[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 465048.
cjdb added a comment.

uploading for archival purposes, will abandon the review in a moment


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/DiagnosticSemaKinds.td
  clang/include/clang/Basic/TokenKinds.def
  clang/lib/Lex/PPMacroExpansion.cpp
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/deprecated-builtins.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,106 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array(int n) {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_bounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_bounded_array'}}
+}
+
+void is_unbounded_array(int n) {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  int t31[F(__is_unbounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_unbounded_array(decltype(t32)); // expected-error{{variable length arrays are not 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb added a comment.

This commit is suffering from feature creep, which has a whole host of problems 
associated with it. I'm going to dump everything that I've got related to the 
patch here for archival purposes, abandon it, and then spin out tiny CLs, some 
of which are hopefully trivial to review thanks to being early additions to 
this one.


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

___
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[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 455051.
cjdb edited the summary of this revision.
cjdb added a comment.

changes RemoveReference to BuiltinRemoveReference


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/DiagnosticSemaKinds.td
  clang/include/clang/Basic/TokenKinds.def
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,106 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array(int n) {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_bounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_bounded_array'}}
+}
+
+void is_unbounded_array(int n) {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  int t31[F(__is_unbounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_unbounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_unbounded_array'}}
+}
+
+void 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 450585.
cjdb added a comment.

fixes commit update mistake and rebases to ToT


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/DiagnosticSemaKinds.td
  clang/include/clang/Basic/TokenKinds.def
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,106 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array(int n) {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_bounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_bounded_array'}}
+}
+
+void is_unbounded_array(int n) {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  int t31[F(__is_unbounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_unbounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_unbounded_array'}}
+}
+
+void is_referenceable() {
+  { int 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 448806.
cjdb added a subscriber: rsmith.
cjdb added a comment.

I think this covers all the feedback @rsmith has provided, though my treatment 
of `BuildPointerType` and `BuildReferenceType` might be wrong.

Hopefully `__make_signed` and `__make_unsigned` are correct now!


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/DiagnosticSemaKinds.td
  clang/include/clang/Basic/TokenKinds.def
  clang/include/clang/Sema/Sema.h
  clang/lib/AST/ASTContext.cpp
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,106 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array(int n) {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_bounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_bounded_array'}}
+}
+
+void is_unbounded_array(int n) {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 440079.
cjdb added a comment.

rebases


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/DiagnosticSemaKinds.td
  clang/include/clang/Basic/TokenKinds.def
  clang/include/clang/Sema/Sema.h
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,106 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array(int n) {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_bounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_bounded_array'}}
+}
+
+void is_unbounded_array(int n) {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  int t31[F(__is_unbounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_unbounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_unbounded_array'}}
+}
+
+void is_referenceable() {
+  { int a[T(__is_referenceable(int))]; 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 429479.
cjdb added a comment.

rebases for D116203 's sake


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/DiagnosticSemaKinds.td
  clang/include/clang/Basic/TokenKinds.def
  clang/include/clang/Sema/Sema.h
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,106 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array(int n) {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_bounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_bounded_array'}}
+}
+
+void is_unbounded_array(int n) {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  int t31[F(__is_unbounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_unbounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_unbounded_array'}}
+}
+
+void 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 429410.
cjdb added a comment.

makes `__is_destructible` and `__is_nothrow_destructible` `KEYCXX` instead of 
`KEYMS` (attention @aaron.ballman)


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/DiagnosticSemaKinds.td
  clang/include/clang/Basic/TokenKinds.def
  clang/include/clang/Sema/Sema.h
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,106 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array(int n) {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_bounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_bounded_array'}}
+}
+
+void is_unbounded_array(int n) {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  int t31[F(__is_unbounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_unbounded_array(decltype(t32)); // expected-error{{variable length arrays are not 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Aaron Ballman via Phabricator via cfe-commits]

aaron.ballman accepted this revision.
aaron.ballman added a comment.
This revision is now accepted and ready to land.

LGTM modulo whatever changes are needed based on feedback from the original 
review (I noticed Richard has some suggestions there which may impact this 
review).


Repository:
  rG LLVM Github Monorepo

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[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 424673.
cjdb added a comment.

fixes formatting


Repository:
  rG LLVM Github Monorepo

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Files:
  clang/include/clang/Basic/DiagnosticSemaKinds.td
  clang/include/clang/Basic/TokenKinds.def
  clang/include/clang/Sema/Sema.h
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,106 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array(int n) {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_bounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_bounded_array'}}
+}
+
+void is_unbounded_array(int n) {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  int t31[F(__is_unbounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_unbounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_unbounded_array'}}
+}
+
+void is_referenceable() {
+  { int 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 424672.
cjdb marked 5 inline comments as done.
cjdb edited the summary of this revision.
cjdb added a comment.

- handles VLAs
- adds `__is_referenceable` which is used by portions of the standard library


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/DiagnosticSemaKinds.td
  clang/include/clang/Basic/TokenKinds.def
  clang/include/clang/Sema/Sema.h
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,106 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array(int n) {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+
+  int t32[n];
+  (void)__is_bounded_array(decltype(t32)); // expected-error{{variable length arrays are not supported for '__is_bounded_array'}}
+}
+
+void is_unbounded_array(int n) {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  int t31[F(__is_unbounded_array(cvoid *))];
+
+  int t32[n];
+  

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Aaron Ballman via Phabricator via cfe-commits]

aaron.ballman added inline comments.



Comment at: clang/test/SemaCXX/type-traits.cpp:764
+  int t30[F(__is_bounded_array(void*))];
+  int t31[F(__is_bounded_array(cvoid*))];
+}

cjdb wrote:
> aaron.ballman wrote:
> > cjdb wrote:
> > > aaron.ballman wrote:
> > > > Any reason there's not a test with something like `int[10]` and 
> > > > `int[]`? (Same below.)
> > > Those are `IntAr` and `IntArNB` at the very top. I can rename those if 
> > > you'd like.
> > Oh, yeah, I totally missed that, thank you!
> > 
> > Up to you on the rename, so long as we have the coverage, that's the 
> > crucial bit.
> Would you be against a patch where I found and replaced **all** `TypeAr` with 
> `Type[2]` and `TypeArNB` with `Type[]`? I've done several double takes myself 
> and question the readability of `TypeAr`.
I'd be fine with that -- it would be an easy NFC change after this lands.


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[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb added inline comments.



Comment at: clang/test/SemaCXX/type-traits.cpp:764
+  int t30[F(__is_bounded_array(void*))];
+  int t31[F(__is_bounded_array(cvoid*))];
+}

aaron.ballman wrote:
> cjdb wrote:
> > aaron.ballman wrote:
> > > Any reason there's not a test with something like `int[10]` and `int[]`? 
> > > (Same below.)
> > Those are `IntAr` and `IntArNB` at the very top. I can rename those if 
> > you'd like.
> Oh, yeah, I totally missed that, thank you!
> 
> Up to you on the rename, so long as we have the coverage, that's the crucial 
> bit.
Would you be against a patch where I found and replaced **all** `TypeAr` with 
`Type[2]` and `TypeArNB` with `Type[]`? I've done several double takes myself 
and question the readability of `TypeAr`.


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[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Aaron Ballman via Phabricator via cfe-commits]

aaron.ballman added inline comments.



Comment at: clang/lib/Sema/SemaExprCXX.cpp:4889-4890
 return T->isArrayType();
+  case UTT_IsBoundedArray:
+return T->isArrayType() && !T->isIncompleteArrayType();
+  case UTT_IsUnboundedArray:

cjdb wrote:
> aaron.ballman wrote:
> > Is a VLA a bounded array? (We support those as an extension in C++, 
> > unfortunately.)
> `__is_bounded_array(T)` is true when "`T` is an array type of known bound". 
> Do VLAs meet this criteria?
Heh, that's just it -- I don't know what constitutes "known". A VLA that tracks 
its extent "knows" the extent at runtime but possibly not compile time. So it's 
known-ish.

I think there's a few ways we could go about it.

1) all VLAs are unbounded because some VLAs may not have their size known until 
runtime
2) check the VLA's size expression and if we can find any way to constant 
evaluate it to a known value, then it's a bounded array
3) make it an error to call this function with a VLA

My intuition is that #3 is the safest approach, but that #1 probably is 
sufficiently defensible as well. I worry a little bit that #2 will give 
surprising results without more investigation/effort (we sometimes fold VLAs 
into constant arrays, and I think users would expect this API to mirror that 
behavior).



Comment at: clang/test/SemaCXX/type-traits.cpp:764
+  int t30[F(__is_bounded_array(void*))];
+  int t31[F(__is_bounded_array(cvoid*))];
+}

cjdb wrote:
> aaron.ballman wrote:
> > Any reason there's not a test with something like `int[10]` and `int[]`? 
> > (Same below.)
> Those are `IntAr` and `IntArNB` at the very top. I can rename those if you'd 
> like.
Oh, yeah, I totally missed that, thank you!

Up to you on the rename, so long as we have the coverage, that's the crucial 
bit.


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[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb added inline comments.



Comment at: clang/lib/Sema/SemaExprCXX.cpp:4889-4890
 return T->isArrayType();
+  case UTT_IsBoundedArray:
+return T->isArrayType() && !T->isIncompleteArrayType();
+  case UTT_IsUnboundedArray:

aaron.ballman wrote:
> Is a VLA a bounded array? (We support those as an extension in C++, 
> unfortunately.)
`__is_bounded_array(T)` is true when "`T` is an array type of known bound". Do 
VLAs meet this criteria?



Comment at: clang/lib/Sema/SemaExprCXX.cpp:5289
+if (UTT == UTT_IsCopyAssignable) {
+  return EvaluateBinaryTypeTrait(Self, BTT_IsAssignable, 
Self.BuildReferenceType(T, true, KeyLoc, T.getBaseTypeIdentifier()), 
AssigneeType, KeyLoc);
+}

aaron.ballman wrote:
> It looks like this file could stand to be clang formatted.
Yeah, there was a time where `arc diff` did the formatting automatically, but 
it seems that day has passed :(



Comment at: clang/test/SemaCXX/type-traits.cpp:764
+  int t30[F(__is_bounded_array(void*))];
+  int t31[F(__is_bounded_array(cvoid*))];
+}

aaron.ballman wrote:
> Any reason there's not a test with something like `int[10]` and `int[]`? 
> (Same below.)
Those are `IntAr` and `IntArNB` at the very top. I can rename those if you'd 
like.


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[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 423280.
cjdb marked 3 inline comments as done.
cjdb added a comment.

- finishes `__is_move_constructible` and `__is_move_assignable`
- fixes detecting C++ mode
- clang-formats


Repository:
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Files:
  clang/include/clang/Basic/TokenKinds.def
  clang/include/clang/Sema/Sema.h
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,29 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum() {
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +733,64 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array() {
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void *))];
+  int t31[F(__is_bounded_array(cvoid *))];
+}
+
+void is_unbounded_array() {
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void *))];
+  int t31[F(__is_unbounded_array(cvoid *))];
+}
+
 template  void tmpl_func(T&) {}
 
 template  struct type_wrapper {
@@ -934,6 +1023,42 @@
   int t34[F(__is_pointer(void (StructWithMembers::*) ()))];
 }
 
+void is_null_pointer() {
+  StructWithMembers x;
+
+  int t00[T(__is_nullptr(decltype(nullptr)))];
+  int t01[F(__is_nullptr(void 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Aaron Ballman via Phabricator via cfe-commits]

aaron.ballman added inline comments.



Comment at: clang/lib/Sema/SemaExprCXX.cpp:4889-4890
 return T->isArrayType();
+  case UTT_IsBoundedArray:
+return T->isArrayType() && !T->isIncompleteArrayType();
+  case UTT_IsUnboundedArray:

Is a VLA a bounded array? (We support those as an extension in C++, 
unfortunately.)



Comment at: clang/lib/Sema/SemaExprCXX.cpp:5282
+  return false;
+if 
(!T.isReferenceable(LangStandard::getLangStandardForKind(Self.LangOpts.LangStd).isCPlusPlus()))
+  return false;

Why this dance and not `Self.LangOpts.CPlusPlus`? (Same below.)



Comment at: clang/lib/Sema/SemaExprCXX.cpp:5289
+if (UTT == UTT_IsCopyAssignable) {
+  return EvaluateBinaryTypeTrait(Self, BTT_IsAssignable, 
Self.BuildReferenceType(T, true, KeyLoc, T.getBaseTypeIdentifier()), 
AssigneeType, KeyLoc);
+}

It looks like this file could stand to be clang formatted.



Comment at: clang/test/SemaCXX/type-traits.cpp:737
 
+void is_bounded_array()
+{

Please add a test for VLAs to whichever function it should be tested under.



Comment at: clang/test/SemaCXX/type-traits.cpp:764
+  int t30[F(__is_bounded_array(void*))];
+  int t31[F(__is_bounded_array(cvoid*))];
+}

Any reason there's not a test with something like `int[10]` and `int[]`? (Same 
below.)


Repository:
  rG LLVM Github Monorepo

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[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 421836.
cjdb edited the summary of this revision.
cjdb added a comment.
Herald added a project: All.

adds `__is_copy_constructible`, `__is_copy_assignable`, 
`__is_move_constructible` (WIP), and `__is_move_assignable` (incomplete)


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/TokenKinds.def
  clang/include/clang/Sema/Sema.h
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/lib/Sema/SemaType.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,30 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum()
+{
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +734,66 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array()
+{
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void*))];
+  int t31[F(__is_bounded_array(cvoid*))];
+}
+
+void is_unbounded_array()
+{
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void*))];
+  int t31[F(__is_unbounded_array(cvoid*))];
+}
+
 template  void tmpl_func(T&) {}
 
 template  struct type_wrapper {
@@ -934,6 +1026,43 @@
   int t34[F(__is_pointer(void (StructWithMembers::*) ()))];
 }
 
+void is_null_pointer()
+{
+  StructWithMembers x;
+
+  int 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 396748.
cjdb edited the summary of this revision.
cjdb added a comment.

adds `__is_unbounded_array`


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/TokenKinds.def
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,30 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum()
+{
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +734,66 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array()
+{
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void*))];
+  int t31[F(__is_bounded_array(cvoid*))];
+}
+
+void is_unbounded_array()
+{
+  int t01[F(__is_unbounded_array(IntAr))];
+  int t02[T(__is_unbounded_array(IntArNB))];
+  int t03[F(__is_unbounded_array(UnionAr))];
+
+  int t10[F(__is_unbounded_array(void))];
+  int t11[F(__is_unbounded_array(cvoid))];
+  int t12[F(__is_unbounded_array(float))];
+  int t13[F(__is_unbounded_array(double))];
+  int t14[F(__is_unbounded_array(long double))];
+  int t15[F(__is_unbounded_array(bool))];
+  int t16[F(__is_unbounded_array(char))];
+  int t17[F(__is_unbounded_array(signed char))];
+  int t18[F(__is_unbounded_array(unsigned char))];
+  int t19[F(__is_unbounded_array(wchar_t))];
+  int t20[F(__is_unbounded_array(short))];
+  int t21[F(__is_unbounded_array(unsigned short))];
+  int t22[F(__is_unbounded_array(int))];
+  int t23[F(__is_unbounded_array(unsigned int))];
+  int t24[F(__is_unbounded_array(long))];
+  int t25[F(__is_unbounded_array(unsigned long))];
+  int t26[F(__is_unbounded_array(Union))];
+  int t27[F(__is_unbounded_array(Derives))];
+  int t28[F(__is_unbounded_array(ClassType))];
+  int t29[F(__is_unbounded_array(Enum))];
+  int t30[F(__is_unbounded_array(void*))];
+  int t31[F(__is_unbounded_array(cvoid*))];
+}
+
 template  void tmpl_func(T&) {}
 
 template  struct type_wrapper {
@@ -934,6 +1026,43 @@
   int t34[F(__is_pointer(void (StructWithMembers::*) ()))];
 }
 
+void is_null_pointer()
+{
+  StructWithMembers x;
+
+  int t00[T(__is_null_pointer(decltype(nullptr)))];
+  int t01[F(__is_null_pointer(void*))];
+  int t02[F(__is_null_pointer(cvoid*))];
+  int t03[F(__is_null_pointer(cvoid*))];
+  int t04[F(__is_null_pointer(char*))];
+  

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb updated this revision to Diff 396711.
cjdb edited the summary of this revision.
cjdb added a comment.

rebases to activate CI


Repository:
  rG LLVM Github Monorepo

CHANGES SINCE LAST ACTION
  https://reviews.llvm.org/D116280/new/

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/TokenKinds.def
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -345,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -363,6 +371,30 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum()
+{
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -702,6 +734,36 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array()
+{
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void*))];
+  int t31[F(__is_bounded_array(cvoid*))];
+}
+
 template  void tmpl_func(T&) {}
 
 template  struct type_wrapper {
@@ -934,6 +996,43 @@
   int t34[F(__is_pointer(void (StructWithMembers::*) ()))];
 }
 
+void is_null_pointer()
+{
+  StructWithMembers x;
+
+  int t00[T(__is_null_pointer(decltype(nullptr)))];
+  int t01[F(__is_null_pointer(void*))];
+  int t02[F(__is_null_pointer(cvoid*))];
+  int t03[F(__is_null_pointer(cvoid*))];
+  int t04[F(__is_null_pointer(char*))];
+  int t05[F(__is_null_pointer(int*))];
+  int t06[F(__is_null_pointer(int**))];
+  int t07[F(__is_null_pointer(ClassType*))];
+  int t08[F(__is_null_pointer(Derives*))];
+  int t09[F(__is_null_pointer(Enum*))];
+  int t10[F(__is_null_pointer(IntArNB*))];
+  int t11[F(__is_null_pointer(Union*))];
+  int t12[F(__is_null_pointer(UnionAr*))];
+  int t13[F(__is_null_pointer(StructWithMembers*))];
+  int t14[F(__is_null_pointer(void (*)()))];
+
+  int t20[F(__is_null_pointer(void))];
+  int t21[F(__is_null_pointer(cvoid))];
+  int t22[F(__is_null_pointer(cvoid))];
+  int t23[F(__is_null_pointer(char))];
+  int t24[F(__is_null_pointer(int))];
+  int t25[F(__is_null_pointer(int))];
+  int t26[F(__is_null_pointer(ClassType))];
+  int t27[F(__is_null_pointer(Derives))];
+  int t28[F(__is_null_pointer(Enum))];
+  int t29[F(__is_null_pointer(IntArNB))];
+  int t30[F(__is_null_pointer(Union))];
+  int t31[F(__is_null_pointer(UnionAr))];
+  int t32[F(__is_null_pointer(StructWithMembers))];
+  int t33[F(__is_null_pointer(int StructWithMembers::*))];
+  int t34[F(__is_null_pointer(void (StructWithMembers::*) ()))];
+}
+
 void is_member_object_pointer()
 {
   StructWithMembers x;
Index: 

[PATCH] D116280: [clang] adds unary type trait checks as compiler built-ins

[Christopher Di Bella via Phabricator via cfe-commits]

cjdb created this revision.
Herald added a subscriber: dexonsmith.
cjdb requested review of this revision.
Herald added a project: clang.
Herald added a subscriber: cfe-commits.

This is information that the compiler already has, and should be exposed
so that the library doesn't need to reimplement the exact same
functionality.

- `__is_null_pointer`
- `__is_bounded_array`
- `__is_scoped_enum`


Repository:
  rG LLVM Github Monorepo

https://reviews.llvm.org/D116280

Files:
  clang/include/clang/Basic/TokenKinds.def
  clang/lib/Parse/ParseDeclCXX.cpp
  clang/lib/Parse/ParseExpr.cpp
  clang/lib/Sema/SemaExprCXX.cpp
  clang/test/SemaCXX/type-traits.cpp

Index: clang/test/SemaCXX/type-traits.cpp
===
--- clang/test/SemaCXX/type-traits.cpp
+++ clang/test/SemaCXX/type-traits.cpp
@@ -14,6 +14,9 @@
 enum Enum { EV };
 enum SignedEnum : signed int { };
 enum UnsignedEnum : unsigned int { };
+enum class EnumClass { EV };
+enum class SignedEnumClass : signed int {};
+enum class UnsignedEnumClass : unsigned int {};
 struct POD { Enum e; int i; float f; NonPOD* p; };
 struct Empty {};
 struct IncompleteStruct;
@@ -342,11 +345,19 @@
 }
 
 typedef Enum EnumType;
+typedef EnumClass EnumClassType;
 
 void is_enum()
 {
   { int arr[T(__is_enum(Enum))]; }
   { int arr[T(__is_enum(EnumType))]; }
+  { int arr[T(__is_enum(SignedEnum))]; }
+  { int arr[T(__is_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_enum(EnumClass))]; }
+  { int arr[T(__is_enum(EnumClassType))]; }
+  { int arr[T(__is_enum(SignedEnumClass))]; }
+  { int arr[T(__is_enum(UnsignedEnumClass))]; }
 
   { int arr[F(__is_enum(int))]; }
   { int arr[F(__is_enum(Union))]; }
@@ -360,6 +371,30 @@
   { int arr[F(__is_enum(HasAnonymousUnion))]; }
 }
 
+void is_scoped_enum()
+{
+  { int arr[F(__is_scoped_enum(Enum))]; }
+  { int arr[F(__is_scoped_enum(EnumType))]; }
+  { int arr[F(__is_scoped_enum(SignedEnum))]; }
+  { int arr[F(__is_scoped_enum(UnsignedEnum))]; }
+
+  { int arr[T(__is_scoped_enum(EnumClass))]; }
+  { int arr[T(__is_scoped_enum(EnumClassType))]; }
+  { int arr[T(__is_scoped_enum(SignedEnumClass))]; }
+  { int arr[T(__is_scoped_enum(UnsignedEnumClass))]; }
+
+  { int arr[F(__is_scoped_enum(int))]; }
+  { int arr[F(__is_scoped_enum(Union))]; }
+  { int arr[F(__is_scoped_enum(Int))]; }
+  { int arr[F(__is_scoped_enum(IntAr))]; }
+  { int arr[F(__is_scoped_enum(UnionAr))]; }
+  { int arr[F(__is_scoped_enum(Derives))]; }
+  { int arr[F(__is_scoped_enum(ClassType))]; }
+  { int arr[F(__is_scoped_enum(cvoid))]; }
+  { int arr[F(__is_scoped_enum(IntArNB))]; }
+  { int arr[F(__is_scoped_enum(HasAnonymousUnion))]; }
+}
+
 struct FinalClass final {
 };
 
@@ -699,6 +734,36 @@
   int t31[F(__is_array(cvoid*))];
 }
 
+void is_bounded_array()
+{
+  int t01[T(__is_bounded_array(IntAr))];
+  int t02[F(__is_bounded_array(IntArNB))];
+  int t03[T(__is_bounded_array(UnionAr))];
+
+  int t10[F(__is_bounded_array(void))];
+  int t11[F(__is_bounded_array(cvoid))];
+  int t12[F(__is_bounded_array(float))];
+  int t13[F(__is_bounded_array(double))];
+  int t14[F(__is_bounded_array(long double))];
+  int t15[F(__is_bounded_array(bool))];
+  int t16[F(__is_bounded_array(char))];
+  int t17[F(__is_bounded_array(signed char))];
+  int t18[F(__is_bounded_array(unsigned char))];
+  int t19[F(__is_bounded_array(wchar_t))];
+  int t20[F(__is_bounded_array(short))];
+  int t21[F(__is_bounded_array(unsigned short))];
+  int t22[F(__is_bounded_array(int))];
+  int t23[F(__is_bounded_array(unsigned int))];
+  int t24[F(__is_bounded_array(long))];
+  int t25[F(__is_bounded_array(unsigned long))];
+  int t26[F(__is_bounded_array(Union))];
+  int t27[F(__is_bounded_array(Derives))];
+  int t28[F(__is_bounded_array(ClassType))];
+  int t29[F(__is_bounded_array(Enum))];
+  int t30[F(__is_bounded_array(void*))];
+  int t31[F(__is_bounded_array(cvoid*))];
+}
+
 template  void tmpl_func(T&) {}
 
 template  struct type_wrapper {
@@ -931,6 +996,43 @@
   int t34[F(__is_pointer(void (StructWithMembers::*) ()))];
 }
 
+void is_null_pointer()
+{
+  StructWithMembers x;
+
+  int t00[T(__is_null_pointer(decltype(nullptr)))];
+  int t01[F(__is_null_pointer(void*))];
+  int t02[F(__is_null_pointer(cvoid*))];
+  int t03[F(__is_null_pointer(cvoid*))];
+  int t04[F(__is_null_pointer(char*))];
+  int t05[F(__is_null_pointer(int*))];
+  int t06[F(__is_null_pointer(int**))];
+  int t07[F(__is_null_pointer(ClassType*))];
+  int t08[F(__is_null_pointer(Derives*))];
+  int t09[F(__is_null_pointer(Enum*))];
+  int t10[F(__is_null_pointer(IntArNB*))];
+  int t11[F(__is_null_pointer(Union*))];
+  int t12[F(__is_null_pointer(UnionAr*))];
+  int t13[F(__is_null_pointer(StructWithMembers*))];
+  int t14[F(__is_null_pointer(void (*)()))];
+
+  int t20[F(__is_null_pointer(void))];
+  int t21[F(__is_null_pointer(cvoid))];
+  int t22[F(__is_null_pointer(cvoid))];
+  int t23[F(__is_null_pointer(char))];
+  int t24[F(__is_null_pointer(int))];
+  int