Vendor import of clang release_40 branch r292732:

https://llvm.org/svn/llvm-project/cfe/branches/release_40@292732
This commit is contained in:
Dimitry Andric 2017-01-22 16:52:41 +00:00
parent d2e0a8dd94
commit 5df539a100
27 changed files with 239 additions and 125 deletions

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@ -20,5 +20,13 @@
Bindings for the Clang indexing library.
"""
# Python 3 uses unicode for strings. The bindings, in particular the interaction
# with ctypes, need modifying to handle conversions between unicode and
# c-strings.
import sys
if sys.version_info[0] != 2:
raise Exception("Only Python 2 is supported.")
__all__ = ['cindex']

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@ -554,8 +554,8 @@ def __init__(self, value):
if value >= len(self.__class__._kinds):
self.__class__._kinds += [None] * (value - len(self.__class__._kinds) + 1)
if self.__class__._kinds[value] is not None:
raise ValueError,'{0} value {1} already loaded'.format(
str(self.__class__), value)
raise ValueError('{0} value {1} already loaded'.format(
str(self.__class__), value))
self.value = value
self.__class__._kinds[value] = self
self.__class__._name_map = None
@ -577,7 +577,7 @@ def name(self):
@classmethod
def from_id(cls, id):
if id >= len(cls._kinds) or cls._kinds[id] is None:
raise ValueError,'Unknown template argument kind %d' % id
raise ValueError('Unknown template argument kind %d' % id)
return cls._kinds[id]
def __repr__(self):
@ -1777,7 +1777,7 @@ def __init__(self, value):
if value >= len(StorageClass._kinds):
StorageClass._kinds += [None] * (value - len(StorageClass._kinds) + 1)
if StorageClass._kinds[value] is not None:
raise ValueError,'StorageClass already loaded'
raise ValueError('StorageClass already loaded')
self.value = value
StorageClass._kinds[value] = self
StorageClass._name_map = None
@ -1798,7 +1798,7 @@ def name(self):
@staticmethod
def from_id(id):
if id >= len(StorageClass._kinds) or not StorageClass._kinds[id]:
raise ValueError,'Unknown storage class %d' % id
raise ValueError('Unknown storage class %d' % id)
return StorageClass._kinds[id]
def __repr__(self):
@ -2729,9 +2729,9 @@ def reparse(self, unsaved_files=None, options=0):
# FIXME: It would be great to support an efficient version
# of this, one day.
value = value.read()
print value
print(value)
if not isinstance(value, str):
raise TypeError,'Unexpected unsaved file contents.'
raise TypeError('Unexpected unsaved file contents.')
unsaved_files_array[i].name = name
unsaved_files_array[i].contents = value
unsaved_files_array[i].length = len(value)
@ -2793,9 +2793,9 @@ def codeComplete(self, path, line, column, unsaved_files=None,
# FIXME: It would be great to support an efficient version
# of this, one day.
value = value.read()
print value
print(value)
if not isinstance(value, str):
raise TypeError,'Unexpected unsaved file contents.'
raise TypeError('Unexpected unsaved file contents.')
unsaved_files_array[i].name = name
unsaved_files_array[i].contents = value
unsaved_files_array[i].length = len(value)

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@ -456,6 +456,7 @@ warnings or errors at compile-time if calls to the attributed function meet
certain user-defined criteria. For example:
.. code-block:: c
void abs(int a)
__attribute__((diagnose_if(a >= 0, "Redundant abs call", "warning")));
void must_abs(int a)

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@ -46,8 +46,35 @@ Major New Features
clang to emit a warning or error if a function call meets one or more
user-specified conditions.
- Enhanced devirtualization with
`-fstrict-vtable-pointers <UsersManual.html#cmdoption-fstrict-vtable-pointers>`_.
Clang devirtualizes across different basic blocks, like loops:
.. code-block:: c++
struct A {
virtual void foo();
};
void indirect(A &a, int n) {
for (int i = 0 ; i < n; i++)
a.foo();
}
void test(int n) {
A a;
indirect(a, n);
}
- ...
Improvements to ThinLTO (-flto=thin)
------------------------------------
- Integration with profile data (PGO). When available, profile data enables
more accurate function importing decisions, as well as cross-module indirect
call promotion.
- Significant build-time and binary-size improvements when compiling with debug
info (-g).
Improvements to Clang's diagnostics
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

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@ -1097,6 +1097,14 @@ are listed below.
the behavior of sanitizers in the ``cfi`` group to allow checking
of cross-DSO virtual and indirect calls.
.. option:: -fstrict-vtable-pointers
Enable optimizations based on the strict rules for overwriting polymorphic
C++ objects, i.e. the vptr is invariant during an object's lifetime.
This enables better devirtualization. Turned off by default, because it is
still experimental.
.. option:: -ffast-math
Enable fast-math mode. This defines the ``__FAST_MATH__`` preprocessor
@ -2645,7 +2653,7 @@ Execute ``clang-cl /?`` to see a list of supported options:
(overridden by LLVM_PROFILE_FILE env var)
-fprofile-instr-generate
Generate instrumented code to collect execution counts into default.profraw file
(overriden by '=' form of option or LLVM_PROFILE_FILE env var)
(overridden by '=' form of option or LLVM_PROFILE_FILE env var)
-fprofile-instr-use=<value>
Use instrumentation data for profile-guided optimization
-fsanitize-blacklist=<value>

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@ -3337,8 +3337,8 @@ def note_ovl_candidate : Note<"candidate "
def note_ovl_candidate_inherited_constructor : Note<
"constructor from base class %0 inherited here">;
def note_ovl_candidate_inherited_constructor_slice : Note<
"constructor inherited from base class cannot be used to initialize from "
"an argument of the derived class type">;
"candidate %select{constructor|template}0 ignored: "
"inherited constructor cannot be used to %select{copy|move}1 object">;
def note_ovl_candidate_illegal_constructor : Note<
"candidate %select{constructor|template}0 ignored: "
"instantiation %select{takes|would take}0 its own class type by value">;

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@ -512,7 +512,7 @@ class NetBSDTargetInfo : public OSTargetInfo<Target> {
Builder.defineMacro("__unix__");
Builder.defineMacro("__ELF__");
if (Opts.POSIXThreads)
Builder.defineMacro("_POSIX_THREADS");
Builder.defineMacro("_REENTRANT");
switch (Triple.getArch()) {
default:

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@ -447,9 +447,9 @@ void DFGImpl::OutputDependencyFile() {
// Create phony targets if requested.
if (PhonyTarget && !Files.empty()) {
// Skip the first entry, this is always the input file itself.
for (StringRef File : Files) {
for (auto I = Files.begin() + 1, E = Files.end(); I != E; ++I) {
OS << '\n';
PrintFilename(OS, File, OutputFormat);
PrintFilename(OS, *I, OutputFormat);
OS << ":\n";
}
}

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@ -1652,9 +1652,10 @@ Parser::ParsePostfixExpressionSuffix(ExprResult LHS) {
if (Tok.is(tok::code_completion)) {
// Code completion for a member access expression.
if (Expr *Base = LHS.get())
Actions.CodeCompleteMemberReferenceExpr(
getCurScope(), LHS.get(), OpLoc, OpKind == tok::arrow,
ExprStatementTokLoc == LHS.get()->getLocStart());
getCurScope(), Base, OpLoc, OpKind == tok::arrow,
ExprStatementTokLoc == Base->getLocStart());
cutOffParsing();
return ExprError();

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@ -5944,6 +5944,28 @@ Sema::AddOverloadCandidate(FunctionDecl *Function,
Candidate.FailureKind = ovl_fail_illegal_constructor;
return;
}
// C++ [over.match.funcs]p8: (proposed DR resolution)
// A constructor inherited from class type C that has a first parameter
// of type "reference to P" (including such a constructor instantiated
// from a template) is excluded from the set of candidate functions when
// constructing an object of type cv D if the argument list has exactly
// one argument and D is reference-related to P and P is reference-related
// to C.
auto *Shadow = dyn_cast<ConstructorUsingShadowDecl>(FoundDecl.getDecl());
if (Shadow && Args.size() == 1 && Constructor->getNumParams() >= 1 &&
Constructor->getParamDecl(0)->getType()->isReferenceType()) {
QualType P = Constructor->getParamDecl(0)->getType()->getPointeeType();
QualType C = Context.getRecordType(Constructor->getParent());
QualType D = Context.getRecordType(Shadow->getParent());
SourceLocation Loc = Args.front()->getExprLoc();
if ((Context.hasSameUnqualifiedType(P, C) || IsDerivedFrom(Loc, P, C)) &&
(Context.hasSameUnqualifiedType(D, P) || IsDerivedFrom(Loc, D, P))) {
Candidate.Viable = false;
Candidate.FailureKind = ovl_fail_inhctor_slice;
return;
}
}
}
unsigned NumParams = Proto->getNumParams();
@ -6016,31 +6038,6 @@ Sema::AddOverloadCandidate(FunctionDecl *Function,
}
}
// C++ [over.best.ics]p4+: (proposed DR resolution)
// If the target is the first parameter of an inherited constructor when
// constructing an object of type C with an argument list that has exactly
// one expression, an implicit conversion sequence cannot be formed if C is
// reference-related to the type that the argument would have after the
// application of the user-defined conversion (if any) and before the final
// standard conversion sequence.
auto *Shadow = dyn_cast<ConstructorUsingShadowDecl>(FoundDecl.getDecl());
if (Shadow && Args.size() == 1 && !isa<InitListExpr>(Args.front())) {
bool DerivedToBase, ObjCConversion, ObjCLifetimeConversion;
QualType ConvertedArgumentType = Args.front()->getType();
if (Candidate.Conversions[0].isUserDefined())
ConvertedArgumentType =
Candidate.Conversions[0].UserDefined.After.getFromType();
if (CompareReferenceRelationship(Args.front()->getLocStart(),
Context.getRecordType(Shadow->getParent()),
ConvertedArgumentType, DerivedToBase,
ObjCConversion,
ObjCLifetimeConversion) >= Ref_Related) {
Candidate.Viable = false;
Candidate.FailureKind = ovl_fail_inhctor_slice;
return;
}
}
if (EnableIfAttr *FailedAttr = CheckEnableIf(Function, Args)) {
Candidate.Viable = false;
Candidate.FailureKind = ovl_fail_enable_if;
@ -10222,8 +10219,13 @@ static void NoteFunctionCandidate(Sema &S, OverloadCandidate *Cand,
return DiagnoseOpenCLExtensionDisabled(S, Cand);
case ovl_fail_inhctor_slice:
// It's generally not interesting to note copy/move constructors here.
if (cast<CXXConstructorDecl>(Fn)->isCopyOrMoveConstructor())
return;
S.Diag(Fn->getLocation(),
diag::note_ovl_candidate_inherited_constructor_slice);
diag::note_ovl_candidate_inherited_constructor_slice)
<< (Fn->getPrimaryTemplate() ? 1 : 0)
<< Fn->getParamDecl(0)->getType()->isRValueReferenceType();
MaybeEmitInheritedConstructorNote(S, Cand->FoundDecl);
return;

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@ -5127,18 +5127,22 @@ ExprResult Sema::CheckTemplateArgument(NonTypeTemplateParmDecl *Param,
if (CTAK == CTAK_Deduced &&
!Context.hasSameType(ParamType.getNonLValueExprType(Context),
Arg->getType())) {
// C++ [temp.deduct.type]p17: (DR1770)
// If P has a form that contains <i>, and if the type of i differs from
// the type of the corresponding template parameter of the template named
// by the enclosing simple-template-id, deduction fails.
//
// Note that CTAK will be CTAK_DeducedFromArrayBound if the form was [i]
// rather than <i>.
//
// FIXME: We interpret the 'i' here as referring to the expression
// denoting the non-type template parameter rather than the parameter
// itself, and so strip off references before comparing types. It's
// not clear how this is supposed to work for references.
// FIXME: If either type is dependent, we skip the check. This isn't
// correct, since during deduction we're supposed to have replaced each
// template parameter with some unique (non-dependent) placeholder.
// FIXME: If the argument type contains 'auto', we carry on and fail the
// type check in order to force specific types to be more specialized than
// 'auto'. It's not clear how partial ordering with 'auto' is supposed to
// work.
if ((ParamType->isDependentType() || Arg->isTypeDependent()) &&
!Arg->getType()->getContainedAutoType()) {
Converted = TemplateArgument(Arg);
return Arg;
}
// FIXME: This attempts to implement C++ [temp.deduct.type]p17. Per DR1770,
// we should actually be checking the type of the template argument in P,
// not the type of the template argument deduced from A, against the
// template parameter type.
Diag(StartLoc, diag::err_deduced_non_type_template_arg_type_mismatch)
<< Arg->getType()
<< ParamType.getUnqualifiedType();

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@ -1,16 +1,16 @@
// RUN: %clang_cc1 -std=c++11 -verify %s
struct B1 { // expected-note 2{{candidate}}
struct B1 {
B1(int); // expected-note {{candidate}}
};
struct B2 { // expected-note 2{{candidate}}
struct B2 {
B2(int); // expected-note {{candidate}}
};
struct D1 : B1, B2 { // expected-note 2{{candidate}}
using B1::B1; // expected-note 3{{inherited here}}
using B2::B2; // expected-note 3{{inherited here}}
using B1::B1; // expected-note {{inherited here}}
using B2::B2; // expected-note {{inherited here}}
};
D1 d1(0); // expected-error {{ambiguous}}
@ -35,7 +35,7 @@ namespace default_ctor {
operator D&&();
};
struct A { // expected-note 4{{candidate}}
struct A { // expected-note 2{{candidate}}
A(); // expected-note {{candidate}}
A(C &&); // expected-note {{candidate}}
@ -47,7 +47,7 @@ namespace default_ctor {
A(convert_to_D2); // expected-note {{candidate}}
};
struct B { // expected-note 4{{candidate}}
struct B { // expected-note 2{{candidate}}
B(); // expected-note {{candidate}}
B(C &&); // expected-note {{candidate}}
@ -66,9 +66,9 @@ namespace default_ctor {
using B::operator=;
};
struct D : A, B {
using A::A; // expected-note 5{{inherited here}}
using A::A; // expected-note 3{{inherited here}}
using A::operator=;
using B::B; // expected-note 5{{inherited here}}
using B::B; // expected-note 3{{inherited here}}
using B::operator=;
D(int);
@ -93,13 +93,13 @@ namespace default_ctor {
}
struct Y;
struct X { // expected-note 2{{candidate}}
struct X {
X();
X(volatile Y &); // expected-note {{constructor inherited from base class cannot be used to initialize from an argument of the derived class type}}
X(volatile Y &); // expected-note 3{{inherited constructor cannot be used to copy object}}
} x;
struct Y : X { using X::X; } volatile y; // expected-note 2{{candidate}}
struct Z : Y { using Y::Y; } volatile z; // expected-note 3{{candidate}} expected-note 5{{inherited here}}
Z z1(x); // ok
Z z2(y); // ok, Z is not reference-related to type of y
struct Y : X { using X::X; } volatile y;
struct Z : Y { using Y::Y; } volatile z; // expected-note 4{{no known conversion}} expected-note 2{{would lose volatile}} expected-note 3{{requires 0}} expected-note 3{{inherited here}}
Z z1(x); // expected-error {{no match}}
Z z2(y); // expected-error {{no match}}
Z z3(z); // expected-error {{no match}}
}

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@ -134,13 +134,13 @@ ExplicitDefaultedAggr eda2{};
struct DefaultedBase {
int n;
DefaultedBase() = default; // expected-note 0+ {{candidate}}
DefaultedBase(DefaultedBase const&) = default; // expected-note 0+ {{candidate}}
DefaultedBase(DefaultedBase &&) = default; // expected-note 0+ {{candidate}}
DefaultedBase() = default;
DefaultedBase(DefaultedBase const&) = default;
DefaultedBase(DefaultedBase &&) = default;
};
struct InheritingConstructors : DefaultedBase { // expected-note 3 {{candidate}}
using DefaultedBase::DefaultedBase; // expected-note 2 {{inherited here}}
using DefaultedBase::DefaultedBase;
};
InheritingConstructors ic = { 42 }; // expected-error {{no matching constructor}}

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@ -71,14 +71,14 @@ namespace dr1638 { // dr1638: yes
namespace dr1645 { // dr1645: 3.9
#if __cplusplus >= 201103L
struct A { // expected-note 2{{candidate}}
struct A {
constexpr A(int, float = 0); // expected-note 2{{candidate}}
explicit A(int, int = 0); // expected-note 2{{candidate}}
A(int, int, int = 0) = delete; // expected-note {{candidate}}
};
struct B : A { // expected-note 2{{candidate}}
using A::A; // expected-note 7{{inherited here}}
using A::A; // expected-note 5{{inherited here}}
};
constexpr B a(0); // expected-error {{ambiguous}}

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@ -138,18 +138,21 @@ namespace dr1959 { // dr1959: 3.9
struct c;
struct a {
a() = default;
a(const a &) = delete; // expected-note 2{{deleted}}
a(const a &) = delete; // expected-note {{deleted}}
a(const b &) = delete; // not inherited
a(c &&) = delete;
template<typename T> a(T) = delete;
a(c &&) = delete; // expected-note {{not viable}}
template<typename T> a(T) = delete; // expected-note {{would take its own class type by value}}
};
struct b : a { // expected-note {{copy constructor of 'b' is implicitly deleted because base class 'dr1959::a' has a deleted copy constructor}}
using a::a;
struct b : a { // expected-note {{cannot bind}} expected-note {{deleted because}}
using a::a; // expected-note 2{{inherited here}}
};
a x;
b y = x; // expected-error {{deleted}}
// FIXME: As a resolution to an open DR against P0136R0, we disallow
// use of inherited constructors to construct from a single argument
// where the base class is reference-related to the argument type.
b y = x; // expected-error {{no viable conversion}}
b z = z; // expected-error {{deleted}}
struct c : a {
@ -158,7 +161,7 @@ namespace dr1959 { // dr1959: 3.9
};
// FIXME: As a resolution to an open DR against P0136R0, we disallow
// use of inherited constructors to construct from a single argument
// where the derived class is reference-related to its type.
// where the base class is reference-related to the argument type.
c q(static_cast<c&&>(q));
#endif
}

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@ -3,7 +3,7 @@
// Note: [class.inhctor] was removed by P0136R1. This tests the new behavior
// for the wording that used to be there.
struct A { // expected-note 8{{candidate is the implicit}}
struct A { // expected-note 4{{candidate is the implicit}}
A(...); // expected-note 4{{candidate constructor}} expected-note 4{{candidate inherited constructor}}
A(int = 0, int = 0, int = 0, int = 0, ...); // expected-note 3{{candidate constructor}} expected-note 3{{candidate inherited constructor}}
A(int = 0, int = 0, ...); // expected-note 3{{candidate constructor}} expected-note 3{{candidate inherited constructor}}
@ -15,7 +15,7 @@ struct A { // expected-note 8{{candidate is the implicit}}
};
struct B : A { // expected-note 4{{candidate is the implicit}}
using A::A; // expected-note 19{{inherited here}}
using A::A; // expected-note 15{{inherited here}}
B(void*);
};

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@ -14,21 +14,21 @@ D1 d1a(1), d1b(1, 1);
D1 fd1() { return 1; }
struct B2 { // expected-note 2{{candidate}}
struct B2 {
explicit B2(int, int = 0, int = 0);
};
struct D2 : B2 { // expected-note 2{{candidate constructor}}
using B2::B2; // expected-note 2{{inherited here}}
using B2::B2;
};
D2 d2a(1), d2b(1, 1), d2c(1, 1, 1);
D2 fd2() { return 1; } // expected-error {{no viable conversion}}
struct B3 { // expected-note 2{{candidate}}
struct B3 {
B3(void*); // expected-note {{candidate}}
};
struct D3 : B3 { // expected-note 2{{candidate constructor}}
using B3::B3; // expected-note 3{{inherited here}}
using B3::B3; // expected-note {{inherited here}}
};
D3 fd3() { return 1; } // expected-error {{no viable conversion}}

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@ -3,15 +3,15 @@
// Note: [class.inhctor] was removed by P0136R1. This tests the new behavior
// for the wording that used to be there.
struct B1 { // expected-note 2{{candidate}}
struct B1 {
B1(int); // expected-note {{candidate}}
};
struct B2 { // expected-note 2{{candidate}}
struct B2 {
B2(int); // expected-note {{candidate}}
};
struct D1 : B1, B2 { // expected-note 2{{candidate}}
using B1::B1; // expected-note 3{{inherited here}}
using B2::B2; // expected-note 3{{inherited here}}
using B1::B1; // expected-note {{inherited here}}
using B2::B2; // expected-note {{inherited here}}
};
struct D2 : B1, B2 {
using B1::B1;

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@ -27,6 +27,16 @@ class Proxy {
void test(const Proxy &p) {
p->
}
struct Test1 {
Base1 b;
static void sfunc() {
b. // expected-error {{invalid use of member 'b' in static member function}}
}
};
// RUN: %clang_cc1 -fsyntax-only -code-completion-at=%s:29:6 %s -o - | FileCheck -check-prefix=CHECK-CC1 %s
// CHECK-CC1: Base1 : Base1::
// CHECK-CC1: member1 : [#int#][#Base1::#]member1
@ -40,3 +50,5 @@ void test(const Proxy &p) {
// CHECK-CC1: memfun2 : [#void#][#Base3::#]memfun2(<#int#>)
// CHECK-CC1: memfun3 : [#int#]memfun3(<#int#>)
// Make sure this doesn't crash
// RUN: %clang_cc1 -fsyntax-only -code-completion-at=%s:36:7 %s -verify

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@ -126,6 +126,8 @@
// RUN: %clang -no-canonical-prefixes -target powerpc64--netbsd -static \
// RUN: --sysroot=%S/Inputs/basic_netbsd_tree %s -### 2>&1 \
// RUN: | FileCheck -check-prefix=S-POWERPC64 %s
// RUN: %clang -target x86_64--netbsd -pthread -dM -E %s \
// RUN: | FileCheck -check-prefix=PTHREAD %s
// STATIC: ld{{.*}}" "--eh-frame-hdr"
// STATIC-NOT: "-pie"
@ -427,3 +429,7 @@
// S-POWERPC64: "{{.*}}/usr/lib{{/|\\\\}}crti.o"
// S-POWERPC64: "{{.*}}/usr/lib{{/|\\\\}}crtbegin.o" "{{.*}}.o" "-lc"
// S-POWERPC64: "{{.*}}/usr/lib{{/|\\\\}}crtend.o" "{{.*}}/usr/lib{{/|\\\\}}crtn.o"
// PTHREAD-NOT: _POSIX_THREADS
// PTHREAD: _REENTRANT
// PTHREAD-NOT: _POSIX_THREADS

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@ -32,5 +32,12 @@
// RUN: FileCheck -check-prefix=TEST5 %s < %t.d
// TEST5: foo $$(bar) b az qu\ ux \ space:
// Test self dependency, PR31644
// RUN: %clang -E -MD -MP -MF %t.d %s
// RUN: FileCheck -check-prefix=TEST6 %s < %t.d
// TEST6: dependencies-and-pp.c
// TEST6-NOT: dependencies-and-pp.c:
// TODO: Test default target without quoting
// TODO: Test default target with quoting

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@ -56,9 +56,9 @@ namespace InvalidConstruction {
}
namespace ExplicitConv {
struct B {}; // expected-note 2{{candidate}}
struct B {};
struct D : B { // expected-note 3{{candidate}}
using B::B; // expected-note 2{{inherited}}
using B::B;
};
struct X { explicit operator B(); } x;
struct Y { explicit operator D(); } y;
@ -68,19 +68,40 @@ namespace ExplicitConv {
}
namespace NestedListInit {
struct B { B(); } b; // expected-note 5{{candidate}}
struct D : B { // expected-note 3{{candidate}}
using B::B; // expected-note 2{{inherited}}
struct B { B(); } b; // expected-note 3{{candidate}}
struct D : B { // expected-note 14{{not viable}}
using B::B;
};
// This is a bit weird. We're allowed one pair of braces for overload
// resolution, and one more pair of braces due to [over.ics.list]/2.
B b1 = {b};
B b2 = {{b}};
B b3 = {{{b}}}; // expected-error {{no match}}
// This is the same, but we get one call to D's version of B::B(const B&)
// before the two permitted calls to D::D(D&&).
D d1 = {b};
D d2 = {{b}};
D d3 = {{{b}}};
// Per a proposed defect resolution, we don't get to call
// D's version of B::B(const B&) here.
D d0 = b; // expected-error {{no viable conversion}}
D d1 = {b}; // expected-error {{no match}}
D d2 = {{b}}; // expected-error {{no match}}
D d3 = {{{b}}}; // expected-error {{no match}}
D d4 = {{{{b}}}}; // expected-error {{no match}}
}
namespace PR31606 {
// PR31606: as part of a proposed defect resolution, do not consider
// inherited constructors that would be copy constructors for any class
// between the declaring class and the constructed class (inclusive).
struct Base {};
struct A : Base {
using Base::Base;
bool operator==(A const &) const; // expected-note {{no known conversion from 'PR31606::B' to 'const PR31606::A' for 1st argument}}
};
struct B : Base {
using Base::Base;
};
bool a = A{} == A{};
// Note, we do *not* allow operator=='s argument to use the inherited A::A(Base&&) constructor to construct from B{}.
bool b = A{} == B{}; // expected-error {{invalid operands}}
}

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@ -207,19 +207,19 @@ namespace NTTPTypeVsPartialOrder {
struct X { typedef int value_type; };
template<typename T> struct Y { typedef T value_type; };
template<typename T, typename T::value_type N> struct A; // expected-note {{template}}
template<typename T, typename T::value_type N> struct A;
template<int N> struct A<X, N> {};
template<typename T, T N> struct A<Y<T>, N> {}; // expected-error {{not more specialized}} expected-note {{'T' vs 'typename Y<type-parameter-0-0>::value_type'}}
template<typename T, T N> struct A<Y<T>, N> {};
A<X, 0> ax;
A<Y<int>, 0> ay;
template<int, typename T, typename T::value_type> struct B; // expected-note {{template}}
template<typename T, typename T::value_type N> struct B<0, T, N>; // expected-note {{matches}}
template<int, typename T, typename T::value_type> struct B;
template<typename T, typename T::value_type N> struct B<0, T, N>;
template<int N> struct B<0, X, N> {};
template<typename T, T N> struct B<0, Y<T>, N> {}; // expected-error {{not more specialized}} expected-note {{'T' vs 'typename Y<type-parameter-0-0>::value_type'}} expected-note {{matches}}
template<typename T, T N> struct B<0, Y<T>, N> {};
B<0, X, 0> bx;
B<0, Y<int>, 0> by; // expected-error {{ambiguous}}
B<0, Y<int>, 0> by;
}
namespace DefaultArgVsPartialSpec {

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@ -17,7 +17,7 @@ void test_Unexpanded() {
// Test using non-type members from pack of base classes.
template<typename ...T> struct A : T... { // expected-note 2{{candidate}}
using T::T ...; // expected-note 6{{inherited here}}
using T::T ...; // expected-note 2{{inherited here}}
using T::operator() ...;
using T::operator T* ...;
using T::h ...;
@ -29,7 +29,7 @@ template<typename ...T> struct A : T... { // expected-note 2{{candidate}}
};
namespace test_A {
struct X { // expected-note 2{{candidate}}
struct X {
X();
X(int); // expected-note {{candidate}}
void operator()(int); // expected-note 2{{candidate}}
@ -43,7 +43,7 @@ namespace test_A {
operator Y *();
void h(int, int); // expected-note {{not viable}}
};
struct Z { // expected-note 2{{candidate}}
struct Z {
Z();
Z(int); // expected-note {{candidate}}
void operator()(int); // expected-note 2{{candidate}}

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@ -0,0 +1,14 @@
// RUN: %clang_cc1 -std=c++1z %s -verify
// expected-no-diagnostics
namespace hana_enable_if_idiom {
template<bool> struct A {};
template<typename, typename = A<true>> struct B;
template<typename T, bool N> struct B<T, A<N>> {};
template<typename T> struct B<T, A<T::value>> {};
struct C {
static const bool value = true;
};
B<C> b;
}

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@ -370,13 +370,13 @@ namespace PR17696 {
}
namespace partial_order_different_types {
// These are unordered because the type of the final argument doesn't match.
template<int, int, typename T, typename, T> struct A; // expected-note {{here}}
template<int N, typename T, typename U, T V> struct A<0, N, T, U, V> {}; // expected-note {{matches}}
template<typename T, typename U, U V> struct A<0, 0, T, U, V> {}; // expected-note {{matches}}
// expected-error@-1 {{not more specialized than the primary}}
// expected-note@-2 {{deduced non-type template argument does not have the same type as the corresponding template parameter ('U' vs 'type-parameter-0-0')}}
A<0, 0, int, int, 0> a; // expected-error {{ambiguous partial specializations}}
template<int, int, typename T, typename, T> struct A;
template<int N, typename T, typename U, T V> struct A<0, N, T, U, V>; // expected-note {{matches}}
// FIXME: It appears that this partial specialization should be ill-formed as
// it is not more specialized than the primary template. V is not deducible
// because it does not have the same type as the corresponding parameter.
template<int N, typename T, typename U, U V> struct A<0, N, T, U, V> {}; // expected-note {{matches}}
A<0, 0, int, int, 0> a; // expected-error {{ambiguous}}
}
namespace partial_order_references {
@ -434,7 +434,7 @@ namespace dependent_nested_partial_specialization {
template<typename T> struct E {
template<typename U, U V> struct F; // expected-note {{template}}
template<typename W, T V> struct F<W, V> {}; // expected-error {{not more specialized than the primary}} expected-note {{does not have the same type}}
template<typename W, T V> struct F<W, V> {}; // expected-error {{not more specialized than the primary}}
};
E<int>::F<int, 0> e1; // expected-note {{instantiation of}}
}

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@ -79,13 +79,13 @@ namespace Auto {
TInt<Auto> ia;
TInt<AutoPtr> iap; // expected-error {{different template parameters}}
TInt<DecltypeAuto> ida; // FIXME expected-error {{different template parameters}}
TInt<DecltypeAuto> ida;
TInt<Int> ii;
TInt<IntPtr> iip; // expected-error {{different template parameters}}
TIntPtr<Auto> ipa;
TIntPtr<AutoPtr> ipap;
TIntPtr<DecltypeAuto> ipda; // FIXME expected-error {{different template parameters}}
TIntPtr<DecltypeAuto> ipda;
TIntPtr<Int> ipi; // expected-error {{different template parameters}}
TIntPtr<IntPtr> ipip;
@ -114,6 +114,6 @@ namespace Auto {
int n;
template<auto A, decltype(A) B = &n> struct SubstFailure;
TInt<SubstFailure> isf; // expected-error {{different template parameters}}
TIntPtr<SubstFailure> ipsf; // expected-error {{different template parameters}}
TInt<SubstFailure> isf; // FIXME: this should be ill-formed
TIntPtr<SubstFailure> ipsf;
}