[clang] [clang] Bugfix for choosing the more specialized overload (PR #83279)

Botond István Horváth via cfe-commits cfe-commits at lists.llvm.org
Wed Feb 28 09:48:41 PST 2024


https://github.com/HoBoIs updated https://github.com/llvm/llvm-project/pull/83279

>From 68200ecf3267d1b3940fa73c25c50ee706932a98 Mon Sep 17 00:00:00 2001
From: Botond Istvan Horvath <horvath.botond.istvan at gmail.com>
Date: Wed, 28 Feb 2024 13:09:15 +0100
Subject: [PATCH 1/3] Bugfix for choosing the more specialized overload

There was a bug in clang where it couldn't choose which overload candidate is
more specialized if it was comparing a member-function to a non-member
function. Previously, this was detected as an ambigouity, now clang chooses correctly.

This patch fixes the bug by fully implementing CWG2445 and moving the template
transformation described in [temp.func.order] paragraph 3 from
isAtLeastAsSpecializedAs to Sema::getMoreSpecializedTemplate so we have the
transformed parameter list during the whole comperrassion. Also, to be able
to add the correct type for the implicit object parameter
Sema::getMoreSpecializedTemplate has new parameters for the object type.
---
 clang/include/clang/Sema/Sema.h          |   4 +-
 clang/lib/Sema/SemaOverload.cpp          |  12 +-
 clang/lib/Sema/SemaTemplateDeduction.cpp | 263 +++++++++++++++--------
 3 files changed, 186 insertions(+), 93 deletions(-)

diff --git a/clang/include/clang/Sema/Sema.h b/clang/include/clang/Sema/Sema.h
index ef4b93fac95ce5..1a2a3a6bebd95e 100644
--- a/clang/include/clang/Sema/Sema.h
+++ b/clang/include/clang/Sema/Sema.h
@@ -9463,7 +9463,9 @@ class Sema final {
   FunctionTemplateDecl *getMoreSpecializedTemplate(
       FunctionTemplateDecl *FT1, FunctionTemplateDecl *FT2, SourceLocation Loc,
       TemplatePartialOrderingContext TPOC, unsigned NumCallArguments1,
-      unsigned NumCallArguments2, bool Reversed = false);
+      unsigned NumCallArguments2, QualType ObjType1 = {},
+      QualType ObjType2 = {}, bool Reversed = false);
+
   UnresolvedSetIterator
   getMostSpecialized(UnresolvedSetIterator SBegin, UnresolvedSetIterator SEnd,
                      TemplateSpecCandidateSet &FailedCandidates,
diff --git a/clang/lib/Sema/SemaOverload.cpp b/clang/lib/Sema/SemaOverload.cpp
index 7d38043890ca20..60138236abf1d8 100644
--- a/clang/lib/Sema/SemaOverload.cpp
+++ b/clang/lib/Sema/SemaOverload.cpp
@@ -10526,14 +10526,24 @@ bool clang::isBetterOverloadCandidate(
   //      according to the partial ordering rules described in 14.5.5.2, or,
   //      if not that,
   if (Cand1IsSpecialization && Cand2IsSpecialization) {
+    const auto *ObjContext1 =
+        dyn_cast<CXXRecordDecl>(Cand1.FoundDecl->getDeclContext());
+    const auto *ObjContext2 =
+        dyn_cast<CXXRecordDecl>(Cand2.FoundDecl->getDeclContext());
     if (FunctionTemplateDecl *BetterTemplate = S.getMoreSpecializedTemplate(
             Cand1.Function->getPrimaryTemplate(),
             Cand2.Function->getPrimaryTemplate(), Loc,
             isa<CXXConversionDecl>(Cand1.Function) ? TPOC_Conversion
                                                    : TPOC_Call,
             Cand1.ExplicitCallArguments, Cand2.ExplicitCallArguments,
-            Cand1.isReversed() ^ Cand2.isReversed()))
+            ObjContext1 ? QualType(ObjContext1->getTypeForDecl(), 0)
+                        : QualType{},
+            ObjContext2 ? QualType(ObjContext2->getTypeForDecl(), 0)
+                        : QualType{},
+            Cand1.isReversed() ^ Cand2.isReversed())) {
       return BetterTemplate == Cand1.Function->getPrimaryTemplate();
+    }
+
   }
 
   //   -— F1 and F2 are non-template functions with the same
diff --git a/clang/lib/Sema/SemaTemplateDeduction.cpp b/clang/lib/Sema/SemaTemplateDeduction.cpp
index 563491f76f5478..2af3c29ae1f1c4 100644
--- a/clang/lib/Sema/SemaTemplateDeduction.cpp
+++ b/clang/lib/Sema/SemaTemplateDeduction.cpp
@@ -5333,11 +5333,31 @@ bool Sema::CheckIfFunctionSpecializationIsImmediate(FunctionDecl *FD,
   return false;
 }
 
+static QualType GetImplicitObjectParameterTypeCXX20(ASTContext &Context,
+                                                    const CXXMethodDecl *Method,
+                                                    QualType rawType,
+                                                    bool isOtherRvr) {
+  // C++20 [temp.func.order]p3.1, p3.2:
+  //- The type X(M ) is “rvalue reference to cv A” if the optional ref-qualifier
+  //  of M is && or if M has no ref-qualifier and the positionally-corresponding
+  //  parameter of the other transformed template has rvalue reference type;
+  //  if this determination depends recursively upon whether X(M ) is an rvalue
+  //  reference type, it is not considered to have rvalue reference type.
+  //- Otherwise, X(M ) is “lvalue reference to cv A”.
+  assert(Method && !Method->isExplicitObjectMemberFunction() &&
+         "expected a member function with no explicit object parameter");
+
+  rawType = Context.getQualifiedType(rawType, Method->getMethodQualifiers());
+  if (Method->getRefQualifier() == RQ_RValue ||
+      (isOtherRvr && Method->getRefQualifier() == RQ_None))
+    return Context.getRValueReferenceType(rawType);
+  return Context.getLValueReferenceType(rawType);
+}
+
 /// If this is a non-static member function,
-static void
-AddImplicitObjectParameterType(ASTContext &Context,
-                               CXXMethodDecl *Method,
-                               SmallVectorImpl<QualType> &ArgTypes) {
+static QualType GetImplicitObjectParameterType(ASTContext &Context,
+                                               const CXXMethodDecl *Method,
+                                               QualType rawType) {
   // C++11 [temp.func.order]p3:
   //   [...] The new parameter is of type "reference to cv A," where cv are
   //   the cv-qualifiers of the function template (if any) and A is
@@ -5347,24 +5367,21 @@ AddImplicitObjectParameterType(ASTContext &Context,
   // reference type based on [over.match.funcs]p4.
   assert(Method && Method->isImplicitObjectMemberFunction() &&
          "expected an implicit objet function");
-  QualType ArgTy = Context.getTypeDeclType(Method->getParent());
-  ArgTy = Context.getQualifiedType(ArgTy, Method->getMethodQualifiers());
+  rawType = Context.getQualifiedType(rawType, Method->getMethodQualifiers());
   if (Method->getRefQualifier() == RQ_RValue)
-    ArgTy = Context.getRValueReferenceType(ArgTy);
-  else
-    ArgTy = Context.getLValueReferenceType(ArgTy);
-  ArgTypes.push_back(ArgTy);
+    return Context.getRValueReferenceType(rawType);
+  return Context.getLValueReferenceType(rawType);
 }
 
 /// Determine whether the function template \p FT1 is at least as
 /// specialized as \p FT2.
-static bool isAtLeastAsSpecializedAs(Sema &S,
-                                     SourceLocation Loc,
-                                     FunctionTemplateDecl *FT1,
-                                     FunctionTemplateDecl *FT2,
+static bool isAtLeastAsSpecializedAs(Sema &S, SourceLocation Loc,
+                                     const FunctionTemplateDecl *FT1,
+                                     const FunctionTemplateDecl *FT2,
                                      TemplatePartialOrderingContext TPOC,
-                                     unsigned NumCallArguments1,
-                                     bool Reversed) {
+                                     bool Reversed,
+                                     const SmallVector<QualType, 4> &Args1,
+                                     const SmallVector<QualType, 4> &Args2) {
   assert(!Reversed || TPOC == TPOC_Call);
 
   FunctionDecl *FD1 = FT1->getTemplatedDecl();
@@ -5381,66 +5398,8 @@ static bool isAtLeastAsSpecializedAs(Sema &S,
   //   The types used to determine the ordering depend on the context in which
   //   the partial ordering is done:
   TemplateDeductionInfo Info(Loc);
-  SmallVector<QualType, 4> Args2;
   switch (TPOC) {
-  case TPOC_Call: {
-    //   - In the context of a function call, the function parameter types are
-    //     used.
-    CXXMethodDecl *Method1 = dyn_cast<CXXMethodDecl>(FD1);
-    CXXMethodDecl *Method2 = dyn_cast<CXXMethodDecl>(FD2);
-
-    // C++11 [temp.func.order]p3:
-    //   [...] If only one of the function templates is a non-static
-    //   member, that function template is considered to have a new
-    //   first parameter inserted in its function parameter list. The
-    //   new parameter is of type "reference to cv A," where cv are
-    //   the cv-qualifiers of the function template (if any) and A is
-    //   the class of which the function template is a member.
-    //
-    // Note that we interpret this to mean "if one of the function
-    // templates is a non-static member and the other is a non-member";
-    // otherwise, the ordering rules for static functions against non-static
-    // functions don't make any sense.
-    //
-    // C++98/03 doesn't have this provision but we've extended DR532 to cover
-    // it as wording was broken prior to it.
-    SmallVector<QualType, 4> Args1;
-
-    unsigned NumComparedArguments = NumCallArguments1;
-
-    if (!Method2 && Method1 && Method1->isImplicitObjectMemberFunction()) {
-      // Compare 'this' from Method1 against first parameter from Method2.
-      AddImplicitObjectParameterType(S.Context, Method1, Args1);
-      ++NumComparedArguments;
-    } else if (!Method1 && Method2 &&
-               Method2->isImplicitObjectMemberFunction()) {
-      // Compare 'this' from Method2 against first parameter from Method1.
-      AddImplicitObjectParameterType(S.Context, Method2, Args2);
-    } else if (Method1 && Method2 && Reversed &&
-               Method1->isImplicitObjectMemberFunction() &&
-               Method2->isImplicitObjectMemberFunction()) {
-      // Compare 'this' from Method1 against second parameter from Method2
-      // and 'this' from Method2 against second parameter from Method1.
-      AddImplicitObjectParameterType(S.Context, Method1, Args1);
-      AddImplicitObjectParameterType(S.Context, Method2, Args2);
-      ++NumComparedArguments;
-    }
-
-    Args1.insert(Args1.end(), Proto1->param_type_begin(),
-                 Proto1->param_type_end());
-    Args2.insert(Args2.end(), Proto2->param_type_begin(),
-                 Proto2->param_type_end());
-
-    // C++ [temp.func.order]p5:
-    //   The presence of unused ellipsis and default arguments has no effect on
-    //   the partial ordering of function templates.
-    if (Args1.size() > NumComparedArguments)
-      Args1.resize(NumComparedArguments);
-    if (Args2.size() > NumComparedArguments)
-      Args2.resize(NumComparedArguments);
-    if (Reversed)
-      std::reverse(Args2.begin(), Args2.end());
-
+  case TPOC_Call:
     if (DeduceTemplateArguments(S, TemplateParams, Args2.data(), Args2.size(),
                                 Args1.data(), Args1.size(), Info, Deduced,
                                 TDF_None, /*PartialOrdering=*/true) !=
@@ -5448,7 +5407,6 @@ static bool isAtLeastAsSpecializedAs(Sema &S,
       return false;
 
     break;
-  }
 
   case TPOC_Conversion:
     //   - In the context of a call to a conversion operator, the return types
@@ -5539,6 +5497,14 @@ static bool isAtLeastAsSpecializedAs(Sema &S,
 /// \param NumCallArguments2 The number of arguments in the call to FT2, used
 /// only when \c TPOC is \c TPOC_Call.
 ///
+/// \param RawObjType1 The type of the object parameter of FT1 if a member
+/// function only used if \c TPOC is \c TPOC_Call and FT1 is a Function
+/// template from a member function
+///
+/// \param RawObjType2 The type of the object parameter of FT2 if a member
+/// function only used if \c TPOC is \c TPOC_Call and FT2 is a Function
+/// template from a member function
+///
 /// \param Reversed If \c true, exactly one of FT1 and FT2 is an overload
 /// candidate with a reversed parameter order. In this case, the corresponding
 /// P/A pairs between FT1 and FT2 are reversed.
@@ -5548,13 +5514,113 @@ static bool isAtLeastAsSpecializedAs(Sema &S,
 FunctionTemplateDecl *Sema::getMoreSpecializedTemplate(
     FunctionTemplateDecl *FT1, FunctionTemplateDecl *FT2, SourceLocation Loc,
     TemplatePartialOrderingContext TPOC, unsigned NumCallArguments1,
-    unsigned NumCallArguments2, bool Reversed) {
+    unsigned NumCallArguments2, QualType RawObjType1, QualType RawObjType2,
+    bool Reversed) {
+  SmallVector<QualType, 4> Args1;
+  SmallVector<QualType, 4> Args2;
+  const FunctionDecl *FD1 = FT1->getTemplatedDecl();
+  const FunctionDecl *FD2 = FT2->getTemplatedDecl();
+  bool shouldConvert1 = false;
+  bool shouldConvert2 = false;
+  QualType ObjType1;
+  QualType ObjType2;
+  if (TPOC == TPOC_Call) {
+    const FunctionProtoType *Proto1 =
+        FD1->getType()->getAs<FunctionProtoType>();
+    const FunctionProtoType *Proto2 =
+        FD2->getType()->getAs<FunctionProtoType>();
 
-  bool Better1 = isAtLeastAsSpecializedAs(*this, Loc, FT1, FT2, TPOC,
-                                          NumCallArguments1, Reversed);
-  bool Better2 = isAtLeastAsSpecializedAs(*this, Loc, FT2, FT1, TPOC,
-                                          NumCallArguments2, Reversed);
+    //   - In the context of a function call, the function parameter types are
+    //     used.
+    const CXXMethodDecl *Method1 = dyn_cast<CXXMethodDecl>(FD1);
+    const CXXMethodDecl *Method2 = dyn_cast<CXXMethodDecl>(FD2);
+
+    if (getLangOpts().CPlusPlus20) {
+      // C++20 [temp.func.order]p3
+      //   [...] Each function template M that is a member function is
+      //   considered to have a new first parameter of type
+      //   X(M), described below, inserted in its function parameter list.
+      //
+      // Note that we interpret "that is a member function" as
+      // "that is a member function with no expicit object argument".
+      // Otherwise the ordering rules for methods with expicit objet arguments
+      // against anything else make no sense.
+      shouldConvert1 = Method1 && !Method1->isExplicitObjectMemberFunction();
+      shouldConvert2 = Method2 && !Method2->isExplicitObjectMemberFunction();
+      if (shouldConvert1) {
+        bool isR2 =
+            Method2 && !Method2->isExplicitObjectMemberFunction()
+                ? Method2->getRefQualifier() == RQ_RValue
+                : Proto2->param_type_begin()[0]->isRValueReferenceType();
+        // Compare 'this' from Method1 against first parameter from Method2.
+        ObjType1 = GetImplicitObjectParameterTypeCXX20(this->Context, Method1,
+                                                       RawObjType1, isR2);
+        Args1.push_back(ObjType1);
+      }
+      if (shouldConvert2) {
+        bool isR1 =
+            Method1 && !Method1->isExplicitObjectMemberFunction()
+                ? Method1->getRefQualifier() == RQ_RValue
+                : Proto1->param_type_begin()[0]->isRValueReferenceType();
+        // Compare 'this' from Method2 against first parameter from Method1.
+        ObjType2 = GetImplicitObjectParameterTypeCXX20(this->Context, Method2,
+                                                       RawObjType2, isR1);
+        Args2.push_back(ObjType2);
+      }
+    } else {
+      // C++11 [temp.func.order]p3:
+      //   [...] If only one of the function templates is a non-static
+      //   member, that function template is considered to have a new
+      //   first parameter inserted in its function parameter list. The
+      //   new parameter is of type "reference to cv A," where cv are
+      //   the cv-qualifiers of the function template (if any) and A is
+      //   the class of which the function template is a member.
+      //
+      // Note that we interpret this to mean "if one of the function
+      // templates is a non-static member and the other is a non-member";
+      // otherwise, the ordering rules for static functions against non-static
+      // functions don't make any sense.
+      //
+      // C++98/03 doesn't have this provision but we've extended DR532 to cover
+      // it as wording was broken prior to it.
+      shouldConvert1 =
+          !Method2 && Method1 && Method1->isImplicitObjectMemberFunction();
+      shouldConvert2 =
+          !Method1 && Method2 && Method2->isImplicitObjectMemberFunction();
+      if (shouldConvert1) {
+        // Compare 'this' from Method1 against first parameter from Method2.
+        ObjType1 =
+            GetImplicitObjectParameterType(this->Context, Method1, RawObjType1);
+        Args1.push_back(ObjType1);
+      }
+      if (shouldConvert2) {
+        // Compare 'this' from Method2 against first parameter from Method1.
+        ObjType2 =
+            GetImplicitObjectParameterType(this->Context, Method2, RawObjType2);
+        Args2.push_back(ObjType2);
+      }
+    }
+    unsigned NumComparedArguments = NumCallArguments1 + shouldConvert1;
+
+    Args1.insert(Args1.end(), Proto1->param_type_begin(),
+                 Proto1->param_type_end());
+    Args2.insert(Args2.end(), Proto2->param_type_begin(),
+                 Proto2->param_type_end());
 
+    // C++ [temp.func.order]p5:
+    //   The presence of unused ellipsis and default arguments has no effect on
+    //   the partial ordering of function templates.
+    if (Args1.size() > NumComparedArguments)
+      Args1.resize(NumComparedArguments);
+    if (Args2.size() > NumComparedArguments)
+      Args2.resize(NumComparedArguments);
+    if (Reversed)
+      std::reverse(Args2.begin(), Args2.end());
+  }
+  bool Better1 = isAtLeastAsSpecializedAs(*this, Loc, FT1, FT2, TPOC, Reversed,
+                                          Args1, Args2);
+  bool Better2 = isAtLeastAsSpecializedAs(*this, Loc, FT2, FT1, TPOC, Reversed,
+                                          Args2, Args1);
   // C++ [temp.deduct.partial]p10:
   //   F is more specialized than G if F is at least as specialized as G and G
   //   is not at least as specialized as F.
@@ -5568,12 +5634,28 @@ FunctionTemplateDecl *Sema::getMoreSpecializedTemplate(
   //   ... and if G has a trailing function parameter pack for which F does not
   //   have a corresponding parameter, and if F does not have a trailing
   //   function parameter pack, then F is more specialized than G.
-  FunctionDecl *FD1 = FT1->getTemplatedDecl();
-  FunctionDecl *FD2 = FT2->getTemplatedDecl();
-  unsigned NumParams1 = FD1->getNumParams();
-  unsigned NumParams2 = FD2->getNumParams();
-  bool Variadic1 = NumParams1 && FD1->parameters().back()->isParameterPack();
-  bool Variadic2 = NumParams2 && FD2->parameters().back()->isParameterPack();
+
+  SmallVector<QualType> param1;
+  param1.reserve(FD1->param_size() + shouldConvert1);
+  if (shouldConvert1)
+    param1.push_back(ObjType1);
+  for (const auto &x : FD1->parameters())
+    param1.push_back(x->getType());
+
+  SmallVector<QualType> param2;
+  param2.reserve(FD2->param_size() + shouldConvert2);
+  if (shouldConvert2)
+    param2.push_back(ObjType2);
+  for (const auto &x : FD2->parameters())
+    param2.push_back(x->getType());
+
+  unsigned NumParams1 = param1.size();
+  unsigned NumParams2 = param2.size();
+
+  bool Variadic1 =
+      FD1->param_size() && FD1->parameters().back()->isParameterPack();
+  bool Variadic2 =
+      FD2->param_size() && FD2->parameters().back()->isParameterPack();
   if (Variadic1 != Variadic2) {
     if (Variadic1 && NumParams1 > NumParams2)
       return FT2;
@@ -5584,8 +5666,8 @@ FunctionTemplateDecl *Sema::getMoreSpecializedTemplate(
   // This a speculative fix for CWG1432 (Similar to the fix for CWG1395) that
   // there is no wording or even resolution for this issue.
   for (int i = 0, e = std::min(NumParams1, NumParams2); i < e; ++i) {
-    QualType T1 = FD1->getParamDecl(i)->getType().getCanonicalType();
-    QualType T2 = FD2->getParamDecl(i)->getType().getCanonicalType();
+    QualType T1 = param1[i].getCanonicalType();
+    QualType T2 = param2[i].getCanonicalType();
     auto *TST1 = dyn_cast<TemplateSpecializationType>(T1);
     auto *TST2 = dyn_cast<TemplateSpecializationType>(T2);
     if (!TST1 || !TST2)
@@ -5644,8 +5726,7 @@ FunctionTemplateDecl *Sema::getMoreSpecializedTemplate(
   // Any top-level cv-qualifiers modifying a parameter type are deleted when
   // forming the function type.
   for (unsigned i = 0; i < NumParams1; ++i)
-    if (!Context.hasSameUnqualifiedType(FD1->getParamDecl(i)->getType(),
-                                        FD2->getParamDecl(i)->getType()))
+    if (!Context.hasSameUnqualifiedType(param1[i], param2[i]))
       return nullptr;
 
   // C++20 [temp.func.order]p6.3:

>From 3cb51452a25227afb0750ae65fcca9bf281433ac Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Botond=20Istv=C3=A1n=20Horv=C3=A1th?=
 <56926027+HoBoIs at users.noreply.github.com>
Date: Wed, 28 Feb 2024 16:50:30 +0100
Subject: [PATCH 2/3] Formatting SemaOverload.cpp

---
 clang/lib/Sema/SemaOverload.cpp | 1 -
 1 file changed, 1 deletion(-)

diff --git a/clang/lib/Sema/SemaOverload.cpp b/clang/lib/Sema/SemaOverload.cpp
index 60138236abf1d8..74d714ad308af1 100644
--- a/clang/lib/Sema/SemaOverload.cpp
+++ b/clang/lib/Sema/SemaOverload.cpp
@@ -10543,7 +10543,6 @@ bool clang::isBetterOverloadCandidate(
             Cand1.isReversed() ^ Cand2.isReversed())) {
       return BetterTemplate == Cand1.Function->getPrimaryTemplate();
     }
-
   }
 
   //   -— F1 and F2 are non-template functions with the same

>From 54e7fb1ae193196538423a0c1cbb62fc518f77ef Mon Sep 17 00:00:00 2001
From: Botond Istvan Horvath <horvath.botond.istvan at gmail.com>
Date: Wed, 28 Feb 2024 18:46:07 +0100
Subject: [PATCH 3/3] Unified the branches for newer and older standards

---
 clang/lib/Sema/SemaTemplateDeduction.cpp | 97 +++++++++---------------
 1 file changed, 37 insertions(+), 60 deletions(-)

diff --git a/clang/lib/Sema/SemaTemplateDeduction.cpp b/clang/lib/Sema/SemaTemplateDeduction.cpp
index 2af3c29ae1f1c4..f7526933be12f4 100644
--- a/clang/lib/Sema/SemaTemplateDeduction.cpp
+++ b/clang/lib/Sema/SemaTemplateDeduction.cpp
@@ -5333,10 +5333,10 @@ bool Sema::CheckIfFunctionSpecializationIsImmediate(FunctionDecl *FD,
   return false;
 }
 
-static QualType GetImplicitObjectParameterTypeCXX20(ASTContext &Context,
-                                                    const CXXMethodDecl *Method,
-                                                    QualType rawType,
-                                                    bool isOtherRvr) {
+static QualType GetImplicitObjectParameterType(ASTContext &Context,
+                                               const CXXMethodDecl *Method,
+                                               QualType RawType,
+                                               bool IsOtherRvr) {
   // C++20 [temp.func.order]p3.1, p3.2:
   //- The type X(M ) is “rvalue reference to cv A” if the optional ref-qualifier
   //  of M is && or if M has no ref-qualifier and the positionally-corresponding
@@ -5344,20 +5344,7 @@ static QualType GetImplicitObjectParameterTypeCXX20(ASTContext &Context,
   //  if this determination depends recursively upon whether X(M ) is an rvalue
   //  reference type, it is not considered to have rvalue reference type.
   //- Otherwise, X(M ) is “lvalue reference to cv A”.
-  assert(Method && !Method->isExplicitObjectMemberFunction() &&
-         "expected a member function with no explicit object parameter");
-
-  rawType = Context.getQualifiedType(rawType, Method->getMethodQualifiers());
-  if (Method->getRefQualifier() == RQ_RValue ||
-      (isOtherRvr && Method->getRefQualifier() == RQ_None))
-    return Context.getRValueReferenceType(rawType);
-  return Context.getLValueReferenceType(rawType);
-}
-
-/// If this is a non-static member function,
-static QualType GetImplicitObjectParameterType(ASTContext &Context,
-                                               const CXXMethodDecl *Method,
-                                               QualType rawType) {
+  //
   // C++11 [temp.func.order]p3:
   //   [...] The new parameter is of type "reference to cv A," where cv are
   //   the cv-qualifiers of the function template (if any) and A is
@@ -5365,12 +5352,15 @@ static QualType GetImplicitObjectParameterType(ASTContext &Context,
   //
   // The standard doesn't say explicitly, but we pick the appropriate kind of
   // reference type based on [over.match.funcs]p4.
-  assert(Method && Method->isImplicitObjectMemberFunction() &&
-         "expected an implicit objet function");
-  rawType = Context.getQualifiedType(rawType, Method->getMethodQualifiers());
-  if (Method->getRefQualifier() == RQ_RValue)
-    return Context.getRValueReferenceType(rawType);
-  return Context.getLValueReferenceType(rawType);
+
+  assert(Method && !Method->isExplicitObjectMemberFunction() &&
+         "expected a member function with no explicit object parameter");
+
+  RawType = Context.getQualifiedType(RawType, Method->getMethodQualifiers());
+  if (Method->getRefQualifier() == RQ_RValue ||
+      (IsOtherRvr && Method->getRefQualifier() == RQ_None))
+    return Context.getRValueReferenceType(RawType);
+  return Context.getLValueReferenceType(RawType);
 }
 
 /// Determine whether the function template \p FT1 is at least as
@@ -5547,34 +5537,11 @@ FunctionTemplateDecl *Sema::getMoreSpecializedTemplate(
       // against anything else make no sense.
       shouldConvert1 = Method1 && !Method1->isExplicitObjectMemberFunction();
       shouldConvert2 = Method2 && !Method2->isExplicitObjectMemberFunction();
-      if (shouldConvert1) {
-        bool isR2 =
-            Method2 && !Method2->isExplicitObjectMemberFunction()
-                ? Method2->getRefQualifier() == RQ_RValue
-                : Proto2->param_type_begin()[0]->isRValueReferenceType();
-        // Compare 'this' from Method1 against first parameter from Method2.
-        ObjType1 = GetImplicitObjectParameterTypeCXX20(this->Context, Method1,
-                                                       RawObjType1, isR2);
-        Args1.push_back(ObjType1);
-      }
-      if (shouldConvert2) {
-        bool isR1 =
-            Method1 && !Method1->isExplicitObjectMemberFunction()
-                ? Method1->getRefQualifier() == RQ_RValue
-                : Proto1->param_type_begin()[0]->isRValueReferenceType();
-        // Compare 'this' from Method2 against first parameter from Method1.
-        ObjType2 = GetImplicitObjectParameterTypeCXX20(this->Context, Method2,
-                                                       RawObjType2, isR1);
-        Args2.push_back(ObjType2);
-      }
     } else {
       // C++11 [temp.func.order]p3:
       //   [...] If only one of the function templates is a non-static
       //   member, that function template is considered to have a new
-      //   first parameter inserted in its function parameter list. The
-      //   new parameter is of type "reference to cv A," where cv are
-      //   the cv-qualifiers of the function template (if any) and A is
-      //   the class of which the function template is a member.
+      //   first parameter inserted in its function parameter list.
       //
       // Note that we interpret this to mean "if one of the function
       // templates is a non-static member and the other is a non-member";
@@ -5587,18 +5554,28 @@ FunctionTemplateDecl *Sema::getMoreSpecializedTemplate(
           !Method2 && Method1 && Method1->isImplicitObjectMemberFunction();
       shouldConvert2 =
           !Method1 && Method2 && Method2->isImplicitObjectMemberFunction();
-      if (shouldConvert1) {
-        // Compare 'this' from Method1 against first parameter from Method2.
-        ObjType1 =
-            GetImplicitObjectParameterType(this->Context, Method1, RawObjType1);
-        Args1.push_back(ObjType1);
-      }
-      if (shouldConvert2) {
-        // Compare 'this' from Method2 against first parameter from Method1.
-        ObjType2 =
-            GetImplicitObjectParameterType(this->Context, Method2, RawObjType2);
-        Args2.push_back(ObjType2);
-      }
+    }
+    if (shouldConvert1) {
+      bool isR2 =
+          getLangOpts().CPlusPlus20 &&
+          (shouldConvert1
+               ? Method2->getRefQualifier() == RQ_RValue
+               : Proto2->param_type_begin()[0]->isRValueReferenceType());
+      // Compare 'this' from Method1 against first parameter from Method2.
+      ObjType1 = GetImplicitObjectParameterType(this->Context, Method1,
+                                                RawObjType1, isR2);
+      Args1.push_back(ObjType1);
+    }
+    if (shouldConvert2) {
+      bool isR1 =
+          getLangOpts().CPlusPlus20 &&
+          (shouldConvert2
+               ? Method1->getRefQualifier() == RQ_RValue
+               : Proto1->param_type_begin()[0]->isRValueReferenceType());
+      // Compare 'this' from Method2 against first parameter from Method1.
+      ObjType2 = GetImplicitObjectParameterType(this->Context, Method2,
+                                                RawObjType2, isR1);
+      Args2.push_back(ObjType2);
     }
     unsigned NumComparedArguments = NumCallArguments1 + shouldConvert1;
 



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