From aecbb9de3bed4372695756f18af2c1304a81e7c4 Mon Sep 17 00:00:00 2001 From: Faisal Vali Date: Thu, 3 Oct 2013 05:32:48 +0000 Subject: [PATCH] Teach TreeTransform and family how to transform generic lambdas within templates and nested within themselves. This does not yet include capturing (that is next). Please see test file for examples. This patch was LGTM'd by Doug: http://llvm-reviews.chandlerc.com/D1784 git-svn-id: https://llvm.org/svn/llvm-project/cfe/trunk@191875 91177308-0d34-0410-b5e6-96231b3b80d8 --- lib/Sema/SemaTemplateInstantiate.cpp | 61 ++- lib/Sema/SemaTemplateInstantiateDecl.cpp | 24 + lib/Sema/TreeTransform.h | 95 +++- .../generic-lambda-unimplemented-1y.cpp | 17 - test/SemaCXX/cxx1y-generic-lambdas.cpp | 480 +++++++++++++++++- 5 files changed, 629 insertions(+), 48 deletions(-) diff --git a/lib/Sema/SemaTemplateInstantiate.cpp b/lib/Sema/SemaTemplateInstantiate.cpp index 32111bac3a..29481d6c63 100644 --- a/lib/Sema/SemaTemplateInstantiate.cpp +++ b/lib/Sema/SemaTemplateInstantiate.cpp @@ -14,6 +14,7 @@ #include "TreeTransform.h" #include "clang/AST/ASTConsumer.h" #include "clang/AST/ASTContext.h" +#include "clang/AST/ASTLambda.h" #include "clang/AST/DeclTemplate.h" #include "clang/AST/Expr.h" #include "clang/Basic/LangOptions.h" @@ -130,6 +131,11 @@ Sema::getTemplateInstantiationArgs(NamedDecl *D, assert(Function->getPrimaryTemplate() && "No function template?"); if (Function->getPrimaryTemplate()->isMemberSpecialization()) break; + + // If this function is a generic lambda specialization, we are done. + if (isGenericLambdaCallOperatorSpecialization(Function)) + break; + } else if (FunctionTemplateDecl *FunTmpl = Function->getDescribedFunctionTemplate()) { // Add the "injected" template arguments. @@ -911,13 +917,56 @@ namespace { } ExprResult TransformLambdaScope(LambdaExpr *E, - CXXMethodDecl *CallOperator) { - CallOperator->setInstantiationOfMemberFunction(E->getCallOperator(), - TSK_ImplicitInstantiation); - return TreeTransform:: - TransformLambdaScope(E, CallOperator); + CXXMethodDecl *NewCallOperator) { + // If a lambda is undergoing transformation for instance in the + // call to foo('a') below: + // template void foo(T t) { + // auto L1 = [](T a) { return a; }; + // auto L2 = [](char b) { return b; }; + // auto L3 = [](auto c) { return c; }; + // } + // The AST nodes of the OldCallOperators within the primary template foo + // are connected to the NewCallOperators within the specialization of foo. + // - In the case of L1 and L2 we set the NewCallOperator to be considered + // an instantiation of the OldCallOperator. + // - In the generic lambda case, we set the NewTemplate to be considered + // an "instantiation" of the OldTemplate. + // See the documentation and use of get/setInstantiationOfMemberFunction + // and get/setInstantiatedFromMemberTemplate to appreciate the relevance + // of creating these links. + // And so it goes on and on with nested generic lambdas. + CXXMethodDecl *const OldCallOperator = E->getCallOperator(); + FunctionTemplateDecl *const NewCallOperatorTemplate = + NewCallOperator->getDescribedFunctionTemplate(); + FunctionTemplateDecl *const OldCallOperatorTemplate = + OldCallOperator->getDescribedFunctionTemplate(); + + if (!NewCallOperatorTemplate) + NewCallOperator->setInstantiationOfMemberFunction(OldCallOperator, + TSK_ImplicitInstantiation); + else { + NewCallOperatorTemplate->setInstantiatedFromMemberTemplate( + OldCallOperatorTemplate); + // Set this as a specialization so we don't go digging into the + // OldCallOperatorTemplate when retrieving the + // 'FunctionDecl::getTemplateInstantiationPattern()' + NewCallOperatorTemplate->setMemberSpecialization(); + } + return inherited::TransformLambdaScope(E, NewCallOperator); + } + TemplateParameterList *TransformTemplateParameterList( + TemplateParameterList *OrigTPL) { + TemplateParameterList *NewTPL = 0; + if (OrigTPL) { + if (!OrigTPL->size()) return OrigTPL; // size 0, do nothing + + DeclContext *Owner = OrigTPL->getParam(0)->getDeclContext(); + TemplateDeclInstantiator DeclInstantiator(getSema(), + /* DeclContext *Owner */ Owner, TemplateArgs); + NewTPL = DeclInstantiator.SubstTemplateParams(OrigTPL); + } + return NewTPL; } - private: ExprResult transformNonTypeTemplateParmRef(NonTypeTemplateParmDecl *parm, SourceLocation loc, diff --git a/lib/Sema/SemaTemplateInstantiateDecl.cpp b/lib/Sema/SemaTemplateInstantiateDecl.cpp index 35f3616db6..359fb73166 100644 --- a/lib/Sema/SemaTemplateInstantiateDecl.cpp +++ b/lib/Sema/SemaTemplateInstantiateDecl.cpp @@ -4171,6 +4171,30 @@ DeclContext *Sema::FindInstantiatedContext(SourceLocation Loc, DeclContext* DC, NamedDecl *Sema::FindInstantiatedDecl(SourceLocation Loc, NamedDecl *D, const MultiLevelTemplateArgumentList &TemplateArgs) { DeclContext *ParentDC = D->getDeclContext(); + + // If we have a parameter from a non-dependent context with a non-dependent + // type it obviously can not be mapped to a different instantiated decl. + // Consider the code below, with explicit return types, when N gets + // specialized ...: + // template void fooT(T t) { + // auto L = [](auto a) -> void { + // auto M = [](char b) -> void { + // auto N = [](auto c) -> void { + // int x = sizeof(a) + sizeof(b) + + // sizeof(c); + // }; + // N('a'); + // }; + // }; + // L(3.14); + // } + // fooT('a'); + // ... without this check below, findInstantiationOf fails with + // an assertion violation. + if (isa(D) && !ParentDC->isDependentContext() && + !cast(D)->getType()->isInstantiationDependentType()) + return D; + if (isa(D) || isa(D) || isa(D) || isa(D) || (ParentDC->isFunctionOrMethod() && ParentDC->isDependentContext()) || diff --git a/lib/Sema/TreeTransform.h b/lib/Sema/TreeTransform.h index 977d0132b7..bec956b6d7 100644 --- a/lib/Sema/TreeTransform.h +++ b/lib/Sema/TreeTransform.h @@ -594,6 +594,11 @@ public: /// \brief Transform the captures and body of a lambda expression. ExprResult TransformLambdaScope(LambdaExpr *E, CXXMethodDecl *CallOperator); + TemplateParameterList *TransformTemplateParameterList( + TemplateParameterList *TPL) { + return TPL; + } + ExprResult TransformAddressOfOperand(Expr *E); ExprResult TransformDependentScopeDeclRefExpr(DependentScopeDeclRefExpr *E, bool IsAddressOfOperand); @@ -4573,6 +4578,19 @@ template QualType TreeTransform::TransformDecltypeType(TypeLocBuilder &TLB, DecltypeTypeLoc TL) { const DecltypeType *T = TL.getTypePtr(); + // Don't transform a decltype construct that has already been transformed + // into a non-dependent type. + // Allows the following to compile: + // auto L = [](auto a) { + // return [](auto b) ->decltype(a) { + // return b; + // }; + //}; + if (!T->isInstantiationDependentType()) { + DecltypeTypeLoc NewTL = TLB.push(TL.getType()); + NewTL.setNameLoc(TL.getNameLoc()); + return NewTL.getType(); + } // decltype expressions are not potentially evaluated contexts EnterExpressionEvaluationContext Unevaluated(SemaRef, Sema::Unevaluated, 0, @@ -8284,24 +8302,27 @@ template ExprResult TreeTransform::TransformLambdaExpr(LambdaExpr *E) { - // FIXME: Implement nested generic lambda transformations. - if (E->isGenericLambda()) { - getSema().Diag(E->getIntroducerRange().getBegin(), - diag::err_glambda_not_fully_implemented) - << " template transformation of generic lambdas not implemented yet"; - return ExprError(); - } - // Transform the type of the lambda parameters and start the definition of - // the lambda itself. - TypeSourceInfo *MethodTy - = TransformType(E->getCallOperator()->getTypeSourceInfo()); - if (!MethodTy) + getSema().PushLambdaScope(); + LambdaScopeInfo *LSI = getSema().getCurLambda(); + TemplateParameterList *const OrigTPL = E->getTemplateParameterList(); + TemplateParameterList *NewTPL = 0; + // Transform the template parameters, and add them to the + // current instantiation scope. + if (OrigTPL) { + NewTPL = getDerived().TransformTemplateParameterList(OrigTPL); + } + LSI->GLTemplateParameterList = NewTPL; + // Transform the type of the lambda parameters and start the definition of + // the lambda itself. + TypeSourceInfo *OldCallOpTSI = E->getCallOperator()->getTypeSourceInfo(); + TypeSourceInfo *NewCallOpTSI = TransformType(OldCallOpTSI); + if (!NewCallOpTSI) return ExprError(); // Create the local class that will describe the lambda. CXXRecordDecl *Class = getSema().createLambdaClosureType(E->getIntroducerRange(), - MethodTy, + NewCallOpTSI, /*KnownDependent=*/false); getDerived().transformedLocalDecl(E->getLambdaClass(), Class); @@ -8313,19 +8334,49 @@ TreeTransform::TransformLambdaExpr(LambdaExpr *E) { E->getCallOperator()->param_size(), 0, ParamTypes, &Params)) return ExprError(); - getSema().PushLambdaScope(); - LambdaScopeInfo *LSI = getSema().getCurLambda(); - // TODO: Fix for nested lambdas - LSI->GLTemplateParameterList = 0; + // Build the call operator. - CXXMethodDecl *CallOperator + CXXMethodDecl *NewCallOperator = getSema().startLambdaDefinition(Class, E->getIntroducerRange(), - MethodTy, + NewCallOpTSI, E->getCallOperator()->getLocEnd(), Params); - getDerived().transformAttrs(E->getCallOperator(), CallOperator); - - return getDerived().TransformLambdaScope(E, CallOperator); + LSI->CallOperator = NewCallOperator; + // Fix the Decl Contexts of the parameters within the call op function + // prototype. + getDerived().transformAttrs(E->getCallOperator(), NewCallOperator); + + TypeLoc NewCallOpTL = NewCallOpTSI->getTypeLoc(); + FunctionProtoTypeLoc NewFPTL = NewCallOpTL.castAs(); + ParmVarDecl **NewParamDeclArray = NewFPTL.getParmArray(); + const unsigned NewNumArgs = NewFPTL.getNumArgs(); + for (unsigned I = 0; I < NewNumArgs; ++I) { + NewParamDeclArray[I]->setOwningFunction(NewCallOperator); + } + // If this is a non-generic lambda, the parameters do not get added to the + // current instantiation scope, so add them. This feels kludgey. + // Anyway, it allows the following to compile when the enclosing template + // is specialized and the entire lambda expression has to be + // transformed. Without this FindInstantiatedDecl causes an assertion. + // template void foo(T t) { + // auto L = [](auto a) { + // auto M = [](char b) { <-- note: non-generic lambda + // auto N = [](auto c) { + // int x = sizeof(a); + // x = sizeof(b); <-- specifically this line + // x = sizeof(c); + // }; + // }; + // }; + // } + // foo('a'); + // + if (!E->isGenericLambda()) { + for (unsigned I = 0; I < NewNumArgs; ++I) + SemaRef.CurrentInstantiationScope->InstantiatedLocal( + NewParamDeclArray[I], NewParamDeclArray[I]); + } + return getDerived().TransformLambdaScope(E, NewCallOperator); } template diff --git a/test/CXX/expr/expr.prim/expr.prim.lambda/generic-lambda-unimplemented-1y.cpp b/test/CXX/expr/expr.prim/expr.prim.lambda/generic-lambda-unimplemented-1y.cpp index a43a98bb18..92dd7ad187 100644 --- a/test/CXX/expr/expr.prim/expr.prim.lambda/generic-lambda-unimplemented-1y.cpp +++ b/test/CXX/expr/expr.prim/expr.prim.lambda/generic-lambda-unimplemented-1y.cpp @@ -29,20 +29,3 @@ void test() { } -namespace nested_generic_lambdas { -void test() { - auto L = [](auto a) -> int { - auto M = [](auto b, decltype(a) b2) -> int { //expected-error{{unimplemented}} - return 1; - }; - M(a, a); - }; - L(3); //expected-note{{in instantiation of}} -} -template void foo(T) { - auto L = [](auto a) { return a; }; //expected-error{{unimplemented}} -} -template void foo(int); //expected-note{{in instantiation of}} -} - - diff --git a/test/SemaCXX/cxx1y-generic-lambdas.cpp b/test/SemaCXX/cxx1y-generic-lambdas.cpp index b66825a536..c5da672f1d 100644 --- a/test/SemaCXX/cxx1y-generic-lambdas.cpp +++ b/test/SemaCXX/cxx1y-generic-lambdas.cpp @@ -1,4 +1,4 @@ -// RUN: %clang_cc1 -std=c++1y -verify -fsyntax-only -fblocks %s +// RUN: %clang_cc1 -std=c++1y -verify -fsyntax-only -fblocks -emit-llvm -o - %s // DONTRUNYET: %clang_cc1 -std=c++1y -verify -fsyntax-only -fblocks -fdelayed-template-parsing %s -DDELAYED_TEMPLATE_PARSING // DONTRUNYET: %clang_cc1 -std=c++1y -verify -fsyntax-only -fblocks -fms-extensions %s -DMS_EXTENSIONS // DONTRUNYET: %clang_cc1 -std=c++1y -verify -fsyntax-only -fblocks -fdelayed-template-parsing -fms-extensions %s -DMS_EXTENSIONS -DDELAYED_TEMPLATE_PARSING @@ -99,10 +99,8 @@ void test() { //expected-note{{candidate}} } } - } - namespace return_type_deduction_ok { auto l = [](auto a) ->auto { return a; }(2); auto l2 = [](auto a) ->decltype(auto) { return a; }(2); @@ -114,3 +112,479 @@ namespace generic_lambda_as_default_argument_ok { void test(int i = [](auto a)->int { return a; }(3)) { } } + +namespace nested_non_capturing_lambda_tests { +template void print(Ts ...) { } +int test() { +{ + auto L = [](auto a) { + return [](auto b) { + return b; + }; + }; + auto M = L(3); + M(4.15); + } +{ + int i = 10; //expected-note{{declared here}} + auto L = [](auto a) { + return [](auto b) { //expected-note{{begins here}} + i = b; //expected-error{{cannot be implicitly captured}} + return b; + }; + }; + auto M = L(3); + M(4.15); //expected-note{{instantiation}} + } + { + auto L = [](auto a) { + print("a = ", a, "\n"); + return [](auto b) ->decltype(a) { + print("b = ", b, "\n"); + return b; + }; + }; + auto M = L(3); + M(4.15); + } + +{ + auto L = [](auto a) ->decltype(a) { + print("a = ", a, "\n"); + return [](auto b) ->decltype(a) { //expected-error{{no viable conversion}}\ + //expected-note{{candidate template ignored}} + print("b = ", b, "\n"); + return b; + }; + }; + auto M = L(3); //expected-note{{in instantiation of}} + } +{ + auto L = [](auto a) { + print("a = ", a, "\n"); + return [](auto ... b) ->decltype(a) { + print("b = ", b ..., "\n"); + return 4; + }; + }; + auto M = L(3); + M(4.15, 3, "fv"); +} + +{ + auto L = [](auto a) { + print("a = ", a, "\n"); + return [](auto ... b) ->decltype(a) { + print("b = ", b ..., "\n"); + return 4; + }; + }; + auto M = L(3); + int (*fp)(double, int, const char*) = M; + fp(4.15, 3, "fv"); +} + +{ + auto L = [](auto a) { + print("a = ", a, "\n"); + return [](char b) { + return [](auto ... c) ->decltype(b) { + print("c = ", c ..., "\n"); + return 42; + }; + }; + }; + L(4); + auto M = L(3); + M('a'); + auto N = M('x'); + N("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); + char (*np)(const char*, int, const char*, double, const char*, int) = N; + np("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); +} + + +{ + auto L = [](auto a) { + print("a = ", a, "\n"); + return [](decltype(a) b) { + return [](auto ... c) ->decltype(b) { + print("c = ", c ..., "\n"); + return 42; + }; + }; + }; + L('4'); + auto M = L('3'); + M('a'); + auto N = M('x'); + N("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); + char (*np)(const char*, int, const char*, double, const char*, int) = N; + np("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); +} + + +{ + struct X { + static void foo(double d) { } + void test() { + auto L = [](auto a) { + print("a = ", a, "\n"); + foo(a); + return [](decltype(a) b) { + foo(b); + foo(sizeof(a) + sizeof(b)); + return [](auto ... c) ->decltype(b) { + print("c = ", c ..., "\n"); + foo(decltype(b){}); + foo(sizeof(decltype(a)*) + sizeof(decltype(b)*)); + return 42; + }; + }; + }; + L('4'); + auto M = L('3'); + M('a'); + auto N = M('x'); + N("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); + char (*np)(const char*, int, const char*, double, const char*, int) = N; + np("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); + } +}; +X x; +x.test(); +} +// Make sure we can escape the function +{ + struct X { + static void foo(double d) { } + auto test() { + auto L = [](auto a) { + print("a = ", a, "\n"); + foo(a); + return [](decltype(a) b) { + foo(b); + foo(sizeof(a) + sizeof(b)); + return [](auto ... c) ->decltype(b) { + print("c = ", c ..., "\n"); + foo(decltype(b){}); + foo(sizeof(decltype(a)*) + sizeof(decltype(b)*)); + return 42; + }; + }; + }; + return L; + } +}; + X x; + auto L = x.test(); + L('4'); + auto M = L('3'); + M('a'); + auto N = M('x'); + N("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); + char (*np)(const char*, int, const char*, double, const char*, int) = N; + np("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); +} + +{ + struct X { + static void foo(double d) { } + auto test() { + auto L = [](auto a) { + print("a = ", a, "\n"); + foo(a); + return [](decltype(a) b) { + foo(b); + foo(sizeof(a) + sizeof(b)); + return [](auto ... c) { + print("c = ", c ..., "\n"); + foo(decltype(b){}); + foo(sizeof(decltype(a)*) + sizeof(decltype(b)*)); + return [](decltype(c) ... d) ->decltype(a) { //expected-note{{candidate}} + print("d = ", d ..., "\n"); + foo(decltype(b){}); + foo(sizeof(decltype(a)*) + sizeof(decltype(b)*)); + return decltype(a){}; + }; + }; + }; + }; + return L; + } +}; + X x; + auto L = x.test(); + L('4'); + auto M = L('3'); + M('a'); + auto N = M('x'); + auto O = N("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); + char (*np)(const char*, int, const char*, double, const char*, int) = O; + np("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); + int (*np2)(const char*, int, const char*, double, const char*, int) = O; // expected-error{{no viable conversion}} + +} +} // end test() + +namespace wrapped_within_templates { + +namespace explicit_return { +template int fooT(T t) { + auto L = [](auto a) -> void { + auto M = [](char b) -> void { + auto N = [](auto c) -> void { + int x = 0; + x = sizeof(a); + x = sizeof(b); + x = sizeof(c); + }; + N('a'); + N(decltype(a){}); + }; + }; + L(t); + L(3.14); + return 0; +} + +int run = fooT('a') + fooT(3.14); + +} // end explicit_return + +namespace implicit_return_deduction { +template auto fooT(T t) { + auto L = [](auto a) { + auto M = [](char b) { + auto N = [](auto c) { + int x = 0; + x = sizeof(a); + x = sizeof(b); + x = sizeof(c); + }; + N('a'); + N(decltype(a){}); + }; + }; + L(t); + L(3.14); + return 0; +} + +int run = fooT('a') + fooT(3.14); + +template void print(Ts ... ts) { } + +template using first = F; + +template auto fooV(Ts ... ts) { + auto L = [](auto ... a) { + auto M = [](decltype(a) ... b) { + auto N = [](auto c) { + int x = 0; + x = sizeof...(a); + x = sizeof...(b); + x = sizeof(c); + }; + N('a'); + N(N); + N(first{}); + }; + M(a...); + print("a = ", a..., "\n"); + }; + L(L, ts...); + print("ts = ", ts..., "\n"); + return 0; +} + +int run2 = fooV(3.14, " ", '4', 5) + fooV("BC", 3, 2.77, 'A', float{}, short{}, unsigned{}); + +} //implicit_return_deduction + + +} //wrapped_within_templates + +namespace at_ns_scope { + void foo(double d) { } + auto test() { + auto L = [](auto a) { + print("a = ", a, "\n"); + foo(a); + return [](decltype(a) b) { + foo(b); + foo(sizeof(a) + sizeof(b)); + return [](auto ... c) { + print("c = ", c ..., "\n"); + foo(decltype(b){}); + foo(sizeof(decltype(a)*) + sizeof(decltype(b)*)); + return [](decltype(c) ... d) ->decltype(a) { //expected-note{{candidate}} + print("d = ", d ..., "\n"); + foo(decltype(b){}); + foo(sizeof(decltype(a)*) + sizeof(decltype(b)*)); + return decltype(a){}; + }; + }; + }; + }; + return L; + } +auto L = test(); +auto L_test = L('4'); +auto M = L('3'); +auto M_test = M('a'); +auto N = M('x'); +auto O = N("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); +char (*np)(const char*, int, const char*, double, const char*, int) = O; +auto NP_result = np("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); +int (*np2)(const char*, int, const char*, double, const char*, int) = O; // expected-error{{no viable conversion}} + + + +} + +namespace variadic_tests_1 { +template void print(Ts ... ts) { } + +template using FirstType = F; +template F& FirstArg(F& f, Rest...) { return f; } + +template int fooV(Ts ... ts) { + auto L = [](auto ... a) -> void { + auto M = [](decltype(a) ... b) -> void { + auto N = [](auto c) -> void { + int x = 0; + x = sizeof...(a); + x = sizeof...(b); + x = sizeof(c); + }; + N('a'); + N(N); + N(FirstType{}); + }; + M(a...); + print("a = ", a..., "\n"); + }; + L(L, ts...); + print("ts = ", ts..., "\n"); + return 0; +} + +int run2 = fooV(3.14, " ", '4', 5) + fooV("BC", 3, 2.77, 'A', float{}, short{}, unsigned{}); + +namespace more_variadic_1 { + +template int fooV(Ts ... ts) { + auto L = [](auto ... a) { + auto M = [](decltype(a) ... b) -> void { + auto N = [](auto c) -> void { + int x = 0; + x = sizeof...(a); + x = sizeof...(b); + x = sizeof(c); + }; + N('a'); + N(N); + N(FirstType{}); + }; + M(a...); + return M; + }; + auto M = L(L, ts...); + decltype(L(L, ts...)) (*fp)(decltype(L), decltype(ts) ...) = L; + void (*fp2)(decltype(L), decltype(ts) ...) = L(L, ts...); + + { + auto L = [](auto ... a) { + auto M = [](decltype(a) ... b) { + auto N = [](auto c) -> void { + int x = 0; + x = sizeof...(a); + x = sizeof...(b); + x = sizeof(c); + }; + N('a'); + N(N); + N(FirstType{}); + return N; + }; + M(a...); + return M; + }; + auto M = L(L, ts...); + decltype(L(L, ts...)) (*fp)(decltype(L), decltype(ts) ...) = L; + fp(L, ts...); + decltype(L(L, ts...)(L, ts...)) (*fp2)(decltype(L), decltype(ts) ...) = L(L, ts...); + fp2 = fp(L, ts...); + void (*fp3)(char) = fp2(L, ts...); + fp3('a'); + } + return 0; +} + +int run2 = fooV(3.14, " ", '4', 5) + fooV("BC", 3, 2.77, 'A', float{}, short{}, unsigned{}); + + +} //end ns more_variadic_1 + +} // end ns variadic_tests_1 + +namespace at_ns_scope_within_class_member { + struct X { + static void foo(double d) { } + auto test() { + auto L = [](auto a) { + print("a = ", a, "\n"); + foo(a); + return [](decltype(a) b) { + foo(b); + foo(sizeof(a) + sizeof(b)); + return [](auto ... c) { + print("c = ", c ..., "\n"); + foo(decltype(b){}); + foo(sizeof(decltype(a)*) + sizeof(decltype(b)*)); + return [](decltype(c) ... d) ->decltype(a) { //expected-note{{candidate}} + print("d = ", d ..., "\n"); + foo(decltype(b){}); + foo(sizeof(decltype(a)*) + sizeof(decltype(b)*)); + return decltype(a){}; + }; + }; + }; + }; + return L; + } +}; +X x; +auto L = x.test(); +auto L_test = L('4'); +auto M = L('3'); +auto M_test = M('a'); +auto N = M('x'); +auto O = N("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); +char (*np)(const char*, int, const char*, double, const char*, int) = O; +auto NP_result = np("\n3 = ", 3, "\n6.14 = ", 6.14, "\n4'123'456 = ", 4'123'456); +int (*np2)(const char*, int, const char*, double, const char*, int) = O; // expected-error{{no viable conversion}} + +} //end at_ns_scope_within_class_member + + +namespace nested_generic_lambdas_123 { +void test() { + auto L = [](auto a) -> int { + auto M = [](auto b, decltype(a) b2) -> int { + return 1; + }; + M(a, a); + }; + L(3); +} +template void foo(T) { + auto L = [](auto a) { return a; }; +} +template void foo(int); +} // end ns nested_generic_lambdas_123 + + +} // end ns nested_non_capturing_lambda_tests + \ No newline at end of file -- 2.40.0