// RUN: %check_clang_tidy %s readability-container-size-empty %t -- -- -fno-delayed-template-parsing namespace std { template struct vector { vector(); bool operator==(const vector& other) const; bool operator!=(const vector& other) const; unsigned long size() const; bool empty() const; }; template struct basic_string { basic_string(); bool operator==(const basic_string& other) const; bool operator!=(const basic_string& other) const; bool operator==(const char *) const; bool operator!=(const char *) const; basic_string operator+(const basic_string& other) const; unsigned long size() const; bool empty() const; }; typedef basic_string string; typedef basic_string wstring; inline namespace __v2 { template struct set { set(); bool operator==(const set& other) const; bool operator!=(const set& other) const; unsigned long size() const; bool empty() const; }; } } template class TemplatedContainer { public: bool operator==(const TemplatedContainer& other) const; bool operator!=(const TemplatedContainer& other) const; int size() const; bool empty() const; }; template class PrivateEmpty { public: bool operator==(const PrivateEmpty& other) const; bool operator!=(const PrivateEmpty& other) const; int size() const; private: bool empty() const; }; struct BoolSize { bool size() const; bool empty() const; }; struct EnumSize { enum E { one }; enum E size() const; bool empty() const; }; class Container { public: bool operator==(const Container& other) const; int size() const; bool empty() const; }; class Derived : public Container { }; class Container2 { public: int size() const; bool empty() const { return size() == 0; } }; class Container3 { public: int size() const; bool empty() const; }; bool Container3::empty() const { return this->size() == 0; } class Container4 { public: bool operator==(const Container4& rhs) const; int size() const; bool empty() const { return *this == Container4(); } }; struct Lazy { constexpr unsigned size() const { return 0; } constexpr bool empty() const { return true; } }; std::string s_func() { return std::string(); } void takesBool(bool) { } bool returnsBool() { std::set intSet; std::string str; std::string str2; std::wstring wstr; (void)(str.size() + 0); (void)(str.size() - 0); (void)(0 + str.size()); (void)(0 - str.size()); if (intSet.size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-FIXES: {{^ }}if (intSet.empty()){{$}} // CHECK-MESSAGES: :32:8: note: method 'set'::empty() defined here if (intSet == std::set()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness // CHECK-FIXES: {{^ }}if (intSet.empty()){{$}} // CHECK-MESSAGES: :32:8: note: method 'set'::empty() defined here if (s_func() == "") ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (s_func().empty()){{$}} if (str.size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (str.empty()){{$}} if ((str + str2).size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if ((str + str2).empty()){{$}} if (str == "") ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (str.empty()){{$}} if (str + str2 == "") ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if ((str + str2).empty()){{$}} if (wstr.size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (wstr.empty()){{$}} if (wstr == "") ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (wstr.empty()){{$}} std::vector vect; if (vect.size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect.empty()){{$}} if (vect == std::vector()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect.empty()){{$}} if (vect.size() != 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect.empty()){{$}} if (vect != std::vector()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect.empty()){{$}} if (0 == vect.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:12: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect.empty()){{$}} if (0 != vect.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:12: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect.empty()){{$}} if (std::vector() == vect) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect.empty()){{$}} if (std::vector() != vect) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect.empty()){{$}} if (vect.size() > 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect.empty()){{$}} if (0 < vect.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:11: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect.empty()){{$}} if (vect.size() < 1) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect.empty()){{$}} if (1 > vect.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:11: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect.empty()){{$}} if (vect.size() >= 1) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect.empty()){{$}} if (1 <= vect.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:12: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect.empty()){{$}} if (vect.size() > 1) // no warning ; if (1 < vect.size()) // no warning ; if (vect.size() <= 1) // no warning ; if (1 >= vect.size()) // no warning ; if (!vect.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:8: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect.empty()){{$}} if (vect.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect.empty()){{$}} if (vect.empty()) ; const std::vector vect2; if (vect2.size() != 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!vect2.empty()){{$}} std::vector *vect3 = new std::vector(); if (vect3->size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect3->empty()){{$}} if ((*vect3).size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if ((*vect3).empty()){{$}} if ((*vect3) == std::vector()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect3->empty()){{$}} if (*vect3 == std::vector()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect3->empty()){{$}} delete vect3; const std::vector &vect4 = vect2; if (vect4.size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect4.empty()){{$}} if (vect4 == std::vector()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (vect4.empty()){{$}} TemplatedContainer templated_container; if (templated_container.size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (templated_container.empty()){{$}} if (templated_container == TemplatedContainer()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (templated_container.empty()){{$}} if (templated_container.size() != 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (templated_container != TemplatedContainer()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (0 == templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:12: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (templated_container.empty()){{$}} if (TemplatedContainer() == templated_container) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (templated_container.empty()){{$}} if (0 != templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:12: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (TemplatedContainer() != templated_container) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (templated_container.size() > 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (0 < templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:11: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (templated_container.size() < 1) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (templated_container.empty()){{$}} if (1 > templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:11: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (templated_container.empty()){{$}} if (templated_container.size() >= 1) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (1 <= templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:12: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (templated_container.size() > 1) // no warning ; if (1 < templated_container.size()) // no warning ; if (templated_container.size() <= 1) // no warning ; if (1 >= templated_container.size()) // no warning ; if (!templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:8: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (templated_container.empty()){{$}} if (templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (templated_container.empty()) ; // No warnings expected. PrivateEmpty private_empty; if (private_empty.size() == 0) ; if (private_empty == PrivateEmpty()) ; if (private_empty.size() != 0) ; if (private_empty != PrivateEmpty()) ; if (0 == private_empty.size()) ; if (PrivateEmpty() == private_empty) ; if (0 != private_empty.size()) ; if (PrivateEmpty() != private_empty) ; if (private_empty.size() > 0) ; if (0 < private_empty.size()) ; if (private_empty.size() < 1) ; if (1 > private_empty.size()) ; if (private_empty.size() >= 1) ; if (1 <= private_empty.size()) ; if (private_empty.size() > 1) ; if (1 < private_empty.size()) ; if (private_empty.size() <= 1) ; if (1 >= private_empty.size()) ; if (!private_empty.size()) ; if (private_empty.size()) ; // Types with weird size() return type. BoolSize bs; if (bs.size() == 0) ; EnumSize es; if (es.size() == 0) ; Derived derived; if (derived.size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (derived.empty()){{$}} if (derived == Derived()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}if (derived.empty()){{$}} takesBool(derived.size()); // CHECK-MESSAGES: :[[@LINE-1]]:13: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}takesBool(!derived.empty()); takesBool(derived.size() == 0); // CHECK-MESSAGES: :[[@LINE-1]]:13: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}takesBool(derived.empty()); takesBool(derived.size() != 0); // CHECK-MESSAGES: :[[@LINE-1]]:13: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}takesBool(!derived.empty()); bool b1 = derived.size(); // CHECK-MESSAGES: :[[@LINE-1]]:13: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}bool b1 = !derived.empty(); bool b2(derived.size()); // CHECK-MESSAGES: :[[@LINE-1]]:11: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}bool b2(!derived.empty()); auto b3 = static_cast(derived.size()); // CHECK-MESSAGES: :[[@LINE-1]]:31: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}auto b3 = static_cast(!derived.empty()); auto b4 = (bool)derived.size(); // CHECK-MESSAGES: :[[@LINE-1]]:19: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}auto b4 = (bool)!derived.empty(); auto b5 = bool(derived.size()); // CHECK-MESSAGES: :[[@LINE-1]]:18: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}auto b5 = bool(!derived.empty()); return derived.size(); // CHECK-MESSAGES: :[[@LINE-1]]:10: warning: the 'empty' method should be used // CHECK-FIXES: {{^ }}return !derived.empty(); } class ConstructWithBoolField { bool B; public: ConstructWithBoolField(const std::vector &C) : B(C.size()) {} // CHECK-MESSAGES: :[[@LINE-1]]:57: warning: the 'empty' method should be used // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}ConstructWithBoolField(const std::vector &C) : B(!C.empty()) {} }; struct StructWithNSDMI { std::vector C; bool B = C.size(); // CHECK-MESSAGES: :[[@LINE-1]]:12: warning: the 'empty' method should be used // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}bool B = !C.empty(); }; int func(const std::vector &C) { return C.size() ? 0 : 1; // CHECK-MESSAGES: :[[@LINE-1]]:10: warning: the 'empty' method should be used // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}return !C.empty() ? 0 : 1; } constexpr Lazy L; static_assert(!L.size(), ""); // CHECK-MESSAGES: :[[@LINE-1]]:16: warning: the 'empty' method should be used // CHECK-MESSAGES: :101:18: note: method 'Lazy'::empty() defined here // CHECK-FIXES: {{^}}static_assert(L.empty(), ""); struct StructWithLazyNoexcept { void func() noexcept(L.size()); // CHECK-MESSAGES: :[[@LINE-1]]:24: warning: the 'empty' method should be used // CHECK-MESSAGES: :101:18: note: method 'Lazy'::empty() defined here // CHECK-FIXES: {{^ }}void func() noexcept(!L.empty()); }; #define CHECKSIZE(x) if (x.size()) {} // CHECK-FIXES: #define CHECKSIZE(x) if (x.size()) {} template void f() { std::vector v; if (v.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}if (!v.empty()){{$}} if (v == std::vector()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of comparing to an empty object [readability-container-size-empty] // CHECK-FIXES: {{^ }}if (v.empty()){{$}} // CHECK-FIXES-NEXT: ; CHECKSIZE(v); // CHECK-MESSAGES: :[[@LINE-1]]:13: warning: the 'empty' method should be used // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: CHECKSIZE(v); TemplatedContainer templated_container; if (templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (templated_container != TemplatedContainer()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} // CHECK-FIXES-NEXT: ; CHECKSIZE(templated_container); // CHECK-MESSAGES: :[[@LINE-1]]:13: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: CHECKSIZE(templated_container); } void g() { f(); f(); f(); } template bool neverInstantiatedTemplate() { std::vector v; if (v.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}if (!v.empty()){{$}} if (v == std::vector()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of comparing to an empty object [readability-container-size-empty] // CHECK-FIXES: {{^ }}if (v.empty()){{$}} // CHECK-FIXES-NEXT: ; if (v.size() == 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}if (v.empty()){{$}} if (v.size() != 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}if (!v.empty()){{$}} if (v.size() < 1) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}if (v.empty()){{$}} if (v.size() > 0) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}if (!v.empty()){{$}} if (v.size() == 1) ; if (v.size() != 1) ; if (v.size() == 2) ; if (v.size() != 2) ; if (static_cast(v.size())) ; // CHECK-MESSAGES: :[[@LINE-2]]:25: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}if (static_cast(!v.empty())){{$}} if (v.size() && false) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}if (!v.empty() && false){{$}} if (!v.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:8: warning: the 'empty' method should be used to check for emptiness instead of 'size' [readability-container-size-empty] // CHECK-MESSAGES: :9:8: note: method 'vector'::empty() defined here // CHECK-FIXES: {{^ }}if (v.empty()){{$}} TemplatedContainer templated_container; if (templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} if (templated_container != TemplatedContainer()) ; // CHECK-MESSAGES: :[[@LINE-2]]:7: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}if (!templated_container.empty()){{$}} // CHECK-FIXES-NEXT: ; while (templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:10: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}while (!templated_container.empty()){{$}} do { } while (templated_container.size()); // CHECK-MESSAGES: :[[@LINE-1]]:10: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}while (!templated_container.empty()); for (; templated_container.size();) ; // CHECK-MESSAGES: :[[@LINE-2]]:10: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}for (; !templated_container.empty();){{$}} if (true && templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:15: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}if (true && !templated_container.empty()){{$}} if (true || templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:15: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}if (true || !templated_container.empty()){{$}} if (!templated_container.size()) ; // CHECK-MESSAGES: :[[@LINE-2]]:8: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}if (templated_container.empty()){{$}} bool b1 = templated_container.size(); // CHECK-MESSAGES: :[[@LINE-1]]:13: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}bool b1 = !templated_container.empty(); bool b2(templated_container.size()); // CHECK-MESSAGES: :[[@LINE-1]]:11: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}bool b2(!templated_container.empty()); auto b3 = static_cast(templated_container.size()); // CHECK-MESSAGES: :[[@LINE-1]]:31: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}auto b3 = static_cast(!templated_container.empty()); auto b4 = (bool)templated_container.size(); // CHECK-MESSAGES: :[[@LINE-1]]:19: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}auto b4 = (bool)!templated_container.empty(); auto b5 = bool(templated_container.size()); // CHECK-MESSAGES: :[[@LINE-1]]:18: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}auto b5 = bool(!templated_container.empty()); takesBool(templated_container.size()); // We don't detect this one because we don't know the parameter of takesBool // until the type of templated_container.size() is known return templated_container.size(); // CHECK-MESSAGES: :[[@LINE-1]]:10: warning: the 'empty' method should be used // CHECK-MESSAGES: :44:8: note: method 'TemplatedContainer'::empty() defined here // CHECK-FIXES: {{^ }}return !templated_container.empty(); } template void instantiatedTemplateWithSizeCall() { TypeRequiresSize t; // The instantiation of the template with std::vector should not // result in changing the template, because we don't know that // TypeRequiresSize generally has `.empty()` if (t.size()) ; if (t == TypeRequiresSize{}) ; if (t != TypeRequiresSize{}) ; } class TypeWithSize { public: TypeWithSize(); bool operator==(const TypeWithSize &other) const; bool operator!=(const TypeWithSize &other) const; unsigned size() const { return 0; } // Does not have `.empty()` }; void instantiator() { instantiatedTemplateWithSizeCall(); instantiatedTemplateWithSizeCall>(); }