forked from OSchip/llvm-project
262 lines
10 KiB
C++
262 lines
10 KiB
C++
//===- AddDiscriminators.cpp - Insert DWARF path discriminators -----------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is distributed under the University of Illinois Open Source
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// License. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// This file adds DWARF discriminators to the IR. Path discriminators are
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// used to decide what CFG path was taken inside sub-graphs whose instructions
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// share the same line and column number information.
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//
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// The main user of this is the sample profiler. Instruction samples are
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// mapped to line number information. Since a single line may be spread
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// out over several basic blocks, discriminators add more precise location
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// for the samples.
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//
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// For example,
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//
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// 1 #define ASSERT(P)
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// 2 if (!(P))
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// 3 abort()
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// ...
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// 100 while (true) {
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// 101 ASSERT (sum < 0);
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// 102 ...
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// 130 }
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//
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// when converted to IR, this snippet looks something like:
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//
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// while.body: ; preds = %entry, %if.end
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// %0 = load i32* %sum, align 4, !dbg !15
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// %cmp = icmp slt i32 %0, 0, !dbg !15
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// br i1 %cmp, label %if.end, label %if.then, !dbg !15
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//
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// if.then: ; preds = %while.body
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// call void @abort(), !dbg !15
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// br label %if.end, !dbg !15
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//
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// Notice that all the instructions in blocks 'while.body' and 'if.then'
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// have exactly the same debug information. When this program is sampled
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// at runtime, the profiler will assume that all these instructions are
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// equally frequent. This, in turn, will consider the edge while.body->if.then
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// to be frequently taken (which is incorrect).
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//
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// By adding a discriminator value to the instructions in block 'if.then',
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// we can distinguish instructions at line 101 with discriminator 0 from
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// the instructions at line 101 with discriminator 1.
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//
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// For more details about DWARF discriminators, please visit
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// http://wiki.dwarfstd.org/index.php?title=Path_Discriminators
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Transforms/Utils/AddDiscriminators.h"
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#include "llvm/ADT/DenseMap.h"
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#include "llvm/ADT/DenseSet.h"
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#include "llvm/ADT/StringRef.h"
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#include "llvm/IR/BasicBlock.h"
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#include "llvm/IR/DebugInfoMetadata.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/Instruction.h"
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#include "llvm/IR/Instructions.h"
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#include "llvm/IR/IntrinsicInst.h"
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#include "llvm/IR/PassManager.h"
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#include "llvm/Pass.h"
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#include "llvm/Support/Casting.h"
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#include "llvm/Support/CommandLine.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/raw_ostream.h"
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#include "llvm/Transforms/Scalar.h"
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#include <utility>
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using namespace llvm;
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#define DEBUG_TYPE "add-discriminators"
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// Command line option to disable discriminator generation even in the
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// presence of debug information. This is only needed when debugging
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// debug info generation issues.
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static cl::opt<bool> NoDiscriminators(
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"no-discriminators", cl::init(false),
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cl::desc("Disable generation of discriminator information."));
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namespace {
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// The legacy pass of AddDiscriminators.
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struct AddDiscriminatorsLegacyPass : public FunctionPass {
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static char ID; // Pass identification, replacement for typeid
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AddDiscriminatorsLegacyPass() : FunctionPass(ID) {
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initializeAddDiscriminatorsLegacyPassPass(*PassRegistry::getPassRegistry());
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}
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bool runOnFunction(Function &F) override;
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};
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} // end anonymous namespace
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char AddDiscriminatorsLegacyPass::ID = 0;
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INITIALIZE_PASS_BEGIN(AddDiscriminatorsLegacyPass, "add-discriminators",
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"Add DWARF path discriminators", false, false)
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INITIALIZE_PASS_END(AddDiscriminatorsLegacyPass, "add-discriminators",
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"Add DWARF path discriminators", false, false)
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// Create the legacy AddDiscriminatorsPass.
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FunctionPass *llvm::createAddDiscriminatorsPass() {
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return new AddDiscriminatorsLegacyPass();
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}
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static bool shouldHaveDiscriminator(const Instruction *I) {
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return !isa<IntrinsicInst>(I) || isa<MemIntrinsic>(I);
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}
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/// \brief Assign DWARF discriminators.
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///
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/// To assign discriminators, we examine the boundaries of every
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/// basic block and its successors. Suppose there is a basic block B1
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/// with successor B2. The last instruction I1 in B1 and the first
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/// instruction I2 in B2 are located at the same file and line number.
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/// This situation is illustrated in the following code snippet:
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///
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/// if (i < 10) x = i;
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///
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/// entry:
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/// br i1 %cmp, label %if.then, label %if.end, !dbg !10
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/// if.then:
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/// %1 = load i32* %i.addr, align 4, !dbg !10
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/// store i32 %1, i32* %x, align 4, !dbg !10
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/// br label %if.end, !dbg !10
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/// if.end:
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/// ret void, !dbg !12
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///
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/// Notice how the branch instruction in block 'entry' and all the
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/// instructions in block 'if.then' have the exact same debug location
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/// information (!dbg !10).
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///
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/// To distinguish instructions in block 'entry' from instructions in
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/// block 'if.then', we generate a new lexical block for all the
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/// instruction in block 'if.then' that share the same file and line
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/// location with the last instruction of block 'entry'.
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///
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/// This new lexical block will have the same location information as
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/// the previous one, but with a new DWARF discriminator value.
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///
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/// One of the main uses of this discriminator value is in runtime
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/// sample profilers. It allows the profiler to distinguish instructions
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/// at location !dbg !10 that execute on different basic blocks. This is
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/// important because while the predicate 'if (x < 10)' may have been
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/// executed millions of times, the assignment 'x = i' may have only
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/// executed a handful of times (meaning that the entry->if.then edge is
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/// seldom taken).
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///
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/// If we did not have discriminator information, the profiler would
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/// assign the same weight to both blocks 'entry' and 'if.then', which
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/// in turn will make it conclude that the entry->if.then edge is very
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/// hot.
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///
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/// To decide where to create new discriminator values, this function
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/// traverses the CFG and examines instruction at basic block boundaries.
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/// If the last instruction I1 of a block B1 is at the same file and line
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/// location as instruction I2 of successor B2, then it creates a new
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/// lexical block for I2 and all the instruction in B2 that share the same
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/// file and line location as I2. This new lexical block will have a
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/// different discriminator number than I1.
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static bool addDiscriminators(Function &F) {
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// If the function has debug information, but the user has disabled
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// discriminators, do nothing.
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// Simlarly, if the function has no debug info, do nothing.
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if (NoDiscriminators || !F.getSubprogram())
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return false;
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bool Changed = false;
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using Location = std::pair<StringRef, unsigned>;
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using BBSet = DenseSet<const BasicBlock *>;
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using LocationBBMap = DenseMap<Location, BBSet>;
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using LocationDiscriminatorMap = DenseMap<Location, unsigned>;
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using LocationSet = DenseSet<Location>;
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LocationBBMap LBM;
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LocationDiscriminatorMap LDM;
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// Traverse all instructions in the function. If the source line location
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// of the instruction appears in other basic block, assign a new
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// discriminator for this instruction.
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for (BasicBlock &B : F) {
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for (auto &I : B.getInstList()) {
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// Not all intrinsic calls should have a discriminator.
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// We want to avoid a non-deterministic assignment of discriminators at
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// different debug levels. We still allow discriminators on memory
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// intrinsic calls because those can be early expanded by SROA into
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// pairs of loads and stores, and the expanded load/store instructions
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// should have a valid discriminator.
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if (!shouldHaveDiscriminator(&I))
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continue;
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const DILocation *DIL = I.getDebugLoc();
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if (!DIL)
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continue;
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Location L = std::make_pair(DIL->getFilename(), DIL->getLine());
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auto &BBMap = LBM[L];
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auto R = BBMap.insert(&B);
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if (BBMap.size() == 1)
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continue;
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// If we could insert more than one block with the same line+file, a
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// discriminator is needed to distinguish both instructions.
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// Only the lowest 7 bits are used to represent a discriminator to fit
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// it in 1 byte ULEB128 representation.
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unsigned Discriminator = R.second ? ++LDM[L] : LDM[L];
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I.setDebugLoc(DIL->setBaseDiscriminator(Discriminator));
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DEBUG(dbgs() << DIL->getFilename() << ":" << DIL->getLine() << ":"
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<< DIL->getColumn() << ":" << Discriminator << " " << I
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<< "\n");
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Changed = true;
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}
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}
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// Traverse all instructions and assign new discriminators to call
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// instructions with the same lineno that are in the same basic block.
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// Sample base profile needs to distinguish different function calls within
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// a same source line for correct profile annotation.
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for (BasicBlock &B : F) {
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LocationSet CallLocations;
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for (auto &I : B.getInstList()) {
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CallInst *Current = dyn_cast<CallInst>(&I);
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// We bypass intrinsic calls for the following two reasons:
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// 1) We want to avoid a non-deterministic assigment of
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// discriminators.
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// 2) We want to minimize the number of base discriminators used.
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if (!Current || isa<IntrinsicInst>(&I))
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continue;
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DILocation *CurrentDIL = Current->getDebugLoc();
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if (!CurrentDIL)
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continue;
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Location L =
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std::make_pair(CurrentDIL->getFilename(), CurrentDIL->getLine());
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if (!CallLocations.insert(L).second) {
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unsigned Discriminator = ++LDM[L];
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Current->setDebugLoc(CurrentDIL->setBaseDiscriminator(Discriminator));
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Changed = true;
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}
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}
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}
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return Changed;
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}
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bool AddDiscriminatorsLegacyPass::runOnFunction(Function &F) {
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return addDiscriminators(F);
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}
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PreservedAnalyses AddDiscriminatorsPass::run(Function &F,
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FunctionAnalysisManager &AM) {
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if (!addDiscriminators(F))
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return PreservedAnalyses::all();
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// FIXME: should be all()
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return PreservedAnalyses::none();
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}
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