Index: clang/lib/AST/Interp/ByteCodeExprGen.cpp =================================================================== --- clang/lib/AST/Interp/ByteCodeExprGen.cpp +++ clang/lib/AST/Interp/ByteCodeExprGen.cpp @@ -1887,9 +1887,16 @@ // Expressions with a composite return type. // For us, that means everything we don't // have a PrimType for. - if (!visit(E)) - return false; - return this->emitRetValue(E); + if (std::optional LocalOffset = this->allocateLocal(E)) { + if (!this->visitLocalInitializer(E, *LocalOffset)) + return false; + + if (!this->emitGetPtrLocal(*LocalOffset, E)) + return false; + return this->emitRetValue(E); + } + + return false; } /// Toplevel visitDecl(). @@ -2269,7 +2276,14 @@ return false; if (!this->emitConstUint8(0, E)) return false; - return this->emitArrayElemPtrPopUint8(E); + if (!this->emitArrayElemPtrPopUint8(E)) + return false; + + // Since our _Complex implementation does not map to a primitive type, + // we sometimes have to do the lvalue-to-rvalue conversion here manually. + if (!SubExpr->isLValue()) + return this->emitLoadPop(classifyPrim(E->getType()), E); + return true; } case UO_Imag: { // __imag x assert(!T); @@ -2277,7 +2291,14 @@ return false; if (!this->emitConstUint8(1, E)) return false; - return this->emitArrayElemPtrPopUint8(E); + if (!this->emitArrayElemPtrPopUint8(E)) + return false; + + // Since our _Complex implementation does not map to a primitive type, + // we sometimes have to do the lvalue-to-rvalue conversion here manually. + if (!SubExpr->isLValue()) + return this->emitLoadPop(classifyPrim(E->getType()), E); + return true; } case UO_Extension: if (DiscardResult) Index: clang/test/AST/Interp/complex.cpp =================================================================== --- clang/test/AST/Interp/complex.cpp +++ clang/test/AST/Interp/complex.cpp @@ -38,6 +38,10 @@ static_assert(__imag(I2) == 0, ""); +/// Standalone complex expressions. +static_assert(__real((_Complex float){1.0, 3.0}) == 1.0, ""); + + #if 0 /// FIXME: This should work in the new interpreter. constexpr _Complex double D2 = {12};