// RUN: %clang_cc1 -fsyntax-only -verify -Wno-c++11-extensions %s // RUN: %clang_cc1 -fsyntax-only -verify -std=c++98 -Wno-c++11-extensions %s // RUN: %clang_cc1 -fsyntax-only -verify -std=c++11 %s struct A {}; struct B {}; struct D { A fizbin; // expected-note 2 {{declared here}} A foobar; // expected-note 2 {{declared here}} B roxbin; // expected-note 2 {{declared here}} B toobad; // expected-note 2 {{declared here}} void BooHoo(); void FoxBox(); }; void something(A, B); void test() { D obj; something(obj.fixbin, // expected-error {{did you mean 'fizbin'?}} obj.toobat); // expected-error {{did you mean 'toobad'?}} something(obj.toobat, // expected-error {{did you mean 'foobar'?}} obj.fixbin); // expected-error {{did you mean 'roxbin'?}} something(obj.fixbin, // expected-error {{did you mean 'fizbin'?}} obj.fixbin); // expected-error {{did you mean 'roxbin'?}} something(obj.toobat, // expected-error {{did you mean 'foobar'?}} obj.toobat); // expected-error {{did you mean 'toobad'?}} // Both members could be corrected to methods, but that isn't valid. something(obj.boohoo, // expected-error-re {{no member named 'boohoo' in 'D'{{$}}}} obj.foxbox); // expected-error-re {{no member named 'foxbox' in 'D'{{$}}}} // The first argument has a usable correction but the second doesn't. something(obj.boobar, // expected-error-re {{no member named 'boobar' in 'D'{{$}}}} obj.foxbox); // expected-error-re {{no member named 'foxbox' in 'D'{{$}}}} } // Ensure the delayed typo correction does the right thing when trying to // recover using a seemingly-valid correction for which a valid expression to // replace the TypoExpr cannot be created (but which does have a second // correction candidate that would be a valid and usable correction). class Foo { public: template <> void testIt(); // expected-error {{no function template matches}} void textIt(); // expected-note {{'textIt' declared here}} }; void testMemberExpr(Foo *f) { f->TestIt(); // expected-error {{no member named 'TestIt' in 'Foo'; did you mean 'textIt'?}} } void callee(double, double); void testNoCandidates() { callee(xxxxxx, // expected-error-re {{use of undeclared identifier 'xxxxxx'{{$}}}} zzzzzz); // expected-error-re {{use of undeclared identifier 'zzzzzz'{{$}}}} } class string {}; struct Item { void Nest(); string text(); Item* next(); // expected-note {{'next' declared here}} }; void testExprFilter(Item *i) { Item *j; j = i->Next(); // expected-error {{no member named 'Next' in 'Item'; did you mean 'next'?}} } // Test that initializer expressions are handled correctly and that the type // being initialized is taken into account when choosing a correction. namespace initializerCorrections { struct Node { string text() const; // Node* Next() is not implemented yet }; void f(Node *node) { // text is only an edit distance of 1 from Next, but would trigger type // conversion errors if used in this initialization expression. Node *next = node->Next(); // expected-error-re {{no member named 'Next' in 'initializerCorrections::Node'{{$}}}} } struct LinkedNode { LinkedNode* next(); // expected-note {{'next' declared here}} string text() const; }; void f(LinkedNode *node) { // text and next are equidistant from Next, but only one results in a valid // initialization expression. LinkedNode *next = node->Next(); // expected-error {{no member named 'Next' in 'initializerCorrections::LinkedNode'; did you mean 'next'?}} } struct NestedNode { NestedNode* Nest(); NestedNode* next(); string text() const; }; void f(NestedNode *node) { // There are two equidistant, usable corrections for Next: next and Nest NestedNode *next = node->Next(); // expected-error-re {{no member named 'Next' in 'initializerCorrections::NestedNode'{{$}}}} } } namespace PR21669 { void f(int *i) { // Check that arguments to a builtin with custom type checking are corrected // properly, since calls to such builtins bypass much of the normal code path // for building and checking the call. __atomic_load(i, i, something_something); // expected-error-re {{use of undeclared identifier 'something_something'{{$}}}} } } const int DefaultArg = 9; // expected-note {{'DefaultArg' declared here}} template <int I = defaultArg> struct S {}; // expected-error {{use of undeclared identifier 'defaultArg'; did you mean 'DefaultArg'?}} S<1> s; namespace foo {} void test_paren_suffix() { foo::bar({5, 6}); // expected-error-re {{no member named 'bar' in namespace 'foo'{{$}}}} #if __cplusplus <= 199711L // expected-error@-2 {{expected expression}} #endif } const int kNum = 10; // expected-note {{'kNum' declared here}} class SomeClass { int Kind; public: explicit SomeClass() : Kind(kSum) {} // expected-error {{use of undeclared identifier 'kSum'; did you mean 'kNum'?}} }; // There used to be an issue with typo resolution inside overloads. struct AssertionResult { ~AssertionResult(); }; AssertionResult Overload(const char *a); AssertionResult Overload(int a); void UseOverload() { // expected-note@+1 {{'result' declared here}} const char *result; // expected-error@+1 {{use of undeclared identifier 'resulta'; did you mean 'result'?}} Overload(resulta); } namespace PR21925 { struct X { int get() { return 7; } // expected-note {{'get' declared here}} }; void test() { X variable; // expected-note {{'variable' declared here}} // expected-error@+2 {{use of undeclared identifier 'variableX'; did you mean 'variable'?}} // expected-error@+1 {{no member named 'getX' in 'PR21925::X'; did you mean 'get'?}} int x = variableX.getX(); } } namespace PR21905 { int (*a) () = (void)Z; // expected-error-re {{use of undeclared identifier 'Z'{{$}}}} } namespace PR21947 { int blue; // expected-note {{'blue' declared here}} __typeof blur y; // expected-error {{use of undeclared identifier 'blur'; did you mean 'blue'?}} } namespace PR22092 { a = b ? : 0; // expected-error {{C++ requires a type specifier for all declarations}} \ // expected-error-re {{use of undeclared identifier 'b'{{$}}}} } extern long clock (void); struct Pointer { void set_xpos(int); void set_ypos(int); }; void MovePointer(Pointer &Click, int x, int y) { // expected-note 2 {{'Click' declared here}} click.set_xpos(x); // expected-error {{use of undeclared identifier 'click'; did you mean 'Click'?}} click.set_ypos(x); // expected-error {{use of undeclared identifier 'click'; did you mean 'Click'?}} } namespace PR22250 { // expected-error@+4 {{use of undeclared identifier 'size_t'; did you mean 'sizeof'?}} // expected-error-re@+3 {{use of undeclared identifier 'y'{{$}}}} // expected-error-re@+2 {{use of undeclared identifier 'z'{{$}}}} // expected-error@+1 {{expected ';' after top level declarator}} int getenv_s(size_t *y, char(&z)) {} } namespace PR22291 { template <unsigned I> void f() { unsigned *prio_bits_array; // expected-note {{'prio_bits_array' declared here}} // expected-error@+1 {{use of undeclared identifier 'prio_op_array'; did you mean 'prio_bits_array'?}} __atomic_store_n(prio_op_array + I, false, __ATOMIC_RELAXED); } } namespace PR22297 { double pow(double x, double y); struct TimeTicks { static void Now(); // expected-note {{'Now' declared here}} }; void f() { TimeTicks::now(); // expected-error {{no member named 'now' in 'PR22297::TimeTicks'; did you mean 'Now'?}} } } namespace PR23005 { void f() { int a = Unknown::b(c); } // expected-error {{use of undeclared identifier 'Unknown'}} // expected-error@-1 {{use of undeclared identifier 'c'}} } namespace PR23350 { int z = 1 ? N : ; // expected-error {{expected expression}} // expected-error-re@-1 {{use of undeclared identifier 'N'{{$}}}} } // PR 23285. This test must be at the end of the file to avoid additional, // unwanted diagnostics. // expected-error-re@+2 {{use of undeclared identifier 'uintmax_t'{{$}}}} // expected-error@+1 {{expected ';' after top level declarator}} unsigned int a = 0(uintmax_t