InlineFunction.cpp revision 727d1dd58793447e83ade712f0e58172f156edcf
1ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner//===- InlineFunction.cpp - Code to perform function inlining -------------===// 2fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman// 3b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell// The LLVM Compiler Infrastructure 4b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell// 5b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell// This file was developed by the LLVM research group and is distributed under 6b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell// the University of Illinois Open Source License. See LICENSE.TXT for details. 7fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman// 8b576c94c15af9a440f69d9d03c2afead7971118cJohn Criswell//===----------------------------------------------------------------------===// 9ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// 10ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// This file implements inlining of a function into a call site, resolving 11ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// parameters and the return value as appropriate. 12ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// 13ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner//===----------------------------------------------------------------------===// 14ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner 15ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner#include "llvm/Transforms/Utils/Cloning.h" 163787e765facfad5ea62753922d940bcdd52afd57Chris Lattner#include "llvm/Constants.h" 177152c237b46a920b29d5605af934766b8f9a07a1Chris Lattner#include "llvm/DerivedTypes.h" 18ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner#include "llvm/Module.h" 1980a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner#include "llvm/Instructions.h" 2080a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner#include "llvm/Intrinsics.h" 2180a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner#include "llvm/Support/CallSite.h" 22f7703df4968084c18c248c1feea9961c19a32e6aChris Lattnerusing namespace llvm; 23ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner 24f7703df4968084c18c248c1feea9961c19a32e6aChris Lattnerbool llvm::InlineFunction(CallInst *CI) { return InlineFunction(CallSite(CI)); } 25f7703df4968084c18c248c1feea9961c19a32e6aChris Lattnerbool llvm::InlineFunction(InvokeInst *II) {return InlineFunction(CallSite(II));} 2680a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner 27cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner/// HandleInlinedInvoke - If we inlined an invoke site, we need to convert calls 28cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner/// in the body of the inlined function into invokes and turn unwind 29cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner/// instructions into branches to the invoke unwind dest. 30cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner/// 31cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner/// II is the invoke instruction begin inlined. FirstNewBlock is the first 32cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner/// block of the inlined code (the last block is the end of the function), 33cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner/// and InlineCodeInfo is information about the code that got inlined. 34cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattnerstatic void HandleInlinedInvoke(InvokeInst *II, BasicBlock *FirstNewBlock, 35cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner ClonedCodeInfo &InlinedCodeInfo) { 36cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner BasicBlock *InvokeDest = II->getUnwindDest(); 37cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner std::vector<Value*> InvokeDestPHIValues; 38cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner 39cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // If there are PHI nodes in the unwind destination block, we need to 40cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // keep track of which values came into them from this invoke, then remove 41cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // the entry for this block. 42cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner BasicBlock *InvokeBlock = II->getParent(); 43cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner for (BasicBlock::iterator I = InvokeDest->begin(); isa<PHINode>(I); ++I) { 44cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner PHINode *PN = cast<PHINode>(I); 45cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // Save the value to use for this edge. 46cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner InvokeDestPHIValues.push_back(PN->getIncomingValueForBlock(InvokeBlock)); 47cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner } 48cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner 49cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner Function *Caller = FirstNewBlock->getParent(); 50cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner 51cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // The inlined code is currently at the end of the function, scan from the 52cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // start of the inlined code to its end, checking for stuff we need to 53cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // rewrite. 54727d1dd58793447e83ade712f0e58172f156edcfChris Lattner if (InlinedCodeInfo.ContainsCalls || InlinedCodeInfo.ContainsUnwinds) { 55727d1dd58793447e83ade712f0e58172f156edcfChris Lattner for (Function::iterator BB = FirstNewBlock, E = Caller->end(); 56727d1dd58793447e83ade712f0e58172f156edcfChris Lattner BB != E; ++BB) { 57727d1dd58793447e83ade712f0e58172f156edcfChris Lattner if (InlinedCodeInfo.ContainsCalls) { 58727d1dd58793447e83ade712f0e58172f156edcfChris Lattner for (BasicBlock::iterator BBI = BB->begin(), E = BB->end(); BBI != E; ){ 59727d1dd58793447e83ade712f0e58172f156edcfChris Lattner Instruction *I = BBI++; 60727d1dd58793447e83ade712f0e58172f156edcfChris Lattner 61727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // We only need to check for function calls: inlined invoke 62727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // instructions require no special handling. 63727d1dd58793447e83ade712f0e58172f156edcfChris Lattner if (!isa<CallInst>(I)) continue; 64727d1dd58793447e83ade712f0e58172f156edcfChris Lattner CallInst *CI = cast<CallInst>(I); 65cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner 66727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // If this is an intrinsic function call, don't convert it to an 67727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // invoke. 68727d1dd58793447e83ade712f0e58172f156edcfChris Lattner if (CI->getCalledFunction() && 69727d1dd58793447e83ade712f0e58172f156edcfChris Lattner CI->getCalledFunction()->getIntrinsicID()) 70727d1dd58793447e83ade712f0e58172f156edcfChris Lattner continue; 71727d1dd58793447e83ade712f0e58172f156edcfChris Lattner 72727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // Convert this function call into an invoke instruction. 73727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // First, split the basic block. 74727d1dd58793447e83ade712f0e58172f156edcfChris Lattner BasicBlock *Split = BB->splitBasicBlock(CI, CI->getName()+".noexc"); 75727d1dd58793447e83ade712f0e58172f156edcfChris Lattner 76727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // Next, create the new invoke instruction, inserting it at the end 77727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // of the old basic block. 78727d1dd58793447e83ade712f0e58172f156edcfChris Lattner InvokeInst *II = 79727d1dd58793447e83ade712f0e58172f156edcfChris Lattner new InvokeInst(CI->getCalledValue(), Split, InvokeDest, 80727d1dd58793447e83ade712f0e58172f156edcfChris Lattner std::vector<Value*>(CI->op_begin()+1, CI->op_end()), 81727d1dd58793447e83ade712f0e58172f156edcfChris Lattner CI->getName(), BB->getTerminator()); 82727d1dd58793447e83ade712f0e58172f156edcfChris Lattner II->setCallingConv(CI->getCallingConv()); 83727d1dd58793447e83ade712f0e58172f156edcfChris Lattner 84727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // Make sure that anything using the call now uses the invoke! 85727d1dd58793447e83ade712f0e58172f156edcfChris Lattner CI->replaceAllUsesWith(II); 86727d1dd58793447e83ade712f0e58172f156edcfChris Lattner 87727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // Delete the unconditional branch inserted by splitBasicBlock 88727d1dd58793447e83ade712f0e58172f156edcfChris Lattner BB->getInstList().pop_back(); 89727d1dd58793447e83ade712f0e58172f156edcfChris Lattner Split->getInstList().pop_front(); // Delete the original call 90727d1dd58793447e83ade712f0e58172f156edcfChris Lattner 91727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // Update any PHI nodes in the exceptional block to indicate that 92727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // there is now a new entry in them. 93727d1dd58793447e83ade712f0e58172f156edcfChris Lattner unsigned i = 0; 94727d1dd58793447e83ade712f0e58172f156edcfChris Lattner for (BasicBlock::iterator I = InvokeDest->begin(); 95727d1dd58793447e83ade712f0e58172f156edcfChris Lattner isa<PHINode>(I); ++I, ++i) { 96727d1dd58793447e83ade712f0e58172f156edcfChris Lattner PHINode *PN = cast<PHINode>(I); 97727d1dd58793447e83ade712f0e58172f156edcfChris Lattner PN->addIncoming(InvokeDestPHIValues[i], BB); 98727d1dd58793447e83ade712f0e58172f156edcfChris Lattner } 99727d1dd58793447e83ade712f0e58172f156edcfChris Lattner 100727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // This basic block is now complete, start scanning the next one. 101727d1dd58793447e83ade712f0e58172f156edcfChris Lattner break; 102727d1dd58793447e83ade712f0e58172f156edcfChris Lattner } 103cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner } 104cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner 105727d1dd58793447e83ade712f0e58172f156edcfChris Lattner if (UnwindInst *UI = dyn_cast<UnwindInst>(BB->getTerminator())) { 106727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // An UnwindInst requires special handling when it gets inlined into an 107727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // invoke site. Once this happens, we know that the unwind would cause 108727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // a control transfer to the invoke exception destination, so we can 109727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // transform it into a direct branch to the exception destination. 110727d1dd58793447e83ade712f0e58172f156edcfChris Lattner new BranchInst(InvokeDest, UI); 111727d1dd58793447e83ade712f0e58172f156edcfChris Lattner 112727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // Delete the unwind instruction! 113727d1dd58793447e83ade712f0e58172f156edcfChris Lattner UI->getParent()->getInstList().pop_back(); 114727d1dd58793447e83ade712f0e58172f156edcfChris Lattner 115727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // Update any PHI nodes in the exceptional block to indicate that 116727d1dd58793447e83ade712f0e58172f156edcfChris Lattner // there is now a new entry in them. 117727d1dd58793447e83ade712f0e58172f156edcfChris Lattner unsigned i = 0; 118727d1dd58793447e83ade712f0e58172f156edcfChris Lattner for (BasicBlock::iterator I = InvokeDest->begin(); 119727d1dd58793447e83ade712f0e58172f156edcfChris Lattner isa<PHINode>(I); ++I, ++i) { 120727d1dd58793447e83ade712f0e58172f156edcfChris Lattner PHINode *PN = cast<PHINode>(I); 121727d1dd58793447e83ade712f0e58172f156edcfChris Lattner PN->addIncoming(InvokeDestPHIValues[i], BB); 122727d1dd58793447e83ade712f0e58172f156edcfChris Lattner } 123cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner } 124cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner } 125cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner } 126cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner 127cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // Now that everything is happy, we have one final detail. The PHI nodes in 128cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // the exception destination block still have entries due to the original 129cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // invoke instruction. Eliminate these entries (which might even delete the 130cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner // PHI node) now. 131cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner InvokeDest->removePredecessor(II->getParent()); 132cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner} 133cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner 134cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner 135ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// InlineFunction - This function inlines the called function into the basic 136ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// block of the caller. This returns false if it is not possible to inline this 137ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// call. The program is still in a well defined state if this occurs though. 138ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// 139fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman// Note that this only does one level of inlining. For example, if the 140fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman// instruction 'call B' is inlined, and 'B' calls 'C', then the call to 'C' now 141ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// exists in the instruction stream. Similiarly this will inline a recursive 142ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// function by one level. 143ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner// 144f7703df4968084c18c248c1feea9961c19a32e6aChris Lattnerbool llvm::InlineFunction(CallSite CS) { 14580a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner Instruction *TheCall = CS.getInstruction(); 14680a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner assert(TheCall->getParent() && TheCall->getParent()->getParent() && 14780a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner "Instruction not in function!"); 148ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner 14980a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner const Function *CalledFunc = CS.getCalledFunction(); 150ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner if (CalledFunc == 0 || // Can't inline external function or indirect 151ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner CalledFunc->isExternal() || // call, or call to a vararg function! 152ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner CalledFunc->getFunctionType()->isVarArg()) return false; 153ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner 1541b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner 1551b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner // If the call to the callee is a non-tail call, we must clear the 'tail' 1561b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner // flags on any calls that we inline. 1571b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner bool MustClearTailCallFlags = 1583799ed83b4cb80695a81294da6a7d18cf0884f5eChris Lattner isa<CallInst>(TheCall) && !cast<CallInst>(TheCall)->isTailCall(); 1591b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner 16080a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner BasicBlock *OrigBB = TheCall->getParent(); 161ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner Function *Caller = OrigBB->getParent(); 162ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner 1635052c911ec1be51ecb36e7f025c26412e9f1bfacChris Lattner // Get an iterator to the last basic block in the function, which will have 1645052c911ec1be51ecb36e7f025c26412e9f1bfacChris Lattner // the new function inlined after it. 1655052c911ec1be51ecb36e7f025c26412e9f1bfacChris Lattner // 1665052c911ec1be51ecb36e7f025c26412e9f1bfacChris Lattner Function::iterator LastBlock = &Caller->back(); 1675052c911ec1be51ecb36e7f025c26412e9f1bfacChris Lattner 1685e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Make sure to capture all of the return instructions from the cloned 1695e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // function. 1705052c911ec1be51ecb36e7f025c26412e9f1bfacChris Lattner std::vector<ReturnInst*> Returns; 171cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner ClonedCodeInfo InlinedFunctionInfo; 1725e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner { // Scope to destroy ValueMap after cloning. 1735e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Calculate the vector of arguments to pass into the function cloner... 1745e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner std::map<const Value*, Value*> ValueMap; 175fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman assert(std::distance(CalledFunc->arg_begin(), CalledFunc->arg_end()) == 1765e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner std::distance(CS.arg_begin(), CS.arg_end()) && 1775e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner "No varargs calls can be inlined!"); 178fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 1795e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner CallSite::arg_iterator AI = CS.arg_begin(); 180e4d5c441e04bdc00ccf1804744af670655123b07Chris Lattner for (Function::const_arg_iterator I = CalledFunc->arg_begin(), 181e4d5c441e04bdc00ccf1804744af670655123b07Chris Lattner E = CalledFunc->arg_end(); I != E; ++I, ++AI) 1825e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner ValueMap[I] = *AI; 183fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 184fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman // Clone the entire body of the callee into the caller. 185cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner CloneFunctionInto(Caller, CalledFunc, ValueMap, Returns, ".i", 186cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner &InlinedFunctionInfo); 187fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman } 188c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner 1895e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Remember the first block that is newly cloned over. 1905e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner Function::iterator FirstNewBlock = LastBlock; ++FirstNewBlock; 191ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner 192ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner // If there are any alloca instructions in the block that used to be the entry 193ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner // block for the callee, move them to the entry block of the caller. First 194ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner // calculate which instruction they should be inserted before. We insert the 195ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner // instructions at the end of the current alloca list. 196ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner // 19721f20558d629f7ff8f64c20746d890d29328a544Chris Lattner { 19880a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner BasicBlock::iterator InsertPoint = Caller->begin()->begin(); 1995e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner for (BasicBlock::iterator I = FirstNewBlock->begin(), 2005e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner E = FirstNewBlock->end(); I != E; ) 201f775f95369ba7d88a5cb8b6f1900241699d79351Chris Lattner if (AllocaInst *AI = dyn_cast<AllocaInst>(I++)) 202f775f95369ba7d88a5cb8b6f1900241699d79351Chris Lattner if (isa<Constant>(AI->getArraySize())) { 20321f20558d629f7ff8f64c20746d890d29328a544Chris Lattner // Scan for the block of allocas that we can move over, and move them 20421f20558d629f7ff8f64c20746d890d29328a544Chris Lattner // all at once. 205c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner while (isa<AllocaInst>(I) && 206c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner isa<Constant>(cast<AllocaInst>(I)->getArraySize())) 207c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner ++I; 208c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner 209c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner // Transfer all of the allocas over in a block. Using splice means 210c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner // that they instructions aren't removed from the symbol table, then 211c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner // reinserted. 212c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner Caller->front().getInstList().splice(InsertPoint, 213c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner FirstNewBlock->getInstList(), 214c1df7e1799a7a97602bdedec818f7ab1dc514b4eChris Lattner AI, I); 215f775f95369ba7d88a5cb8b6f1900241699d79351Chris Lattner } 21680a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner } 21780a38d245359cb0a3be8f78f5d7d911232886b9aChris Lattner 21800b16889ab461b7ecef1c91ade101186b7f1fce2Jeff Cohen // If we are inlining tail call instruction through an invoke or 2191b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner if (MustClearTailCallFlags) { 2201b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner for (Function::iterator BB = FirstNewBlock, E = Caller->end(); 2211b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner BB != E; ++BB) 2221b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner for (BasicBlock::iterator I = BB->begin(), E = BB->end(); I != E; ++I) 2231b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner if (CallInst *CI = dyn_cast<CallInst>(I)) 2241b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner CI->setTailCall(false); 2251b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner } 2261b49141821e98e4321bfe6234c7001c836b2a289Chris Lattner 2275e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // If we are inlining for an invoke instruction, we must make sure to rewrite 2285e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // any inlined 'unwind' instructions into branches to the invoke exception 2295e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // destination, and call instructions into invoke instructions. 230cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner if (InvokeInst *II = dyn_cast<InvokeInst>(TheCall)) 231cd4d339ec187182c9abc22b80560349f8ba5010fChris Lattner HandleInlinedInvoke(II, FirstNewBlock, InlinedFunctionInfo); 2325e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner 23344a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // If we cloned in _exactly one_ basic block, and if that block ends in a 23444a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // return instruction, we splice the body of the inlined callee directly into 23544a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // the calling basic block. 23644a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner if (Returns.size() == 1 && std::distance(FirstNewBlock, Caller->end()) == 1) { 23744a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // Move all of the instructions right before the call. 23844a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner OrigBB->getInstList().splice(TheCall, FirstNewBlock->getInstList(), 23944a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner FirstNewBlock->begin(), FirstNewBlock->end()); 24044a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // Remove the cloned basic block. 24144a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner Caller->getBasicBlockList().pop_back(); 242fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 24344a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // If the call site was an invoke instruction, add a branch to the normal 24444a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // destination. 24544a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner if (InvokeInst *II = dyn_cast<InvokeInst>(TheCall)) 24644a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner new BranchInst(II->getNormalDest(), TheCall); 24744a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 24844a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // If the return instruction returned a value, replace uses of the call with 24944a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // uses of the returned value. 25044a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner if (!TheCall->use_empty()) 25144a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner TheCall->replaceAllUsesWith(Returns[0]->getReturnValue()); 25244a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 25344a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // Since we are now done with the Call/Invoke, we can delete it. 25444a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner TheCall->getParent()->getInstList().erase(TheCall); 25544a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 25644a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // Since we are now done with the return instruction, delete it also. 25744a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner Returns[0]->getParent()->getInstList().erase(Returns[0]); 25844a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 25944a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // We are now done with the inlining. 26044a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner return true; 26144a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner } 26244a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 26344a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // Otherwise, we have the normal case, of more than one block to inline or 26444a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // multiple return sites. 26544a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 2665e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // We want to clone the entire callee function into the hole between the 2675e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // "starter" and "ender" blocks. How we accomplish this depends on whether 2685e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // this is an invoke instruction or a call instruction. 2695e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner BasicBlock *AfterCallBB; 2705e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner if (InvokeInst *II = dyn_cast<InvokeInst>(TheCall)) { 271fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 2725e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Add an unconditional branch to make this look like the CallInst case... 2735e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner BranchInst *NewBr = new BranchInst(II->getNormalDest(), TheCall); 274fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 2755e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Split the basic block. This guarantees that no PHI nodes will have to be 2765e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // updated due to new incoming edges, and make the invoke case more 2775e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // symmetric to the call case. 2785e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner AfterCallBB = OrigBB->splitBasicBlock(NewBr, 279284d1b88273eb1967c8faef407f1167791c760e0Chris Lattner CalledFunc->getName()+".exit"); 280fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 2815e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner } else { // It's a call 28244a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // If this is a call instruction, we need to split the basic block that 28344a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // the call lives in. 2845e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // 2855e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner AfterCallBB = OrigBB->splitBasicBlock(TheCall, 286284d1b88273eb1967c8faef407f1167791c760e0Chris Lattner CalledFunc->getName()+".exit"); 2875e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner } 2885e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner 28944a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // Change the branch that used to go to AfterCallBB to branch to the first 29044a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // basic block of the inlined function. 29144a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // 29244a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner TerminatorInst *Br = OrigBB->getTerminator(); 293fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman assert(Br && Br->getOpcode() == Instruction::Br && 29444a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner "splitBasicBlock broken!"); 29544a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner Br->setOperand(0, FirstNewBlock); 29644a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 29744a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 29844a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // Now that the function is correct, make it a little bit nicer. In 29944a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // particular, move the basic blocks inserted from the end of the function 30044a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // into the space made by splitting the source basic block. 30144a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner // 30244a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner Caller->getBasicBlockList().splice(AfterCallBB, Caller->getBasicBlockList(), 30344a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner FirstNewBlock, Caller->end()); 30444a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 3055e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Handle all of the return instructions that we just cloned in, and eliminate 3065e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // any users of the original call/invoke instruction. 3075e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner if (Returns.size() > 1) { 3085e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // The PHI node should go at the front of the new basic block to merge all 3095e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // possible incoming values. 3105e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // 3115e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner PHINode *PHI = 0; 3125e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner if (!TheCall->use_empty()) { 3135e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner PHI = new PHINode(CalledFunc->getReturnType(), 3145e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner TheCall->getName(), AfterCallBB->begin()); 315fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 3165e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Anything that used the result of the function call should now use the 3175e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // PHI node as their operand. 3185e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // 3195e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner TheCall->replaceAllUsesWith(PHI); 3205e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner } 321fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 3225e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Loop over all of the return instructions, turning them into unconditional 3235e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // branches to the merge point now, and adding entries to the PHI node as 3245e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // appropriate. 3255e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner for (unsigned i = 0, e = Returns.size(); i != e; ++i) { 3265e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner ReturnInst *RI = Returns[i]; 327fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 3285e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner if (PHI) { 3295e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner assert(RI->getReturnValue() && "Ret should have value!"); 330fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman assert(RI->getReturnValue()->getType() == PHI->getType() && 3315e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner "Ret value not consistent in function!"); 3325e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner PHI->addIncoming(RI->getReturnValue(), RI->getParent()); 3335e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner } 334fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 3355e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Add a branch to the merge point where the PHI node lives if it exists. 3365e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner new BranchInst(AfterCallBB, RI); 337fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 3385e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Delete the return instruction now 3395e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner RI->getParent()->getInstList().erase(RI); 3405e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner } 341fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 3425e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner } else if (!Returns.empty()) { 3435e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Otherwise, if there is exactly one return value, just replace anything 3445e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // using the return value of the call with the computed value. 3455e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner if (!TheCall->use_empty()) 3465e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner TheCall->replaceAllUsesWith(Returns[0]->getReturnValue()); 347fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 348cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner // Splice the code from the return block into the block that it will return 349cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner // to, which contains the code that was after the call. 350cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner BasicBlock *ReturnBB = Returns[0]->getParent(); 351adfd32f8eefc804dce24d14450c10f592e643e2dChris Lattner AfterCallBB->getInstList().splice(AfterCallBB->begin(), 352adfd32f8eefc804dce24d14450c10f592e643e2dChris Lattner ReturnBB->getInstList()); 353cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner 354adfd32f8eefc804dce24d14450c10f592e643e2dChris Lattner // Update PHI nodes that use the ReturnBB to use the AfterCallBB. 355adfd32f8eefc804dce24d14450c10f592e643e2dChris Lattner ReturnBB->replaceAllUsesWith(AfterCallBB); 356fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 357adfd32f8eefc804dce24d14450c10f592e643e2dChris Lattner // Delete the return instruction now and empty ReturnBB now. 3583787e765facfad5ea62753922d940bcdd52afd57Chris Lattner Returns[0]->eraseFromParent(); 3593787e765facfad5ea62753922d940bcdd52afd57Chris Lattner ReturnBB->eraseFromParent(); 3603787e765facfad5ea62753922d940bcdd52afd57Chris Lattner } else if (!TheCall->use_empty()) { 3613787e765facfad5ea62753922d940bcdd52afd57Chris Lattner // No returns, but something is using the return value of the call. Just 3623787e765facfad5ea62753922d940bcdd52afd57Chris Lattner // nuke the result. 3633787e765facfad5ea62753922d940bcdd52afd57Chris Lattner TheCall->replaceAllUsesWith(UndefValue::get(TheCall->getType())); 3645e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner } 365fd93908ae8b9684fe71c239e3c6cfe13ff6a2663Misha Brukman 3665e923dee6024248f58fa83a7c7299437f44f0d1aChris Lattner // Since we are now done with the Call/Invoke, we can delete it. 3673787e765facfad5ea62753922d940bcdd52afd57Chris Lattner TheCall->eraseFromParent(); 368ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner 3697152c237b46a920b29d5605af934766b8f9a07a1Chris Lattner // We should always be able to fold the entry block of the function into the 3707152c237b46a920b29d5605af934766b8f9a07a1Chris Lattner // single predecessor of the block... 371cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner assert(cast<BranchInst>(Br)->isUnconditional() && "splitBasicBlock broken!"); 3727152c237b46a920b29d5605af934766b8f9a07a1Chris Lattner BasicBlock *CalleeEntry = cast<BranchInst>(Br)->getSuccessor(0); 37344a6807f4f785ecdd96b3aa67dad056677131b98Chris Lattner 374cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner // Splice the code entry block into calling block, right before the 375cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner // unconditional branch. 376cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner OrigBB->getInstList().splice(Br, CalleeEntry->getInstList()); 377cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner CalleeEntry->replaceAllUsesWith(OrigBB); // Update PHI nodes 378cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner 379cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner // Remove the unconditional branch. 380cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner OrigBB->getInstList().erase(Br); 381cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner 382cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner // Now we can remove the CalleeEntry block, which is now empty. 383cd01ae5c7071fb99a665b2bbea7428d769792ab8Chris Lattner Caller->getBasicBlockList().erase(CalleeEntry); 384ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner return true; 385ca398dc3989d35e8516489fd163e012133bd41cbChris Lattner} 386