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llvm-project/clang/test/SemaTemplate/default-arguments.cpp

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Update tests to use %clang_cc1 instead of 'clang-cc' or 'clang -cc1'. - This is designed to make it obvious that %clang_cc1 is a "test variable" which is substituted. It is '%clang_cc1' instead of '%clang -cc1' because it can be useful to redefine what gets run as 'clang -cc1' (for example, to set a default target). llvm-svn: 91446
2009-12-16 04:14:24 +08:00
// RUN: %clang_cc1 -fsyntax-only -verify %s
Allow the use of default template arguments when forming a class template specialization (e.g., std::vector<int> would now be well-formed, since it relies on a default argument for the Allocator template parameter). This is much less interesting than one might expect, since (1) we're not actually using the default arguments for anything important, such as naming an actual Decl, and (2) we'll often need to instantiate the default arguments to check their well-formedness. The real fun will come later. llvm-svn: 64310
2009-02-12 02:16:40 +08:00
template<typename T, int N = 2> struct X; // expected-note{{template is declared here}}
X<int, 1> *x1;
X<int> *x2;
Implement parsing of nested-name-specifiers that involve template-ids, e.g., std::vector<int>::allocator_type When we parse a template-id that names a type, it will become either a template-id annotation (which is a parsed representation of a template-id that has not yet been through semantic analysis) or a typename annotation (where semantic analysis has resolved the template-id to an actual type), depending on the context. We only produce a type in contexts where we know that we only need type information, e.g., in a type specifier. Otherwise, we create a template-id annotation that can later be "upgraded" by transforming it into a typename annotation when the parser needs a type. This occurs, for example, when we've parsed "std::vector<int>" above and then see the '::' after it. However, it means that when writing something like this: template<> class Outer::Inner<int> { ... }; We have two tokens to represent Outer::Inner<int>: one token for the nested name specifier Outer::, and one template-id annotation token for Inner<int>, which will be passed to semantic analysis to define the class template specialization. Most of the churn in the template tests in this patch come from an improvement in our error recovery from ill-formed template-ids. llvm-svn: 65467
2009-02-26 03:37:18 +08:00
X<> *x3; // expected-error{{too few template arguments for class template 'X'}}
Allow the use of default template arguments when forming a class template specialization (e.g., std::vector<int> would now be well-formed, since it relies on a default argument for the Allocator template parameter). This is much less interesting than one might expect, since (1) we're not actually using the default arguments for anything important, such as naming an actual Decl, and (2) we'll often need to instantiate the default arguments to check their well-formedness. The real fun will come later. llvm-svn: 64310
2009-02-12 02:16:40 +08:00
template<typename U = float, int M> struct X;
X<> *x4;
Fix a case when the TemplateArgs vector can be empty. llvm-svn: 72911
2009-06-05 10:12:32 +08:00
Fix another crash and actually make the test case work. llvm-svn: 72913
2009-06-05 10:45:24 +08:00
template<typename T = int> struct Z { };
Fix a case when the TemplateArgs vector can be empty. llvm-svn: 72911
2009-06-05 10:12:32 +08:00
template struct Z<>;
Add a null check that fixes the crash in PR4362, and make sure to instantiate non-type template arguments. llvm-svn: 73193
2009-06-12 00:06:49 +08:00
// PR4362
template<class T> struct a { };
template<> struct a<int> { static const bool v = true; };
template<class T, bool = a<T>::v> struct p { }; // expected-error {{no member named 'v'}}
template struct p<bool>; // expected-note {{in instantiation of default argument for 'p<bool>' required here}}
template struct p<int>;
When mapping from an injected-class-name to its corresponding template, make sure to get the template that corresponds to *this* declaration of the class template or specialization, rather than the canonical specialization. Fixes PR5187. llvm-svn: 84119
2009-10-15 01:30:58 +08:00
// PR5187
template<typename T, typename U>
struct A;
template<typename T, typename U = T>
struct A;
template<typename T, typename U>
struct A {
void f(A<T>);
};
template<typename T>
struct B { };
template<>
struct B<void> {
typedef B<void*> type;
};
Improve instantiation of default template arguments for nested templates. The instantiation of these default arguments must be (and now, is) delayed until the template argument is actually used, at which point we substitute all levels of template arguments concurrently. llvm-svn: 86578
2009-11-10 03:17:50 +08:00
// Nested default arguments for template parameters.
template<typename T> struct X1 { };
template<typename T>
struct X2 {
Sema: Subst type default template args earlier Summary: We would not perform substitution at an appropriate point, allowing strange results to appear. We would accepts things that we shouldn't or mangle things incorrectly. Note that this hasn't fixed the other cases like template-template parameters or non-type template parameters. Reviewers: doug.gregor, rjmccall, rsmith Reviewed By: rsmith CC: cfe-commits Differential Revision: http://llvm-reviews.chandlerc.com/D1507 llvm-svn: 189540
2013-08-29 07:48:32 +08:00
template<typename U = typename X1<T>::type> // expected-error{{no type named 'type' in 'X1<int>'}} \
// expected-error{{no type named 'type' in 'X1<char>'}}
struct Inner1 { }; // expected-note{{template is declared here}}
Improve instantiation of default template arguments for nested templates. The instantiation of these default arguments must be (and now, is) delayed until the template argument is actually used, at which point we substitute all levels of template arguments concurrently. llvm-svn: 86578
2009-11-10 03:17:50 +08:00
Sema: Subst type default template args earlier Summary: We would not perform substitution at an appropriate point, allowing strange results to appear. We would accepts things that we shouldn't or mangle things incorrectly. Note that this hasn't fixed the other cases like template-template parameters or non-type template parameters. Reviewers: doug.gregor, rjmccall, rsmith Reviewed By: rsmith CC: cfe-commits Differential Revision: http://llvm-reviews.chandlerc.com/D1507 llvm-svn: 189540
2013-08-29 07:48:32 +08:00
template<T Value = X1<T>::value> // expected-error{{no member named 'value' in 'X1<int>'}} \
// expected-error{{no member named 'value' in 'X1<char>'}}
struct NonType1 { }; // expected-note{{template is declared here}}
Improve instantiation of default template arguments for nested templates. The instantiation of these default arguments must be (and now, is) delayed until the template argument is actually used, at which point we substitute all levels of template arguments concurrently. llvm-svn: 86578
2009-11-10 03:17:50 +08:00
template<T Value>
struct Inner2 { };
template<typename U>
struct Inner3 {
template<typename X = T, typename V = U>
struct VeryInner { };
template<T Value1 = sizeof(T), T Value2 = sizeof(U),
T Value3 = Value1 + Value2>
struct NonType2 { };
};
};
Sema: Subst type default template args earlier Summary: We would not perform substitution at an appropriate point, allowing strange results to appear. We would accepts things that we shouldn't or mangle things incorrectly. Note that this hasn't fixed the other cases like template-template parameters or non-type template parameters. Reviewers: doug.gregor, rjmccall, rsmith Reviewed By: rsmith CC: cfe-commits Differential Revision: http://llvm-reviews.chandlerc.com/D1507 llvm-svn: 189540
2013-08-29 07:48:32 +08:00
X2<int> x2i; // expected-note{{in instantiation of template class 'X2<int>' requested here}}
Improve instantiation of default template arguments for nested templates. The instantiation of these default arguments must be (and now, is) delayed until the template argument is actually used, at which point we substitute all levels of template arguments concurrently. llvm-svn: 86578
2009-11-10 03:17:50 +08:00
X2<int>::Inner1<float> x2iif;
Sema: Subst type default template args earlier Summary: We would not perform substitution at an appropriate point, allowing strange results to appear. We would accepts things that we shouldn't or mangle things incorrectly. Note that this hasn't fixed the other cases like template-template parameters or non-type template parameters. Reviewers: doug.gregor, rjmccall, rsmith Reviewed By: rsmith CC: cfe-commits Differential Revision: http://llvm-reviews.chandlerc.com/D1507 llvm-svn: 189540
2013-08-29 07:48:32 +08:00
X2<int>::Inner1<> x2bad; // expected-error{{too few template arguments for class template 'Inner1'}}
Improve instantiation of default template arguments for nested templates. The instantiation of these default arguments must be (and now, is) delayed until the template argument is actually used, at which point we substitute all levels of template arguments concurrently. llvm-svn: 86578
2009-11-10 03:17:50 +08:00
X2<int>::NonType1<'a'> x2_nontype1;
Sema: Subst type default template args earlier Summary: We would not perform substitution at an appropriate point, allowing strange results to appear. We would accepts things that we shouldn't or mangle things incorrectly. Note that this hasn't fixed the other cases like template-template parameters or non-type template parameters. Reviewers: doug.gregor, rjmccall, rsmith Reviewed By: rsmith CC: cfe-commits Differential Revision: http://llvm-reviews.chandlerc.com/D1507 llvm-svn: 189540
2013-08-29 07:48:32 +08:00
X2<int>::NonType1<> x2_nontype1_bad; // expected-error{{too few template arguments for class template 'NonType1'}}
Improve instantiation of default template arguments for nested templates. The instantiation of these default arguments must be (and now, is) delayed until the template argument is actually used, at which point we substitute all levels of template arguments concurrently. llvm-svn: 86578
2009-11-10 03:17:50 +08:00
// Check multi-level substitution into template type arguments
X2<int>::Inner3<float>::VeryInner<> vi;
Sema: Subst type default template args earlier Summary: We would not perform substitution at an appropriate point, allowing strange results to appear. We would accepts things that we shouldn't or mangle things incorrectly. Note that this hasn't fixed the other cases like template-template parameters or non-type template parameters. Reviewers: doug.gregor, rjmccall, rsmith Reviewed By: rsmith CC: cfe-commits Differential Revision: http://llvm-reviews.chandlerc.com/D1507 llvm-svn: 189540
2013-08-29 07:48:32 +08:00
X2<char>::Inner3<int>::NonType2<> x2_deep_nontype; // expected-note{{in instantiation of template class 'X2<char>' requested here}}
Improve instantiation of default template arguments for nested templates. The instantiation of these default arguments must be (and now, is) delayed until the template argument is actually used, at which point we substitute all levels of template arguments concurrently. llvm-svn: 86578
2009-11-10 03:17:50 +08:00
template<typename T, typename U>
struct is_same { static const bool value = false; };
template<typename T>
struct is_same<T, T> { static const bool value = true; };
Fix speculative parsing of dependent template names in nested-name-specifiers so that they don't gobble the template name (or operator-function-id) unless there is also a template-argument-list. For example, given T::template apply we would previously consume both "template" and "apply" as part of parsing the nested-name-specifier, then error when we see that there is no "<" starting a template argument list. Now, we parse such constructs tentatively, and back off if the "<" is not present. This allows us to parse dependent template names as one would use them for, e.g., template template parameters: template<typename T, template<class> class X = T::template apply> struct MetaSomething; Also, test default arguments for template template parameters. llvm-svn: 86841
2009-11-12 00:39:34 +08:00
int array1[is_same<__typeof__(vi),
Improve instantiation of default template arguments for nested templates. The instantiation of these default arguments must be (and now, is) delayed until the template argument is actually used, at which point we substitute all levels of template arguments concurrently. llvm-svn: 86578
2009-11-10 03:17:50 +08:00
X2<int>::Inner3<float>::VeryInner<int, float> >::value? 1 : -1];
Fix speculative parsing of dependent template names in nested-name-specifiers so that they don't gobble the template name (or operator-function-id) unless there is also a template-argument-list. For example, given T::template apply we would previously consume both "template" and "apply" as part of parsing the nested-name-specifier, then error when we see that there is no "<" starting a template argument list. Now, we parse such constructs tentatively, and back off if the "<" is not present. This allows us to parse dependent template names as one would use them for, e.g., template template parameters: template<typename T, template<class> class X = T::template apply> struct MetaSomething; Also, test default arguments for template template parameters. llvm-svn: 86841
2009-11-12 00:39:34 +08:00
int array2[is_same<__typeof(x2_deep_nontype),
X2<char>::Inner3<int>::NonType2<sizeof(char), sizeof(int),
Improve instantiation of default template arguments for nested templates. The instantiation of these default arguments must be (and now, is) delayed until the template argument is actually used, at which point we substitute all levels of template arguments concurrently. llvm-svn: 86578
2009-11-10 03:17:50 +08:00
sizeof(char)+sizeof(int)> >::value? 1 : -1];
Fix speculative parsing of dependent template names in nested-name-specifiers so that they don't gobble the template name (or operator-function-id) unless there is also a template-argument-list. For example, given T::template apply we would previously consume both "template" and "apply" as part of parsing the nested-name-specifier, then error when we see that there is no "<" starting a template argument list. Now, we parse such constructs tentatively, and back off if the "<" is not present. This allows us to parse dependent template names as one would use them for, e.g., template template parameters: template<typename T, template<class> class X = T::template apply> struct MetaSomething; Also, test default arguments for template template parameters. llvm-svn: 86841
2009-11-12 00:39:34 +08:00
// Template template parameter defaults
template<template<typename T> class X = X2> struct X3 { };
int array3[is_same<X3<>, X3<X2> >::value? 1 : -1];
struct add_pointer {
template<typename T>
struct apply {
typedef T* type;
};
};
template<typename T, template<typename> class X = T::template apply>
struct X4;
int array4[is_same<X4<add_pointer>,
X4<add_pointer, add_pointer::apply> >::value? 1 : -1];
Before checking a template template argument against its corresponding template template parameter, substitute any prior template arguments into the template template parameter. This, for example, allows us to properly check the template template argument for a class such as: template<typename T, template<T Value> class X> struct Foo; The actual implementation of this feature was trivial; most of the change is dedicated to giving decent diagnostics when this substitution goes horribly wrong. We now get a note like: note: while substituting prior template arguments into template template parameter 'X' [with T = float] As part of this change, enabled some very pedantic checking when comparing template template parameter lists, which shook out a bug in our overly-eager checking of default arguments of template template parameters. We now perform only minimal checking of such default arguments when they are initially parsed. llvm-svn: 86864
2009-11-12 03:13:48 +08:00
template<int> struct X5 {}; // expected-note{{has a different type 'int'}}
template<long> struct X5b {};
template<typename T,
template<T> class B = X5> // expected-error{{template template argument has different}} \
// expected-note{{previous non-type template parameter}}
struct X6 {};
X6<int> x6a;
Improve diagnostics when a default template argument does not match with its corresponding template parameter. This can happen when we performed some substitution into the default template argument and what we had doesn't match any more, e.g., template<int> struct A; template<typename T, template<T> class X = A> class B; B<long> b; Previously, we'd emit a pretty but disembodied diagnostic showing how the default argument didn't match the template parameter. The diagnostic was good, but nothing tied it to the *use* of the default argument in "B<long>". This commit fixes that. Also, tweak the counting of active template instantiations to avoid counting non-instantiation records, such as those we create for (surprise!) checking default arguments, instantiating default arguments, and performing substitutions as part of template argument deduction. llvm-svn: 86884
2009-11-12 05:54:23 +08:00
X6<long> x6b; // expected-note{{while checking a default template argument}}
Before checking a template template argument against its corresponding template template parameter, substitute any prior template arguments into the template template parameter. This, for example, allows us to properly check the template template argument for a class such as: template<typename T, template<T Value> class X> struct Foo; The actual implementation of this feature was trivial; most of the change is dedicated to giving decent diagnostics when this substitution goes horribly wrong. We now get a note like: note: while substituting prior template arguments into template template parameter 'X' [with T = float] As part of this change, enabled some very pedantic checking when comparing template template parameter lists, which shook out a bug in our overly-eager checking of default arguments of template template parameters. We now perform only minimal checking of such default arguments when they are initially parsed. llvm-svn: 86864
2009-11-12 03:13:48 +08:00
X6<long, X5b> x6c;
Remove an overly-eager assertion when replacing tokens with an annotation token, because some of the tokens we're annotating might not be in the set of cached tokens (we could have consumed them unconditionally). Also, move the tentative parsing from ParseTemplateTemplateArgument into the one caller that needs it, improving recovery. llvm-svn: 86904
2009-11-12 08:03:40 +08:00
template<template<class> class X = B<int> > struct X7; // expected-error{{must be a class template}}
When performing substitution of default template template parameters before the template parameters have acquired a proper context (e.g., because the enclosing context has yet to be built), provide empty parameter lists for all outer template parameter scopes to inhibit any substitution for those template parameters. Fixes PR9643 / <rdar://problem/9251019>. llvm-svn: 133055
2011-06-15 22:20:42 +08:00
namespace PR9643 {
template<typename T> class allocator {};
template<typename T, typename U = allocator<T> > class vector {};
template<template<typename U, typename = allocator<U> > class container,
typename DT>
container<DT> initializer(const DT& d) {
return container<DT>();
}
void f() {
vector<int, allocator<int> > v = initializer<vector>(5);
}
}
PR16288: A template is only missing a default template argument if it provides any default template arguments, not if it inherits some. llvm-svn: 186804
2013-07-22 11:31:14 +08:00
namespace PR16288 {
template<typename X>
struct S {
template<typename T = int, typename U> // expected-warning {{C++11}}
void f();
};
template<typename X>
template<typename T, typename U>
void S<X>::f() {}
}
Sema: Subst type default template args earlier Summary: We would not perform substitution at an appropriate point, allowing strange results to appear. We would accepts things that we shouldn't or mangle things incorrectly. Note that this hasn't fixed the other cases like template-template parameters or non-type template parameters. Reviewers: doug.gregor, rjmccall, rsmith Reviewed By: rsmith CC: cfe-commits Differential Revision: http://llvm-reviews.chandlerc.com/D1507 llvm-svn: 189540
2013-08-29 07:48:32 +08:00
namespace DR1635 {
template <class T> struct X {
template <class U = typename T::type> static void f(int) {} // expected-error {{type 'int' cannot be used prior to '::' because it has no members}} \
// expected-warning {{C++11}}
static void f(...) {}
};
int g() { X<int>::f(0); } // expected-note {{in instantiation of template class 'DR1635::X<int>' requested here}}
}