) { ObjcInterfaceDecl *ClassDecl = IDecl->getClassInterface(); // Find category declaration for this implementation. ObjcCategoryDecl *CDecl; for (CDecl = ClassDecl->getCategoryList(); CDecl; CDecl = CDecl->getNextClassCategory()) if (CDecl->getIdentifier() == IDecl->getIdentifier()) break; assert(CDecl && "RewriteObjcCategoryImplDecl - bad category"); char *FullCategoryName = (char*)alloca( strlen(ClassDecl->getName()) + strlen(IDecl->getName()) + 2); sprintf(FullCategoryName, "%s_%s", ClassDecl->getName(), IDecl->getName()); // Build _objc_method_list for class's instance methods if needed RewriteObjcMethodsMetaData(IDecl->getInstanceMethods(), IDecl->getNumInstanceMethods(), true, "CATEGORY_", FullCategoryName, Result); // Build _objc_method_list for class's class methods if needed RewriteObjcMethodsMetaData(IDecl->getClassMethods(), IDecl->getNumClassMethods(), false, "CATEGORY_", FullCategoryName, Result); // Protocols referenced in class declaration? RewriteObjcProtocolsMetaData(CDecl->getReferencedProtocols(), CDecl->getNumReferencedProtocols(), "CATEGORY", FullCategoryName, Result); /* struct _objc_category { char *category_name; char *class_name; struct _objc_method_list *instance_methods; struct _objc_method_list *class_methods; struct _objc_protocol_list *protocols; // Objective-C 1.0 extensions uint32_t size; // sizeof (struct _objc_category) struct _objc_property_list *instance_properties; // category's own // @property decl. }; */ static bool objc_category = false; if (!objc_category) { Result += "\nstruct _objc_category {\n"; Result += "\tchar *category_name;\n"; Result += "\tchar *class_name;\n"; Result += "\tstruct _objc_method_list *instance_methods;\n"; Result += "\tstruct _objc_method_list *class_methods;\n"; Result += "\tstruct _objc_protocol_list *protocols;\n"; Result += "\tunsigned int size;\n"; Result += "\tstruct _objc_property_list *instance_properties;\n"; Result += "};\n"; objc_category = true; } Result += "\nstatic struct _objc_category _OBJC_CATEGORY_"; Result += FullCategoryName; Result += " __attribute__ ((section (\"__OBJC, __category\")))= {\n\t\""; Result += IDecl->getName(); Result += "\"\n\t, \""; Result += ClassDecl->getName(); Result += "\"\n"; if (IDecl->getNumInstanceMethods() > 0) { Result += "\t, (struct _objc_method_list *)" "&_OBJC_CATEGORY_INSTANCE_METHODS_"; Result += FullCategoryName; Result += "\n"; } else Result += "\t, 0\n"; if (IDecl->getNumClassMethods() > 0) { Result += "\t, (struct _objc_method_list *)" "&_OBJC_CATEGORY_CLASS_METHODS_"; Result += FullCategoryName; Result += "\n"; } else Result += "\t, 0\n"; if (CDecl->getNumReferencedProtocols() > 0) { Result += "\t, (struct _objc_protocol_list *)&_OBJC_CATEGORY_PROTOCOLS_"; Result += FullCategoryName; Result += "\n"; } else Result += "\t, 0\n"; Result += "\t, sizeof(struct _objc_category), 0\n};\n"; } /// SynthesizeIvarOffsetComputation - This rutine synthesizes computation of /// ivar offset. void RewriteTest::SynthesizeIvarOffsetComputation(ObjcImplementationDecl *IDecl, ObjcIvarDecl *ivar, std::string &Result) { Result += "offsetof(struct _interface_"; Result += IDecl->getName(); Result += ", "; Result += ivar->getName(); Result += ")"; } //===----------------------------------------------------------------------===// // Meta Data Emission //===----------------------------------------------------------------------===// void RewriteTest::RewriteObjcClassMetaData(ObjcImplementationDecl *IDecl, std::string &Result) { ObjcInterfaceDecl *CDecl = IDecl->getClassInterface(); // Build _objc_ivar_list metadata for classes ivars if needed int NumIvars = IDecl->getImplDeclNumIvars() > 0 ? IDecl->getImplDeclNumIvars() : (CDecl ? CDecl->getIntfDeclNumIvars() : 0); SynthesizeObjcInternalStruct(CDecl, Result); if (NumIvars > 0) { static bool objc_ivar = false; if (!objc_ivar) { /* struct _objc_ivar { char *ivar_name; char *ivar_type; int ivar_offset; }; */ Result += "\nstruct _objc_ivar {\n"; Result += "\tchar *ivar_name;\n"; Result += "\tchar *ivar_type;\n"; Result += "\tint ivar_offset;\n"; Result += "};\n"; /* struct _objc_ivar_list { int ivar_count; struct _objc_ivar ivar_list[]; }; */ Result += "\nstruct _objc_ivar_list {\n"; Result += "\tint ivar_count;\n"; Result += "\tstruct _objc_ivar ivar_list[];\n};\n"; objc_ivar = true; } Result += "\nstatic struct _objc_ivar_list _OBJC_INSTANCE_VARIABLES_"; Result += IDecl->getName(); Result += " __attribute__ ((section (\"__OBJC, __instance_vars\")))= " "{\n\t"; Result += utostr(NumIvars); Result += "\n"; ObjcIvarDecl **Ivars = IDecl->getImplDeclIVars() ? IDecl->getImplDeclIVars() : CDecl->getIntfDeclIvars(); Result += "\t,{{\""; Result += Ivars[0]->getName(); Result += "\", \""; std::string StrEncoding; Context->getObjcEncodingForType(Ivars[0]->getType(), StrEncoding); Result += StrEncoding; Result += "\", "; SynthesizeIvarOffsetComputation(IDecl, Ivars[0], Result); Result += "}\n"; for (int i = 1; i < NumIvars; i++) { Result += "\t ,{\""; Result += Ivars[i]->getName(); Result += "\", \""; std::string StrEncoding; Context->getObjcEncodingForType(Ivars[i]->getType(), StrEncoding); Result += StrEncoding; Result += "\", "; SynthesizeIvarOffsetComputation(IDecl, Ivars[i], Result); Result += "}\n"; } Result += "\t }\n};\n"; } // Build _objc_method_list for class's instance methods if needed RewriteObjcMethodsMetaData(IDecl->getInstanceMethods(), IDecl->getNumInstanceMethods(), true, "", IDecl->getName(), Result); // Build _objc_method_list for class's class methods if needed RewriteObjcMethodsMetaData(IDecl->getClassMethods(), IDecl->getNumClassMethods(), false, "", IDecl->getName(), Result); // Protocols referenced in class declaration? RewriteObjcProtocolsMetaData(CDecl->getReferencedProtocols(), CDecl->getNumIntfRefProtocols(), "CLASS", CDecl->getName(), Result); // Declaration of class/meta-class metadata /* struct _objc_class { struct _objc_class *isa; // or const char *root_class_name when metadata const char *super_class_name; char *name; long version; long info; long instance_size; struct _objc_ivar_list *ivars; struct _objc_method_list *methods; struct objc_cache *cache; struct objc_protocol_list *protocols; const char *ivar_layout; struct _objc_class_ext *ext; }; */ static bool objc_class = false; if (!objc_class) { Result += "\nstruct _objc_class {\n"; Result += "\tstruct _objc_class *isa;\n"; Result += "\tconst char *super_class_name;\n"; Result += "\tchar *name;\n"; Result += "\tlong version;\n"; Result += "\tlong info;\n"; Result += "\tlong instance_size;\n"; Result += "\tstruct _objc_ivar_list *ivars;\n"; Result += "\tstruct _objc_method_list *methods;\n"; Result += "\tstruct objc_cache *cache;\n"; Result += "\tstruct _objc_protocol_list *protocols;\n"; Result += "\tconst char *ivar_layout;\n"; Result += "\tstruct _objc_class_ext *ext;\n"; Result += "};\n"; objc_class = true; } // Meta-class metadata generation. ObjcInterfaceDecl *RootClass = 0; ObjcInterfaceDecl *SuperClass = CDecl->getSuperClass(); while (SuperClass) { RootClass = SuperClass; SuperClass = SuperClass->getSuperClass(); } SuperClass = CDecl->getSuperClass(); Result += "\nstatic struct _objc_class _OBJC_METACLASS_"; Result += CDecl->getName(); Result += " __attribute__ ((section (\"__OBJC, __meta_class\")))= " "{\n\t(struct _objc_class *)\""; Result += (RootClass ? RootClass->getName() : CDecl->getName()); Result += "\""; if (SuperClass) { Result += ", \""; Result += SuperClass->getName(); Result += "\", \""; Result += CDecl->getName(); Result += "\""; } else { Result += ", 0, \""; Result += CDecl->getName(); Result += "\""; } // TODO: 'ivars' field for root class is currently set to 0. // 'info' field is initialized to CLS_META(2) for metaclass Result += ", 0,2, sizeof(struct _objc_class), 0"; if (CDecl->getNumClassMethods() > 0) { Result += "\n\t, &_OBJC_CLASS_METHODS_"; Result += CDecl->getName(); Result += "\n"; } else Result += ", 0\n"; if (CDecl->getNumIntfRefProtocols() > 0) { Result += "\t,0, &_OBJC_CLASS_PROTOCOLS_"; Result += CDecl->getName(); Result += ",0,0\n"; } else Result += "\t,0,0,0,0\n"; Result += "};\n"; // class metadata generation. Result += "\nstatic struct _objc_class _OBJC_CLASS_"; Result += CDecl->getName(); Result += " __attribute__ ((section (\"__OBJC, __class\")))= " "{\n\t&_OBJC_METACLASS_"; Result += CDecl->getName(); if (SuperClass) { Result += ", \""; Result += SuperClass->getName(); Result += "\", \""; Result += CDecl->getName(); Result += "\""; } else { Result += ", 0, \""; Result += CDecl->getName(); Result += "\""; } // 'info' field is initialized to CLS_CLASS(1) for class Result += ", 0,1"; if (!ObjcSynthesizedStructs.count(CDecl)) Result += ",0"; else { // class has size. Must synthesize its size. Result += ",sizeof(struct _interface_"; Result += CDecl->getName(); Result += ")"; } if (NumIvars > 0) { Result += ", &_OBJC_INSTANCE_VARIABLES_"; Result += CDecl->getName(); Result += "\n\t"; } else Result += ",0"; if (IDecl->getNumInstanceMethods() > 0) { Result += ", &_OBJC_INSTANCE_METHODS_"; Result += CDecl->getName(); Result += ", 0\n\t"; } else Result += ",0,0"; if (CDecl->getNumIntfRefProtocols() > 0) { Result += ", &_OBJC_CLASS_PROTOCOLS_"; Result += CDecl->getName(); Result += ", 0,0\n"; } else Result += ",0,0,0\n"; Result += "};\n"; } void RewriteTest::WriteObjcMetaData(std::string &Result) { int ClsDefCount = ClassImplementation.size(); int CatDefCount = CategoryImplementation.size(); if (ClsDefCount == 0 && CatDefCount == 0) return; // TODO: This is temporary until we decide how to access objc types in a // c program Result += "#include \n"; // This is needed for use of offsetof Result += "#include \n"; // For each implemented class, write out all its meta data. for (int i = 0; i < ClsDefCount; i++) RewriteObjcClassMetaData(ClassImplementation[i], Result); // For each implemented category, write out all its meta data. for (int i = 0; i < CatDefCount; i++) RewriteObjcCategoryImplDecl(CategoryImplementation[i], Result); // Write objc_symtab metadata /* struct _objc_symtab { long sel_ref_cnt; SEL *refs; short cls_def_cnt; short cat_def_cnt; void *defs[cls_def_cnt + cat_def_cnt]; }; */ Result += "\nstruct _objc_symtab {\n"; Result += "\tlong sel_ref_cnt;\n"; Result += "\tSEL *refs;\n"; Result += "\tshort cls_def_cnt;\n"; Result += "\tshort cat_def_cnt;\n"; Result += "\tvoid *defs[" + utostr(ClsDefCount + CatDefCount)+ "];\n"; Result += "};\n\n"; Result += "static struct _objc_symtab " "_OBJC_SYMBOLS __attribute__((section (\"__OBJC, __symbols\")))= {\n"; Result += "\t0, 0, " + utostr(ClsDefCount) + ", " + utostr(CatDefCount) + "\n"; for (int i = 0; i < ClsDefCount; i++) { Result += "\t,&_OBJC_CLASS_"; Result += ClassImplementation[i]->getName(); Result += "\n"; } for (int i = 0; i < CatDefCount; i++) { Result += "\t,&_OBJC_CATEGORY_"; Result += CategoryImplementation[i]->getClassInterface()->getName(); Result += "_"; Result += CategoryImplementation[i]->getName(); Result += "\n"; } Result += "};\n\n"; // Write objc_module metadata /* struct _objc_module { long version; long size; const char *name; struct _objc_symtab *symtab; } */ Result += "\nstruct _objc_module {\n"; Result += "\tlong version;\n"; Result += "\tlong size;\n"; Result += "\tconst char *name;\n"; Result += "\tstruct _objc_symtab *symtab;\n"; Result += "};\n\n"; Result += "static struct _objc_module " "_OBJC_MODULES __attribute__ ((section (\"__OBJC, __module_info\")))= {\n"; Result += "\t" + utostr(OBJC_ABI_VERSION) + ", sizeof(struct _objc_module), \"\", &_OBJC_SYMBOLS\n"; Result += "};\n\n"; }