109467b48Spatrick //===- FunctionComparator.h - Function Comparator -------------------------===//
209467b48Spatrick //
309467b48Spatrick // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
409467b48Spatrick // See https://llvm.org/LICENSE.txt for license information.
509467b48Spatrick // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
609467b48Spatrick //
709467b48Spatrick //===----------------------------------------------------------------------===//
809467b48Spatrick //
909467b48Spatrick // This file implements the FunctionComparator and GlobalNumberState classes
1009467b48Spatrick // which are used by the MergeFunctions pass for comparing functions.
1109467b48Spatrick //
1209467b48Spatrick //===----------------------------------------------------------------------===//
1309467b48Spatrick
1409467b48Spatrick #include "llvm/Transforms/Utils/FunctionComparator.h"
1509467b48Spatrick #include "llvm/ADT/APFloat.h"
1609467b48Spatrick #include "llvm/ADT/APInt.h"
1709467b48Spatrick #include "llvm/ADT/ArrayRef.h"
1809467b48Spatrick #include "llvm/ADT/Hashing.h"
1909467b48Spatrick #include "llvm/ADT/SmallPtrSet.h"
2009467b48Spatrick #include "llvm/ADT/SmallVector.h"
2109467b48Spatrick #include "llvm/IR/Attributes.h"
2209467b48Spatrick #include "llvm/IR/BasicBlock.h"
2309467b48Spatrick #include "llvm/IR/Constant.h"
2409467b48Spatrick #include "llvm/IR/Constants.h"
2509467b48Spatrick #include "llvm/IR/DataLayout.h"
2609467b48Spatrick #include "llvm/IR/DerivedTypes.h"
2709467b48Spatrick #include "llvm/IR/Function.h"
2809467b48Spatrick #include "llvm/IR/GlobalValue.h"
2909467b48Spatrick #include "llvm/IR/InlineAsm.h"
3009467b48Spatrick #include "llvm/IR/InstrTypes.h"
3109467b48Spatrick #include "llvm/IR/Instruction.h"
3209467b48Spatrick #include "llvm/IR/Instructions.h"
3309467b48Spatrick #include "llvm/IR/LLVMContext.h"
3409467b48Spatrick #include "llvm/IR/Metadata.h"
3509467b48Spatrick #include "llvm/IR/Module.h"
3609467b48Spatrick #include "llvm/IR/Operator.h"
3709467b48Spatrick #include "llvm/IR/Type.h"
3809467b48Spatrick #include "llvm/IR/Value.h"
3909467b48Spatrick #include "llvm/Support/Casting.h"
4009467b48Spatrick #include "llvm/Support/Compiler.h"
4109467b48Spatrick #include "llvm/Support/Debug.h"
4209467b48Spatrick #include "llvm/Support/ErrorHandling.h"
4309467b48Spatrick #include "llvm/Support/raw_ostream.h"
4409467b48Spatrick #include <cassert>
4509467b48Spatrick #include <cstddef>
4609467b48Spatrick #include <cstdint>
4709467b48Spatrick #include <utility>
4809467b48Spatrick
4909467b48Spatrick using namespace llvm;
5009467b48Spatrick
5109467b48Spatrick #define DEBUG_TYPE "functioncomparator"
5209467b48Spatrick
cmpNumbers(uint64_t L,uint64_t R) const5309467b48Spatrick int FunctionComparator::cmpNumbers(uint64_t L, uint64_t R) const {
54097a140dSpatrick if (L < R)
55097a140dSpatrick return -1;
56097a140dSpatrick if (L > R)
57097a140dSpatrick return 1;
5809467b48Spatrick return 0;
5909467b48Spatrick }
6009467b48Spatrick
cmpAligns(Align L,Align R) const61*d415bd75Srobert int FunctionComparator::cmpAligns(Align L, Align R) const {
62*d415bd75Srobert if (L.value() < R.value())
63*d415bd75Srobert return -1;
64*d415bd75Srobert if (L.value() > R.value())
65*d415bd75Srobert return 1;
66*d415bd75Srobert return 0;
67*d415bd75Srobert }
68*d415bd75Srobert
cmpOrderings(AtomicOrdering L,AtomicOrdering R) const6909467b48Spatrick int FunctionComparator::cmpOrderings(AtomicOrdering L, AtomicOrdering R) const {
70097a140dSpatrick if ((int)L < (int)R)
71097a140dSpatrick return -1;
72097a140dSpatrick if ((int)L > (int)R)
73097a140dSpatrick return 1;
7409467b48Spatrick return 0;
7509467b48Spatrick }
7609467b48Spatrick
cmpAPInts(const APInt & L,const APInt & R) const7709467b48Spatrick int FunctionComparator::cmpAPInts(const APInt &L, const APInt &R) const {
7809467b48Spatrick if (int Res = cmpNumbers(L.getBitWidth(), R.getBitWidth()))
7909467b48Spatrick return Res;
80097a140dSpatrick if (L.ugt(R))
81097a140dSpatrick return 1;
82097a140dSpatrick if (R.ugt(L))
83097a140dSpatrick return -1;
8409467b48Spatrick return 0;
8509467b48Spatrick }
8609467b48Spatrick
cmpAPFloats(const APFloat & L,const APFloat & R) const8709467b48Spatrick int FunctionComparator::cmpAPFloats(const APFloat &L, const APFloat &R) const {
8809467b48Spatrick // Floats are ordered first by semantics (i.e. float, double, half, etc.),
8909467b48Spatrick // then by value interpreted as a bitstring (aka APInt).
9009467b48Spatrick const fltSemantics &SL = L.getSemantics(), &SR = R.getSemantics();
9109467b48Spatrick if (int Res = cmpNumbers(APFloat::semanticsPrecision(SL),
9209467b48Spatrick APFloat::semanticsPrecision(SR)))
9309467b48Spatrick return Res;
9409467b48Spatrick if (int Res = cmpNumbers(APFloat::semanticsMaxExponent(SL),
9509467b48Spatrick APFloat::semanticsMaxExponent(SR)))
9609467b48Spatrick return Res;
9709467b48Spatrick if (int Res = cmpNumbers(APFloat::semanticsMinExponent(SL),
9809467b48Spatrick APFloat::semanticsMinExponent(SR)))
9909467b48Spatrick return Res;
10009467b48Spatrick if (int Res = cmpNumbers(APFloat::semanticsSizeInBits(SL),
10109467b48Spatrick APFloat::semanticsSizeInBits(SR)))
10209467b48Spatrick return Res;
10309467b48Spatrick return cmpAPInts(L.bitcastToAPInt(), R.bitcastToAPInt());
10409467b48Spatrick }
10509467b48Spatrick
cmpMem(StringRef L,StringRef R) const10609467b48Spatrick int FunctionComparator::cmpMem(StringRef L, StringRef R) const {
10709467b48Spatrick // Prevent heavy comparison, compare sizes first.
10809467b48Spatrick if (int Res = cmpNumbers(L.size(), R.size()))
10909467b48Spatrick return Res;
11009467b48Spatrick
11109467b48Spatrick // Compare strings lexicographically only when it is necessary: only when
11209467b48Spatrick // strings are equal in size.
113*d415bd75Srobert return std::clamp(L.compare(R), -1, 1);
11409467b48Spatrick }
11509467b48Spatrick
cmpAttrs(const AttributeList L,const AttributeList R) const11609467b48Spatrick int FunctionComparator::cmpAttrs(const AttributeList L,
11709467b48Spatrick const AttributeList R) const {
11809467b48Spatrick if (int Res = cmpNumbers(L.getNumAttrSets(), R.getNumAttrSets()))
11909467b48Spatrick return Res;
12009467b48Spatrick
121*d415bd75Srobert for (unsigned i : L.indexes()) {
12209467b48Spatrick AttributeSet LAS = L.getAttributes(i);
12309467b48Spatrick AttributeSet RAS = R.getAttributes(i);
12409467b48Spatrick AttributeSet::iterator LI = LAS.begin(), LE = LAS.end();
12509467b48Spatrick AttributeSet::iterator RI = RAS.begin(), RE = RAS.end();
12609467b48Spatrick for (; LI != LE && RI != RE; ++LI, ++RI) {
12709467b48Spatrick Attribute LA = *LI;
12809467b48Spatrick Attribute RA = *RI;
12909467b48Spatrick if (LA.isTypeAttribute() && RA.isTypeAttribute()) {
13009467b48Spatrick if (LA.getKindAsEnum() != RA.getKindAsEnum())
13109467b48Spatrick return cmpNumbers(LA.getKindAsEnum(), RA.getKindAsEnum());
13209467b48Spatrick
13309467b48Spatrick Type *TyL = LA.getValueAsType();
13409467b48Spatrick Type *TyR = RA.getValueAsType();
13573471bf0Spatrick if (TyL && TyR) {
13673471bf0Spatrick if (int Res = cmpTypes(TyL, TyR))
13773471bf0Spatrick return Res;
13873471bf0Spatrick continue;
13973471bf0Spatrick }
14009467b48Spatrick
14109467b48Spatrick // Two pointers, at least one null, so the comparison result is
14209467b48Spatrick // independent of the value of a real pointer.
14373471bf0Spatrick if (int Res = cmpNumbers((uint64_t)TyL, (uint64_t)TyR))
14473471bf0Spatrick return Res;
14573471bf0Spatrick continue;
14609467b48Spatrick }
14709467b48Spatrick if (LA < RA)
14809467b48Spatrick return -1;
14909467b48Spatrick if (RA < LA)
15009467b48Spatrick return 1;
15109467b48Spatrick }
15209467b48Spatrick if (LI != LE)
15309467b48Spatrick return 1;
15409467b48Spatrick if (RI != RE)
15509467b48Spatrick return -1;
15609467b48Spatrick }
15709467b48Spatrick return 0;
15809467b48Spatrick }
15909467b48Spatrick
cmpRangeMetadata(const MDNode * L,const MDNode * R) const16009467b48Spatrick int FunctionComparator::cmpRangeMetadata(const MDNode *L,
16109467b48Spatrick const MDNode *R) const {
16209467b48Spatrick if (L == R)
16309467b48Spatrick return 0;
16409467b48Spatrick if (!L)
16509467b48Spatrick return -1;
16609467b48Spatrick if (!R)
16709467b48Spatrick return 1;
16809467b48Spatrick // Range metadata is a sequence of numbers. Make sure they are the same
16909467b48Spatrick // sequence.
17009467b48Spatrick // TODO: Note that as this is metadata, it is possible to drop and/or merge
17109467b48Spatrick // this data when considering functions to merge. Thus this comparison would
17209467b48Spatrick // return 0 (i.e. equivalent), but merging would become more complicated
17309467b48Spatrick // because the ranges would need to be unioned. It is not likely that
17409467b48Spatrick // functions differ ONLY in this metadata if they are actually the same
17509467b48Spatrick // function semantically.
17609467b48Spatrick if (int Res = cmpNumbers(L->getNumOperands(), R->getNumOperands()))
17709467b48Spatrick return Res;
17809467b48Spatrick for (size_t I = 0; I < L->getNumOperands(); ++I) {
17909467b48Spatrick ConstantInt *LLow = mdconst::extract<ConstantInt>(L->getOperand(I));
18009467b48Spatrick ConstantInt *RLow = mdconst::extract<ConstantInt>(R->getOperand(I));
18109467b48Spatrick if (int Res = cmpAPInts(LLow->getValue(), RLow->getValue()))
18209467b48Spatrick return Res;
18309467b48Spatrick }
18409467b48Spatrick return 0;
18509467b48Spatrick }
18609467b48Spatrick
cmpOperandBundlesSchema(const CallBase & LCS,const CallBase & RCS) const187097a140dSpatrick int FunctionComparator::cmpOperandBundlesSchema(const CallBase &LCS,
188097a140dSpatrick const CallBase &RCS) const {
189097a140dSpatrick assert(LCS.getOpcode() == RCS.getOpcode() && "Can't compare otherwise!");
19009467b48Spatrick
19109467b48Spatrick if (int Res =
19209467b48Spatrick cmpNumbers(LCS.getNumOperandBundles(), RCS.getNumOperandBundles()))
19309467b48Spatrick return Res;
19409467b48Spatrick
195097a140dSpatrick for (unsigned I = 0, E = LCS.getNumOperandBundles(); I != E; ++I) {
196097a140dSpatrick auto OBL = LCS.getOperandBundleAt(I);
197097a140dSpatrick auto OBR = RCS.getOperandBundleAt(I);
19809467b48Spatrick
19909467b48Spatrick if (int Res = OBL.getTagName().compare(OBR.getTagName()))
20009467b48Spatrick return Res;
20109467b48Spatrick
20209467b48Spatrick if (int Res = cmpNumbers(OBL.Inputs.size(), OBR.Inputs.size()))
20309467b48Spatrick return Res;
20409467b48Spatrick }
20509467b48Spatrick
20609467b48Spatrick return 0;
20709467b48Spatrick }
20809467b48Spatrick
20909467b48Spatrick /// Constants comparison:
21009467b48Spatrick /// 1. Check whether type of L constant could be losslessly bitcasted to R
21109467b48Spatrick /// type.
21209467b48Spatrick /// 2. Compare constant contents.
21309467b48Spatrick /// For more details see declaration comments.
cmpConstants(const Constant * L,const Constant * R) const21409467b48Spatrick int FunctionComparator::cmpConstants(const Constant *L,
21509467b48Spatrick const Constant *R) const {
21609467b48Spatrick Type *TyL = L->getType();
21709467b48Spatrick Type *TyR = R->getType();
21809467b48Spatrick
21909467b48Spatrick // Check whether types are bitcastable. This part is just re-factored
22009467b48Spatrick // Type::canLosslesslyBitCastTo method, but instead of returning true/false,
22109467b48Spatrick // we also pack into result which type is "less" for us.
22209467b48Spatrick int TypesRes = cmpTypes(TyL, TyR);
22309467b48Spatrick if (TypesRes != 0) {
22409467b48Spatrick // Types are different, but check whether we can bitcast them.
22509467b48Spatrick if (!TyL->isFirstClassType()) {
22609467b48Spatrick if (TyR->isFirstClassType())
22709467b48Spatrick return -1;
22809467b48Spatrick // Neither TyL nor TyR are values of first class type. Return the result
22909467b48Spatrick // of comparing the types
23009467b48Spatrick return TypesRes;
23109467b48Spatrick }
23209467b48Spatrick if (!TyR->isFirstClassType()) {
23309467b48Spatrick if (TyL->isFirstClassType())
23409467b48Spatrick return 1;
23509467b48Spatrick return TypesRes;
23609467b48Spatrick }
23709467b48Spatrick
23809467b48Spatrick // Vector -> Vector conversions are always lossless if the two vector types
23909467b48Spatrick // have the same size, otherwise not.
24009467b48Spatrick unsigned TyLWidth = 0;
24109467b48Spatrick unsigned TyRWidth = 0;
24209467b48Spatrick
24309467b48Spatrick if (auto *VecTyL = dyn_cast<VectorType>(TyL))
244*d415bd75Srobert TyLWidth = VecTyL->getPrimitiveSizeInBits().getFixedValue();
24509467b48Spatrick if (auto *VecTyR = dyn_cast<VectorType>(TyR))
246*d415bd75Srobert TyRWidth = VecTyR->getPrimitiveSizeInBits().getFixedValue();
24709467b48Spatrick
24809467b48Spatrick if (TyLWidth != TyRWidth)
24909467b48Spatrick return cmpNumbers(TyLWidth, TyRWidth);
25009467b48Spatrick
25109467b48Spatrick // Zero bit-width means neither TyL nor TyR are vectors.
25209467b48Spatrick if (!TyLWidth) {
25309467b48Spatrick PointerType *PTyL = dyn_cast<PointerType>(TyL);
25409467b48Spatrick PointerType *PTyR = dyn_cast<PointerType>(TyR);
25509467b48Spatrick if (PTyL && PTyR) {
25609467b48Spatrick unsigned AddrSpaceL = PTyL->getAddressSpace();
25709467b48Spatrick unsigned AddrSpaceR = PTyR->getAddressSpace();
25809467b48Spatrick if (int Res = cmpNumbers(AddrSpaceL, AddrSpaceR))
25909467b48Spatrick return Res;
26009467b48Spatrick }
26109467b48Spatrick if (PTyL)
26209467b48Spatrick return 1;
26309467b48Spatrick if (PTyR)
26409467b48Spatrick return -1;
26509467b48Spatrick
26609467b48Spatrick // TyL and TyR aren't vectors, nor pointers. We don't know how to
26709467b48Spatrick // bitcast them.
26809467b48Spatrick return TypesRes;
26909467b48Spatrick }
27009467b48Spatrick }
27109467b48Spatrick
27209467b48Spatrick // OK, types are bitcastable, now check constant contents.
27309467b48Spatrick
27409467b48Spatrick if (L->isNullValue() && R->isNullValue())
27509467b48Spatrick return TypesRes;
27609467b48Spatrick if (L->isNullValue() && !R->isNullValue())
27709467b48Spatrick return 1;
27809467b48Spatrick if (!L->isNullValue() && R->isNullValue())
27909467b48Spatrick return -1;
28009467b48Spatrick
28109467b48Spatrick auto GlobalValueL = const_cast<GlobalValue *>(dyn_cast<GlobalValue>(L));
28209467b48Spatrick auto GlobalValueR = const_cast<GlobalValue *>(dyn_cast<GlobalValue>(R));
28309467b48Spatrick if (GlobalValueL && GlobalValueR) {
28409467b48Spatrick return cmpGlobalValues(GlobalValueL, GlobalValueR);
28509467b48Spatrick }
28609467b48Spatrick
28709467b48Spatrick if (int Res = cmpNumbers(L->getValueID(), R->getValueID()))
28809467b48Spatrick return Res;
28909467b48Spatrick
29009467b48Spatrick if (const auto *SeqL = dyn_cast<ConstantDataSequential>(L)) {
29109467b48Spatrick const auto *SeqR = cast<ConstantDataSequential>(R);
29209467b48Spatrick // This handles ConstantDataArray and ConstantDataVector. Note that we
29309467b48Spatrick // compare the two raw data arrays, which might differ depending on the host
29409467b48Spatrick // endianness. This isn't a problem though, because the endiness of a module
29509467b48Spatrick // will affect the order of the constants, but this order is the same
29609467b48Spatrick // for a given input module and host platform.
29709467b48Spatrick return cmpMem(SeqL->getRawDataValues(), SeqR->getRawDataValues());
29809467b48Spatrick }
29909467b48Spatrick
30009467b48Spatrick switch (L->getValueID()) {
30109467b48Spatrick case Value::UndefValueVal:
30273471bf0Spatrick case Value::PoisonValueVal:
30309467b48Spatrick case Value::ConstantTokenNoneVal:
30409467b48Spatrick return TypesRes;
30509467b48Spatrick case Value::ConstantIntVal: {
30609467b48Spatrick const APInt &LInt = cast<ConstantInt>(L)->getValue();
30709467b48Spatrick const APInt &RInt = cast<ConstantInt>(R)->getValue();
30809467b48Spatrick return cmpAPInts(LInt, RInt);
30909467b48Spatrick }
31009467b48Spatrick case Value::ConstantFPVal: {
31109467b48Spatrick const APFloat &LAPF = cast<ConstantFP>(L)->getValueAPF();
31209467b48Spatrick const APFloat &RAPF = cast<ConstantFP>(R)->getValueAPF();
31309467b48Spatrick return cmpAPFloats(LAPF, RAPF);
31409467b48Spatrick }
31509467b48Spatrick case Value::ConstantArrayVal: {
31609467b48Spatrick const ConstantArray *LA = cast<ConstantArray>(L);
31709467b48Spatrick const ConstantArray *RA = cast<ConstantArray>(R);
31809467b48Spatrick uint64_t NumElementsL = cast<ArrayType>(TyL)->getNumElements();
31909467b48Spatrick uint64_t NumElementsR = cast<ArrayType>(TyR)->getNumElements();
32009467b48Spatrick if (int Res = cmpNumbers(NumElementsL, NumElementsR))
32109467b48Spatrick return Res;
32209467b48Spatrick for (uint64_t i = 0; i < NumElementsL; ++i) {
32309467b48Spatrick if (int Res = cmpConstants(cast<Constant>(LA->getOperand(i)),
32409467b48Spatrick cast<Constant>(RA->getOperand(i))))
32509467b48Spatrick return Res;
32609467b48Spatrick }
32709467b48Spatrick return 0;
32809467b48Spatrick }
32909467b48Spatrick case Value::ConstantStructVal: {
33009467b48Spatrick const ConstantStruct *LS = cast<ConstantStruct>(L);
33109467b48Spatrick const ConstantStruct *RS = cast<ConstantStruct>(R);
33209467b48Spatrick unsigned NumElementsL = cast<StructType>(TyL)->getNumElements();
33309467b48Spatrick unsigned NumElementsR = cast<StructType>(TyR)->getNumElements();
33409467b48Spatrick if (int Res = cmpNumbers(NumElementsL, NumElementsR))
33509467b48Spatrick return Res;
33609467b48Spatrick for (unsigned i = 0; i != NumElementsL; ++i) {
33709467b48Spatrick if (int Res = cmpConstants(cast<Constant>(LS->getOperand(i)),
33809467b48Spatrick cast<Constant>(RS->getOperand(i))))
33909467b48Spatrick return Res;
34009467b48Spatrick }
34109467b48Spatrick return 0;
34209467b48Spatrick }
34309467b48Spatrick case Value::ConstantVectorVal: {
34409467b48Spatrick const ConstantVector *LV = cast<ConstantVector>(L);
34509467b48Spatrick const ConstantVector *RV = cast<ConstantVector>(R);
346097a140dSpatrick unsigned NumElementsL = cast<FixedVectorType>(TyL)->getNumElements();
347097a140dSpatrick unsigned NumElementsR = cast<FixedVectorType>(TyR)->getNumElements();
34809467b48Spatrick if (int Res = cmpNumbers(NumElementsL, NumElementsR))
34909467b48Spatrick return Res;
35009467b48Spatrick for (uint64_t i = 0; i < NumElementsL; ++i) {
35109467b48Spatrick if (int Res = cmpConstants(cast<Constant>(LV->getOperand(i)),
35209467b48Spatrick cast<Constant>(RV->getOperand(i))))
35309467b48Spatrick return Res;
35409467b48Spatrick }
35509467b48Spatrick return 0;
35609467b48Spatrick }
35709467b48Spatrick case Value::ConstantExprVal: {
35809467b48Spatrick const ConstantExpr *LE = cast<ConstantExpr>(L);
35909467b48Spatrick const ConstantExpr *RE = cast<ConstantExpr>(R);
36009467b48Spatrick unsigned NumOperandsL = LE->getNumOperands();
36109467b48Spatrick unsigned NumOperandsR = RE->getNumOperands();
36209467b48Spatrick if (int Res = cmpNumbers(NumOperandsL, NumOperandsR))
36309467b48Spatrick return Res;
36409467b48Spatrick for (unsigned i = 0; i < NumOperandsL; ++i) {
36509467b48Spatrick if (int Res = cmpConstants(cast<Constant>(LE->getOperand(i)),
36609467b48Spatrick cast<Constant>(RE->getOperand(i))))
36709467b48Spatrick return Res;
36809467b48Spatrick }
36909467b48Spatrick return 0;
37009467b48Spatrick }
37109467b48Spatrick case Value::BlockAddressVal: {
37209467b48Spatrick const BlockAddress *LBA = cast<BlockAddress>(L);
37309467b48Spatrick const BlockAddress *RBA = cast<BlockAddress>(R);
37409467b48Spatrick if (int Res = cmpValues(LBA->getFunction(), RBA->getFunction()))
37509467b48Spatrick return Res;
37609467b48Spatrick if (LBA->getFunction() == RBA->getFunction()) {
37709467b48Spatrick // They are BBs in the same function. Order by which comes first in the
37809467b48Spatrick // BB order of the function. This order is deterministic.
37909467b48Spatrick Function *F = LBA->getFunction();
38009467b48Spatrick BasicBlock *LBB = LBA->getBasicBlock();
38109467b48Spatrick BasicBlock *RBB = RBA->getBasicBlock();
38209467b48Spatrick if (LBB == RBB)
38309467b48Spatrick return 0;
384*d415bd75Srobert for (BasicBlock &BB : *F) {
38509467b48Spatrick if (&BB == LBB) {
38609467b48Spatrick assert(&BB != RBB);
38709467b48Spatrick return -1;
38809467b48Spatrick }
38909467b48Spatrick if (&BB == RBB)
39009467b48Spatrick return 1;
39109467b48Spatrick }
39209467b48Spatrick llvm_unreachable("Basic Block Address does not point to a basic block in "
39309467b48Spatrick "its function.");
39409467b48Spatrick return -1;
39509467b48Spatrick } else {
39609467b48Spatrick // cmpValues said the functions are the same. So because they aren't
39709467b48Spatrick // literally the same pointer, they must respectively be the left and
39809467b48Spatrick // right functions.
39909467b48Spatrick assert(LBA->getFunction() == FnL && RBA->getFunction() == FnR);
40009467b48Spatrick // cmpValues will tell us if these are equivalent BasicBlocks, in the
40109467b48Spatrick // context of their respective functions.
40209467b48Spatrick return cmpValues(LBA->getBasicBlock(), RBA->getBasicBlock());
40309467b48Spatrick }
40409467b48Spatrick }
405*d415bd75Srobert case Value::DSOLocalEquivalentVal: {
406*d415bd75Srobert // dso_local_equivalent is functionally equivalent to whatever it points to.
407*d415bd75Srobert // This means the behavior of the IR should be the exact same as if the
408*d415bd75Srobert // function was referenced directly rather than through a
409*d415bd75Srobert // dso_local_equivalent.
410*d415bd75Srobert const auto *LEquiv = cast<DSOLocalEquivalent>(L);
411*d415bd75Srobert const auto *REquiv = cast<DSOLocalEquivalent>(R);
412*d415bd75Srobert return cmpGlobalValues(LEquiv->getGlobalValue(), REquiv->getGlobalValue());
413*d415bd75Srobert }
41409467b48Spatrick default: // Unknown constant, abort.
41509467b48Spatrick LLVM_DEBUG(dbgs() << "Looking at valueID " << L->getValueID() << "\n");
41609467b48Spatrick llvm_unreachable("Constant ValueID not recognized.");
41709467b48Spatrick return -1;
41809467b48Spatrick }
41909467b48Spatrick }
42009467b48Spatrick
cmpGlobalValues(GlobalValue * L,GlobalValue * R) const42109467b48Spatrick int FunctionComparator::cmpGlobalValues(GlobalValue *L, GlobalValue *R) const {
42209467b48Spatrick uint64_t LNumber = GlobalNumbers->getNumber(L);
42309467b48Spatrick uint64_t RNumber = GlobalNumbers->getNumber(R);
42409467b48Spatrick return cmpNumbers(LNumber, RNumber);
42509467b48Spatrick }
42609467b48Spatrick
42709467b48Spatrick /// cmpType - compares two types,
42809467b48Spatrick /// defines total ordering among the types set.
42909467b48Spatrick /// See method declaration comments for more details.
cmpTypes(Type * TyL,Type * TyR) const43009467b48Spatrick int FunctionComparator::cmpTypes(Type *TyL, Type *TyR) const {
43109467b48Spatrick PointerType *PTyL = dyn_cast<PointerType>(TyL);
43209467b48Spatrick PointerType *PTyR = dyn_cast<PointerType>(TyR);
43309467b48Spatrick
43409467b48Spatrick const DataLayout &DL = FnL->getParent()->getDataLayout();
43509467b48Spatrick if (PTyL && PTyL->getAddressSpace() == 0)
43609467b48Spatrick TyL = DL.getIntPtrType(TyL);
43709467b48Spatrick if (PTyR && PTyR->getAddressSpace() == 0)
43809467b48Spatrick TyR = DL.getIntPtrType(TyR);
43909467b48Spatrick
44009467b48Spatrick if (TyL == TyR)
44109467b48Spatrick return 0;
44209467b48Spatrick
44309467b48Spatrick if (int Res = cmpNumbers(TyL->getTypeID(), TyR->getTypeID()))
44409467b48Spatrick return Res;
44509467b48Spatrick
44609467b48Spatrick switch (TyL->getTypeID()) {
44709467b48Spatrick default:
44809467b48Spatrick llvm_unreachable("Unknown type!");
44909467b48Spatrick case Type::IntegerTyID:
45009467b48Spatrick return cmpNumbers(cast<IntegerType>(TyL)->getBitWidth(),
45109467b48Spatrick cast<IntegerType>(TyR)->getBitWidth());
45209467b48Spatrick // TyL == TyR would have returned true earlier, because types are uniqued.
45309467b48Spatrick case Type::VoidTyID:
45409467b48Spatrick case Type::FloatTyID:
45509467b48Spatrick case Type::DoubleTyID:
45609467b48Spatrick case Type::X86_FP80TyID:
45709467b48Spatrick case Type::FP128TyID:
45809467b48Spatrick case Type::PPC_FP128TyID:
45909467b48Spatrick case Type::LabelTyID:
46009467b48Spatrick case Type::MetadataTyID:
46109467b48Spatrick case Type::TokenTyID:
46209467b48Spatrick return 0;
46309467b48Spatrick
46409467b48Spatrick case Type::PointerTyID:
46509467b48Spatrick assert(PTyL && PTyR && "Both types must be pointers here.");
46609467b48Spatrick return cmpNumbers(PTyL->getAddressSpace(), PTyR->getAddressSpace());
46709467b48Spatrick
46809467b48Spatrick case Type::StructTyID: {
46909467b48Spatrick StructType *STyL = cast<StructType>(TyL);
47009467b48Spatrick StructType *STyR = cast<StructType>(TyR);
47109467b48Spatrick if (STyL->getNumElements() != STyR->getNumElements())
47209467b48Spatrick return cmpNumbers(STyL->getNumElements(), STyR->getNumElements());
47309467b48Spatrick
47409467b48Spatrick if (STyL->isPacked() != STyR->isPacked())
47509467b48Spatrick return cmpNumbers(STyL->isPacked(), STyR->isPacked());
47609467b48Spatrick
47709467b48Spatrick for (unsigned i = 0, e = STyL->getNumElements(); i != e; ++i) {
47809467b48Spatrick if (int Res = cmpTypes(STyL->getElementType(i), STyR->getElementType(i)))
47909467b48Spatrick return Res;
48009467b48Spatrick }
48109467b48Spatrick return 0;
48209467b48Spatrick }
48309467b48Spatrick
48409467b48Spatrick case Type::FunctionTyID: {
48509467b48Spatrick FunctionType *FTyL = cast<FunctionType>(TyL);
48609467b48Spatrick FunctionType *FTyR = cast<FunctionType>(TyR);
48709467b48Spatrick if (FTyL->getNumParams() != FTyR->getNumParams())
48809467b48Spatrick return cmpNumbers(FTyL->getNumParams(), FTyR->getNumParams());
48909467b48Spatrick
49009467b48Spatrick if (FTyL->isVarArg() != FTyR->isVarArg())
49109467b48Spatrick return cmpNumbers(FTyL->isVarArg(), FTyR->isVarArg());
49209467b48Spatrick
49309467b48Spatrick if (int Res = cmpTypes(FTyL->getReturnType(), FTyR->getReturnType()))
49409467b48Spatrick return Res;
49509467b48Spatrick
49609467b48Spatrick for (unsigned i = 0, e = FTyL->getNumParams(); i != e; ++i) {
49709467b48Spatrick if (int Res = cmpTypes(FTyL->getParamType(i), FTyR->getParamType(i)))
49809467b48Spatrick return Res;
49909467b48Spatrick }
50009467b48Spatrick return 0;
50109467b48Spatrick }
50209467b48Spatrick
503097a140dSpatrick case Type::ArrayTyID: {
504097a140dSpatrick auto *STyL = cast<ArrayType>(TyL);
505097a140dSpatrick auto *STyR = cast<ArrayType>(TyR);
50609467b48Spatrick if (STyL->getNumElements() != STyR->getNumElements())
50709467b48Spatrick return cmpNumbers(STyL->getNumElements(), STyR->getNumElements());
50809467b48Spatrick return cmpTypes(STyL->getElementType(), STyR->getElementType());
50909467b48Spatrick }
510097a140dSpatrick case Type::FixedVectorTyID:
511097a140dSpatrick case Type::ScalableVectorTyID: {
512097a140dSpatrick auto *STyL = cast<VectorType>(TyL);
513097a140dSpatrick auto *STyR = cast<VectorType>(TyR);
51473471bf0Spatrick if (STyL->getElementCount().isScalable() !=
51573471bf0Spatrick STyR->getElementCount().isScalable())
51673471bf0Spatrick return cmpNumbers(STyL->getElementCount().isScalable(),
51773471bf0Spatrick STyR->getElementCount().isScalable());
51873471bf0Spatrick if (STyL->getElementCount() != STyR->getElementCount())
51973471bf0Spatrick return cmpNumbers(STyL->getElementCount().getKnownMinValue(),
52073471bf0Spatrick STyR->getElementCount().getKnownMinValue());
521097a140dSpatrick return cmpTypes(STyL->getElementType(), STyR->getElementType());
522097a140dSpatrick }
52309467b48Spatrick }
52409467b48Spatrick }
52509467b48Spatrick
52609467b48Spatrick // Determine whether the two operations are the same except that pointer-to-A
52709467b48Spatrick // and pointer-to-B are equivalent. This should be kept in sync with
52809467b48Spatrick // Instruction::isSameOperationAs.
52909467b48Spatrick // Read method declaration comments for more details.
cmpOperations(const Instruction * L,const Instruction * R,bool & needToCmpOperands) const53009467b48Spatrick int FunctionComparator::cmpOperations(const Instruction *L,
53109467b48Spatrick const Instruction *R,
53209467b48Spatrick bool &needToCmpOperands) const {
53309467b48Spatrick needToCmpOperands = true;
53409467b48Spatrick if (int Res = cmpValues(L, R))
53509467b48Spatrick return Res;
53609467b48Spatrick
53709467b48Spatrick // Differences from Instruction::isSameOperationAs:
53809467b48Spatrick // * replace type comparison with calls to cmpTypes.
53909467b48Spatrick // * we test for I->getRawSubclassOptionalData (nuw/nsw/tail) at the top.
54009467b48Spatrick // * because of the above, we don't test for the tail bit on calls later on.
54109467b48Spatrick if (int Res = cmpNumbers(L->getOpcode(), R->getOpcode()))
54209467b48Spatrick return Res;
54309467b48Spatrick
54409467b48Spatrick if (const GetElementPtrInst *GEPL = dyn_cast<GetElementPtrInst>(L)) {
54509467b48Spatrick needToCmpOperands = false;
54609467b48Spatrick const GetElementPtrInst *GEPR = cast<GetElementPtrInst>(R);
54709467b48Spatrick if (int Res =
54809467b48Spatrick cmpValues(GEPL->getPointerOperand(), GEPR->getPointerOperand()))
54909467b48Spatrick return Res;
55009467b48Spatrick return cmpGEPs(GEPL, GEPR);
55109467b48Spatrick }
55209467b48Spatrick
55309467b48Spatrick if (int Res = cmpNumbers(L->getNumOperands(), R->getNumOperands()))
55409467b48Spatrick return Res;
55509467b48Spatrick
55609467b48Spatrick if (int Res = cmpTypes(L->getType(), R->getType()))
55709467b48Spatrick return Res;
55809467b48Spatrick
55909467b48Spatrick if (int Res = cmpNumbers(L->getRawSubclassOptionalData(),
56009467b48Spatrick R->getRawSubclassOptionalData()))
56109467b48Spatrick return Res;
56209467b48Spatrick
56309467b48Spatrick // We have two instructions of identical opcode and #operands. Check to see
56409467b48Spatrick // if all operands are the same type
56509467b48Spatrick for (unsigned i = 0, e = L->getNumOperands(); i != e; ++i) {
56609467b48Spatrick if (int Res =
56709467b48Spatrick cmpTypes(L->getOperand(i)->getType(), R->getOperand(i)->getType()))
56809467b48Spatrick return Res;
56909467b48Spatrick }
57009467b48Spatrick
57109467b48Spatrick // Check special state that is a part of some instructions.
57209467b48Spatrick if (const AllocaInst *AI = dyn_cast<AllocaInst>(L)) {
57309467b48Spatrick if (int Res = cmpTypes(AI->getAllocatedType(),
57409467b48Spatrick cast<AllocaInst>(R)->getAllocatedType()))
57509467b48Spatrick return Res;
576*d415bd75Srobert return cmpAligns(AI->getAlign(), cast<AllocaInst>(R)->getAlign());
57709467b48Spatrick }
57809467b48Spatrick if (const LoadInst *LI = dyn_cast<LoadInst>(L)) {
57909467b48Spatrick if (int Res = cmpNumbers(LI->isVolatile(), cast<LoadInst>(R)->isVolatile()))
58009467b48Spatrick return Res;
581*d415bd75Srobert if (int Res = cmpAligns(LI->getAlign(), cast<LoadInst>(R)->getAlign()))
58209467b48Spatrick return Res;
58309467b48Spatrick if (int Res =
58409467b48Spatrick cmpOrderings(LI->getOrdering(), cast<LoadInst>(R)->getOrdering()))
58509467b48Spatrick return Res;
58609467b48Spatrick if (int Res = cmpNumbers(LI->getSyncScopeID(),
58709467b48Spatrick cast<LoadInst>(R)->getSyncScopeID()))
58809467b48Spatrick return Res;
589097a140dSpatrick return cmpRangeMetadata(
590097a140dSpatrick LI->getMetadata(LLVMContext::MD_range),
59109467b48Spatrick cast<LoadInst>(R)->getMetadata(LLVMContext::MD_range));
59209467b48Spatrick }
59309467b48Spatrick if (const StoreInst *SI = dyn_cast<StoreInst>(L)) {
59409467b48Spatrick if (int Res =
59509467b48Spatrick cmpNumbers(SI->isVolatile(), cast<StoreInst>(R)->isVolatile()))
59609467b48Spatrick return Res;
597*d415bd75Srobert if (int Res = cmpAligns(SI->getAlign(), cast<StoreInst>(R)->getAlign()))
59809467b48Spatrick return Res;
59909467b48Spatrick if (int Res =
60009467b48Spatrick cmpOrderings(SI->getOrdering(), cast<StoreInst>(R)->getOrdering()))
60109467b48Spatrick return Res;
60209467b48Spatrick return cmpNumbers(SI->getSyncScopeID(),
60309467b48Spatrick cast<StoreInst>(R)->getSyncScopeID());
60409467b48Spatrick }
60509467b48Spatrick if (const CmpInst *CI = dyn_cast<CmpInst>(L))
60609467b48Spatrick return cmpNumbers(CI->getPredicate(), cast<CmpInst>(R)->getPredicate());
607097a140dSpatrick if (auto *CBL = dyn_cast<CallBase>(L)) {
608097a140dSpatrick auto *CBR = cast<CallBase>(R);
609097a140dSpatrick if (int Res = cmpNumbers(CBL->getCallingConv(), CBR->getCallingConv()))
61009467b48Spatrick return Res;
611097a140dSpatrick if (int Res = cmpAttrs(CBL->getAttributes(), CBR->getAttributes()))
61209467b48Spatrick return Res;
613097a140dSpatrick if (int Res = cmpOperandBundlesSchema(*CBL, *CBR))
61409467b48Spatrick return Res;
61509467b48Spatrick if (const CallInst *CI = dyn_cast<CallInst>(L))
61609467b48Spatrick if (int Res = cmpNumbers(CI->getTailCallKind(),
61709467b48Spatrick cast<CallInst>(R)->getTailCallKind()))
61809467b48Spatrick return Res;
61909467b48Spatrick return cmpRangeMetadata(L->getMetadata(LLVMContext::MD_range),
62009467b48Spatrick R->getMetadata(LLVMContext::MD_range));
62109467b48Spatrick }
62209467b48Spatrick if (const InsertValueInst *IVI = dyn_cast<InsertValueInst>(L)) {
62309467b48Spatrick ArrayRef<unsigned> LIndices = IVI->getIndices();
62409467b48Spatrick ArrayRef<unsigned> RIndices = cast<InsertValueInst>(R)->getIndices();
62509467b48Spatrick if (int Res = cmpNumbers(LIndices.size(), RIndices.size()))
62609467b48Spatrick return Res;
62709467b48Spatrick for (size_t i = 0, e = LIndices.size(); i != e; ++i) {
62809467b48Spatrick if (int Res = cmpNumbers(LIndices[i], RIndices[i]))
62909467b48Spatrick return Res;
63009467b48Spatrick }
63109467b48Spatrick return 0;
63209467b48Spatrick }
63309467b48Spatrick if (const ExtractValueInst *EVI = dyn_cast<ExtractValueInst>(L)) {
63409467b48Spatrick ArrayRef<unsigned> LIndices = EVI->getIndices();
63509467b48Spatrick ArrayRef<unsigned> RIndices = cast<ExtractValueInst>(R)->getIndices();
63609467b48Spatrick if (int Res = cmpNumbers(LIndices.size(), RIndices.size()))
63709467b48Spatrick return Res;
63809467b48Spatrick for (size_t i = 0, e = LIndices.size(); i != e; ++i) {
63909467b48Spatrick if (int Res = cmpNumbers(LIndices[i], RIndices[i]))
64009467b48Spatrick return Res;
64109467b48Spatrick }
64209467b48Spatrick }
64309467b48Spatrick if (const FenceInst *FI = dyn_cast<FenceInst>(L)) {
64409467b48Spatrick if (int Res =
64509467b48Spatrick cmpOrderings(FI->getOrdering(), cast<FenceInst>(R)->getOrdering()))
64609467b48Spatrick return Res;
64709467b48Spatrick return cmpNumbers(FI->getSyncScopeID(),
64809467b48Spatrick cast<FenceInst>(R)->getSyncScopeID());
64909467b48Spatrick }
65009467b48Spatrick if (const AtomicCmpXchgInst *CXI = dyn_cast<AtomicCmpXchgInst>(L)) {
65109467b48Spatrick if (int Res = cmpNumbers(CXI->isVolatile(),
65209467b48Spatrick cast<AtomicCmpXchgInst>(R)->isVolatile()))
65309467b48Spatrick return Res;
654097a140dSpatrick if (int Res =
655097a140dSpatrick cmpNumbers(CXI->isWeak(), cast<AtomicCmpXchgInst>(R)->isWeak()))
65609467b48Spatrick return Res;
65709467b48Spatrick if (int Res =
65809467b48Spatrick cmpOrderings(CXI->getSuccessOrdering(),
65909467b48Spatrick cast<AtomicCmpXchgInst>(R)->getSuccessOrdering()))
66009467b48Spatrick return Res;
66109467b48Spatrick if (int Res =
66209467b48Spatrick cmpOrderings(CXI->getFailureOrdering(),
66309467b48Spatrick cast<AtomicCmpXchgInst>(R)->getFailureOrdering()))
66409467b48Spatrick return Res;
66509467b48Spatrick return cmpNumbers(CXI->getSyncScopeID(),
66609467b48Spatrick cast<AtomicCmpXchgInst>(R)->getSyncScopeID());
66709467b48Spatrick }
66809467b48Spatrick if (const AtomicRMWInst *RMWI = dyn_cast<AtomicRMWInst>(L)) {
66909467b48Spatrick if (int Res = cmpNumbers(RMWI->getOperation(),
67009467b48Spatrick cast<AtomicRMWInst>(R)->getOperation()))
67109467b48Spatrick return Res;
67209467b48Spatrick if (int Res = cmpNumbers(RMWI->isVolatile(),
67309467b48Spatrick cast<AtomicRMWInst>(R)->isVolatile()))
67409467b48Spatrick return Res;
67509467b48Spatrick if (int Res = cmpOrderings(RMWI->getOrdering(),
67609467b48Spatrick cast<AtomicRMWInst>(R)->getOrdering()))
67709467b48Spatrick return Res;
67809467b48Spatrick return cmpNumbers(RMWI->getSyncScopeID(),
67909467b48Spatrick cast<AtomicRMWInst>(R)->getSyncScopeID());
68009467b48Spatrick }
681097a140dSpatrick if (const ShuffleVectorInst *SVI = dyn_cast<ShuffleVectorInst>(L)) {
682097a140dSpatrick ArrayRef<int> LMask = SVI->getShuffleMask();
683097a140dSpatrick ArrayRef<int> RMask = cast<ShuffleVectorInst>(R)->getShuffleMask();
684097a140dSpatrick if (int Res = cmpNumbers(LMask.size(), RMask.size()))
685097a140dSpatrick return Res;
686097a140dSpatrick for (size_t i = 0, e = LMask.size(); i != e; ++i) {
687097a140dSpatrick if (int Res = cmpNumbers(LMask[i], RMask[i]))
688097a140dSpatrick return Res;
689097a140dSpatrick }
690097a140dSpatrick }
69109467b48Spatrick if (const PHINode *PNL = dyn_cast<PHINode>(L)) {
69209467b48Spatrick const PHINode *PNR = cast<PHINode>(R);
69309467b48Spatrick // Ensure that in addition to the incoming values being identical
69409467b48Spatrick // (checked by the caller of this function), the incoming blocks
69509467b48Spatrick // are also identical.
69609467b48Spatrick for (unsigned i = 0, e = PNL->getNumIncomingValues(); i != e; ++i) {
69709467b48Spatrick if (int Res =
69809467b48Spatrick cmpValues(PNL->getIncomingBlock(i), PNR->getIncomingBlock(i)))
69909467b48Spatrick return Res;
70009467b48Spatrick }
70109467b48Spatrick }
70209467b48Spatrick return 0;
70309467b48Spatrick }
70409467b48Spatrick
70509467b48Spatrick // Determine whether two GEP operations perform the same underlying arithmetic.
70609467b48Spatrick // Read method declaration comments for more details.
cmpGEPs(const GEPOperator * GEPL,const GEPOperator * GEPR) const70709467b48Spatrick int FunctionComparator::cmpGEPs(const GEPOperator *GEPL,
70809467b48Spatrick const GEPOperator *GEPR) const {
70909467b48Spatrick unsigned int ASL = GEPL->getPointerAddressSpace();
71009467b48Spatrick unsigned int ASR = GEPR->getPointerAddressSpace();
71109467b48Spatrick
71209467b48Spatrick if (int Res = cmpNumbers(ASL, ASR))
71309467b48Spatrick return Res;
71409467b48Spatrick
71509467b48Spatrick // When we have target data, we can reduce the GEP down to the value in bytes
71609467b48Spatrick // added to the address.
71709467b48Spatrick const DataLayout &DL = FnL->getParent()->getDataLayout();
71809467b48Spatrick unsigned BitWidth = DL.getPointerSizeInBits(ASL);
71909467b48Spatrick APInt OffsetL(BitWidth, 0), OffsetR(BitWidth, 0);
72009467b48Spatrick if (GEPL->accumulateConstantOffset(DL, OffsetL) &&
72109467b48Spatrick GEPR->accumulateConstantOffset(DL, OffsetR))
72209467b48Spatrick return cmpAPInts(OffsetL, OffsetR);
723097a140dSpatrick if (int Res =
724097a140dSpatrick cmpTypes(GEPL->getSourceElementType(), GEPR->getSourceElementType()))
72509467b48Spatrick return Res;
72609467b48Spatrick
72709467b48Spatrick if (int Res = cmpNumbers(GEPL->getNumOperands(), GEPR->getNumOperands()))
72809467b48Spatrick return Res;
72909467b48Spatrick
73009467b48Spatrick for (unsigned i = 0, e = GEPL->getNumOperands(); i != e; ++i) {
73109467b48Spatrick if (int Res = cmpValues(GEPL->getOperand(i), GEPR->getOperand(i)))
73209467b48Spatrick return Res;
73309467b48Spatrick }
73409467b48Spatrick
73509467b48Spatrick return 0;
73609467b48Spatrick }
73709467b48Spatrick
cmpInlineAsm(const InlineAsm * L,const InlineAsm * R) const73809467b48Spatrick int FunctionComparator::cmpInlineAsm(const InlineAsm *L,
73909467b48Spatrick const InlineAsm *R) const {
74009467b48Spatrick // InlineAsm's are uniqued. If they are the same pointer, obviously they are
74109467b48Spatrick // the same, otherwise compare the fields.
74209467b48Spatrick if (L == R)
74309467b48Spatrick return 0;
74409467b48Spatrick if (int Res = cmpTypes(L->getFunctionType(), R->getFunctionType()))
74509467b48Spatrick return Res;
74609467b48Spatrick if (int Res = cmpMem(L->getAsmString(), R->getAsmString()))
74709467b48Spatrick return Res;
74809467b48Spatrick if (int Res = cmpMem(L->getConstraintString(), R->getConstraintString()))
74909467b48Spatrick return Res;
75009467b48Spatrick if (int Res = cmpNumbers(L->hasSideEffects(), R->hasSideEffects()))
75109467b48Spatrick return Res;
75209467b48Spatrick if (int Res = cmpNumbers(L->isAlignStack(), R->isAlignStack()))
75309467b48Spatrick return Res;
75409467b48Spatrick if (int Res = cmpNumbers(L->getDialect(), R->getDialect()))
75509467b48Spatrick return Res;
75609467b48Spatrick assert(L->getFunctionType() != R->getFunctionType());
75709467b48Spatrick return 0;
75809467b48Spatrick }
75909467b48Spatrick
76009467b48Spatrick /// Compare two values used by the two functions under pair-wise comparison. If
76109467b48Spatrick /// this is the first time the values are seen, they're added to the mapping so
76209467b48Spatrick /// that we will detect mismatches on next use.
76309467b48Spatrick /// See comments in declaration for more details.
cmpValues(const Value * L,const Value * R) const76409467b48Spatrick int FunctionComparator::cmpValues(const Value *L, const Value *R) const {
76509467b48Spatrick // Catch self-reference case.
76609467b48Spatrick if (L == FnL) {
76709467b48Spatrick if (R == FnR)
76809467b48Spatrick return 0;
76909467b48Spatrick return -1;
77009467b48Spatrick }
77109467b48Spatrick if (R == FnR) {
77209467b48Spatrick if (L == FnL)
77309467b48Spatrick return 0;
77409467b48Spatrick return 1;
77509467b48Spatrick }
77609467b48Spatrick
77709467b48Spatrick const Constant *ConstL = dyn_cast<Constant>(L);
77809467b48Spatrick const Constant *ConstR = dyn_cast<Constant>(R);
77909467b48Spatrick if (ConstL && ConstR) {
78009467b48Spatrick if (L == R)
78109467b48Spatrick return 0;
78209467b48Spatrick return cmpConstants(ConstL, ConstR);
78309467b48Spatrick }
78409467b48Spatrick
78509467b48Spatrick if (ConstL)
78609467b48Spatrick return 1;
78709467b48Spatrick if (ConstR)
78809467b48Spatrick return -1;
78909467b48Spatrick
79009467b48Spatrick const InlineAsm *InlineAsmL = dyn_cast<InlineAsm>(L);
79109467b48Spatrick const InlineAsm *InlineAsmR = dyn_cast<InlineAsm>(R);
79209467b48Spatrick
79309467b48Spatrick if (InlineAsmL && InlineAsmR)
79409467b48Spatrick return cmpInlineAsm(InlineAsmL, InlineAsmR);
79509467b48Spatrick if (InlineAsmL)
79609467b48Spatrick return 1;
79709467b48Spatrick if (InlineAsmR)
79809467b48Spatrick return -1;
79909467b48Spatrick
80009467b48Spatrick auto LeftSN = sn_mapL.insert(std::make_pair(L, sn_mapL.size())),
80109467b48Spatrick RightSN = sn_mapR.insert(std::make_pair(R, sn_mapR.size()));
80209467b48Spatrick
80309467b48Spatrick return cmpNumbers(LeftSN.first->second, RightSN.first->second);
80409467b48Spatrick }
80509467b48Spatrick
80609467b48Spatrick // Test whether two basic blocks have equivalent behaviour.
cmpBasicBlocks(const BasicBlock * BBL,const BasicBlock * BBR) const80709467b48Spatrick int FunctionComparator::cmpBasicBlocks(const BasicBlock *BBL,
80809467b48Spatrick const BasicBlock *BBR) const {
80909467b48Spatrick BasicBlock::const_iterator InstL = BBL->begin(), InstLE = BBL->end();
81009467b48Spatrick BasicBlock::const_iterator InstR = BBR->begin(), InstRE = BBR->end();
81109467b48Spatrick
81209467b48Spatrick do {
81309467b48Spatrick bool needToCmpOperands = true;
81409467b48Spatrick if (int Res = cmpOperations(&*InstL, &*InstR, needToCmpOperands))
81509467b48Spatrick return Res;
81609467b48Spatrick if (needToCmpOperands) {
81709467b48Spatrick assert(InstL->getNumOperands() == InstR->getNumOperands());
81809467b48Spatrick
81909467b48Spatrick for (unsigned i = 0, e = InstL->getNumOperands(); i != e; ++i) {
82009467b48Spatrick Value *OpL = InstL->getOperand(i);
82109467b48Spatrick Value *OpR = InstR->getOperand(i);
82209467b48Spatrick if (int Res = cmpValues(OpL, OpR))
82309467b48Spatrick return Res;
82409467b48Spatrick // cmpValues should ensure this is true.
82509467b48Spatrick assert(cmpTypes(OpL->getType(), OpR->getType()) == 0);
82609467b48Spatrick }
82709467b48Spatrick }
82809467b48Spatrick
82909467b48Spatrick ++InstL;
83009467b48Spatrick ++InstR;
83109467b48Spatrick } while (InstL != InstLE && InstR != InstRE);
83209467b48Spatrick
83309467b48Spatrick if (InstL != InstLE && InstR == InstRE)
83409467b48Spatrick return 1;
83509467b48Spatrick if (InstL == InstLE && InstR != InstRE)
83609467b48Spatrick return -1;
83709467b48Spatrick return 0;
83809467b48Spatrick }
83909467b48Spatrick
compareSignature() const84009467b48Spatrick int FunctionComparator::compareSignature() const {
84109467b48Spatrick if (int Res = cmpAttrs(FnL->getAttributes(), FnR->getAttributes()))
84209467b48Spatrick return Res;
84309467b48Spatrick
84409467b48Spatrick if (int Res = cmpNumbers(FnL->hasGC(), FnR->hasGC()))
84509467b48Spatrick return Res;
84609467b48Spatrick
84709467b48Spatrick if (FnL->hasGC()) {
84809467b48Spatrick if (int Res = cmpMem(FnL->getGC(), FnR->getGC()))
84909467b48Spatrick return Res;
85009467b48Spatrick }
85109467b48Spatrick
85209467b48Spatrick if (int Res = cmpNumbers(FnL->hasSection(), FnR->hasSection()))
85309467b48Spatrick return Res;
85409467b48Spatrick
85509467b48Spatrick if (FnL->hasSection()) {
85609467b48Spatrick if (int Res = cmpMem(FnL->getSection(), FnR->getSection()))
85709467b48Spatrick return Res;
85809467b48Spatrick }
85909467b48Spatrick
86009467b48Spatrick if (int Res = cmpNumbers(FnL->isVarArg(), FnR->isVarArg()))
86109467b48Spatrick return Res;
86209467b48Spatrick
86309467b48Spatrick // TODO: if it's internal and only used in direct calls, we could handle this
86409467b48Spatrick // case too.
86509467b48Spatrick if (int Res = cmpNumbers(FnL->getCallingConv(), FnR->getCallingConv()))
86609467b48Spatrick return Res;
86709467b48Spatrick
86809467b48Spatrick if (int Res = cmpTypes(FnL->getFunctionType(), FnR->getFunctionType()))
86909467b48Spatrick return Res;
87009467b48Spatrick
87109467b48Spatrick assert(FnL->arg_size() == FnR->arg_size() &&
87209467b48Spatrick "Identically typed functions have different numbers of args!");
87309467b48Spatrick
87409467b48Spatrick // Visit the arguments so that they get enumerated in the order they're
87509467b48Spatrick // passed in.
87609467b48Spatrick for (Function::const_arg_iterator ArgLI = FnL->arg_begin(),
87709467b48Spatrick ArgRI = FnR->arg_begin(),
87809467b48Spatrick ArgLE = FnL->arg_end();
87909467b48Spatrick ArgLI != ArgLE; ++ArgLI, ++ArgRI) {
88009467b48Spatrick if (cmpValues(&*ArgLI, &*ArgRI) != 0)
88109467b48Spatrick llvm_unreachable("Arguments repeat!");
88209467b48Spatrick }
88309467b48Spatrick return 0;
88409467b48Spatrick }
88509467b48Spatrick
88609467b48Spatrick // Test whether the two functions have equivalent behaviour.
compare()88709467b48Spatrick int FunctionComparator::compare() {
88809467b48Spatrick beginCompare();
88909467b48Spatrick
89009467b48Spatrick if (int Res = compareSignature())
89109467b48Spatrick return Res;
89209467b48Spatrick
89309467b48Spatrick // We do a CFG-ordered walk since the actual ordering of the blocks in the
89409467b48Spatrick // linked list is immaterial. Our walk starts at the entry block for both
89509467b48Spatrick // functions, then takes each block from each terminator in order. As an
89609467b48Spatrick // artifact, this also means that unreachable blocks are ignored.
89709467b48Spatrick SmallVector<const BasicBlock *, 8> FnLBBs, FnRBBs;
89809467b48Spatrick SmallPtrSet<const BasicBlock *, 32> VisitedBBs; // in terms of F1.
89909467b48Spatrick
90009467b48Spatrick FnLBBs.push_back(&FnL->getEntryBlock());
90109467b48Spatrick FnRBBs.push_back(&FnR->getEntryBlock());
90209467b48Spatrick
90309467b48Spatrick VisitedBBs.insert(FnLBBs[0]);
90409467b48Spatrick while (!FnLBBs.empty()) {
90509467b48Spatrick const BasicBlock *BBL = FnLBBs.pop_back_val();
90609467b48Spatrick const BasicBlock *BBR = FnRBBs.pop_back_val();
90709467b48Spatrick
90809467b48Spatrick if (int Res = cmpValues(BBL, BBR))
90909467b48Spatrick return Res;
91009467b48Spatrick
91109467b48Spatrick if (int Res = cmpBasicBlocks(BBL, BBR))
91209467b48Spatrick return Res;
91309467b48Spatrick
91409467b48Spatrick const Instruction *TermL = BBL->getTerminator();
91509467b48Spatrick const Instruction *TermR = BBR->getTerminator();
91609467b48Spatrick
91709467b48Spatrick assert(TermL->getNumSuccessors() == TermR->getNumSuccessors());
91809467b48Spatrick for (unsigned i = 0, e = TermL->getNumSuccessors(); i != e; ++i) {
91909467b48Spatrick if (!VisitedBBs.insert(TermL->getSuccessor(i)).second)
92009467b48Spatrick continue;
92109467b48Spatrick
92209467b48Spatrick FnLBBs.push_back(TermL->getSuccessor(i));
92309467b48Spatrick FnRBBs.push_back(TermR->getSuccessor(i));
92409467b48Spatrick }
92509467b48Spatrick }
92609467b48Spatrick return 0;
92709467b48Spatrick }
92809467b48Spatrick
92909467b48Spatrick namespace {
93009467b48Spatrick
93109467b48Spatrick // Accumulate the hash of a sequence of 64-bit integers. This is similar to a
93209467b48Spatrick // hash of a sequence of 64bit ints, but the entire input does not need to be
93309467b48Spatrick // available at once. This interface is necessary for functionHash because it
93409467b48Spatrick // needs to accumulate the hash as the structure of the function is traversed
93509467b48Spatrick // without saving these values to an intermediate buffer. This form of hashing
93609467b48Spatrick // is not often needed, as usually the object to hash is just read from a
93709467b48Spatrick // buffer.
93809467b48Spatrick class HashAccumulator64 {
93909467b48Spatrick uint64_t Hash;
94009467b48Spatrick
94109467b48Spatrick public:
94209467b48Spatrick // Initialize to random constant, so the state isn't zero.
HashAccumulator64()94309467b48Spatrick HashAccumulator64() { Hash = 0x6acaa36bef8325c5ULL; }
94409467b48Spatrick
add(uint64_t V)945097a140dSpatrick void add(uint64_t V) { Hash = hashing::detail::hash_16_bytes(Hash, V); }
94609467b48Spatrick
94709467b48Spatrick // No finishing is required, because the entire hash value is used.
getHash()94809467b48Spatrick uint64_t getHash() { return Hash; }
94909467b48Spatrick };
95009467b48Spatrick
95109467b48Spatrick } // end anonymous namespace
95209467b48Spatrick
95309467b48Spatrick // A function hash is calculated by considering only the number of arguments and
95409467b48Spatrick // whether a function is varargs, the order of basic blocks (given by the
95509467b48Spatrick // successors of each basic block in depth first order), and the order of
95609467b48Spatrick // opcodes of each instruction within each of these basic blocks. This mirrors
95709467b48Spatrick // the strategy compare() uses to compare functions by walking the BBs in depth
95809467b48Spatrick // first order and comparing each instruction in sequence. Because this hash
95909467b48Spatrick // does not look at the operands, it is insensitive to things such as the
96009467b48Spatrick // target of calls and the constants used in the function, which makes it useful
96109467b48Spatrick // when possibly merging functions which are the same modulo constants and call
96209467b48Spatrick // targets.
functionHash(Function & F)96309467b48Spatrick FunctionComparator::FunctionHash FunctionComparator::functionHash(Function &F) {
96409467b48Spatrick HashAccumulator64 H;
96509467b48Spatrick H.add(F.isVarArg());
96609467b48Spatrick H.add(F.arg_size());
96709467b48Spatrick
96809467b48Spatrick SmallVector<const BasicBlock *, 8> BBs;
96909467b48Spatrick SmallPtrSet<const BasicBlock *, 16> VisitedBBs;
97009467b48Spatrick
97109467b48Spatrick // Walk the blocks in the same order as FunctionComparator::cmpBasicBlocks(),
97209467b48Spatrick // accumulating the hash of the function "structure." (BB and opcode sequence)
97309467b48Spatrick BBs.push_back(&F.getEntryBlock());
97409467b48Spatrick VisitedBBs.insert(BBs[0]);
97509467b48Spatrick while (!BBs.empty()) {
97609467b48Spatrick const BasicBlock *BB = BBs.pop_back_val();
97709467b48Spatrick // This random value acts as a block header, as otherwise the partition of
97809467b48Spatrick // opcodes into BBs wouldn't affect the hash, only the order of the opcodes
97909467b48Spatrick H.add(45798);
980*d415bd75Srobert for (const auto &Inst : *BB) {
98109467b48Spatrick H.add(Inst.getOpcode());
98209467b48Spatrick }
98309467b48Spatrick const Instruction *Term = BB->getTerminator();
98409467b48Spatrick for (unsigned i = 0, e = Term->getNumSuccessors(); i != e; ++i) {
98509467b48Spatrick if (!VisitedBBs.insert(Term->getSuccessor(i)).second)
98609467b48Spatrick continue;
98709467b48Spatrick BBs.push_back(Term->getSuccessor(i));
98809467b48Spatrick }
98909467b48Spatrick }
99009467b48Spatrick return H.getHash();
99109467b48Spatrick }
992