return false;
}
-template <typename T, typename FetchDeclFn>
-static void EraseUnwantedCUDAMatchesImpl(Sema &S, const FunctionDecl *Caller,
- llvm::SmallVectorImpl<T> &Matches,
- FetchDeclFn FetchDecl) {
+template <typename T>
+static void EraseUnwantedCUDAMatchesImpl(
+ Sema &S, const FunctionDecl *Caller, llvm::SmallVectorImpl<T> &Matches,
+ std::function<const FunctionDecl *(const T &)> FetchDecl) {
assert(S.getLangOpts().CUDATargetOverloads &&
"Should not be called w/o enabled target overloads.");
if (Matches.size() <= 1)
return;
+ // Gets the CUDA function preference for a call from Caller to Match.
+ auto GetCFP = [&](const T &Match) {
+ return S.IdentifyCUDAPreference(Caller, FetchDecl(Match));
+ };
+
// Find the best call preference among the functions in Matches.
- Sema::CUDAFunctionPreference P, BestCFP = Sema::CFP_Never;
- for (auto const &Match : Matches) {
- P = S.IdentifyCUDAPreference(Caller, FetchDecl(Match));
- if (P > BestCFP)
- BestCFP = P;
- }
+ Sema::CUDAFunctionPreference BestCFP = GetCFP(*std::max_element(
+ Matches.begin(), Matches.end(),
+ [&](const T &M1, const T &M2) { return GetCFP(M1) < GetCFP(M2); }));
// Erase all functions with lower priority.
- for (unsigned I = 0, N = Matches.size(); I != N;)
- if (S.IdentifyCUDAPreference(Caller, FetchDecl(Matches[I])) < BestCFP) {
- Matches[I] = Matches[--N];
- Matches.resize(N);
- } else {
- ++I;
- }
+ Matches.erase(llvm::remove_if(
+ Matches, [&](const T &Match) { return GetCFP(Match) < BestCFP; }));
}
void Sema::EraseUnwantedCUDAMatches(const FunctionDecl *Caller,
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