forked from OSchip/llvm-project
596 lines
22 KiB
C++
596 lines
22 KiB
C++
//===- CallPromotionUtils.cpp - Utilities for call promotion ----*- C++ -*-===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements utilities useful for promoting indirect call sites to
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// direct call sites.
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Transforms/Utils/CallPromotionUtils.h"
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#include "llvm/Analysis/Loads.h"
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#include "llvm/Analysis/TypeMetadataUtils.h"
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#include "llvm/IR/IRBuilder.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/Transforms/Utils/BasicBlockUtils.h"
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using namespace llvm;
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#define DEBUG_TYPE "call-promotion-utils"
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/// Fix-up phi nodes in an invoke instruction's normal destination.
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///
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/// After versioning an invoke instruction, values coming from the original
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/// block will now be coming from the "merge" block. For example, in the code
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/// below:
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///
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/// then_bb:
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/// %t0 = invoke i32 %ptr() to label %merge_bb unwind label %unwind_dst
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///
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/// else_bb:
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/// %t1 = invoke i32 %ptr() to label %merge_bb unwind label %unwind_dst
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///
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/// merge_bb:
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/// %t2 = phi i32 [ %t0, %then_bb ], [ %t1, %else_bb ]
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/// br %normal_dst
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///
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/// normal_dst:
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/// %t3 = phi i32 [ %x, %orig_bb ], ...
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///
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/// "orig_bb" is no longer a predecessor of "normal_dst", so the phi nodes in
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/// "normal_dst" must be fixed to refer to "merge_bb":
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///
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/// normal_dst:
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/// %t3 = phi i32 [ %x, %merge_bb ], ...
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///
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static void fixupPHINodeForNormalDest(InvokeInst *Invoke, BasicBlock *OrigBlock,
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BasicBlock *MergeBlock) {
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for (PHINode &Phi : Invoke->getNormalDest()->phis()) {
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int Idx = Phi.getBasicBlockIndex(OrigBlock);
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if (Idx == -1)
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continue;
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Phi.setIncomingBlock(Idx, MergeBlock);
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}
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}
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/// Fix-up phi nodes in an invoke instruction's unwind destination.
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///
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/// After versioning an invoke instruction, values coming from the original
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/// block will now be coming from either the "then" block or the "else" block.
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/// For example, in the code below:
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///
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/// then_bb:
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/// %t0 = invoke i32 %ptr() to label %merge_bb unwind label %unwind_dst
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///
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/// else_bb:
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/// %t1 = invoke i32 %ptr() to label %merge_bb unwind label %unwind_dst
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///
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/// unwind_dst:
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/// %t3 = phi i32 [ %x, %orig_bb ], ...
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///
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/// "orig_bb" is no longer a predecessor of "unwind_dst", so the phi nodes in
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/// "unwind_dst" must be fixed to refer to "then_bb" and "else_bb":
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///
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/// unwind_dst:
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/// %t3 = phi i32 [ %x, %then_bb ], [ %x, %else_bb ], ...
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///
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static void fixupPHINodeForUnwindDest(InvokeInst *Invoke, BasicBlock *OrigBlock,
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BasicBlock *ThenBlock,
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BasicBlock *ElseBlock) {
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for (PHINode &Phi : Invoke->getUnwindDest()->phis()) {
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int Idx = Phi.getBasicBlockIndex(OrigBlock);
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if (Idx == -1)
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continue;
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auto *V = Phi.getIncomingValue(Idx);
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Phi.setIncomingBlock(Idx, ThenBlock);
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Phi.addIncoming(V, ElseBlock);
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}
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}
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/// Create a phi node for the returned value of a call or invoke instruction.
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///
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/// After versioning a call or invoke instruction that returns a value, we have
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/// to merge the value of the original and new instructions. We do this by
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/// creating a phi node and replacing uses of the original instruction with this
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/// phi node.
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///
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/// For example, if \p OrigInst is defined in "else_bb" and \p NewInst is
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/// defined in "then_bb", we create the following phi node:
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///
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/// ; Uses of the original instruction are replaced by uses of the phi node.
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/// %t0 = phi i32 [ %orig_inst, %else_bb ], [ %new_inst, %then_bb ],
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///
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static void createRetPHINode(Instruction *OrigInst, Instruction *NewInst,
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BasicBlock *MergeBlock, IRBuilder<> &Builder) {
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if (OrigInst->getType()->isVoidTy() || OrigInst->use_empty())
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return;
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Builder.SetInsertPoint(&MergeBlock->front());
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PHINode *Phi = Builder.CreatePHI(OrigInst->getType(), 0);
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SmallVector<User *, 16> UsersToUpdate(OrigInst->users());
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for (User *U : UsersToUpdate)
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U->replaceUsesOfWith(OrigInst, Phi);
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Phi->addIncoming(OrigInst, OrigInst->getParent());
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Phi->addIncoming(NewInst, NewInst->getParent());
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}
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/// Cast a call or invoke instruction to the given type.
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///
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/// When promoting a call site, the return type of the call site might not match
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/// that of the callee. If this is the case, we have to cast the returned value
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/// to the correct type. The location of the cast depends on if we have a call
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/// or invoke instruction.
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///
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/// For example, if the call instruction below requires a bitcast after
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/// promotion:
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///
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/// orig_bb:
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/// %t0 = call i32 @func()
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/// ...
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///
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/// The bitcast is placed after the call instruction:
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///
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/// orig_bb:
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/// ; Uses of the original return value are replaced by uses of the bitcast.
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/// %t0 = call i32 @func()
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/// %t1 = bitcast i32 %t0 to ...
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/// ...
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///
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/// A similar transformation is performed for invoke instructions. However,
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/// since invokes are terminating, a new block is created for the bitcast. For
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/// example, if the invoke instruction below requires a bitcast after promotion:
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///
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/// orig_bb:
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/// %t0 = invoke i32 @func() to label %normal_dst unwind label %unwind_dst
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///
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/// The edge between the original block and the invoke's normal destination is
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/// split, and the bitcast is placed there:
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///
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/// orig_bb:
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/// %t0 = invoke i32 @func() to label %split_bb unwind label %unwind_dst
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///
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/// split_bb:
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/// ; Uses of the original return value are replaced by uses of the bitcast.
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/// %t1 = bitcast i32 %t0 to ...
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/// br label %normal_dst
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///
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static void createRetBitCast(CallBase &CB, Type *RetTy, CastInst **RetBitCast) {
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// Save the users of the calling instruction. These uses will be changed to
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// use the bitcast after we create it.
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SmallVector<User *, 16> UsersToUpdate(CB.users());
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// Determine an appropriate location to create the bitcast for the return
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// value. The location depends on if we have a call or invoke instruction.
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Instruction *InsertBefore = nullptr;
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if (auto *Invoke = dyn_cast<InvokeInst>(&CB))
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InsertBefore =
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&SplitEdge(Invoke->getParent(), Invoke->getNormalDest())->front();
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else
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InsertBefore = &*std::next(CB.getIterator());
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// Bitcast the return value to the correct type.
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auto *Cast = CastInst::CreateBitOrPointerCast(&CB, RetTy, "", InsertBefore);
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if (RetBitCast)
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*RetBitCast = Cast;
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// Replace all the original uses of the calling instruction with the bitcast.
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for (User *U : UsersToUpdate)
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U->replaceUsesOfWith(&CB, Cast);
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}
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/// Predicate and clone the given call site.
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///
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/// This function creates an if-then-else structure at the location of the call
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/// site. The "if" condition compares the call site's called value to the given
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/// callee. The original call site is moved into the "else" block, and a clone
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/// of the call site is placed in the "then" block. The cloned instruction is
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/// returned.
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///
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/// For example, the call instruction below:
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///
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/// orig_bb:
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/// %t0 = call i32 %ptr()
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/// ...
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///
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/// Is replace by the following:
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///
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/// orig_bb:
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/// %cond = icmp eq i32 ()* %ptr, @func
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/// br i1 %cond, %then_bb, %else_bb
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///
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/// then_bb:
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/// ; The clone of the original call instruction is placed in the "then"
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/// ; block. It is not yet promoted.
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/// %t1 = call i32 %ptr()
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/// br merge_bb
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///
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/// else_bb:
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/// ; The original call instruction is moved to the "else" block.
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/// %t0 = call i32 %ptr()
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/// br merge_bb
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///
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/// merge_bb:
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/// ; Uses of the original call instruction are replaced by uses of the phi
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/// ; node.
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/// %t2 = phi i32 [ %t0, %else_bb ], [ %t1, %then_bb ]
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/// ...
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///
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/// A similar transformation is performed for invoke instructions. However,
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/// since invokes are terminating, more work is required. For example, the
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/// invoke instruction below:
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///
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/// orig_bb:
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/// %t0 = invoke %ptr() to label %normal_dst unwind label %unwind_dst
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///
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/// Is replace by the following:
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///
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/// orig_bb:
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/// %cond = icmp eq i32 ()* %ptr, @func
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/// br i1 %cond, %then_bb, %else_bb
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///
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/// then_bb:
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/// ; The clone of the original invoke instruction is placed in the "then"
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/// ; block, and its normal destination is set to the "merge" block. It is
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/// ; not yet promoted.
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/// %t1 = invoke i32 %ptr() to label %merge_bb unwind label %unwind_dst
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///
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/// else_bb:
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/// ; The original invoke instruction is moved into the "else" block, and
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/// ; its normal destination is set to the "merge" block.
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/// %t0 = invoke i32 %ptr() to label %merge_bb unwind label %unwind_dst
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///
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/// merge_bb:
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/// ; Uses of the original invoke instruction are replaced by uses of the
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/// ; phi node, and the merge block branches to the normal destination.
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/// %t2 = phi i32 [ %t0, %else_bb ], [ %t1, %then_bb ]
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/// br %normal_dst
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///
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/// An indirect musttail call is processed slightly differently in that:
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/// 1. No merge block needed for the orginal and the cloned callsite, since
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/// either one ends the flow. No phi node is needed either.
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/// 2. The return statement following the original call site is duplicated too
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/// and placed immediately after the cloned call site per the IR convention.
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///
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/// For example, the musttail call instruction below:
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///
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/// orig_bb:
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/// %t0 = musttail call i32 %ptr()
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/// ...
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///
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/// Is replaced by the following:
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///
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/// cond_bb:
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/// %cond = icmp eq i32 ()* %ptr, @func
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/// br i1 %cond, %then_bb, %orig_bb
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///
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/// then_bb:
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/// ; The clone of the original call instruction is placed in the "then"
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/// ; block. It is not yet promoted.
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/// %t1 = musttail call i32 %ptr()
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/// ret %t1
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///
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/// orig_bb:
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/// ; The original call instruction stays in its original block.
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/// %t0 = musttail call i32 %ptr()
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/// ret %t0
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static CallBase &versionCallSite(CallBase &CB, Value *Callee,
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MDNode *BranchWeights) {
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IRBuilder<> Builder(&CB);
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CallBase *OrigInst = &CB;
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BasicBlock *OrigBlock = OrigInst->getParent();
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// Create the compare. The called value and callee must have the same type to
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// be compared.
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if (CB.getCalledOperand()->getType() != Callee->getType())
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Callee = Builder.CreateBitCast(Callee, CB.getCalledOperand()->getType());
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auto *Cond = Builder.CreateICmpEQ(CB.getCalledOperand(), Callee);
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if (OrigInst->isMustTailCall()) {
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// Create an if-then structure. The original instruction stays in its block,
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// and a clone of the original instruction is placed in the "then" block.
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Instruction *ThenTerm =
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SplitBlockAndInsertIfThen(Cond, &CB, false, BranchWeights);
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BasicBlock *ThenBlock = ThenTerm->getParent();
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ThenBlock->setName("if.true.direct_targ");
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CallBase *NewInst = cast<CallBase>(OrigInst->clone());
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NewInst->insertBefore(ThenTerm);
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// Place a clone of the optional bitcast after the new call site.
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Value *NewRetVal = NewInst;
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auto Next = OrigInst->getNextNode();
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if (auto *BitCast = dyn_cast_or_null<BitCastInst>(Next)) {
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assert(BitCast->getOperand(0) == OrigInst &&
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"bitcast following musttail call must use the call");
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auto NewBitCast = BitCast->clone();
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NewBitCast->replaceUsesOfWith(OrigInst, NewInst);
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NewBitCast->insertBefore(ThenTerm);
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NewRetVal = NewBitCast;
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Next = BitCast->getNextNode();
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}
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// Place a clone of the return instruction after the new call site.
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ReturnInst *Ret = dyn_cast_or_null<ReturnInst>(Next);
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assert(Ret && "musttail call must precede a ret with an optional bitcast");
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auto NewRet = Ret->clone();
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if (Ret->getReturnValue())
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NewRet->replaceUsesOfWith(Ret->getReturnValue(), NewRetVal);
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NewRet->insertBefore(ThenTerm);
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// A return instructions is terminating, so we don't need the terminator
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// instruction just created.
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ThenTerm->eraseFromParent();
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return *NewInst;
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}
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// Create an if-then-else structure. The original instruction is moved into
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// the "else" block, and a clone of the original instruction is placed in the
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// "then" block.
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Instruction *ThenTerm = nullptr;
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Instruction *ElseTerm = nullptr;
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SplitBlockAndInsertIfThenElse(Cond, &CB, &ThenTerm, &ElseTerm, BranchWeights);
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BasicBlock *ThenBlock = ThenTerm->getParent();
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BasicBlock *ElseBlock = ElseTerm->getParent();
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BasicBlock *MergeBlock = OrigInst->getParent();
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ThenBlock->setName("if.true.direct_targ");
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ElseBlock->setName("if.false.orig_indirect");
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MergeBlock->setName("if.end.icp");
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CallBase *NewInst = cast<CallBase>(OrigInst->clone());
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OrigInst->moveBefore(ElseTerm);
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NewInst->insertBefore(ThenTerm);
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// If the original call site is an invoke instruction, we have extra work to
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// do since invoke instructions are terminating. We have to fix-up phi nodes
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// in the invoke's normal and unwind destinations.
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if (auto *OrigInvoke = dyn_cast<InvokeInst>(OrigInst)) {
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auto *NewInvoke = cast<InvokeInst>(NewInst);
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// Invoke instructions are terminating, so we don't need the terminator
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// instructions that were just created.
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ThenTerm->eraseFromParent();
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ElseTerm->eraseFromParent();
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// Branch from the "merge" block to the original normal destination.
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Builder.SetInsertPoint(MergeBlock);
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Builder.CreateBr(OrigInvoke->getNormalDest());
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// Fix-up phi nodes in the original invoke's normal and unwind destinations.
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fixupPHINodeForNormalDest(OrigInvoke, OrigBlock, MergeBlock);
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fixupPHINodeForUnwindDest(OrigInvoke, MergeBlock, ThenBlock, ElseBlock);
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// Now set the normal destinations of the invoke instructions to be the
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// "merge" block.
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OrigInvoke->setNormalDest(MergeBlock);
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NewInvoke->setNormalDest(MergeBlock);
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}
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// Create a phi node for the returned value of the call site.
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createRetPHINode(OrigInst, NewInst, MergeBlock, Builder);
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return *NewInst;
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}
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bool llvm::isLegalToPromote(const CallBase &CB, Function *Callee,
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const char **FailureReason) {
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assert(!CB.getCalledFunction() && "Only indirect call sites can be promoted");
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auto &DL = Callee->getParent()->getDataLayout();
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// Check the return type. The callee's return value type must be bitcast
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// compatible with the call site's type.
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Type *CallRetTy = CB.getType();
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Type *FuncRetTy = Callee->getReturnType();
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if (CallRetTy != FuncRetTy)
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if (!CastInst::isBitOrNoopPointerCastable(FuncRetTy, CallRetTy, DL)) {
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if (FailureReason)
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*FailureReason = "Return type mismatch";
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return false;
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}
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// The number of formal arguments of the callee.
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unsigned NumParams = Callee->getFunctionType()->getNumParams();
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// The number of actual arguments in the call.
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unsigned NumArgs = CB.arg_size();
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// Check the number of arguments. The callee and call site must agree on the
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// number of arguments.
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if (NumArgs != NumParams && !Callee->isVarArg()) {
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if (FailureReason)
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*FailureReason = "The number of arguments mismatch";
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return false;
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}
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// Check the argument types. The callee's formal argument types must be
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// bitcast compatible with the corresponding actual argument types of the call
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// site.
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unsigned I = 0;
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for (; I < NumParams; ++I) {
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Type *FormalTy = Callee->getFunctionType()->getFunctionParamType(I);
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Type *ActualTy = CB.getArgOperand(I)->getType();
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if (FormalTy == ActualTy)
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continue;
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if (!CastInst::isBitOrNoopPointerCastable(ActualTy, FormalTy, DL)) {
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if (FailureReason)
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*FailureReason = "Argument type mismatch";
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return false;
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}
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}
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for (; I < NumArgs; I++) {
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// Vararg functions can have more arguments than parameters.
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assert(Callee->isVarArg());
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if (CB.paramHasAttr(I, Attribute::StructRet)) {
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if (FailureReason)
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*FailureReason = "SRet arg to vararg function";
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return false;
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}
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}
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return true;
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}
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CallBase &llvm::promoteCall(CallBase &CB, Function *Callee,
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CastInst **RetBitCast) {
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assert(!CB.getCalledFunction() && "Only indirect call sites can be promoted");
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// Set the called function of the call site to be the given callee (but don't
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// change the type).
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CB.setCalledOperand(Callee);
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// Since the call site will no longer be direct, we must clear metadata that
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// is only appropriate for indirect calls. This includes !prof and !callees
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// metadata.
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CB.setMetadata(LLVMContext::MD_prof, nullptr);
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CB.setMetadata(LLVMContext::MD_callees, nullptr);
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// If the function type of the call site matches that of the callee, no
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// additional work is required.
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if (CB.getFunctionType() == Callee->getFunctionType())
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return CB;
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// Save the return types of the call site and callee.
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Type *CallSiteRetTy = CB.getType();
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Type *CalleeRetTy = Callee->getReturnType();
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// Change the function type of the call site the match that of the callee.
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CB.mutateFunctionType(Callee->getFunctionType());
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// Inspect the arguments of the call site. If an argument's type doesn't
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// match the corresponding formal argument's type in the callee, bitcast it
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// to the correct type.
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auto CalleeType = Callee->getFunctionType();
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auto CalleeParamNum = CalleeType->getNumParams();
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|
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LLVMContext &Ctx = Callee->getContext();
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const AttributeList &CallerPAL = CB.getAttributes();
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// The new list of argument attributes.
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SmallVector<AttributeSet, 4> NewArgAttrs;
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bool AttributeChanged = false;
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|
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|
for (unsigned ArgNo = 0; ArgNo < CalleeParamNum; ++ArgNo) {
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auto *Arg = CB.getArgOperand(ArgNo);
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Type *FormalTy = CalleeType->getParamType(ArgNo);
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Type *ActualTy = Arg->getType();
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|
if (FormalTy != ActualTy) {
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|
auto *Cast = CastInst::CreateBitOrPointerCast(Arg, FormalTy, "", &CB);
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|
CB.setArgOperand(ArgNo, Cast);
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|
|
|
// Remove any incompatible attributes for the argument.
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|
AttrBuilder ArgAttrs(CallerPAL.getParamAttributes(ArgNo));
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|
ArgAttrs.remove(AttributeFuncs::typeIncompatible(FormalTy));
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|
|
|
// If byval is used, this must be a pointer type, and the byval type must
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|
// match the element type. Update it if present.
|
|
if (ArgAttrs.getByValType()) {
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|
Type *NewTy = Callee->getParamByValType(ArgNo);
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|
ArgAttrs.addByValAttr(
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NewTy ? NewTy : cast<PointerType>(FormalTy)->getElementType());
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|
}
|
|
|
|
NewArgAttrs.push_back(AttributeSet::get(Ctx, ArgAttrs));
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|
AttributeChanged = true;
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|
} else
|
|
NewArgAttrs.push_back(CallerPAL.getParamAttributes(ArgNo));
|
|
}
|
|
|
|
// If the return type of the call site doesn't match that of the callee, cast
|
|
// the returned value to the appropriate type.
|
|
// Remove any incompatible return value attribute.
|
|
AttrBuilder RAttrs(CallerPAL, AttributeList::ReturnIndex);
|
|
if (!CallSiteRetTy->isVoidTy() && CallSiteRetTy != CalleeRetTy) {
|
|
createRetBitCast(CB, CallSiteRetTy, RetBitCast);
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|
RAttrs.remove(AttributeFuncs::typeIncompatible(CalleeRetTy));
|
|
AttributeChanged = true;
|
|
}
|
|
|
|
// Set the new callsite attribute.
|
|
if (AttributeChanged)
|
|
CB.setAttributes(AttributeList::get(Ctx, CallerPAL.getFnAttributes(),
|
|
AttributeSet::get(Ctx, RAttrs),
|
|
NewArgAttrs));
|
|
|
|
return CB;
|
|
}
|
|
|
|
CallBase &llvm::promoteCallWithIfThenElse(CallBase &CB, Function *Callee,
|
|
MDNode *BranchWeights) {
|
|
|
|
// Version the indirect call site. If the called value is equal to the given
|
|
// callee, 'NewInst' will be executed, otherwise the original call site will
|
|
// be executed.
|
|
CallBase &NewInst = versionCallSite(CB, Callee, BranchWeights);
|
|
|
|
// Promote 'NewInst' so that it directly calls the desired function.
|
|
return promoteCall(NewInst, Callee);
|
|
}
|
|
|
|
bool llvm::tryPromoteCall(CallBase &CB) {
|
|
assert(!CB.getCalledFunction());
|
|
Module *M = CB.getCaller()->getParent();
|
|
const DataLayout &DL = M->getDataLayout();
|
|
Value *Callee = CB.getCalledOperand();
|
|
|
|
LoadInst *VTableEntryLoad = dyn_cast<LoadInst>(Callee);
|
|
if (!VTableEntryLoad)
|
|
return false; // Not a vtable entry load.
|
|
Value *VTableEntryPtr = VTableEntryLoad->getPointerOperand();
|
|
APInt VTableOffset(DL.getTypeSizeInBits(VTableEntryPtr->getType()), 0);
|
|
Value *VTableBasePtr = VTableEntryPtr->stripAndAccumulateConstantOffsets(
|
|
DL, VTableOffset, /* AllowNonInbounds */ true);
|
|
LoadInst *VTablePtrLoad = dyn_cast<LoadInst>(VTableBasePtr);
|
|
if (!VTablePtrLoad)
|
|
return false; // Not a vtable load.
|
|
Value *Object = VTablePtrLoad->getPointerOperand();
|
|
APInt ObjectOffset(DL.getTypeSizeInBits(Object->getType()), 0);
|
|
Value *ObjectBase = Object->stripAndAccumulateConstantOffsets(
|
|
DL, ObjectOffset, /* AllowNonInbounds */ true);
|
|
if (!(isa<AllocaInst>(ObjectBase) && ObjectOffset == 0))
|
|
// Not an Alloca or the offset isn't zero.
|
|
return false;
|
|
|
|
// Look for the vtable pointer store into the object by the ctor.
|
|
BasicBlock::iterator BBI(VTablePtrLoad);
|
|
Value *VTablePtr = FindAvailableLoadedValue(
|
|
VTablePtrLoad, VTablePtrLoad->getParent(), BBI, 0, nullptr, nullptr);
|
|
if (!VTablePtr)
|
|
return false; // No vtable found.
|
|
APInt VTableOffsetGVBase(DL.getTypeSizeInBits(VTablePtr->getType()), 0);
|
|
Value *VTableGVBase = VTablePtr->stripAndAccumulateConstantOffsets(
|
|
DL, VTableOffsetGVBase, /* AllowNonInbounds */ true);
|
|
GlobalVariable *GV = dyn_cast<GlobalVariable>(VTableGVBase);
|
|
if (!(GV && GV->isConstant() && GV->hasDefinitiveInitializer()))
|
|
// Not in the form of a global constant variable with an initializer.
|
|
return false;
|
|
|
|
Constant *VTableGVInitializer = GV->getInitializer();
|
|
APInt VTableGVOffset = VTableOffsetGVBase + VTableOffset;
|
|
if (!(VTableGVOffset.getActiveBits() <= 64))
|
|
return false; // Out of range.
|
|
Constant *Ptr = getPointerAtOffset(VTableGVInitializer,
|
|
VTableGVOffset.getZExtValue(),
|
|
*M);
|
|
if (!Ptr)
|
|
return false; // No constant (function) pointer found.
|
|
Function *DirectCallee = dyn_cast<Function>(Ptr->stripPointerCasts());
|
|
if (!DirectCallee)
|
|
return false; // No function pointer found.
|
|
|
|
if (!isLegalToPromote(CB, DirectCallee))
|
|
return false;
|
|
|
|
// Success.
|
|
promoteCall(CB, DirectCallee);
|
|
return true;
|
|
}
|
|
|
|
#undef DEBUG_TYPE
|